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scuffed-code/icu4c/source/i18n/rbnf.cpp
Steven R. Loomis 48f3512cdc ICU-2202 don't strcpy from failed resource 
X-SVN-Rev: 14059
2003-12-09 20:42:03 +00:00

744 lines
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/*
*******************************************************************************
* Copyright (C) 1997-2003, International Business Machines Corporation and others. All Rights Reserved.
*******************************************************************************
*/
#include "unicode/rbnf.h"
#if U_HAVE_RBNF
#include "unicode/normlzr.h"
#include "unicode/tblcoll.h"
#include "unicode/uchar.h"
#include "unicode/ucol.h"
#include "unicode/uloc.h"
#include "unicode/unum.h"
#include "unicode/ures.h"
#include "unicode/ustring.h"
#include "unicode/utf16.h"
#include "nfrs.h"
#include "cmemory.h"
#include "cstring.h"
#include "uprops.h"
static const UChar gPercentPercent[] =
{
0x25, 0x25, 0
}; /* "%%" */
// All urbnf objects are created through openRules, so we init all of the
// Unicode string constants required by rbnf, nfrs, or nfr here.
static const UChar gLenientParse[] =
{
0x25, 0x25, 0x6C, 0x65, 0x6E, 0x69, 0x65, 0x6E, 0x74, 0x2D, 0x70, 0x61, 0x72, 0x73, 0x65, 0x3A, 0
}; /* "%%lenient-parse:" */
static const UChar gSemiColon = 0x003B;
static const UChar gSemiPercent[] =
{
0x3B, 0x25, 0
}; /* ";%" */
#define kSomeNumberOfBitsDiv2 22
#define kHalfMaxDouble (double)(1 << kSomeNumberOfBitsDiv2)
#define kMaxDouble (kHalfMaxDouble * kHalfMaxDouble)
U_NAMESPACE_BEGIN
UOBJECT_DEFINE_RTTI_IMPLEMENTATION(RuleBasedNumberFormat)
RuleBasedNumberFormat::RuleBasedNumberFormat(const UnicodeString& description, const Locale& alocale, UParseError& perror, UErrorCode& status)
: ruleSets(NULL)
, defaultRuleSet(NULL)
, locale(alocale)
, collator(NULL)
, decimalFormatSymbols(NULL)
, lenient(FALSE)
, lenientParseRules(NULL)
{
init(description, perror, status);
}
RuleBasedNumberFormat::RuleBasedNumberFormat(URBNFRuleSetTag tag, const Locale& alocale, UErrorCode& status)
: ruleSets(NULL)
, defaultRuleSet(NULL)
, locale(alocale)
, collator(NULL)
, decimalFormatSymbols(NULL)
, lenient(FALSE)
, lenientParseRules(NULL)
{
if (U_FAILURE(status)) {
return;
}
const char* fmt_tag = "";
switch (tag) {
case URBNF_SPELLOUT: fmt_tag = "SpelloutRules"; break;
case URBNF_ORDINAL: fmt_tag = "OrdinalRules"; break;
case URBNF_DURATION: fmt_tag = "DurationRules"; break;
default: status = U_ILLEGAL_ARGUMENT_ERROR; return;
}
// the following didn't work for aliased resources, but Vladimir supposedly fixed it...
// const UChar* description = ures_getStringByKey(nfrb, fmt_tag, &len, &status);
int32_t len = 0;
UResourceBundle* nfrb = ures_open(NULL, locale.getName(), &status);
// UResourceBundle* yuck = ures_getByKey(nfrb, fmt_tag, NULL, &status);
// const UChar* description = ures_getString(yuck, &len, &status);
if (U_SUCCESS(status)) {
uprv_strcpy(validLocale, ures_getLocaleByType(nfrb, ULOC_VALID_LOCALE, &status));
uprv_strcpy(actualLocale, ures_getLocaleByType(nfrb, ULOC_ACTUAL_LOCALE, &status));
const UChar* description = ures_getStringByKey(nfrb, fmt_tag, &len, &status);
UnicodeString desc(description, len);
UParseError perror;
init (desc, perror, status);
}
// ures_close(yuck);
ures_close(nfrb);
}
RuleBasedNumberFormat::RuleBasedNumberFormat(const RuleBasedNumberFormat& rhs)
: NumberFormat(rhs)
, ruleSets(NULL)
, defaultRuleSet(NULL)
, locale(rhs.locale)
, collator(NULL)
, decimalFormatSymbols(NULL)
, lenient(FALSE)
, lenientParseRules(NULL)
{
this->operator=(rhs);
}
RuleBasedNumberFormat&
RuleBasedNumberFormat::operator=(const RuleBasedNumberFormat& rhs)
{
UErrorCode status = U_ZERO_ERROR;
dispose();
locale = rhs.locale;
UnicodeString rules = rhs.getRules();
UParseError perror;
init(rules, perror, status);
lenient = rhs.lenient;
return *this;
}
RuleBasedNumberFormat::~RuleBasedNumberFormat()
{
dispose();
}
Format*
RuleBasedNumberFormat::clone(void) const
{
RuleBasedNumberFormat * result = NULL;
UnicodeString rules = getRules();
UErrorCode status = U_ZERO_ERROR;
UParseError perror;
result = new RuleBasedNumberFormat(rules, locale, perror, status);
/* test for NULL */
if (result == 0) {
status = U_MEMORY_ALLOCATION_ERROR;
return 0;
}
if (U_FAILURE(status)) {
delete result;
result = 0;
} else {
result->lenient = lenient;
}
return result;
}
UBool
RuleBasedNumberFormat::operator==(const Format& other) const
{
if (this == &other) {
return TRUE;
}
if (other.getDynamicClassID() == getStaticClassID()) {
const RuleBasedNumberFormat& rhs = (const RuleBasedNumberFormat&)other;
if (locale == rhs.locale &&
lenient == rhs.lenient) {
NFRuleSet** p = ruleSets;
NFRuleSet** q = rhs.ruleSets;
if ((p == NULL) != (q == NULL)) {
return TRUE;
}
if (p == NULL) {
return FALSE;
}
while (*p && *q && (**p == **q)) {
++p;
++q;
}
return *q == NULL && *p == NULL;
}
}
return FALSE;
}
UnicodeString
RuleBasedNumberFormat::getRules() const
{
UnicodeString result;
if (ruleSets != NULL) {
for (NFRuleSet** p = ruleSets; *p; ++p) {
(*p)->appendRules(result);
}
}
return result;
}
UnicodeString
RuleBasedNumberFormat::getRuleSetName(int32_t index) const
{
UnicodeString result;
if (ruleSets) {
for (NFRuleSet** p = ruleSets; *p; ++p) {
NFRuleSet* rs = *p;
if (rs->isPublic()) {
if (--index == -1) {
rs->getName(result);
return result;
}
}
}
}
return result;
}
int32_t
RuleBasedNumberFormat::getNumberOfRuleSetNames() const
{
int32_t result = 0;
if (ruleSets) {
for (NFRuleSet** p = ruleSets; *p; ++p) {
if ((**p).isPublic()) {
++result;
}
}
}
return result;
}
NFRuleSet*
RuleBasedNumberFormat::findRuleSet(const UnicodeString& name, UErrorCode& status) const
{
if (U_SUCCESS(status) && ruleSets) {
for (NFRuleSet** p = ruleSets; *p; ++p) {
NFRuleSet* rs = *p;
if (rs->isNamed(name)) {
return rs;
}
}
status = U_ILLEGAL_ARGUMENT_ERROR;
}
return NULL;
}
UnicodeString&
RuleBasedNumberFormat::format(int32_t number,
UnicodeString& toAppendTo,
FieldPosition& /* pos */) const
{
if (defaultRuleSet) defaultRuleSet->format((int64_t)number, toAppendTo, toAppendTo.length());
return toAppendTo;
}
UnicodeString&
RuleBasedNumberFormat::format(int64_t number,
UnicodeString& toAppendTo,
FieldPosition& /* pos */) const
{
if (defaultRuleSet) defaultRuleSet->format(number, toAppendTo, toAppendTo.length());
return toAppendTo;
}
UnicodeString&
RuleBasedNumberFormat::format(double number,
UnicodeString& toAppendTo,
FieldPosition& /* pos */) const
{
if (defaultRuleSet) defaultRuleSet->format(number, toAppendTo, toAppendTo.length());
return toAppendTo;
}
UnicodeString&
RuleBasedNumberFormat::format(int32_t number,
const UnicodeString& ruleSetName,
UnicodeString& toAppendTo,
FieldPosition& /* pos */,
UErrorCode& status) const
{
// return format((int64_t)number, ruleSetName, toAppendTo, pos, status);
if (U_SUCCESS(status)) {
if (ruleSetName.indexOf(gPercentPercent) == 0) {
// throw new IllegalArgumentException("Can't use internal rule set");
status = U_ILLEGAL_ARGUMENT_ERROR;
} else {
NFRuleSet *rs = findRuleSet(ruleSetName, status);
if (rs) {
rs->format((int64_t)number, toAppendTo, toAppendTo.length());
}
}
}
return toAppendTo;
}
UnicodeString&
RuleBasedNumberFormat::format(int64_t number,
const UnicodeString& ruleSetName,
UnicodeString& toAppendTo,
FieldPosition& /* pos */,
UErrorCode& status) const
{
if (U_SUCCESS(status)) {
if (ruleSetName.indexOf(gPercentPercent) == 0) {
// throw new IllegalArgumentException("Can't use internal rule set");
status = U_ILLEGAL_ARGUMENT_ERROR;
} else {
NFRuleSet *rs = findRuleSet(ruleSetName, status);
if (rs) {
rs->format(number, toAppendTo, toAppendTo.length());
}
}
}
return toAppendTo;
}
// make linker happy
UnicodeString&
RuleBasedNumberFormat::format(const Formattable& obj,
UnicodeString& toAppendTo,
FieldPosition& pos,
UErrorCode& status) const
{
return NumberFormat::format(obj, toAppendTo, pos, status);
}
UnicodeString&
RuleBasedNumberFormat::format(double number,
const UnicodeString& ruleSetName,
UnicodeString& toAppendTo,
FieldPosition& /* pos */,
UErrorCode& status) const
{
if (U_SUCCESS(status)) {
if (ruleSetName.indexOf(gPercentPercent) == 0) {
// throw new IllegalArgumentException("Can't use internal rule set");
status = U_ILLEGAL_ARGUMENT_ERROR;
} else {
NFRuleSet *rs = findRuleSet(ruleSetName, status);
if (rs) {
rs->format(number, toAppendTo, toAppendTo.length());
}
}
}
return toAppendTo;
}
void
RuleBasedNumberFormat::parse(const UnicodeString& text,
Formattable& result,
ParsePosition& parsePosition) const
{
if (!ruleSets) {
parsePosition.setErrorIndex(0);
return;
}
ParsePosition high_pp;
Formattable high_result;
for (NFRuleSet** p = ruleSets; *p; ++p) {
NFRuleSet *rp = *p;
if (rp->isPublic()) {
ParsePosition working_pp = parsePosition;
Formattable working_result;
rp->parse(text, working_pp, kMaxDouble, working_result);
if (working_pp.getIndex() > high_pp.getIndex()) {
high_pp = working_pp;
high_result = working_result;
if (high_pp.getIndex() == text.length()) {
break;
}
}
}
}
if (high_pp.getIndex() > parsePosition.getIndex()) {
high_pp.setErrorIndex(-1);
}
parsePosition = high_pp;
result = high_result;
if (result.getType() == Formattable::kDouble) {
int32_t r = (int32_t)result.getDouble();
if ((double)r == result.getDouble()) {
result.setLong(r);
}
}
}
#if !UCONFIG_NO_COLLATION
void
RuleBasedNumberFormat::setLenient(UBool enabled)
{
lenient = enabled;
if (!enabled && collator) {
delete collator;
collator = NULL;
}
}
#endif
void
RuleBasedNumberFormat::setDefaultRuleSet(const UnicodeString& ruleSetName, UErrorCode& status) {
if (U_SUCCESS(status)) {
if (ruleSetName.isEmpty()) {
initDefaultRuleSet();
} else if (ruleSetName.startsWith("%%")) {
status = U_ILLEGAL_ARGUMENT_ERROR;
} else {
NFRuleSet* result = findRuleSet(ruleSetName, status);
if (result != NULL) {
defaultRuleSet = result;
}
}
}
}
void
RuleBasedNumberFormat::initDefaultRuleSet()
{
if (!ruleSets) {
defaultRuleSet = NULL;
}
NFRuleSet**p = &ruleSets[1];
while (*p) {
++p;
}
defaultRuleSet = *--p;
if (!defaultRuleSet->isPublic()) {
while (p != ruleSets) {
if ((*--p)->isPublic()) {
defaultRuleSet = *p;
break;
}
}
}
}
void
RuleBasedNumberFormat::init(const UnicodeString& rules, UParseError& /* pErr */, UErrorCode& status)
{
// TODO: implement UParseError
// Note: this can leave ruleSets == NULL, so remaining code should check
if (U_FAILURE(status)) {
return;
}
validLocale[0] = 0;
actualLocale[0] = 0;
UnicodeString description(rules);
if (!description.length()) {
status = U_MEMORY_ALLOCATION_ERROR;
return;
}
// start by stripping the trailing whitespace from all the rules
// (this is all the whitespace follwing each semicolon in the
// description). This allows us to look for rule-set boundaries
// by searching for ";%" without having to worry about whitespace
// between the ; and the %
stripWhitespace(description);
// check to see if there's a set of lenient-parse rules. If there
// is, pull them out into our temporary holding place for them,
// and delete them from the description before the real desciption-
// parsing code sees them
int32_t lp = description.indexOf(gLenientParse);
if (lp != -1) {
// we've got to make sure we're not in the middle of a rule
// (where "%%lenient-parse" would actually get treated as
// rule text)
if (lp == 0 || description.charAt(lp - 1) == gSemiColon) {
// locate the beginning and end of the actual collation
// rules (there may be whitespace between the name and
// the first token in the description)
int lpEnd = description.indexOf(gSemiPercent, lp);
if (lpEnd == -1) {
lpEnd = description.length() - 1;
}
int lpStart = lp + u_strlen(gLenientParse);
while (uprv_isRuleWhiteSpace(description.charAt(lpStart))) {
++lpStart;
}
// copy out the lenient-parse rules and delete them
// from the description
lenientParseRules = new UnicodeString();
/* test for NULL */
if (lenientParseRules == 0) {
status = U_MEMORY_ALLOCATION_ERROR;
return;
}
lenientParseRules->setTo(description, lpStart, lpEnd - lpStart);
description.remove(lp, lpEnd + 1 - lp);
}
}
// pre-flight parsing the description and count the number of
// rule sets (";%" marks the end of one rule set and the beginning
// of the next)
int numRuleSets = 0;
for (int32_t p = description.indexOf(gSemiPercent); p != -1; p = description.indexOf(gSemiPercent, p)) {
++numRuleSets;
++p;
}
++numRuleSets;
// our rule list is an array of the appropriate size
ruleSets = (NFRuleSet **)uprv_malloc((numRuleSets + 1) * sizeof(NFRuleSet *));
/* test for NULL */
if (ruleSets == 0) {
status = U_MEMORY_ALLOCATION_ERROR;
return;
}
for (int i = 0; i <= numRuleSets; ++i) {
ruleSets[i] = NULL;
}
// divide up the descriptions into individual rule-set descriptions
// and store them in a temporary array. At each step, we also
// new up a rule set, but all this does is initialize its name
// and remove it from its description. We can't actually parse
// the rest of the descriptions and finish initializing everything
// because we have to know the names and locations of all the rule
// sets before we can actually set everything up
if(!numRuleSets) {
status = U_ILLEGAL_ARGUMENT_ERROR;
return;
}
UnicodeString* ruleSetDescriptions = new UnicodeString[numRuleSets];
/* test for NULL */
if (ruleSetDescriptions == 0) {
status = U_MEMORY_ALLOCATION_ERROR;
return;
}
{
int curRuleSet = 0;
int32_t start = 0;
for (int32_t p = description.indexOf(gSemiPercent); p != -1; p = description.indexOf(gSemiPercent, start)) {
ruleSetDescriptions[curRuleSet].setTo(description, start, p + 1 - start);
ruleSets[curRuleSet] = new NFRuleSet(ruleSetDescriptions, curRuleSet, status);
/* test for NULL */
if (ruleSets[curRuleSet] == 0) {
status = U_MEMORY_ALLOCATION_ERROR;
return;
}
++curRuleSet;
start = p + 1;
}
ruleSetDescriptions[curRuleSet].setTo(description, start, description.length() - start);
ruleSets[curRuleSet] = new NFRuleSet(ruleSetDescriptions, curRuleSet, status);
/* test for NULL */
if (ruleSets[curRuleSet] == 0) {
status = U_MEMORY_ALLOCATION_ERROR;
return;
}
}
// now we can take note of the formatter's default rule set, which
// is the last public rule set in the description (it's the last
// rather than the first so that a user can create a new formatter
// from an existing formatter and change its default behavior just
// by appending more rule sets to the end)
initDefaultRuleSet();
// finally, we can go back through the temporary descriptions
// list and finish seting up the substructure (and we throw
// away the temporary descriptions as we go)
{
for (int i = 0; i < numRuleSets; i++) {
ruleSets[i]->parseRules(ruleSetDescriptions[i], this, status);
}
}
delete[] ruleSetDescriptions;
}
void
RuleBasedNumberFormat::stripWhitespace(UnicodeString& description)
{
// iterate through the characters...
UnicodeString result;
int start = 0;
while (start != -1 && start < description.length()) {
// seek to the first non-whitespace character...
while (start < description.length()
&& uprv_isRuleWhiteSpace(description.charAt(start))) {
++start;
}
// locate the next semicolon in the text and copy the text from
// our current position up to that semicolon into the result
int32_t p = description.indexOf(gSemiColon, start);
if (p == -1) {
// or if we don't find a semicolon, just copy the rest of
// the string into the result
result.append(description, start, description.length() - start);
start = -1;
}
else if (p < description.length()) {
result.append(description, start, p + 1 - start);
start = p + 1;
}
// when we get here, we've seeked off the end of the sring, and
// we terminate the loop (we continue until *start* is -1 rather
// than until *p* is -1, because otherwise we'd miss the last
// rule in the description)
else {
start = -1;
}
}
description.setTo(result);
}
void
RuleBasedNumberFormat::dispose()
{
if (ruleSets) {
for (NFRuleSet** p = ruleSets; *p; ++p) {
delete *p;
}
uprv_free(ruleSets);
ruleSets = NULL;
}
#if !UCONFIG_NO_COLLATION
delete collator;
#endif
collator = NULL;
delete decimalFormatSymbols;
decimalFormatSymbols = NULL;
delete lenientParseRules;
lenientParseRules = NULL;
}
//-----------------------------------------------------------------------
// package-internal API
//-----------------------------------------------------------------------
/**
* Returns the collator to use for lenient parsing. The collator is lazily created:
* this function creates it the first time it's called.
* @return The collator to use for lenient parsing, or null if lenient parsing
* is turned off.
*/
Collator*
RuleBasedNumberFormat::getCollator() const
{
#if !UCONFIG_NO_COLLATION
if (!ruleSets) {
return NULL;
}
// lazy-evaulate the collator
if (collator == NULL && lenient) {
// create a default collator based on the formatter's locale,
// then pull out that collator's rules, append any additional
// rules specified in the description, and create a _new_
// collator based on the combinaiton of those rules
UErrorCode status = U_ZERO_ERROR;
Collator* temp = Collator::createInstance(locale, status);
if (U_SUCCESS(status) &&
temp->getDynamicClassID() == RuleBasedCollator::getStaticClassID()) {
RuleBasedCollator* newCollator = (RuleBasedCollator*)temp;
if (lenientParseRules) {
UnicodeString rules(newCollator->getRules());
rules.append(*lenientParseRules);
newCollator = new RuleBasedCollator(rules, status);
} else {
temp = NULL;
}
if (U_SUCCESS(status)) {
newCollator->setAttribute(UCOL_DECOMPOSITION_MODE, UCOL_ON, status);
// cast away const
((RuleBasedNumberFormat*)this)->collator = newCollator;
} else {
delete newCollator;
}
}
delete temp;
}
#endif
// if lenient-parse mode is off, this will be null
// (see setLenientParseMode())
return collator;
}
/**
* Returns the DecimalFormatSymbols object that should be used by all DecimalFormat
* instances owned by this formatter. This object is lazily created: this function
* creates it the first time it's called.
* @return The DecimalFormatSymbols object that should be used by all DecimalFormat
* instances owned by this formatter.
*/
DecimalFormatSymbols*
RuleBasedNumberFormat::getDecimalFormatSymbols() const
{
// lazy-evaluate the DecimalFormatSymbols object. This object
// is shared by all DecimalFormat instances belonging to this
// formatter
if (decimalFormatSymbols == NULL) {
UErrorCode status = U_ZERO_ERROR;
DecimalFormatSymbols* temp = new DecimalFormatSymbols(locale, status);
if (U_SUCCESS(status)) {
((RuleBasedNumberFormat*)this)->decimalFormatSymbols = temp;
} else {
delete temp;
}
}
return decimalFormatSymbols;
}
U_NAMESPACE_END
/* U_HAVE_RBNF */
#endif
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