/* ********************************************************************** * Copyright (c) 2003-2007, International Business Machines * Corporation and others. All Rights Reserved. ********************************************************************** * Author: Alan Liu * Created: September 24 2003 * Since: ICU 2.8 ********************************************************************** */ #include "ruleiter.h" #include "unicode/parsepos.h" #include "unicode/unistr.h" #include "unicode/symtable.h" #include "util.h" /* \U87654321 or \ud800\udc00 */ #define MAX_U_NOTATION_LEN 12 U_NAMESPACE_BEGIN RuleCharacterIterator::RuleCharacterIterator(const UnicodeString& theText, const SymbolTable* theSym, ParsePosition& thePos) : text(theText), pos(thePos), sym(theSym), buf(0), bufPos(0) {} UBool RuleCharacterIterator::atEnd() const { return buf == 0 && pos.getIndex() == text.length(); } UChar32 RuleCharacterIterator::next(int32_t options, UBool& isEscaped, UErrorCode& ec) { if (U_FAILURE(ec)) return DONE; UChar32 c = DONE; isEscaped = FALSE; for (;;) { c = _current(); _advance(UTF_CHAR_LENGTH(c)); if (c == SymbolTable::SYMBOL_REF && buf == 0 && (options & PARSE_VARIABLES) != 0 && sym != 0) { UnicodeString name = sym->parseReference(text, pos, text.length()); // If name is empty there was an isolated SYMBOL_REF; // return it. Caller must be prepared for this. if (name.length() == 0) { break; } bufPos = 0; buf = sym->lookup(name); if (buf == 0) { ec = U_UNDEFINED_VARIABLE; return DONE; } // Handle empty variable value if (buf->length() == 0) { buf = 0; } continue; } if ((options & SKIP_WHITESPACE) != 0 && uprv_isRuleWhiteSpace(c)) { continue; } if (c == 0x5C /*'\\'*/ && (options & PARSE_ESCAPES) != 0) { UnicodeString tempEscape; int32_t offset = 0; c = lookahead(tempEscape, MAX_U_NOTATION_LEN).unescapeAt(offset); jumpahead(offset); isEscaped = TRUE; if (c < 0) { ec = U_MALFORMED_UNICODE_ESCAPE; return DONE; } } break; } return c; } void RuleCharacterIterator::getPos(RuleCharacterIterator::Pos& p) const { p.buf = buf; p.pos = pos.getIndex(); p.bufPos = bufPos; } void RuleCharacterIterator::setPos(const RuleCharacterIterator::Pos& p) { buf = p.buf; pos.setIndex(p.pos); bufPos = p.bufPos; } void RuleCharacterIterator::skipIgnored(int32_t options) { if ((options & SKIP_WHITESPACE) != 0) { for (;;) { UChar32 a = _current(); if (!uprv_isRuleWhiteSpace(a)) break; _advance(UTF_CHAR_LENGTH(a)); } } } UnicodeString& RuleCharacterIterator::lookahead(UnicodeString& result, int32_t maxLookAhead) const { if (maxLookAhead < 0) { maxLookAhead = 0x7FFFFFFF; } if (buf != 0) { buf->extract(bufPos, maxLookAhead, result); } else { text.extract(pos.getIndex(), maxLookAhead, result); } return result; } void RuleCharacterIterator::jumpahead(int32_t count) { _advance(count); } /* UnicodeString& RuleCharacterIterator::toString(UnicodeString& result) const { int32_t b = pos.getIndex(); text.extract(0, b, result); return result.append((UChar) 0x7C).append(text, b, 0x7FFFFFFF); // Insert '|' at index } */ UChar32 RuleCharacterIterator::_current() const { if (buf != 0) { return buf->char32At(bufPos); } else { int i = pos.getIndex(); return (i < text.length()) ? text.char32At(i) : (UChar32)DONE; } } void RuleCharacterIterator::_advance(int32_t count) { if (buf != 0) { bufPos += count; if (bufPos == buf->length()) { buf = 0; } } else { pos.setIndex(pos.getIndex() + count); if (pos.getIndex() > text.length()) { pos.setIndex(text.length()); } } } U_NAMESPACE_END //eof