/* ****************************************************************************** * Copyright (C) 1998-2001, International Business Machines Corporation and * * others. All Rights Reserved. * ****************************************************************************** */ #include "unicode/uchriter.h" #include "uhash.h" const char UCharCharacterIterator::fgClassID = 0; UCharCharacterIterator::UCharCharacterIterator() : CharacterIterator(), text(0) { // never default construct! } UCharCharacterIterator::UCharCharacterIterator(const UChar* textPtr, int32_t length) : CharacterIterator(textPtr != 0 ? length : 0), text(textPtr) { } UCharCharacterIterator::UCharCharacterIterator(const UChar* textPtr, int32_t length, UTextOffset position) : CharacterIterator(textPtr != 0 ? length : 0, position), text(textPtr) { } UCharCharacterIterator::UCharCharacterIterator(const UChar* textPtr, int32_t length, UTextOffset textBegin, UTextOffset textEnd, UTextOffset position) : CharacterIterator(textPtr != 0 ? length : 0, textBegin, textEnd, position), text(textPtr) { } UCharCharacterIterator::UCharCharacterIterator(const UCharCharacterIterator& that) : CharacterIterator(that), text(that.text) { } UCharCharacterIterator& UCharCharacterIterator::operator=(const UCharCharacterIterator& that) { CharacterIterator::operator=(that); text = that.text; return *this; } UCharCharacterIterator::~UCharCharacterIterator() { } UBool UCharCharacterIterator::operator==(const ForwardCharacterIterator& that) const { if (this == &that) { return TRUE; } if (getDynamicClassID() != that.getDynamicClassID()) { return FALSE; } UCharCharacterIterator& realThat = (UCharCharacterIterator&)that; return text == realThat.text && textLength == realThat.textLength && pos == realThat.pos && begin == realThat.begin && end == realThat.end; } int32_t UCharCharacterIterator::hashCode() const { return uhash_hashUCharsN(text, textLength) ^ pos ^ begin ^ end; } CharacterIterator* UCharCharacterIterator::clone() const { return new UCharCharacterIterator(*this); } UChar UCharCharacterIterator::first() { pos = begin; if(pos < end) { return text[pos]; } else { return DONE; } } UChar UCharCharacterIterator::firstPostInc() { pos = begin; if(pos < end) { return text[pos++]; } else { return DONE; } } UChar UCharCharacterIterator::last() { pos = end; if(pos > begin) { return text[--pos]; } else { return DONE; } } UChar UCharCharacterIterator::setIndex(UTextOffset position) { if(position < begin) { pos = begin; } else if(position > end) { pos = end; } else { pos = position; } if(pos < end) { return text[pos]; } else { return DONE; } } UChar UCharCharacterIterator::current() const { if (pos >= begin && pos < end) { return text[pos]; } else { return DONE; } } UChar UCharCharacterIterator::next() { if (pos + 1 < end) { return text[++pos]; } else { /* make current() return DONE */ pos = end; return DONE; } } UChar UCharCharacterIterator::nextPostInc() { if (pos < end) { return text[pos++]; } else { return DONE; } } UBool UCharCharacterIterator::hasNext() { return (UBool)(pos < end ? TRUE : FALSE); } UChar UCharCharacterIterator::previous() { if (pos > begin) { return text[--pos]; } else { return DONE; } } UBool UCharCharacterIterator::hasPrevious() { return (UBool)(pos > begin ? TRUE : FALSE); } UChar32 UCharCharacterIterator::first32() { pos = begin; if(pos < end) { UTextOffset i = pos; UChar32 c; UTF_NEXT_CHAR(text, i, end, c); return c; } else { return DONE; } } UChar32 UCharCharacterIterator::first32PostInc() { pos = begin; if(pos < end) { UChar32 c; UTF_NEXT_CHAR(text, pos, end, c); return c; } else { return DONE; } } UChar32 UCharCharacterIterator::last32() { pos = end; if(pos > begin) { UChar32 c; UTF_PREV_CHAR(text, begin, pos, c); return c; } else { return DONE; } } UChar32 UCharCharacterIterator::setIndex32(UTextOffset position) { if(position < begin) { position = begin; } else if(position > end) { position = end; } if(position < end) { UTF_SET_CHAR_START(text, begin, position); UTextOffset i = this->pos = position; UChar32 c; UTF_NEXT_CHAR(text, i, end, c); return c; } else { this->pos = position; return DONE; } } UChar32 UCharCharacterIterator::current32() const { if (pos >= begin && pos < end) { UChar32 c; UTF_GET_CHAR(text, begin, pos, end, c); return c; } else { return DONE; } } UChar32 UCharCharacterIterator::next32() { if (pos < end) { UTF_FWD_1(text, pos, end); if(pos < end) { UTextOffset i = pos; UChar32 c; UTF_NEXT_CHAR(text, i, end, c); return c; } } /* make current() return DONE */ pos = end; return DONE; } UChar32 UCharCharacterIterator::next32PostInc() { if (pos < end) { UChar32 c; UTF_NEXT_CHAR(text, pos, end, c); return c; } else { return DONE; } } UChar32 UCharCharacterIterator::previous32() { if (pos > begin) { UChar32 c; UTF_PREV_CHAR(text, begin, pos, c); return c; } else { return DONE; } } UTextOffset UCharCharacterIterator::move(int32_t delta, CharacterIterator::EOrigin origin) { switch(origin) { case kStart: pos = begin + delta; break; case kCurrent: pos += delta; break; case kEnd: pos = end + delta; break; default: break; } if(pos < begin) { pos = begin; } else if(pos > end) { pos = end; } return pos; } UTextOffset UCharCharacterIterator::move32(int32_t delta, CharacterIterator::EOrigin origin) { // this implementation relies on the "safe" version of the UTF macros // (or the trustworthiness of the caller) switch(origin) { case kStart: pos = begin; if(delta > 0) { UTF_FWD_N(text, pos, end, delta); } break; case kCurrent: if(delta > 0) { UTF_FWD_N(text, pos, end, delta); } else { UTF_BACK_N(text, begin, pos, -delta); } break; case kEnd: pos = end; if(delta < 0) { UTF_BACK_N(text, begin, pos, -delta); } break; default: break; } return pos; } void UCharCharacterIterator::setText(const UChar* newText, int32_t newTextLength) { text = newText; if(newText == 0 || newTextLength < 0) { newTextLength = 0; } end = textLength = newTextLength; pos = begin = 0; } void UCharCharacterIterator::getText(UnicodeString& result) { result = UnicodeString(text, textLength); }