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

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/*
*******************************************************************************
* Copyright (C) 1997-2001, International Business Machines Corporation and *
* others. All Rights Reserved. *
*******************************************************************************
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*
* File CHOICFMT.CPP
*
* Modification History:
*
* Date Name Description
* 02/19/97 aliu Converted from java.
* 03/20/97 helena Finished first cut of implementation and got rid
* of nextDouble/previousDouble and replaced with
* boolean array.
* 4/10/97 aliu Clean up. Modified to work on AIX.
* 06/04/97 helena Fixed applyPattern(), toPattern() and not to include
* wchar.h.
* 07/09/97 helena Made ParsePosition into a class.
* 08/06/97 nos removed overloaded constructor, fixed 'format(array)'
* 07/22/98 stephen JDK 1.2 Sync - removed UBool array (doubleFlags)
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* 02/22/99 stephen Removed character literals for EBCDIC safety
********************************************************************************
*/
#include "cpputils.h"
#include "unicode/choicfmt.h"
#include "unicode/numfmt.h"
#include "unicode/locid.h"
#include "ustrfmt.h"
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// *****************************************************************************
// class ChoiceFormat
// *****************************************************************************
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char ChoiceFormat::fgClassID = 0; // Value is irrelevant
//UMTX ChoiceFormat::fgMutex = NULL; // lock for fgNumberFormat
//NumberFormat* ChoiceFormat::fgNumberFormat = 0;
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inline double _getDouble(const Formattable& f) {
return (f.getType() == Formattable::kLong) ?
((double) f.getLong()) : f.getDouble();
}
// Special characters used by ChoiceFormat. There are two characters
// used interchangeably to indicate <=. Either is parsed, but only
// LESS_EQUAL is generated by toPattern().
#define SINGLE_QUOTE ((UChar)0x0027) /*'*/
#define LESS_THAN ((UChar)0x003C) /*<*/
#define LESS_EQUAL ((UChar)0x0023) /*#*/
#define LESS_EQUAL2 ((UChar)0x2264)
#define VERTICAL_BAR ((UChar)0x007C) /*|*/
#define MINUS ((UChar)0x002D) /*-*/
#define INFINITY ((UChar)0x221E)
const UChar ChoiceFormat::fgPositiveInfinity[] = {INFINITY, 0};
const UChar ChoiceFormat::fgNegativeInfinity[] = {MINUS, INFINITY, 0};
#define POSITIVE_INF_STRLEN 1
#define NEGATIVE_INF_STRLEN 2
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// -------------------------------------
// Creates a ChoiceFormat instance based on the pattern.
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ChoiceFormat::ChoiceFormat(const UnicodeString& newPattern,
UErrorCode& status)
: fChoiceLimits(0),
fClosures(0),
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fChoiceFormats(0),
fCount(0)
{
applyPattern(newPattern, status);
}
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// -------------------------------------
// Creates a ChoiceFormat instance with the limit array and
// format strings for each limit.
ChoiceFormat::ChoiceFormat(const double* limits,
const UnicodeString* formats,
int32_t cnt )
: fChoiceLimits(0),
fClosures(0),
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fChoiceFormats(0),
fCount(0)
{
setChoices(limits, formats, cnt );
}
// -------------------------------------
ChoiceFormat::ChoiceFormat(const double* limits,
const UBool* closures,
const UnicodeString* formats,
int32_t cnt )
: fChoiceLimits(0),
fClosures(0),
fChoiceFormats(0),
fCount(0)
{
setChoices(limits, closures, formats, cnt );
}
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// -------------------------------------
// copy constructor
ChoiceFormat::ChoiceFormat(const ChoiceFormat& that)
: fChoiceLimits(0),
fClosures(0),
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fChoiceFormats(0)
{
*this = that;
}
// -------------------------------------
// Private constructor that creates a
// ChoiceFormat instance based on the
// pattern and populates UParseError
ChoiceFormat::ChoiceFormat(const UnicodeString& newPattern,
UParseError& parseError,
UErrorCode& status)
: fChoiceLimits(0),
fClosures(0),
fChoiceFormats(0),
fCount(0)
{
applyPattern(newPattern,parseError, status);
}
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// -------------------------------------
UBool
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ChoiceFormat::operator==(const Format& that) const
{
if (this == &that) return TRUE;
if (this->getDynamicClassID() != that.getDynamicClassID()) return FALSE; // not the same class
if (!NumberFormat::operator==(that)) return FALSE;
ChoiceFormat& thatAlias = (ChoiceFormat&)that;
if (fCount != thatAlias.fCount) return FALSE;
// Checks the limits, the corresponding format string and LE or LT flags.
// LE means less than and equal to, LT means less than.
for (int32_t i = 0; i < fCount; i++) {
if ((fChoiceLimits[i] != thatAlias.fChoiceLimits[i]) ||
(fClosures[i] != thatAlias.fClosures[i]) ||
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(fChoiceFormats[i] != thatAlias.fChoiceFormats[i]))
return FALSE;
}
return TRUE;
}
// -------------------------------------
// copy constructor
const ChoiceFormat&
ChoiceFormat::operator=(const ChoiceFormat& that)
{
if (this != &that) {
NumberFormat::operator=(that);
fCount = that.fCount;
delete [] fChoiceLimits; fChoiceLimits = 0;
delete [] fClosures; fClosures = 0;
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delete [] fChoiceFormats; fChoiceFormats = 0;
fChoiceLimits = new double[fCount];
fClosures = new UBool[fCount];
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fChoiceFormats = new UnicodeString[fCount];
uprv_arrayCopy(that.fChoiceLimits, fChoiceLimits, fCount);
uprv_arrayCopy(that.fClosures, fClosures, fCount);
uprv_arrayCopy(that.fChoiceFormats, fChoiceFormats, fCount);
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}
return *this;
}
// -------------------------------------
ChoiceFormat::~ChoiceFormat()
{
delete [] fChoiceLimits;
fChoiceLimits = 0;
delete [] fClosures;
fClosures = 0;
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delete [] fChoiceFormats;
fChoiceFormats = 0;
fCount = 0;
}
// -------------------------------------
// NumberFormat cache management
/*
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NumberFormat*
ChoiceFormat::getNumberFormat(UErrorCode &status)
{
NumberFormat *theFormat = 0;
if (fgNumberFormat != 0) // if there's something in the cache
{
Mutex lock(&fgMutex);
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if (fgNumberFormat != 0) // Someone might have grabbed it.
{
theFormat = fgNumberFormat;
fgNumberFormat = 0; // We have exclusive right to this formatter.
}
}
if(theFormat == 0) // If we weren't able to pull it out of the cache, then we have to create it.
{
theFormat = NumberFormat::createInstance(Locale::US, status);
if(U_FAILURE(status))
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return 0;
theFormat->setMinimumFractionDigits(1);
}
return theFormat;
}
*/
/*
void
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ChoiceFormat::releaseNumberFormat(NumberFormat *adopt)
{
if(fgNumberFormat == 0) // If the cache is empty we must add it back.
{
Mutex lock(&fgMutex);
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if(fgNumberFormat == 0)
{
fgNumberFormat = adopt;
adopt = 0;
}
}
delete adopt;
}
*/
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/**
* Convert a string to a double value
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*/
double
ChoiceFormat::stod(const UnicodeString& string)
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{
char source[256];
char* end;
string.extract(0, string.length(), source, sizeof(source), ""); /* invariant codepage */
return uprv_strtod(source,&end);
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}
// -------------------------------------
/**
* Convert a double value to a string
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*/
UnicodeString&
ChoiceFormat::dtos(double value,
UnicodeString& string)
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{
char temp[256];
uprv_dtostr(value, temp, 3, TRUE);
string = UnicodeString(temp, ""); /* invariant codepage */
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return string;
}
#if 0
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// -------------------------------------
// Applies the pattern to this ChoiceFormat instance.
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void
ChoiceFormat::applyPattern(const UnicodeString& pattern,
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UErrorCode& status)
{
if (U_FAILURE(status)) {
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return;
}
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// Perform 2 passes. The first computes the number of limits in
// this pattern (fCount), which is 1 more than the number of
// literal VERTICAL_BAR characters.
int32_t count = 1;
int32_t i;
for (i=0; i<pattern.length(); ++i) {
UChar c = pattern[i];
if (c == SINGLE_QUOTE) {
// Skip over the entire quote, including embedded
// contiguous pairs of SINGLE_QUOTE.
for (;;) {
do {
++i;
} while (i<pattern.length() &&
pattern[i] != SINGLE_QUOTE);
if ((i+1)<pattern.length() &&
pattern[i+1] == SINGLE_QUOTE) {
// SINGLE_QUOTE pair; skip over it
++i;
} else {
break;
}
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}
} else if (c == VERTICAL_BAR) {
++count;
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}
}
// Allocate the required storage.
double *newLimits = new double[count];
UBool *newClosures = new UBool[count];
UnicodeString *newFormats = new UnicodeString[count];
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// Perform the second pass
int32_t k = 0; // index into newXxx[] arrays
UnicodeString buf; // scratch buffer
UBool inQuote = FALSE;
UBool inNumber = TRUE; // TRUE before < or #, FALSE after
for (i=0; i<pattern.length(); ++i) {
UChar c = pattern[i];
if (c == SINGLE_QUOTE) {
// Check for SINGLE_QUOTE pair indicating a literal quote
if ((i+1) < pattern.length() &&
pattern[i+1] == SINGLE_QUOTE) {
buf += SINGLE_QUOTE;
++i;
} else {
inQuote = !inQuote;
}
} else if (inQuote) {
buf += c;
} else if (c == LESS_THAN || c == LESS_EQUAL || c == LESS_EQUAL2) {
if (!inNumber || buf.length() == 0) {
goto error;
}
inNumber = FALSE;
double limit;
buf.trim();
if (!buf.compare(fgPositiveInfinity, POSITIVE_INF_STRLEN)) {
limit = uprv_getInfinity();
} else if (!buf.compare(fgNegativeInfinity, NEGATIVE_INF_STRLEN)) {
limit = -uprv_getInfinity();
} else {
limit = stod(buf, status);
if (U_FAILURE(status)) {
goto error;
}
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}
if (k == count) {
// This shouldn't happen. If it does, it means that
// the count determined in the first pass did not
// match the number of elements found in the second
// pass.
goto error;
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}
newLimits[k] = limit;
newClosures[k] = (c == LESS_THAN);
if (k > 0 && limit <= newLimits[k-1]) {
// Each limit must be strictly > than the previous
// limit. One exception: Two subsequent limits may be
// == if the first closure is FALSE and the second
// closure is TRUE. This places the limit value in
// the second interval.
if (!(limit == newLimits[k-1] &&
!newClosures[k-1] &&
newClosures[k])) {
goto error;
}
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}
buf.truncate(0);
} else if (c == VERTICAL_BAR) {
if (inNumber) {
goto error;
}
inNumber = TRUE;
newFormats[k] = buf;
++k;
buf.truncate(0);
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} else {
buf += c;
}
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}
if (k != (count-1) || inNumber || inQuote) {
goto error;
}
newFormats[k] = buf;
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// Don't modify this object until the parse succeeds
delete[] fChoiceLimits;
delete[] fClosures;
delete[] fChoiceFormats;
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fCount = count;
fChoiceLimits = newLimits;
fClosures = newClosures;
fChoiceFormats = newFormats;
return;
error:
status = U_ILLEGAL_ARGUMENT_ERROR;
delete[] newLimits;
delete[] newClosures;
delete[] newFormats;
return;
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}
#endif
// -------------------------------------
// calls the overloaded applyPattern method.
void
ChoiceFormat::applyPattern(const UnicodeString& pattern,
UErrorCode& status)
{
UParseError parseError;
applyPattern(pattern, parseError, status);
}
// -------------------------------------
// Applies the pattern to this ChoiceFormat instance.
void
ChoiceFormat::applyPattern(const UnicodeString& pattern,
UParseError& parseError,
UErrorCode& status)
{
if (U_FAILURE(status))
{
return;
}
// Clear error struct
parseError.offset = 0;
parseError.preContext[0] = parseError.postContext[0] = (UChar)0;
// Perform 2 passes. The first computes the number of limits in
// this pattern (fCount), which is 1 more than the number of
// literal VERTICAL_BAR characters.
int32_t count = 1;
int32_t i;
for (i=0; i<pattern.length(); ++i) {
UChar c = pattern[i];
if (c == SINGLE_QUOTE) {
// Skip over the entire quote, including embedded
// contiguous pairs of SINGLE_QUOTE.
for (;;) {
do {
++i;
} while (i<pattern.length() &&
pattern[i] != SINGLE_QUOTE);
if ((i+1)<pattern.length() &&
pattern[i+1] == SINGLE_QUOTE) {
// SINGLE_QUOTE pair; skip over it
++i;
} else {
break;
}
}
} else if (c == VERTICAL_BAR) {
++count;
}
}
// Allocate the required storage.
double *newLimits = new double[count];
UBool *newClosures = new UBool[count];
UnicodeString *newFormats = new UnicodeString[count];
// Perform the second pass
int32_t k = 0; // index into newXxx[] arrays
UnicodeString buf; // scratch buffer
UBool inQuote = FALSE;
UBool inNumber = TRUE; // TRUE before < or #, FALSE after
for (i=0; i<pattern.length(); ++i) {
UChar c = pattern[i];
if (c == SINGLE_QUOTE) {
// Check for SINGLE_QUOTE pair indicating a literal quote
if ((i+1) < pattern.length() &&
pattern[i+1] == SINGLE_QUOTE) {
buf += SINGLE_QUOTE;
++i;
} else {
inQuote = !inQuote;
}
} else if (inQuote) {
buf += c;
} else if (c == LESS_THAN || c == LESS_EQUAL || c == LESS_EQUAL2) {
if (!inNumber || buf.length() == 0) {
goto error;
}
inNumber = FALSE;
double limit;
buf.trim();
if (!buf.compare(fgPositiveInfinity, POSITIVE_INF_STRLEN)) {
limit = uprv_getInfinity();
} else if (!buf.compare(fgNegativeInfinity, NEGATIVE_INF_STRLEN)) {
limit = -uprv_getInfinity();
} else {
limit = stod(buf);
}
if (k == count) {
// This shouldn't happen. If it does, it means that
// the count determined in the first pass did not
// match the number of elements found in the second
// pass.
goto error;
}
newLimits[k] = limit;
newClosures[k] = (c == LESS_THAN);
if (k > 0 && limit <= newLimits[k-1]) {
// Each limit must be strictly > than the previous
// limit. One exception: Two subsequent limits may be
// == if the first closure is FALSE and the second
// closure is TRUE. This places the limit value in
// the second interval.
if (!(limit == newLimits[k-1] &&
!newClosures[k-1] &&
newClosures[k])) {
goto error;
}
}
buf.truncate(0);
} else if (c == VERTICAL_BAR) {
if (inNumber) {
goto error;
}
inNumber = TRUE;
newFormats[k] = buf;
++k;
buf.truncate(0);
} else {
buf += c;
}
}
if (k != (count-1) || inNumber || inQuote) {
goto error;
}
newFormats[k] = buf;
// Don't modify this object until the parse succeeds
delete[] fChoiceLimits;
delete[] fClosures;
delete[] fChoiceFormats;
fCount = count;
fChoiceLimits = newLimits;
fClosures = newClosures;
fChoiceFormats = newFormats;
return;
error:
status = U_ILLEGAL_ARGUMENT_ERROR;
syntaxError(pattern,i,parseError);
delete[] newLimits;
delete[] newClosures;
delete[] newFormats;
return;
}
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// -------------------------------------
// Reconstruct the original input pattern.
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UnicodeString&
ChoiceFormat::toPattern(UnicodeString& result) const
{
result.remove();
for (int32_t i = 0; i < fCount; ++i) {
if (i != 0) {
result += VERTICAL_BAR;
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}
UnicodeString buf;
if (uprv_isPositiveInfinity(fChoiceLimits[i])) {
result += INFINITY;
} else if (uprv_isNegativeInfinity(fChoiceLimits[i])) {
result += MINUS;
result += INFINITY;
} else {
result += dtos(fChoiceLimits[i], buf);
}
if (fClosures[i]) {
result += LESS_THAN;
} else {
result += LESS_EQUAL;
}
// Append fChoiceFormats[i], using quotes if there are special
// characters. Single quotes themselves must be escaped in
// either case.
const UnicodeString& text = fChoiceFormats[i];
UBool needQuote = text.indexOf(LESS_THAN) >= 0
|| text.indexOf(LESS_EQUAL) >= 0
|| text.indexOf(LESS_EQUAL2) >= 0
|| text.indexOf(VERTICAL_BAR) >= 0;
if (needQuote) {
result += SINGLE_QUOTE;
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}
if (text.indexOf(SINGLE_QUOTE) < 0) {
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result += text;
}
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else {
for (int32_t j = 0; j < text.length(); ++j) {
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UChar c = text[j];
result += c;
if (c == SINGLE_QUOTE) {
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result += c;
}
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}
}
if (needQuote) {
result += SINGLE_QUOTE;
}
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}
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return result;
}
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// -------------------------------------
// Adopts the limit and format arrays.
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void
ChoiceFormat::adoptChoices(double *limits,
UnicodeString *formats,
int32_t cnt )
{
adoptChoices(limits, (UBool *)0, formats, cnt);
}
// -------------------------------------
// Adopts the limit and format arrays.
void
ChoiceFormat::adoptChoices(double *limits,
UBool *closures,
UnicodeString *formats,
int32_t cnt )
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{
if(limits == 0 || formats == 0)
return;
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delete [] fChoiceLimits;
delete [] fClosures;
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delete [] fChoiceFormats;
fChoiceLimits = limits;
fClosures = closures;
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fChoiceFormats = formats;
fCount = cnt;
if (fClosures == 0) {
fClosures = new UBool[fCount];
int32_t i;
for (i=0; i<fCount; ++i) {
fClosures[i] = FALSE;
}
}
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}
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// -------------------------------------
// Sets the limit and format arrays.
void
ChoiceFormat::setChoices( const double* limits,
const UnicodeString* formats,
int32_t cnt )
{
setChoices(limits, 0, formats, cnt);
}
// -------------------------------------
// Sets the limit and format arrays.
void
ChoiceFormat::setChoices( const double* limits,
const UBool* closures,
const UnicodeString* formats,
int32_t cnt )
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{
if(limits == 0 || formats == 0)
return;
delete [] fChoiceLimits;
delete [] fClosures;
delete [] fChoiceFormats;
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// Note that the old arrays are deleted and this owns
// the created array.
fCount = cnt;
fChoiceLimits = new double[fCount];
fClosures = new UBool[fCount];
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fChoiceFormats = new UnicodeString[fCount];
uprv_arrayCopy(limits, fChoiceLimits, fCount);
uprv_arrayCopy(formats, fChoiceFormats, fCount);
if (closures != 0) {
uprv_arrayCopy(closures, fClosures, fCount);
} else {
int32_t i;
for (i=0; i<fCount; ++i) {
fClosures[i] = FALSE;
}
}
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}
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// -------------------------------------
// Gets the limit array.
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const double*
ChoiceFormat::getLimits(int32_t& cnt) const
{
cnt = fCount;
return fChoiceLimits;
}
// -------------------------------------
// Gets the closures array.
const UBool*
ChoiceFormat::getClosures(int32_t& cnt) const
{
cnt = fCount;
return fClosures;
}
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// -------------------------------------
// Gets the format array.
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const UnicodeString*
ChoiceFormat::getFormats(int32_t& cnt) const
{
cnt = fCount;
return fChoiceFormats;
}
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// -------------------------------------
// Formats a long number, it's actually formatted as
// a double. The returned format string may differ
// from the input number because of this.
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UnicodeString&
ChoiceFormat::format(int32_t number,
UnicodeString& toAppendTo,
FieldPosition& status) const
{
return format((double) number, toAppendTo, status);
}
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// -------------------------------------
// Formats a double number.
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UnicodeString&
ChoiceFormat::format(double number,
UnicodeString& toAppendTo,
FieldPosition& /*pos*/) const
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{
// find the number
int32_t i;
for (i = 0; i < fCount; ++i) {
if (fClosures[i]) {
if (!(number > fChoiceLimits[i])) {
// same as number <= fChoiceLimits, except catches NaN
break;
}
} else if (!(number >= fChoiceLimits[i])) {
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// same as number < fChoiceLimits, except catches NaN
break;
}
}
--i;
if (i < 0) {
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i = 0;
}
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// return either a formatted number, or a string
toAppendTo += fChoiceFormats[i];
return toAppendTo;
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}
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// -------------------------------------
// Formats an array of objects. Checks if the data type of the objects
// to get the right value for formatting.
UnicodeString&
ChoiceFormat::format(const Formattable* objs,
int32_t cnt,
UnicodeString& toAppendTo,
FieldPosition& pos,
UErrorCode& status) const
{
if(cnt < 0) {
status = U_ILLEGAL_ARGUMENT_ERROR;
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return toAppendTo;
}
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UnicodeString buffer;
for (int32_t i = 0; i < cnt; i++) {
buffer.remove();
toAppendTo += format(_getDouble(objs[i]), buffer, pos);
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}
return toAppendTo;
}
// -------------------------------------
// Formats an array of objects. Checks if the data type of the objects
// to get the right value for formatting.
UnicodeString&
ChoiceFormat::format(const Formattable& obj,
UnicodeString& toAppendTo,
FieldPosition& pos,
UErrorCode& status) const
{
return NumberFormat::format(obj, toAppendTo, pos, status);
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}
// -------------------------------------
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void
ChoiceFormat::parse(const UnicodeString& text,
Formattable& result,
ParsePosition& status) const
{
// find the best number (defined as the one with the longest parse)
int32_t start = status.getIndex();
int32_t furthest = start;
double bestNumber = uprv_getNaN();
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double tempNumber = 0.0;
for (int i = 0; i < fCount; ++i) {
UnicodeString tempString = fChoiceFormats[i];
if(text.compareBetween(start, tempString.length(), tempString, 0, tempString.length()) == 0) {
status.setIndex(start + tempString.length());
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tempNumber = fChoiceLimits[i];
if (status.getIndex() > furthest) {
furthest = status.getIndex();
bestNumber = tempNumber;
if (furthest == text.length())
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break;
}
}
}
status.setIndex(furthest);
if (status.getIndex() == start) {
status.setErrorIndex(furthest);
}
result.setDouble(bestNumber);
}
// -------------------------------------
// Parses the text and return the Formattable object.
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void
ChoiceFormat::parse(const UnicodeString& text,
Formattable& result,
UErrorCode& status) const
{
NumberFormat::parse(text, result, status);
}
// -------------------------------------
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Format*
ChoiceFormat::clone() const
{
ChoiceFormat *aCopy = new ChoiceFormat(*this);
return aCopy;
}
// -------------------------------------
double
ChoiceFormat::nextDouble( double d, UBool positive )
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{
return uprv_nextDouble( d, positive );
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}
//eof