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skia / external / github.com / unicode-org / icu / refs/tags/icu-release-2-4-d01 / . / source / i18n / unifltlg.cpp
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/*
**********************************************************************
* Copyright (C) 1999-2001, International Business Machines
* Corporation and others. All Rights Reserved.
**********************************************************************
* Date Name Description
* 11/17/99 aliu Creation.
**********************************************************************
*/
//////////////////////////////////////////////////////////////
//
// NOTICE - Do not use
//
// This entire file has been deprecated as of ICU 2.4.
//
//////////////////////////////////////////////////////////////
#include "unicode/utypes.h"
#if !UCONFIG_NO_TRANSLITERATION
#include "unicode/unifltlg.h"
#include "unicode/unifilt.h"
U_NAMESPACE_BEGIN
/**
* This class stubs out UnicodeMatcher API that we don't implement.
*/
class _UF: public UnicodeFilter {
// Stubs
virtual UnicodeString& toPattern(UnicodeString& result,
UBool escapeUnprintable) const {
return result;
}
virtual UBool matchesIndexValue(uint8_t v) const {
return FALSE;
}
virtual void addMatchSetTo(UnicodeSet& toUnionTo) const {}
};
/**
* A NullFilter always returns a fixed value, either TRUE or FALSE.
* A filter value of 0 (that is, a UnicodeFilter* f, where f == 0)
* is equivalent to a NullFilter(TRUE).
*/
class NullFilter : public _UF {
UBool result;
public:
NullFilter(UBool r) { result = r; }
NullFilter(const NullFilter& f) : _UF(f) { result = f.result; }
virtual ~NullFilter() {}
virtual UBool contains(UChar32 /*c*/) const { return result; }
virtual UnicodeFunctor* clone() const { return new NullFilter(*this); }
};
class UnicodeNotFilter : public _UF {
UnicodeFilter* filt;
public:
UnicodeNotFilter(UnicodeFilter* adopted);
UnicodeNotFilter(const UnicodeNotFilter&);
virtual ~UnicodeNotFilter();
virtual UBool contains(UChar32 c) const;
virtual UnicodeFunctor* clone() const;
};
UnicodeNotFilter::UnicodeNotFilter(UnicodeFilter* adopted) : filt(adopted) {}
UnicodeNotFilter::UnicodeNotFilter(const UnicodeNotFilter& f)
: _UF(f), filt((UnicodeFilter*) f.filt->clone()) {}
UnicodeNotFilter::~UnicodeNotFilter() { delete filt; }
UBool UnicodeNotFilter::contains(UChar32 c) const { return !filt->contains(c); }
UnicodeFunctor* UnicodeNotFilter::clone() const { return new UnicodeNotFilter(*this); }
/**
* Returns a <tt>UnicodeFilter</tt> that implements the inverse of
* the given filter.
*/
UnicodeFilter* UnicodeFilterLogic::createNot(const UnicodeFilter* f) {
if (f == 0) {
return new NullFilter(FALSE);
} else {
return new UnicodeNotFilter((UnicodeFilter*)f->clone());
}
}
class UnicodeAndFilter : public _UF {
UnicodeFilter* filt1;
UnicodeFilter* filt2;
public:
UnicodeAndFilter(UnicodeFilter* adopted1, UnicodeFilter* adopted2);
UnicodeAndFilter(const UnicodeAndFilter&);
virtual ~UnicodeAndFilter();
virtual UBool contains(UChar32 c) const;
virtual UnicodeFunctor* clone() const;
};
UnicodeAndFilter::UnicodeAndFilter(UnicodeFilter* f1, UnicodeFilter* f2) : filt1(f1), filt2(f2) {}
UnicodeAndFilter::UnicodeAndFilter(const UnicodeAndFilter& f)
: _UF(f), filt1((UnicodeFilter*)f.filt1->clone()), filt2((UnicodeFilter*)f.filt2->clone()) {}
UnicodeAndFilter::~UnicodeAndFilter() { delete filt1; delete filt2; }
UBool UnicodeAndFilter::contains(UChar32 c) const { return filt1->contains(c) && filt2->contains(c); }
UnicodeFunctor* UnicodeAndFilter::clone() const { return new UnicodeAndFilter(*this); }
/**
* Returns a <tt>UnicodeFilter</tt> that implements a short
* circuit AND of the result of the two given filters. That is,
* if <tt>f.contains()</tt> is <tt>false</tt>, then <tt>g.contains()</tt>
* is not called, and <tt>contains()</tt> returns <tt>false</tt>.
*/
UnicodeFilter* UnicodeFilterLogic::createAnd(const UnicodeFilter* f,
const UnicodeFilter* g) {
if (f == 0) {
if (g == 0) {
return NULL;
}
return (UnicodeFilter*)g->clone();
}
if (g == 0) {
return (UnicodeFilter*)f->clone();
}
return new UnicodeAndFilter((UnicodeFilter*)f->clone(), (UnicodeFilter*)g->clone());
}
/**
* Returns a <tt>UnicodeFilter</tt> that implements a short
* circuit AND of the result of the two given filters. That is,
* if <tt>f.contains()</tt> is <tt>false</tt>, then <tt>g.contains()</tt>
* is not called, and <tt>contains()</tt> returns <tt>false</tt>.
*
* ADOPTS both arguments.
*/
UnicodeFilter* UnicodeFilterLogic::createAdoptingAnd(UnicodeFilter* f,
UnicodeFilter* g) {
if (f == 0) {
if (g == 0) {
return NULL;
}
return g;
}
if (g == 0) {
return f;
}
return new UnicodeAndFilter(f, g);
}
class UnicodeOrFilter : public _UF {
UnicodeFilter* filt1;
UnicodeFilter* filt2;
public:
UnicodeOrFilter(UnicodeFilter* adopted1, UnicodeFilter* adopted2);
UnicodeOrFilter(const UnicodeOrFilter&);
virtual ~UnicodeOrFilter();
virtual UBool contains(UChar32 c) const;
virtual UnicodeFunctor* clone() const;
};
UnicodeOrFilter::UnicodeOrFilter(UnicodeFilter* f1, UnicodeFilter* f2) : filt1(f1), filt2(f2) {}
UnicodeOrFilter::UnicodeOrFilter(const UnicodeOrFilter& f)
: _UF(f), filt1((UnicodeFilter*)f.filt1->clone()), filt2((UnicodeFilter*)f.filt2->clone()) {}
UnicodeOrFilter::~UnicodeOrFilter() { delete filt1; delete filt2; }
UBool UnicodeOrFilter::contains(UChar32 c) const { return filt1->contains(c) || filt2->contains(c); }
UnicodeFunctor* UnicodeOrFilter::clone() const { return new UnicodeOrFilter(*this); }
/**
* Returns a <tt>UnicodeFilter</tt> that implements a short
* circuit OR of the result of the two given filters. That is, if
* <tt>f.contains()</tt> is <tt>true</tt>, then <tt>g.contains()</tt> is
* not called, and <tt>contains()</tt> returns <tt>true</tt>.
*/
UnicodeFilter* UnicodeFilterLogic::createOr(const UnicodeFilter* f,
const UnicodeFilter* g) {
if (f == 0) {
if (g == 0) {
return NULL;
}
return (UnicodeFilter*)g->clone();
}
if (g == 0) {
return (UnicodeFilter*)f->clone();
}
return new UnicodeOrFilter((UnicodeFilter*)f->clone(), (UnicodeFilter*)g->clone());
}
U_NAMESPACE_END
#endif /* #if !UCONFIG_NO_TRANSLITERATION */