/// <summary>
/// Implements <see cref="Transliterator.HandleTransliterate(IReplaceable, TransliterationPosition, bool)"/>
/// </summary>
protected override void HandleTransliterate(IReplaceable text,
TransliterationPosition offsets, bool isIncremental)
{
lock (syncLock)
{
if (csp == null)
{
return;
}
if (offsets.Start >= offsets.Limit)
{
return;
}
iter.SetText(text);
result.Length = 0;
int c, delta;
// Walk through original string
// If there is a case change, modify corresponding position in replaceable
iter.SetIndex(offsets.Start);
iter.SetLimit(offsets.Limit);
iter.SetContextLimits(offsets.ContextStart, offsets.ContextLimit);
while ((c = iter.NextCaseMapCP()) >= 0)
{
c = csp.ToFullFolding(c, result, 0); // toFullFolding(int c, StringBuffer out, int options)
if (iter.DidReachLimit && isIncremental)
{
// the case mapping function tried to look beyond the context limit
// wait for more input
offsets.Start = iter.CaseMapCPStart;
return;
}
/* decode the result */
if (c < 0)
{
/* c mapped to itself, no change */
continue;
}
else if (c <= UCaseProperties.MaxStringLength)
{
/* replace by the mapping string */
delta = iter.Replace(result.ToString());
result.Length = 0;
}
else
{
/* replace by single-code point mapping */
delta = iter.Replace(UTF16.ValueOf(c));
}
if (delta != 0)
{
offsets.Limit += delta;
offsets.ContextLimit += delta;
}
}
offsets.Start = offsets.Limit;
}
}
/// <summary>
/// Implements <see cref="Transliterator.HandleTransliterate(IReplaceable, TransliterationPosition, bool)"/>.
/// </summary>
protected override void HandleTransliterate(IReplaceable text,
TransliterationPosition offsets, bool isIncremental)
{
lock (this)
{
// TODO reimplement, see ustrcase.c
// using a real word break iterator
// instead of just looking for a transition between cased and uncased characters
// call CaseMapTransliterator::handleTransliterate() for lowercasing? (set fMap)
// needs to take isIncremental into account because case mappings are context-sensitive
// also detect when lowercasing function did not finish because of context
if (offsets.Start >= offsets.Limit)
{
return;
}
// case type: >0 cased (UCaseProps.LOWER etc.) ==0 uncased <0 case-ignorable
CaseType type;
// Our mode; we are either converting letter toTitle or
// toLower.
bool doTitle = true;
// Determine if there is a preceding context of cased case-ignorable*,
// in which case we want to start in toLower mode. If the
// prior context is anything else (including empty) then start
// in toTitle mode.
int c, start;
for (start = offsets.Start - 1; start >= offsets.ContextStart; start -= UTF16.GetCharCount(c))
{
c = text.Char32At(start);
// ICU4N: Simplfied version of GetTypeOrIgnorable
if (!csp.IsCaseIgnorable(c, out type))
{
if (type > 0)
{ // cased
doTitle = false;
break;
}
else if (type == 0)
{ // uncased but not ignorable
break;
}
}
// else case-ignorable: continue
}
// Convert things after a cased character toLower; things
// after a uncased, non-case-ignorable character toTitle. Case-ignorable
// characters are copied directly and do not change the mode.
iter.SetText(text);
iter.SetIndex(offsets.Start);
iter.SetLimit(offsets.Limit);
iter.SetContextLimits(offsets.ContextStart, offsets.ContextLimit);
result.Length = 0;
// Walk through original string
// If there is a case change, modify corresponding position in replaceable
int delta;
while ((c = iter.NextCaseMapCP()) >= 0)
{
// ICU4N: Simplfied version of GetTypeOrIgnorable
if (!csp.IsCaseIgnorable(c, out type))
{// not case-ignorable
if (doTitle)
{
c = csp.ToFullTitle(c, iter, result, caseLocale);
}
else
{
c = csp.ToFullLower(c, iter, result, caseLocale);
}
doTitle = type == CaseType.None; // doTitle=isUncased
if (iter.DidReachLimit && isIncremental)
{
// the case mapping function tried to look beyond the context limit
// wait for more input
offsets.Start = iter.CaseMapCPStart;
return;
}
/* decode the result */
if (c < 0)
{
/* c mapped to itself, no change */
continue;
}
else if (c <= UCaseProperties.MaxStringLength)
{
/* replace by the mapping string */
delta = iter.Replace(result.ToString());
result.Length = 0;
}
else
{
/* replace by single-code point mapping */
delta = iter.Replace(UTF16.ValueOf(c));
}
if (delta != 0)
{
offsets.Limit += delta;
offsets.ContextLimit += delta;
}
}
}
offsets.Start = offsets.Limit;
}
}