scuffed-code/icu4c/source/i18n/nfsubs.cpp

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/*
******************************************************************************
* Copyright (C) 1997-2003, International Business Machines
* Corporation and others. All Rights Reserved.
******************************************************************************
* file name: nfsubs.cpp
* encoding: US-ASCII
* tab size: 8 (not used)
* indentation:4
*
* Modification history
* Date Name Comments
* 10/11/2001 Doug Ported from ICU4J
*/
#include "nfsubs.h"
#if U_HAVE_RBNF
static const UChar gLessThan = 0x003c;
static const UChar gEquals = 0x003d;
static const UChar gGreaterThan = 0x003e;
static const UChar gPercent = 0x0025;
static const UChar gPound = 0x0023;
static const UChar gZero = 0x0030;
static const UChar gSpace = 0x0020;
static const UChar gEqualsEquals[] =
{
0x3D, 0x3D, 0
}; /* "==" */
static const UChar gGreaterGreaterGreaterThan[] =
{
0x3E, 0x3E, 0x3E, 0
}; /* ">>>" */
static const UChar gGreaterGreaterThan[] =
{
0x3E, 0x3E, 0
}; /* ">>" */
NFSubstitution*
NFSubstitution::makeSubstitution(int32_t pos,
const NFRule* rule,
const NFRule* predecessor,
const NFRuleSet* ruleSet,
const RuleBasedNumberFormat* formatter,
const UnicodeString& description,
UErrorCode& status)
{
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// if the description is empty, return a NullSubstitution
if (description.length() == 0) {
return new NullSubstitution(pos, ruleSet, formatter, description, status);
}
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switch (description.charAt(0)) {
// if the description begins with '<'...
case gLessThan:
// throw an exception if the rule is a negative number
// rule
if (rule->getBaseValue() == NFRule::kNegativeNumberRule) {
// throw new IllegalArgumentException("<< not allowed in negative-number rule");
status = U_PARSE_ERROR;
return NULL;
}
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// if the rule is a fraction rule, return an
// IntegralPartSubstitution
else if (rule->getBaseValue() == NFRule::kImproperFractionRule
|| rule->getBaseValue() == NFRule::kProperFractionRule
|| rule->getBaseValue() == NFRule::kMasterRule) {
return new IntegralPartSubstitution(pos, ruleSet, formatter, description, status);
}
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// if the rule set containing the rule is a fraction
// rule set, return a NumeratorSubstitution
else if (ruleSet->isFractionRuleSet()) {
return new NumeratorSubstitution(pos, (double)rule->getBaseValue(),
formatter->getDefaultRuleSet(), formatter, description, status);
}
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// otherwise, return a MultiplierSubstitution
else {
return new MultiplierSubstitution(pos, rule->getDivisor(), ruleSet,
formatter, description, status);
}
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// if the description begins with '>'...
case gGreaterThan:
// if the rule is a negative-number rule, return
// an AbsoluteValueSubstitution
if (rule->getBaseValue() == NFRule::kNegativeNumberRule) {
return new AbsoluteValueSubstitution(pos, ruleSet, formatter, description, status);
}
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// if the rule is a fraction rule, return a
// FractionalPartSubstitution
else if (rule->getBaseValue() == NFRule::kImproperFractionRule
|| rule->getBaseValue() == NFRule::kProperFractionRule
|| rule->getBaseValue() == NFRule::kMasterRule) {
return new FractionalPartSubstitution(pos, ruleSet, formatter, description, status);
}
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// if the rule set owning the rule is a fraction rule set,
// throw an exception
else if (ruleSet->isFractionRuleSet()) {
// throw new IllegalArgumentException(">> not allowed in fraction rule set");
status = U_PARSE_ERROR;
return NULL;
}
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// otherwise, return a ModulusSubstitution
else {
return new ModulusSubstitution(pos, rule->getDivisor(), predecessor,
ruleSet, formatter, description, status);
}
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// if the description begins with '=', always return a
// SameValueSubstitution
case gEquals:
return new SameValueSubstitution(pos, ruleSet, formatter, description, status);
// and if it's anything else, throw an exception
default:
// throw new IllegalArgumentException("Illegal substitution character");
status = U_PARSE_ERROR;
}
return NULL;
}
NFSubstitution::NFSubstitution(int32_t _pos,
const NFRuleSet* _ruleSet,
const RuleBasedNumberFormat* formatter,
const UnicodeString& description,
UErrorCode& status)
: pos(_pos), ruleSet(NULL), numberFormat(NULL)
{
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// the description should begin and end with the same character.
// If it doesn't that's a syntax error. Otherwise,
// makeSubstitution() was the only thing that needed to know
// about these characters, so strip them off
UnicodeString workingDescription(description);
if (description.length() >= 2
&& description.charAt(0) == description.charAt(description.length() - 1))
{
workingDescription.remove(description.length() - 1, 1);
workingDescription.remove(0, 1);
}
else if (description.length() != 0) {
// throw new IllegalArgumentException("Illegal substitution syntax");
status = U_PARSE_ERROR;
return;
}
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// if the description was just two paired token characters
// (i.e., "<<" or ">>"), it uses the rule set it belongs to to
// format its result
if (workingDescription.length() == 0) {
this->ruleSet = _ruleSet;
}
// if the description contains a rule set name, that's the rule
// set we use to format the result: get a reference to the
// names rule set
else if (workingDescription.charAt(0) == gPercent) {
this->ruleSet = formatter->findRuleSet(workingDescription, status);
}
// if the description begins with 0 or #, treat it as a
// DecimalFormat pattern, and initialize a DecimalFormat with
// that pattern (then set it to use the DecimalFormatSymbols
// belonging to our formatter)
else if (workingDescription.charAt(0) == gPound || workingDescription.charAt(0) ==gZero) {
DecimalFormatSymbols* sym = formatter->getDecimalFormatSymbols();
if (!sym) {
status = U_MISSING_RESOURCE_ERROR;
return;
}
this->numberFormat = new DecimalFormat(workingDescription, *sym, status);
/* test for NULL */
if (this->numberFormat == 0) {
status = U_MEMORY_ALLOCATION_ERROR;
return;
}
if (U_FAILURE(status)) {
delete (DecimalFormat*)this->numberFormat;
this->numberFormat = NULL;
return;
}
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// this->numberFormat->setDecimalFormatSymbols(formatter->getDecimalFormatSymbols());
}
// if the description is ">>>", this substitution bypasses the
// usual rule-search process and always uses the rule that precedes
// it in its own rule set's rule list (this is used for place-value
// notations: formats where you want to see a particular part of
// a number even when it's 0)
else if (workingDescription.charAt(0) == gGreaterThan) {
// this causes problems when >>> is used in a frationalPartSubstitution
// this->ruleSet = NULL;
this->ruleSet = _ruleSet;
this->numberFormat = NULL;
}
// and of the description is none of these things, it's a syntax error
else {
// throw new IllegalArgumentException("Illegal substitution syntax");
status = U_PARSE_ERROR;
}
}
NFSubstitution::~NFSubstitution()
{
// cast away const
delete (NumberFormat*)numberFormat; numberFormat = NULL;
}
/**
* Set's the substitution's divisor. Used by NFRule.setBaseValue().
* A no-op for all substitutions except multiplier and modulus
* substitutions.
* @param radix The radix of the divisor
* @param exponent The exponent of the divisor
*/
void
NFSubstitution::setDivisor(int32_t /*radix*/, int32_t /*exponent*/) {
// a no-op for all substitutions except multiplier and modulus substitutions
}
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//-----------------------------------------------------------------------
// boilerplate
//-----------------------------------------------------------------------
const char NFSubstitution::fgClassID = 0;
UClassID
NFSubstitution::getDynamicClassID() const {
return getStaticClassID();
}
/**
* Compares two substitutions for equality
* @param The substitution to compare this one to
* @return true if the two substitutions are functionally equivalent
*/
UBool
NFSubstitution::operator==(const NFSubstitution& rhs) const
{
// compare class and all of the fields all substitutions have
// in common
// this should be called by subclasses before their own equality tests
return getDynamicClassID() == rhs.getDynamicClassID()
&& pos == rhs.pos
&& (ruleSet == NULL) == (rhs.ruleSet == NULL)
// && ruleSet == rhs.ruleSet causes circularity, other checks to make instead?
&& (numberFormat == NULL
? (rhs.numberFormat == NULL)
: (*numberFormat == *rhs.numberFormat));
}
/**
* Returns a textual description of the substitution
* @return A textual description of the substitution. This might
* not be identical to the description it was created from, but
* it'll produce the same result.
*/
void
NFSubstitution::toString(UnicodeString& text) const
{
// use tokenChar() to get the character at the beginning and
// end of the substitutin token. In between them will go
// either the name of the rule set it uses, or the pattern of
// the DecimalFormat it uses
text.remove();
text.append(tokenChar());
UnicodeString temp;
if (ruleSet != NULL) {
ruleSet->getName(temp);
} else {
numberFormat->toPattern(temp);
}
text.append(temp);
text.append(tokenChar());
}
//-----------------------------------------------------------------------
// formatting
//-----------------------------------------------------------------------
/**
* Performs a mathematical operation on the number, formats it using
* either ruleSet or decimalFormat, and inserts the result into
* toInsertInto.
* @param number The number being formatted.
* @param toInsertInto The string we insert the result into
* @param pos The position in toInsertInto where the owning rule's
* rule text begins (this value is added to this substitution's
* position to determine exactly where to insert the new text)
*/
void
NFSubstitution::doSubstitution(int64_t number, UnicodeString& toInsertInto, int32_t _pos) const
{
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if (ruleSet != NULL) {
// perform a transformation on the number that is dependent
// on the type of substitution this is, then just call its
// rule set's format() method to format the result
ruleSet->format(transformNumber(number), toInsertInto, _pos + this->pos);
} else {
// or perform the transformation on the number (preserving
// the result's fractional part if the formatter it set
// to show it), then use that formatter's format() method
// to format the result
double numberToFormat = transformNumber((double)number);
if (numberFormat->getMaximumFractionDigits() == 0) {
numberToFormat = uprv_floor(numberToFormat);
}
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UnicodeString temp;
numberFormat->format(numberToFormat, temp);
toInsertInto.insert(_pos + this->pos, temp);
}
}
/**
* Performs a mathematical operation on the number, formats it using
* either ruleSet or decimalFormat, and inserts the result into
* toInsertInto.
* @param number The number being formatted.
* @param toInsertInto The string we insert the result into
* @param pos The position in toInsertInto where the owning rule's
* rule text begins (this value is added to this substitution's
* position to determine exactly where to insert the new text)
*/
void
NFSubstitution::doSubstitution(double number, UnicodeString& toInsertInto, int32_t _pos) const {
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// perform a transformation on the number being formatted that
// is dependent on the type of substitution this is
double numberToFormat = transformNumber(number);
// if the result is an integer, from here on out we work in integer
// space (saving time and memory and preserving accuracy)
if (numberToFormat == uprv_floor(numberToFormat) && ruleSet != NULL) {
ruleSet->format(util64_fromDouble(numberToFormat), toInsertInto, _pos + this->pos);
// if the result isn't an integer, then call either our rule set's
// format() method or our DecimalFormat's format() method to
// format the result
} else {
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if (ruleSet != NULL) {
ruleSet->format(numberToFormat, toInsertInto, _pos + this->pos);
} else {
UnicodeString temp;
numberFormat->format(numberToFormat, temp);
toInsertInto.insert(_pos + this->pos, temp);
}
}
}
//-----------------------------------------------------------------------
// parsing
//-----------------------------------------------------------------------
#ifdef RBNF_DEBUG
#include <stdio.h>
#endif
/**
* Parses a string using the rule set or DecimalFormat belonging
* to this substitution. If there's a match, a mathematical
* operation (the inverse of the one used in formatting) is
* performed on the result of the parse and the value passed in
* and returned as the result. The parse position is updated to
* point to the first unmatched character in the string.
* @param text The string to parse
* @param parsePosition On entry, ignored, but assumed to be 0.
* On exit, this is updated to point to the first unmatched
* character (or 0 if the substitution didn't match)
* @param baseValue A partial parse result that should be
* combined with the result of this parse
* @param upperBound When searching the rule set for a rule
* matching the string passed in, only rules with base values
* lower than this are considered
* @param lenientParse If true and matching against rules fails,
* the substitution will also try matching the text against
* numerals using a default-costructed NumberFormat. If false,
* no extra work is done. (This value is false whenever the
* formatter isn't in lenient-parse mode, but is also false
* under some conditions even when the formatter _is_ in
* lenient-parse mode.)
* @return If there's a match, this is the result of composing
* baseValue with whatever was returned from matching the
* characters. This will be either a Long or a Double. If there's
* no match this is new Long(0) (not null), and parsePosition
* is left unchanged.
*/
UBool
NFSubstitution::doParse(const UnicodeString& text,
ParsePosition& parsePosition,
double baseValue,
double upperBound,
UBool lenientParse,
Formattable& result) const
{
#ifdef RBNF_DEBUG
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fprintf(stderr, "<nfsubs> %x bv: %g ub: %g\n", this, baseValue, upperBound);
#endif
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// figure out the highest base value a rule can have and match
// the text being parsed (this varies according to the type of
// substitutions: multiplier, modulus, and numerator substitutions
// restrict the search to rules with base values lower than their
// own; same-value substitutions leave the upper bound wherever
// it was, and the others allow any rule to match
upperBound = calcUpperBound(upperBound);
// use our rule set to parse the text. If that fails and
// lenient parsing is enabled (this is always false if the
// formatter's lenient-parsing mode is off, but it may also
// be false even when the formatter's lenient-parse mode is
// on), then also try parsing the text using a default-
// constructed NumberFormat
if (ruleSet != NULL) {
ruleSet->parse(text, parsePosition, upperBound, result);
if (lenientParse && !ruleSet->isFractionRuleSet() && parsePosition.getIndex() == 0) {
UErrorCode status = U_ZERO_ERROR;
NumberFormat* fmt = NumberFormat::createInstance(status);
if (U_SUCCESS(status)) {
fmt->parse(text, result, parsePosition);
}
delete fmt;
}
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// ...or use our DecimalFormat to parse the text
} else {
numberFormat->parse(text, result, parsePosition);
}
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// if the parse was successful, we've already advanced the caller's
// parse position (this is the one function that doesn't have one
// of its own). Derive a parse result and return it as a Long,
// if possible, or a Double
if (parsePosition.getIndex() != 0) {
UErrorCode status = U_ZERO_ERROR;
double tempResult = result.getDouble(&status);
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// composeRuleValue() produces a full parse result from
// the partial parse result passed to this function from
// the caller (this is either the owning rule's base value
// or the partial result obtained from composing the
// owning rule's base value with its other substitution's
// parse result) and the partial parse result obtained by
// matching the substitution (which will be the same value
// the caller would get by parsing just this part of the
// text with RuleBasedNumberFormat.parse() ). How the two
// values are used to derive the full parse result depends
// on the types of substitutions: For a regular rule, the
// ultimate result is its multiplier substitution's result
// times the rule's divisor (or the rule's base value) plus
// the modulus substitution's result (which will actually
// supersede part of the rule's base value). For a negative-
// number rule, the result is the negative of its substitution's
// result. For a fraction rule, it's the sum of its two
// substitution results. For a rule in a fraction rule set,
// it's the numerator substitution's result divided by
// the rule's base value. Results from same-value substitutions
// propagate back upard, and null substitutions don't affect
// the result.
tempResult = composeRuleValue(tempResult, baseValue);
result.setDouble(tempResult);
return TRUE;
// if the parse was UNsuccessful, return 0
} else {
result.setLong(0);
return FALSE;
}
}
UBool
NFSubstitution::isNullSubstitution() const {
return FALSE;
}
/**
* Returns true if this is a modulus substitution. (We didn't do this
* with instanceof partially because it causes source files to
* proliferate and partially because we have to port this to C++.)
* @return true if this object is an instance of ModulusSubstitution
*/
UBool
NFSubstitution::isModulusSubstitution() const {
return FALSE;
}
//===================================================================
// SameValueSubstitution
//===================================================================
/**
* A substitution that passes the value passed to it through unchanged.
* Represented by == in rule descriptions.
*/
SameValueSubstitution::SameValueSubstitution(int32_t _pos,
const NFRuleSet* _ruleSet,
const RuleBasedNumberFormat* formatter,
const UnicodeString& description,
UErrorCode& status)
: NFSubstitution(_pos, _ruleSet, formatter, description, status)
{
if (description == gEqualsEquals) {
// throw new IllegalArgumentException("== is not a legal token");
status = U_PARSE_ERROR;
}
}
const char SameValueSubstitution::fgClassID = 0;
UClassID
SameValueSubstitution::getDynamicClassID() const {
return getStaticClassID();
}
//===================================================================
// MultiplierSubstitution
//===================================================================
const char MultiplierSubstitution::fgClassID = 0;
UClassID
MultiplierSubstitution::getDynamicClassID() const {
return getStaticClassID();
}
UBool MultiplierSubstitution::operator==(const NFSubstitution& rhs) const
{
return NFSubstitution::operator==(rhs) &&
divisor == ((const MultiplierSubstitution*)&rhs)->divisor;
}
//===================================================================
// ModulusSubstitution
//===================================================================
/**
* A substitution that divides the number being formatted by the its rule's
* divisor and formats the remainder. Represented by "&gt;&gt;" in a
* regular rule.
*/
ModulusSubstitution::ModulusSubstitution(int32_t _pos,
double _divisor,
const NFRule* predecessor,
const NFRuleSet* _ruleSet,
const RuleBasedNumberFormat* formatter,
const UnicodeString& description,
UErrorCode& status)
: NFSubstitution(_pos, _ruleSet, formatter, description, status)
, divisor(_divisor)
, ruleToUse(NULL)
{
ldivisor = util64_fromDouble(_divisor);
// the owning rule's divisor controls the behavior of this
// substitution: rather than keeping a backpointer to the rule,
// we keep a copy of the divisor
if (description == gGreaterGreaterGreaterThan) {
// the >>> token doesn't alter how this substituion calculates the
// values it uses for formatting and parsing, but it changes
// what's done with that value after it's obtained: >>> short-
// circuits the rule-search process and goes straight to the
// specified rule to format the substitution value
ruleToUse = predecessor;
}
}
const char ModulusSubstitution::fgClassID = 0;
UClassID
ModulusSubstitution::getDynamicClassID() const {
return getStaticClassID();
}
UBool ModulusSubstitution::operator==(const NFSubstitution& rhs) const
{
return NFSubstitution::operator==(rhs) &&
divisor == ((const ModulusSubstitution*)&rhs)->divisor &&
ruleToUse == ((const ModulusSubstitution*)&rhs)->ruleToUse;
}
//-----------------------------------------------------------------------
// formatting
//-----------------------------------------------------------------------
/**
* If this is a &gt;&gt;&gt; substitution, use ruleToUse to fill in
* the substitution. Otherwise, just use the superclass function.
* @param number The number being formatted
* @toInsertInto The string to insert the result of this substitution
* into
* @param pos The position of the rule text in toInsertInto
*/
void
ModulusSubstitution::doSubstitution(int64_t number, UnicodeString& toInsertInto, int32_t _pos) const
{
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// if this isn't a >>> substitution, just use the inherited version
// of this function (which uses either a rule set or a DecimalFormat
// to format its substitution value)
if (ruleToUse == NULL) {
NFSubstitution::doSubstitution(number, toInsertInto, _pos);
// a >>> substitution goes straight to a particular rule to
// format the substitution value
} else {
int64_t numberToFormat = transformNumber(number);
ruleToUse->doFormat(numberToFormat, toInsertInto, _pos + getPos());
}
}
/**
* If this is a &gt;&gt;&gt; substitution, use ruleToUse to fill in
* the substitution. Otherwise, just use the superclass function.
* @param number The number being formatted
* @toInsertInto The string to insert the result of this substitution
* into
* @param pos The position of the rule text in toInsertInto
*/
void
ModulusSubstitution::doSubstitution(double number, UnicodeString& toInsertInto, int32_t _pos) const
{
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// if this isn't a >>> substitution, just use the inherited version
// of this function (which uses either a rule set or a DecimalFormat
// to format its substitution value)
if (ruleToUse == NULL) {
NFSubstitution::doSubstitution(number, toInsertInto, _pos);
// a >>> substitution goes straight to a particular rule to
// format the substitution value
} else {
double numberToFormat = transformNumber(number);
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ruleToUse->doFormat(numberToFormat, toInsertInto, _pos + getPos());
}
}
//-----------------------------------------------------------------------
// parsing
//-----------------------------------------------------------------------
/**
* If this is a &gt;&gt;&gt; substitution, match only against ruleToUse.
* Otherwise, use the superclass function.
* @param text The string to parse
* @param parsePosition Ignored on entry, updated on exit to point to
* the first unmatched character.
* @param baseValue The partial parse result prior to calling this
* routine.
*/
UBool
ModulusSubstitution::doParse(const UnicodeString& text,
ParsePosition& parsePosition,
double baseValue,
double upperBound,
UBool lenientParse,
Formattable& result) const
{
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// if this isn't a >>> substitution, we can just use the
// inherited parse() routine to do the parsing
if (ruleToUse == NULL) {
return NFSubstitution::doParse(text, parsePosition, baseValue, upperBound, lenientParse, result);
// but if it IS a >>> substitution, we have to do it here: we
// use the specific rule's doParse() method, and then we have to
// do some of the other work of NFRuleSet.parse()
} else {
ruleToUse->doParse(text, parsePosition, FALSE, upperBound, result);
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if (parsePosition.getIndex() != 0) {
double tempResult = result.getDouble();
tempResult = composeRuleValue(tempResult, baseValue);
result.setDouble(tempResult);
}
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return TRUE;
}
}
//===================================================================
// IntegralPartSubstitution
//===================================================================
const char IntegralPartSubstitution::fgClassID = 0;
UClassID
IntegralPartSubstitution::getDynamicClassID() const {
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return getStaticClassID();
}
//===================================================================
// FractionalPartSubstitution
//===================================================================
/**
* Constructs a FractionalPartSubstitution. This object keeps a flag
* telling whether it should format by digits or not. In addition,
* it marks the rule set it calls (if any) as a fraction rule set.
*/
FractionalPartSubstitution::FractionalPartSubstitution(int32_t _pos,
const NFRuleSet* _ruleSet,
const RuleBasedNumberFormat* formatter,
const UnicodeString& description,
UErrorCode& status)
: NFSubstitution(_pos, _ruleSet, formatter, description, status)
, byDigits(FALSE)
, useSpaces(TRUE)
{
// akk, ruleSet can change in superclass constructor
if (description == gGreaterGreaterThan ||
description == gGreaterGreaterGreaterThan ||
_ruleSet == getRuleSet()) {
byDigits = TRUE;
if (description == gGreaterGreaterGreaterThan) {
useSpaces = FALSE;
}
} else {
// cast away const
((NFRuleSet*)getRuleSet())->makeIntoFractionRuleSet();
}
}
//-----------------------------------------------------------------------
// formatting
//-----------------------------------------------------------------------
/**
* If in "by digits" mode, fills in the substitution one decimal digit
* at a time using the rule set containing this substitution.
* Otherwise, uses the superclass function.
* @param number The number being formatted
* @param toInsertInto The string to insert the result of formatting
* the substitution into
* @param pos The position of the owning rule's rule text in
* toInsertInto
*/
void
FractionalPartSubstitution::doSubstitution(double number, UnicodeString& toInsertInto, int32_t _pos) const
{
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// if we're not in "byDigits" mode, just use the inherited
// doSubstitution() routine
if (!byDigits) {
NFSubstitution::doSubstitution(number, toInsertInto, _pos);
// if we're in "byDigits" mode, transform the value into an integer
// by moving the decimal point eight places to the right and
// pulling digits off the right one at a time, formatting each digit
// as an integer using this substitution's owning rule set
// (this is slower, but more accurate, than doing it from the
// other end)
} else {
int32_t numberToFormat = (int32_t)uprv_round(transformNumber(number) * uprv_pow(10, kMaxDecimalDigits));
// this flag keeps us from formatting trailing zeros. It starts
// out false because we're pulling from the right, and switches
// to true the first time we encounter a non-zero digit
UBool doZeros = FALSE;
for (int32_t i = 0; i < kMaxDecimalDigits; i++) {
int64_t digit = numberToFormat % 10;
if (digit != 0 || doZeros) {
if (doZeros && useSpaces) {
toInsertInto.insert(_pos + getPos(), gSpace);
}
doZeros = TRUE;
getRuleSet()->format(digit, toInsertInto, _pos + getPos());
}
numberToFormat /= 10;
}
}
}
//-----------------------------------------------------------------------
// parsing
//-----------------------------------------------------------------------
/**
* If in "by digits" mode, parses the string as if it were a string
* of individual digits; otherwise, uses the superclass function.
* @param text The string to parse
* @param parsePosition Ignored on entry, but updated on exit to point
* to the first unmatched character
* @param baseValue The partial parse result prior to entering this
* function
* @param upperBound Only consider rules with base values lower than
* this when filling in the substitution
* @param lenientParse If true, try matching the text as numerals if
* matching as words doesn't work
* @return If the match was successful, the current partial parse
* result; otherwise new Long(0). The result is either a Long or
* a Double.
*/
UBool
FractionalPartSubstitution::doParse(const UnicodeString& text,
ParsePosition& parsePosition,
double baseValue,
double /*upperBound*/,
UBool lenientParse,
Formattable& resVal) const
{
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// if we're not in byDigits mode, we can just use the inherited
// doParse()
if (!byDigits) {
return NFSubstitution::doParse(text, parsePosition, baseValue, 0, lenientParse, resVal);
// if we ARE in byDigits mode, parse the text one digit at a time
// using this substitution's owning rule set (we do this by setting
// upperBound to 10 when calling doParse() ) until we reach
// nonmatching text
} else {
UnicodeString workText(text);
ParsePosition workPos(1);
double result = 0;
int32_t digit;
double p10 = 0.1;
NumberFormat* fmt = NULL;
while (workText.length() > 0 && workPos.getIndex() != 0) {
workPos.setIndex(0);
Formattable temp;
getRuleSet()->parse(workText, workPos, 10, temp);
UErrorCode status = U_ZERO_ERROR;
digit = temp.getLong(&status);
// digit = temp.getType() == Formattable::kLong ?
// temp.getLong() :
// (int32_t)temp.getDouble();
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if (lenientParse && workPos.getIndex() == 0) {
if (!fmt) {
status = U_ZERO_ERROR;
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fmt = NumberFormat::createInstance(status);
if (U_FAILURE(status)) {
delete fmt;
fmt = NULL;
}
}
if (fmt) {
fmt->parse(workText, temp, workPos);
digit = temp.getLong();
}
}
if (workPos.getIndex() != 0) {
result += digit * p10;
p10 /= 10;
parsePosition.setIndex(parsePosition.getIndex() + workPos.getIndex());
workText.removeBetween(0, workPos.getIndex());
while (workText.length() > 0 && workText.charAt(0) == gSpace) {
workText.removeBetween(0, 1);
parsePosition.setIndex(parsePosition.getIndex() + 1);
}
}
}
delete fmt;
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result = composeRuleValue(result, baseValue);
resVal.setDouble(result);
return TRUE;
}
}
UBool
FractionalPartSubstitution::operator==(const NFSubstitution& rhs) const
{
return NFSubstitution::operator==(rhs) &&
((const FractionalPartSubstitution*)&rhs)->byDigits == byDigits;
}
const char FractionalPartSubstitution::fgClassID = 0;
UClassID
FractionalPartSubstitution::getDynamicClassID() const {
return getStaticClassID();
}
//===================================================================
// AbsoluteValueSubstitution
//===================================================================
const char AbsoluteValueSubstitution::fgClassID = 0;
UClassID
AbsoluteValueSubstitution::getDynamicClassID() const {
return getStaticClassID();
}
//===================================================================
// NumeratorSubstitution
//===================================================================
UBool
NumeratorSubstitution::operator==(const NFSubstitution& rhs) const
{
return NFSubstitution::operator==(rhs) &&
denominator == ((const NumeratorSubstitution*)&rhs)->denominator;
}
const char NumeratorSubstitution::fgClassID = 0;
UClassID
NumeratorSubstitution::getDynamicClassID() const {
return getStaticClassID();
}
//===================================================================
// NullSubstitution
//===================================================================
const char NullSubstitution::fgClassID = 0;
UClassID
NullSubstitution::getDynamicClassID() const {
return getStaticClassID();
}
/* U_HAVE_RBNF */
#endif