path: root/src/corefx/System.Globalization.Native/collation.cpp

// Licensed to the .NET Foundation under one or more agreements.
// The .NET Foundation licenses this file to you under the MIT license.
// See the LICENSE file in the project root for more information.
//

#include <assert.h>
#include <pthread.h>
#include <stdint.h>
#include <vector>
#include <map>

#include "icushim.h"
#include "locale.hpp"
#include "errors.h"

const int32_t CompareOptionsIgnoreCase = 0x1;
const int32_t CompareOptionsIgnoreNonSpace = 0x2;
const int32_t CompareOptionsIgnoreSymbols = 0x4;
const int32_t CompareOptionsIgnoreKanaType = 0x8;
const int32_t CompareOptionsIgnoreWidth = 0x10;
// const int32_t CompareOptionsStringSort = 0x20000000;
// ICU's default is to use "StringSort", i.e. nonalphanumeric symbols come before alphanumeric.
// When StringSort is not specified (.NET's default), the sort order will be different between
// Windows and Unix platforms. The nonalphanumeric symbols will come after alphanumeric
// characters on Windows, but before on Unix.
// Since locale - specific string sort order can change from one version of Windows to the next,
// there is no reason to guarantee string sort order between Windows and ICU. Thus trying to 
// change ICU's default behavior here isn't really justified unless someone has a strong reason
// for !StringSort to behave differently.

typedef std::map<int32_t, UCollator*> TCollatorMap;
typedef std::pair<int32_t, UCollator*> TCollatorMapPair;

/*
 * For increased performance, we cache the UCollator objects for a locale and
 * share them across threads. This is safe (and supported in ICU) if we ensure
 * multiple threads are only ever dealing with const UCollators.
 */
typedef struct _sort_handle
{
    UCollator* regular;
    TCollatorMap collatorsPerOption;
    pthread_mutex_t collatorsLockObject;

    _sort_handle() : regular(nullptr)
    {
        int result = pthread_mutex_init(&collatorsLockObject, NULL);
        if (result != 0)
        {
            assert(false && "Unexpected pthread_mutex_init return value.");
        }
    }

} SortHandle;

// Hiragana character range
const UChar hiraganaStart = 0x3041;
const UChar hiraganaEnd = 0x309e;
const UChar hiraganaToKatakanaOffset = 0x30a1 - 0x3041;

// Mapping between half- and fullwidth characters.
// LowerChars are the characters that should sort lower than HigherChars
const UChar g_HalfFullLowerChars[] = {
    // halfwidth characters
    0x0021, 0x0022, 0x0023, 0x0024, 0x0025, 0x0026, 0x0027, 0x0028, 0x0029, 0x002a, 0x002b, 0x002c, 0x002d, 0x002e, 0x002f,
    0x0030, 0x0031, 0x0032, 0x0033, 0x0034, 0x0035, 0x0036, 0x0037, 0x0038, 0x0039, 0x003a, 0x003b, 0x003c, 0x003d, 0x003e,
    0x003f, 0x0040, 0x0041, 0x0042, 0x0043, 0x0044, 0x0045, 0x0046, 0x0047, 0x0048, 0x0049, 0x004a, 0x004b, 0x004c, 0x004d,
    0x004e, 0x004f, 0x0050, 0x0051, 0x0052, 0x0053, 0x0054, 0x0055, 0x0056, 0x0057, 0x0058, 0x0059, 0x005a, 0x005b, 0x005d,
    0x005e, 0x005f, 0x0060, 0x0061, 0x0062, 0x0063, 0x0064, 0x0065, 0x0066, 0x0067, 0x0068, 0x0069, 0x006a, 0x006b, 0x006c,
    0x006d, 0x006e, 0x006f, 0x0070, 0x0071, 0x0072, 0x0073, 0x0074, 0x0075, 0x0076, 0x0077, 0x0078, 0x0079, 0x007a, 0x007b,
    0x007c, 0x007d, 0x007e, 0x00a2, 0x00a3, 0x00ac, 0x00af, 0x00a6, 0x00a5, 0x20a9,

    // fullwidth characters
    0x3002, 0x300c, 0x300d, 0x3001, 0x30fb, 0x30f2, 0x30a1, 0x30a3, 0x30a5, 0x30a7, 0x30a9, 0x30e3, 0x30e5, 0x30e7, 0x30c3,
    0x30a2, 0x30a4, 0x30a6, 0x30a8, 0x30aa, 0x30ab, 0x30ad, 0x30af, 0x30b1, 0x30b3, 0x30b5, 0x30b7, 0x30b9, 0x30bb, 0x30bd,
    0x30bf, 0x30c1, 0x30c4, 0x30c6, 0x30c8, 0x30ca, 0x30cb, 0x30cc, 0x30cd, 0x30ce, 0x30cf, 0x30d2, 0x30d5, 0x30d8, 0x30db,
    0x30de, 0x30df, 0x30e0, 0x30e1, 0x30e2, 0x30e4, 0x30e6, 0x30e8, 0x30e9, 0x30ea, 0x30eb, 0x30ec, 0x30ed, 0x30ef, 0x30f3,
    0x3164, 0x3131, 0x3132, 0x3133, 0x3134, 0x3135, 0x3136, 0x3137, 0x3138, 0x3139, 0x313a, 0x313b, 0x313c, 0x313d, 0x313e,
    0x313f, 0x3140, 0x3141, 0x3142, 0x3143, 0x3144, 0x3145, 0x3146, 0x3147, 0x3148, 0x3149, 0x314a, 0x314b, 0x314c, 0x314d,
    0x314e, 0x314f, 0x3150, 0x3151, 0x3152, 0x3153, 0x3154, 0x3155, 0x3156, 0x3157, 0x3158, 0x3159, 0x315a, 0x315b, 0x315c,
    0x315d, 0x315e, 0x315f, 0x3160, 0x3161, 0x3162, 0x3163

};
const UChar g_HalfFullHigherChars[] = {
    // fullwidth characters
    0xff01, 0xff02, 0xff03, 0xff04, 0xff05, 0xff06, 0xff07, 0xff08, 0xff09, 0xff0a, 0xff0b, 0xff0c, 0xff0d, 0xff0e, 0xff0f,
    0xff10, 0xff11, 0xff12, 0xff13, 0xff14, 0xff15, 0xff16, 0xff17, 0xff18, 0xff19, 0xff1a, 0xff1b, 0xff1c, 0xff1d, 0xff1e,
    0xff1f, 0xff20, 0xff21, 0xff22, 0xff23, 0xff24, 0xff25, 0xff26, 0xff27, 0xff28, 0xff29, 0xff2a, 0xff2b, 0xff2c, 0xff2d,
    0xff2e, 0xff2f, 0xff30, 0xff31, 0xff32, 0xff33, 0xff34, 0xff35, 0xff36, 0xff37, 0xff38, 0xff39, 0xff3a, 0xff3b, 0xff3d,
    0xff3e, 0xff3f, 0xff40, 0xff41, 0xff42, 0xff43, 0xff44, 0xff45, 0xff46, 0xff47, 0xff48, 0xff49, 0xff4a, 0xff4b, 0xff4c,
    0xff4d, 0xff4e, 0xff4f, 0xff50, 0xff51, 0xff52, 0xff53, 0xff54, 0xff55, 0xff56, 0xff57, 0xff58, 0xff59, 0xff5a, 0xff5b,
    0xff5c, 0xff5d, 0xff5e, 0xffe0, 0xffe1, 0xffe2, 0xffe3, 0xffe4, 0xffe5, 0xffe6,

    // halfwidth characters
    0xff61, 0xff62, 0xff63, 0xff64, 0xff65, 0xff66, 0xff67, 0xff68, 0xff69, 0xff6a, 0xff6b, 0xff6c, 0xff6d, 0xff6e, 0xff6f,
    0xff71, 0xff72, 0xff73, 0xff74, 0xff75, 0xff76, 0xff77, 0xff78, 0xff79, 0xff7a, 0xff7b, 0xff7c, 0xff7d, 0xff7e, 0xff7f,
    0xff80, 0xff81, 0xff82, 0xff83, 0xff84, 0xff85, 0xff86, 0xff87, 0xff88, 0xff89, 0xff8a, 0xff8b, 0xff8c, 0xff8d, 0xff8e,
    0xff8f, 0xff90, 0xff91, 0xff92, 0xff93, 0xff94, 0xff95, 0xff96, 0xff97, 0xff98, 0xff99, 0xff9a, 0xff9b, 0xff9c, 0xff9d,
    0xffa0, 0xffa1, 0xffa2, 0xffa3, 0xffa4, 0xffa5, 0xffa6, 0xffa7, 0xffa8, 0xffa9, 0xffaa, 0xffab, 0xffac, 0xffad, 0xffae,
    0xffaf, 0xffb0, 0xffb1, 0xffb2, 0xffb3, 0xffb4, 0xffb5, 0xffb6, 0xffb7, 0xffb8, 0xffb9, 0xffba, 0xffbb, 0xffbc, 0xffbd,
    0xffbe, 0xffc2, 0xffc3, 0xffc4, 0xffc5, 0xffc6, 0xffc7, 0xffca, 0xffcb, 0xffcc, 0xffcd, 0xffce, 0xffcf, 0xffd2, 0xffd3,
    0xffd4, 0xffd5, 0xffd6, 0xffd7, 0xffda, 0xffdb, 0xffdc
};
const int32_t g_HalfFullCharsLength = (sizeof(g_HalfFullHigherChars) / sizeof(UChar));

/*
ICU collation rules reserve any punctuation and whitespace characters for use in the syntax.
Thus, to use these characters in a rule, they need to be escaped.

This rule was taken from http://www.unicode.org/reports/tr35/tr35-collation.html#Rules.
*/
bool NeedsEscape(UChar character)
{
    return ((0x21 <= character && character <= 0x2f)
        || (0x3a <= character && character <= 0x40)
        || (0x5b <= character && character <= 0x60)
        || (0x7b <= character && character <= 0x7e));
}

/*
Gets a value indicating whether the HalfFullHigher character is considered a symbol character.

The ranges specified here are only checking for characters in the g_HalfFullHigherChars list and needs
to be combined with NeedsEscape above with the g_HalfFullLowerChars for all the IgnoreSymbols characters.
This is done so we can use range checks instead of comparing individual characters.

These ranges were obtained by running the above characters through .NET CompareInfo.Compare
with CompareOptions.IgnoreSymbols on Windows.
*/
bool IsHalfFullHigherSymbol(UChar character)
{
    return (0xffe0 <= character && character <= 0xffe6)
        || (0xff61 <= character && character <= 0xff65);
}

/*
Gets a string of custom collation rules, if necessary.

Since the CompareOptions flags don't map 1:1 with ICU default functionality, we need to fall back to using
custom rules in order to support IgnoreKanaType and IgnoreWidth CompareOptions correctly.
*/
std::vector<UChar> GetCustomRules(int32_t options, UColAttributeValue strength, bool isIgnoreSymbols)
{
    bool isIgnoreKanaType = (options & CompareOptionsIgnoreKanaType) == CompareOptionsIgnoreKanaType;
    bool isIgnoreWidth = (options & CompareOptionsIgnoreWidth) == CompareOptionsIgnoreWidth;

    // kana differs at the tertiary level
    bool needsIgnoreKanaTypeCustomRule = isIgnoreKanaType && strength >= UCOL_TERTIARY;
    bool needsNotIgnoreKanaTypeCustomRule = !isIgnoreKanaType && strength < UCOL_TERTIARY;

    // character width differs at the tertiary level
    bool needsIgnoreWidthCustomRule = isIgnoreWidth && strength >= UCOL_TERTIARY;
    bool needsNotIgnoreWidthCustomRule = !isIgnoreWidth && strength < UCOL_TERTIARY;

    std::vector<UChar> customRules;
    if (needsIgnoreKanaTypeCustomRule || needsNotIgnoreKanaTypeCustomRule || needsIgnoreWidthCustomRule || needsNotIgnoreWidthCustomRule)
    {
        // If we need to create customRules, the KanaType custom rule will be 88 kana characters * 4 = 352 chars long
        // and the Width custom rule will be at least 215 halfwidth characters * 4 = 860 chars long.
        // Use 512 as the starting size, so the customRules won't have to grow if we are just
        // doing the KanaType custom rule.
        customRules.reserve(512);

        if (needsIgnoreKanaTypeCustomRule || needsNotIgnoreKanaTypeCustomRule)
        {
            UChar compareChar = needsIgnoreKanaTypeCustomRule ? '=' : '<';

            for (UChar hiraganaChar = hiraganaStart; hiraganaChar <= hiraganaEnd; hiraganaChar++)
            {
                // Hiragana is the range 3041 to 3096 & 309D & 309E
                if (hiraganaChar <= 0x3096 || hiraganaChar >= 0x309D) // characters between 3096 and 309D are not mapped to katakana
                {
                    customRules.push_back('&');
                    customRules.push_back(hiraganaChar);
                    customRules.push_back(compareChar);
                    customRules.push_back(hiraganaChar + hiraganaToKatakanaOffset);
                }
            }
        }

        if (needsIgnoreWidthCustomRule || needsNotIgnoreWidthCustomRule)
        {
            UChar compareChar = needsIgnoreWidthCustomRule ? '=' : '<';

            UChar lowerChar;
            UChar higherChar;
            bool needsEscape;
            for (int i = 0; i < g_HalfFullCharsLength; i++)
            {
                lowerChar = g_HalfFullLowerChars[i];
                higherChar = g_HalfFullHigherChars[i];
                // the lower chars need to be checked for escaping since they contain ASCII punctuation
                needsEscape = NeedsEscape(lowerChar);

                // when isIgnoreSymbols is true and we are not ignoring width, check to see if
                // this character is a symbol, and if so skip it
                if (!(isIgnoreSymbols && needsNotIgnoreWidthCustomRule && (needsEscape || IsHalfFullHigherSymbol(higherChar))))
                {
                    customRules.push_back('&');

                    if (needsEscape)
                    {
                        customRules.push_back('\\');
                    }
                    customRules.push_back(lowerChar);

                    customRules.push_back(compareChar);
                    customRules.push_back(higherChar);
                }
            }
        }
    }

    return customRules;
}

/*
 * The collator returned by this function is owned by the callee and must be
 * closed when this method returns with a U_SUCCESS UErrorCode.
 *
 * On error, the return value is undefined.
 */
UCollator* CloneCollatorWithOptions(const UCollator* pCollator, int32_t options, UErrorCode* pErr)
{
    UColAttributeValue strength = ucol_getStrength(pCollator);

    bool isIgnoreCase = (options & CompareOptionsIgnoreCase) == CompareOptionsIgnoreCase;
    bool isIgnoreNonSpace = (options & CompareOptionsIgnoreNonSpace) == CompareOptionsIgnoreNonSpace;
    bool isIgnoreSymbols = (options & CompareOptionsIgnoreSymbols) == CompareOptionsIgnoreSymbols;

    if (isIgnoreCase)
    {
        strength = UCOL_SECONDARY;
    }

    if (isIgnoreNonSpace)
    {
        strength = UCOL_PRIMARY;
    }

    UCollator* pClonedCollator;
    std::vector<UChar> customRules = GetCustomRules(options, strength, isIgnoreSymbols);
    if (customRules.empty())
    {
        pClonedCollator = ucol_safeClone(pCollator, nullptr, nullptr, pErr);
    }
    else
    {
        int32_t customRuleLength = customRules.size();

        int32_t localeRulesLength;
        const UChar* localeRules = ucol_getRules(pCollator, &localeRulesLength);

        std::vector<UChar> completeRules(localeRulesLength + customRuleLength + 1, '\0');
        for (int i = 0; i < localeRulesLength; i++)
        {
            completeRules[i] = localeRules[i];
        }
        for (int i = 0; i < customRuleLength; i++)
        {
            completeRules[localeRulesLength + i] = customRules[i];
        }

        pClonedCollator = ucol_openRules(completeRules.data(), completeRules.size(), UCOL_DEFAULT, strength, NULL, pErr);
    }

    if (isIgnoreSymbols)
    {
        ucol_setAttribute(pClonedCollator, UCOL_ALTERNATE_HANDLING, UCOL_SHIFTED, pErr);

        // by default, ICU alternate shifted handling only ignores punctuation, but
        // IgnoreSymbols needs symbols and currency as well, so change the "variable top"
        // to include all symbols and currency
#if HAVE_SET_MAX_VARIABLE
        ucol_setMaxVariable(pClonedCollator, UCOL_REORDER_CODE_CURRENCY, pErr);
#else
        // 0xfdfc is the last currency character before the first digit character
        // in http://source.icu-project.org/repos/icu/icu/tags/release-52-1/source/data/unidata/FractionalUCA.txt
        const UChar ignoreSymbolsVariableTop[] = { 0xfdfc };
        ucol_setVariableTop(pClonedCollator, ignoreSymbolsVariableTop, 1, pErr);
#endif
    }

    ucol_setAttribute(pClonedCollator, UCOL_STRENGTH, strength, pErr);

    // casing differs at the tertiary level.
    // if strength is less than tertiary, but we are not ignoring case, then we need to flip CASE_LEVEL On
    if (strength < UCOL_TERTIARY && !isIgnoreCase)
    {
        ucol_setAttribute(pClonedCollator, UCOL_CASE_LEVEL, UCOL_ON, pErr);
    }

    return pClonedCollator;
}

// Returns TRUE if all the collation elements in str are completely ignorable
bool CanIgnoreAllCollationElements(const UCollator* pColl, const UChar* lpStr, int32_t length)
{
    bool result = false;
    UErrorCode err = U_ZERO_ERROR;
    UCollationElements* pCollElem = ucol_openElements(pColl, lpStr, length, &err);

    if (U_SUCCESS(err))
    {
        int32_t curCollElem = UCOL_NULLORDER;

        result = true;

        while ((curCollElem = ucol_next(pCollElem, &err)) != UCOL_NULLORDER)
        {
            if (curCollElem != 0)
            {
                result = false;
                break;
            }
        }

        if (U_FAILURE(err))
        {
            result = false;
        }

        ucol_closeElements(pCollElem);
    }

    return result;

}

extern "C" int32_t GlobalizationNative_GetSortVersion()
{
    // we didn't use UCOL_TAILORINGS_VERSION because it is deprecated in ICU v5
    return UCOL_RUNTIME_VERSION << 16 | UCOL_BUILDER_VERSION;
}

extern "C" ResultCode GlobalizationNative_GetSortHandle(const char* lpLocaleName, SortHandle** ppSortHandle)
{
    assert(ppSortHandle != nullptr);
    
    *ppSortHandle = new (std::nothrow) SortHandle();
    if ((*ppSortHandle) == nullptr)
    {
        return GetResultCode(U_MEMORY_ALLOCATION_ERROR);
    }

    UErrorCode err = U_ZERO_ERROR;

    (*ppSortHandle)->regular = ucol_open(lpLocaleName, &err);

    if (U_FAILURE(err))
    {
        if ((*ppSortHandle)->regular != nullptr)
            ucol_close((*ppSortHandle)->regular);

        delete (*ppSortHandle);
        (*ppSortHandle) = nullptr;
    }

    return GetResultCode(err);
}

extern "C" void GlobalizationNative_CloseSortHandle(SortHandle* pSortHandle)
{
    ucol_close(pSortHandle->regular);
    pSortHandle->regular = nullptr;

    TCollatorMap::iterator it;
    for (it = pSortHandle->collatorsPerOption.begin(); it != pSortHandle->collatorsPerOption.end(); it++)
    {
        ucol_close(it->second);
    }

    pthread_mutex_destroy(&pSortHandle->collatorsLockObject);

    delete pSortHandle;
}

const UCollator* GetCollatorFromSortHandle(SortHandle* pSortHandle, int32_t options, UErrorCode* pErr)
{
    UCollator* pCollator;
    if (options == 0)
    {
        pCollator = pSortHandle->regular;
    }
    else
    {
        int lockResult = pthread_mutex_lock(&pSortHandle->collatorsLockObject);
        if (lockResult != 0)
        {
            assert(false && "Unexpected pthread_mutex_lock return value.");
        }

        TCollatorMap::iterator entry = pSortHandle->collatorsPerOption.find(options);
        if (entry == pSortHandle->collatorsPerOption.end())
        {
            pCollator = CloneCollatorWithOptions(pSortHandle->regular, options, pErr);
            pSortHandle->collatorsPerOption[options] = pCollator;
        }
        else
        {
            pCollator = entry->second;
        }

        pthread_mutex_unlock(&pSortHandle->collatorsLockObject);
    }

    return pCollator;
}

/*
Function:
CompareString
*/
extern "C" int32_t GlobalizationNative_CompareString(
    SortHandle* pSortHandle, const UChar* lpStr1, int32_t cwStr1Length, const UChar* lpStr2, int32_t cwStr2Length, int32_t options)
{
    static_assert(UCOL_EQUAL == 0, "managed side requires 0 for equal strings");
    static_assert(UCOL_LESS < 0, "managed side requires less than zero for a < b");
    static_assert(UCOL_GREATER > 0, "managed side requires greater than zero for a > b");

    UCollationResult result = UCOL_EQUAL;
    UErrorCode err = U_ZERO_ERROR;
    const UCollator* pColl = GetCollatorFromSortHandle(pSortHandle, options, &err);

    if (U_SUCCESS(err))
    {
        result = ucol_strcoll(pColl, lpStr1, cwStr1Length, lpStr2, cwStr2Length);
    }

    return result;
}

/*
Function:
IndexOf
*/
extern "C" int32_t GlobalizationNative_IndexOf(
                        SortHandle* pSortHandle, 
                        const UChar* lpTarget, 
                        int32_t cwTargetLength, 
                        const UChar* lpSource, 
                        int32_t cwSourceLength, 
                        int32_t options)
{
    static_assert(USEARCH_DONE == -1, "managed side requires -1 for not found");

    int32_t result = USEARCH_DONE;
    UErrorCode err = U_ZERO_ERROR;
    const UCollator* pColl = GetCollatorFromSortHandle(pSortHandle, options, &err);

    if (U_SUCCESS(err))
    {
        UStringSearch* pSearch = usearch_openFromCollator(lpTarget, cwTargetLength, lpSource, cwSourceLength, pColl, nullptr, &err);

        if (U_SUCCESS(err))
        {
            result = usearch_first(pSearch, &err);
            usearch_close(pSearch);
        }
    }

    return result;
}

/*
Function:
LastIndexOf
*/
extern "C" int32_t GlobalizationNative_LastIndexOf(
                        SortHandle* pSortHandle, 
                        const UChar* lpTarget, 
                        int32_t cwTargetLength, 
                        const UChar* lpSource, 
                        int32_t cwSourceLength, 
                        int32_t options)
{
    static_assert(USEARCH_DONE == -1, "managed side requires -1 for not found");

    int32_t result = USEARCH_DONE;
    UErrorCode err = U_ZERO_ERROR;
    const UCollator* pColl = GetCollatorFromSortHandle(pSortHandle, options, &err);

    if (U_SUCCESS(err))
    {
        UStringSearch* pSearch = usearch_openFromCollator(lpTarget, cwTargetLength, lpSource, cwSourceLength, pColl, nullptr, &err);

        if (U_SUCCESS(err))
        {
            result = usearch_last(pSearch, &err);
            usearch_close(pSearch);
        }
    }

    return result;
}

/*
Static Function:
AreEqualOrdinalIgnoreCase
*/
static bool AreEqualOrdinalIgnoreCase(UChar32 one, UChar32 two)
{
    // Return whether the two characters are identical or would be identical if they were upper-cased.

    if (one == two)
    {
        return true;
    }

    if (one == 0x0131 || two == 0x0131)
    {
        // On Windows with InvariantCulture, the LATIN SMALL LETTER DOTLESS I (U+0131)
        // capitalizes to itself, whereas with ICU it capitalizes to LATIN CAPITAL LETTER I (U+0049).
        // We special case it to match the Windows invariant behavior.
        return false;
    }

    return u_toupper(one) == u_toupper(two);
}

/*
Function:
IndexOfOrdinalIgnoreCase
*/
extern "C" int32_t GlobalizationNative_IndexOfOrdinalIgnoreCase(
    const UChar* lpTarget, int32_t cwTargetLength, const UChar* lpSource, int32_t cwSourceLength, int32_t findLast)
{
    int32_t result = -1;

    int32_t endIndex = cwSourceLength - cwTargetLength;
    assert(endIndex >= 0);

    int32_t i = 0;
    while (i <= endIndex)
    {
        int32_t srcIdx = i, trgIdx = 0;
        const UChar *src = lpSource, *trg = lpTarget;
        UChar32 srcCodepoint, trgCodepoint;

        bool match = true;
        while (trgIdx < cwTargetLength)
        {
            U16_NEXT(src, srcIdx, cwSourceLength, srcCodepoint);
            U16_NEXT(trg, trgIdx, cwTargetLength, trgCodepoint);
            if (!AreEqualOrdinalIgnoreCase(srcCodepoint, trgCodepoint))
            {
                match = false; 
                break;
            }
        }

        if (match) 
        {
            result = i;
            if (!findLast)
            {
                break;
            }
        }

        U16_FWD_1(lpSource, i, cwSourceLength);
    }

    return result;
}

/*
 Return value is a "Win32 BOOL" (1 = true, 0 = false)
 */
extern "C" int32_t GlobalizationNative_StartsWith(
                        SortHandle* pSortHandle, 
                        const UChar* lpTarget, 
                        int32_t cwTargetLength, 
                        const UChar* lpSource, 
                        int32_t cwSourceLength, 
                        int32_t options)
{
    int32_t result = FALSE;
    UErrorCode err = U_ZERO_ERROR;
    const UCollator* pColl = GetCollatorFromSortHandle(pSortHandle, options, &err);

    if (U_SUCCESS(err))
    {
        UStringSearch* pSearch = usearch_openFromCollator(lpTarget, cwTargetLength, lpSource, cwSourceLength, pColl, nullptr, &err);
        int32_t idx = USEARCH_DONE;

        if (U_SUCCESS(err))
        {
            idx = usearch_first(pSearch, &err);
            if (idx != USEARCH_DONE)
            {
                if (idx == 0)
                {
                    result = TRUE;
                }
                else
                {
                    result = CanIgnoreAllCollationElements(pColl, lpSource, idx);
                }
            }

            usearch_close(pSearch);
        }
    }

    return result;
}

/*
 Return value is a "Win32 BOOL" (1 = true, 0 = false)
 */
extern "C" int32_t GlobalizationNative_EndsWith(
                        SortHandle* pSortHandle, 
                        const UChar* lpTarget, 
                        int32_t cwTargetLength, 
                        const UChar* lpSource, 
                        int32_t cwSourceLength, 
                        int32_t options)
{
    int32_t result = FALSE;
    UErrorCode err = U_ZERO_ERROR;
    const UCollator* pColl = GetCollatorFromSortHandle(pSortHandle, options, &err);

    if (U_SUCCESS(err))
    {
        UStringSearch* pSearch = usearch_openFromCollator(lpTarget, cwTargetLength, lpSource, cwSourceLength, pColl, nullptr, &err);
        int32_t idx = USEARCH_DONE;

        if (U_SUCCESS(err))
        {
            idx = usearch_last(pSearch, &err);

            if (idx != USEARCH_DONE)
            {
                if ((idx + usearch_getMatchedLength(pSearch)) == cwSourceLength)
                {
                    result = TRUE;
                }
                else
                {
                    int32_t matchEnd = idx + usearch_getMatchedLength(pSearch);
                    int32_t remainingStringLength = cwSourceLength - matchEnd;

                    result = CanIgnoreAllCollationElements(pColl, lpSource + matchEnd, remainingStringLength);
                }
            }

            usearch_close(pSearch);
        }
    }

    return result;
}

extern "C" int32_t GlobalizationNative_GetSortKey(
                        SortHandle* pSortHandle, 
                        const UChar* lpStr, 
                        int32_t cwStrLength, 
                        uint8_t* sortKey, 
                        int32_t cbSortKeyLength, 
                        int32_t options)
{
    UErrorCode err = U_ZERO_ERROR;
    const UCollator* pColl = GetCollatorFromSortHandle(pSortHandle, options, &err);
    int32_t result = 0;

    if (U_SUCCESS(err))
    {
        result = ucol_getSortKey(pColl, lpStr, cwStrLength, sortKey, cbSortKeyLength);
    }

    return result;
}

extern "C" int32_t GlobalizationNative_CompareStringOrdinalIgnoreCase(
    const UChar* lpStr1, int32_t cwStr1Length, const UChar* lpStr2, int32_t cwStr2Length)
{
    assert(lpStr1 != nullptr);
    assert(cwStr1Length >= 0);
    assert(lpStr2 != nullptr);
    assert(cwStr2Length >= 0);

    int32_t str1Idx = 0;
    int32_t str2Idx = 0;

    while (str1Idx < cwStr1Length && str2Idx < cwStr2Length)
    {
        UChar32 str1Codepoint;
        UChar32 str2Codepoint;

        U16_NEXT(lpStr1, str1Idx, cwStr1Length, str1Codepoint);
        U16_NEXT(lpStr2, str2Idx, cwStr2Length, str2Codepoint);

        if (str1Codepoint != str2Codepoint && u_toupper(str1Codepoint) != u_toupper(str2Codepoint))
        {
            return str1Codepoint < str2Codepoint ? -1 : 1;
        }
    }

    if (cwStr1Length < cwStr2Length)
    {
        return -1;
    }

    if (cwStr2Length < cwStr1Length)
    {
        return 1;
    }

    return 0;
}