/usr/include/OpenSP/ContentToken.h is in libosp-dev 1.5.2-13ubuntu2.
This file is owned by root:root, with mode 0o644.
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// See the file COPYING for copying permission.
#ifndef ContentToken_INCLUDED
#define ContentToken_INCLUDED 1
#ifdef __GNUG__
#pragma interface
#endif
#include "Owner.h"
#include "Text.h"
#include "Vector.h"
#include "NCVector.h"
#include "Boolean.h"
#ifdef SP_NAMESPACE
namespace SP_NAMESPACE {
#endif
class LeafContentToken;
struct SP_API Transition {
~Transition();
enum { invalidIndex = -1 };
// When performing this transition, reset all andState with index >= this.
unsigned clearAndStateStartIndex;
// This transition is possible only if all AND groups whose AND depth
// is >= this (and contains the LeafContentToken that this transition is
// from) have had all their non-nullable members matched.
unsigned andDepth;
// If this is 1, then this transition requires that the AND group
// whose AND depth is andDepth - 1 have a non-nullable member unmatched,
// and thus this transition is not ambiguous with a transition whose
// AND depth is < andDepth.
PackedBoolean isolated;
// Index in andState that must be clear for this transition to be
// allowed.
unsigned requireClear;
// Index in andState that is to be set after performing this transition.
unsigned toSet;
};
class SP_API FirstSet {
public:
FirstSet();
void init(LeafContentToken *);
void append(const FirstSet &);
size_t size() const;
LeafContentToken *token(size_t i) const;
size_t requiredIndex() const;
void setNotRequired();
private:
Vector<LeafContentToken *> v_;
// index of contextually required token or -1 if none
size_t requiredIndex_;
};
class SP_API LastSet : public Vector<LeafContentToken *> {
public:
LastSet() { }
LastSet(size_t n) : Vector<LeafContentToken *>(n) { }
void append(const LastSet &);
};
class ElementType;
class AndModelGroup;
struct GroupInfo;
struct SP_API ContentModelAmbiguity {
inline ~ContentModelAmbiguity() {}
const LeafContentToken *from;
const LeafContentToken *to1;
const LeafContentToken *to2;
unsigned andDepth;
};
class ModelGroup;
class SP_API ContentToken {
public:
enum OccurrenceIndicator { none = 0, opt = 01, plus = 02, rep = 03 };
ContentToken(OccurrenceIndicator);
virtual ~ContentToken();
OccurrenceIndicator occurrenceIndicator() const;
Boolean inherentlyOptional() const;
static unsigned andDepth(const AndModelGroup *);
static unsigned andIndex(const AndModelGroup *);
void analyze(GroupInfo &, const AndModelGroup *, unsigned,
FirstSet &, LastSet &);
static void addTransitions(const LastSet &from,
const FirstSet &to,
Boolean maybeRequired,
unsigned andClearIndex,
unsigned andDepth,
Boolean isolated = 0,
unsigned requireClear
= (unsigned)Transition::invalidIndex,
unsigned toSet
= (unsigned)Transition::invalidIndex);
virtual void finish(Vector<unsigned> &minAndDepth,
Vector<size_t> &elementTransition,
Vector<ContentModelAmbiguity> &,
Boolean &pcdataUnreachable) = 0;
virtual unsigned long grpgtcnt() const;
virtual void setOrGroupMember();
unsigned andGroupIndex() const;
virtual const ModelGroup *asModelGroup() const;
virtual const LeafContentToken *asLeafContentToken() const;
protected:
PackedBoolean inherentlyOptional_;
private:
ContentToken(const ContentToken &); // undefined
void operator=(const ContentToken &); // undefined
virtual void analyze1(GroupInfo &, const AndModelGroup *, unsigned,
FirstSet &, LastSet &) = 0;
OccurrenceIndicator occurrenceIndicator_;
};
class SP_API ModelGroup : public ContentToken {
public:
enum Connector { andConnector, orConnector, seqConnector };
ModelGroup(NCVector<Owner<ContentToken> > &, OccurrenceIndicator);
inline virtual ~ModelGroup() {};
virtual Connector connector() const = 0;
unsigned nMembers() const;
void finish(Vector<unsigned> &minAndDepth,
Vector<size_t> &elementTransition,
Vector<ContentModelAmbiguity> &,
Boolean &pcdataUnreachable);
ContentToken &member(unsigned i);
const ContentToken &member(unsigned i) const;
unsigned long grpgtcnt() const;
const ModelGroup *asModelGroup() const;
protected:
void setOrGroup();
private:
ModelGroup(const ModelGroup &); // undefined
void operator=(const ModelGroup &); // undefined
NCVector<Owner<ContentToken> > members_;
};
class AndModelGroup : public ModelGroup {
public:
AndModelGroup(NCVector<Owner<ContentToken> > &, OccurrenceIndicator);
Connector connector() const;
unsigned andDepth() const;
unsigned andIndex() const;
unsigned andGroupIndex() const;
const AndModelGroup *andAncestor() const;
private:
AndModelGroup(const AndModelGroup &); // undefined
void operator=(const AndModelGroup &); // undefined
unsigned andDepth_; // number of and groups that contain this
unsigned andIndex_;
unsigned andGroupIndex_;
const AndModelGroup *andAncestor_;
void analyze1(GroupInfo &, const AndModelGroup *, unsigned,
FirstSet &, LastSet &);
};
class OrModelGroup : public ModelGroup {
public:
OrModelGroup(NCVector<Owner<ContentToken> > &, OccurrenceIndicator);
Connector connector() const;
private:
OrModelGroup(const OrModelGroup &); // undefined
void operator=(const OrModelGroup &); // undefined
void analyze1(GroupInfo &, const AndModelGroup *, unsigned,
FirstSet &, LastSet &);
};
class SeqModelGroup : public ModelGroup {
public:
SeqModelGroup(NCVector<Owner<ContentToken> > &, OccurrenceIndicator);
Connector connector() const;
private:
SeqModelGroup(const SeqModelGroup &); // undefined
void operator=(const SeqModelGroup &); // undefined
void analyze1(GroupInfo &, const AndModelGroup *, unsigned,
FirstSet &, LastSet &);
};
class AndState;
class SP_API AndInfo {
public:
AndInfo() { }
inline ~AndInfo() { }
const AndModelGroup *andAncestor;
unsigned andGroupIndex;
Vector<Transition> follow;
private:
AndInfo(const AndInfo &); // undefined
void operator=(const AndInfo &); // undefined
};
// A LeafContentToken is not quite the same as a primitive content token.
// A data tag group is a primitive content token but not a LeafContentToken.
class SP_API LeafContentToken : public ContentToken {
public:
LeafContentToken(const ElementType *, OccurrenceIndicator);
inline virtual ~LeafContentToken() {};
unsigned index() const;
unsigned typeIndex() const;
const ElementType *elementType() const;
virtual Boolean isInitial() const;
void addTransitions(const FirstSet &to,
Boolean maybeRequired,
unsigned andClearIndex,
unsigned andDepth,
Boolean isolated,
unsigned requireClear,
unsigned toSet);
void setFinal();
void finish(Vector<unsigned> &minAndDepth,
Vector<size_t> &elementTransition,
Vector<ContentModelAmbiguity> &,
Boolean &pcdataUnreachable);
Boolean isFinal() const;
Boolean tryTransition(const ElementType *, AndState &,
unsigned &minAndDepth,
const LeafContentToken *&newpos) const;
Boolean tryTransitionPcdata(AndState &, unsigned &minAndDepth,
const LeafContentToken *&newpos) const;
void possibleTransitions(const AndState &, unsigned minAndDepth, Vector<const ElementType *> &) const;
const LeafContentToken *impliedStartTag(const AndState &andpos,
unsigned minAndDepth) const;
const LeafContentToken *transitionToken(const ElementType *to,
const AndState &andState,
unsigned minAndDepth) const;
void doRequiredTransition(AndState &andState,
unsigned &minAndDepth,
const LeafContentToken *&newpos) const;
unsigned computeMinAndDepth(const AndState&) const;
Boolean orGroupMember() const;
void setOrGroupMember();
const AndModelGroup *andAncestor() const;
unsigned andDepth() const;
const LeafContentToken *asLeafContentToken() const;
protected:
void analyze1(GroupInfo &, const AndModelGroup *, unsigned,
FirstSet &, LastSet &);
const ElementType *element_;
private:
LeafContentToken(const LeafContentToken &); // undefined
void operator=(const LeafContentToken &); // undefined
void andFinish(Vector<unsigned> &minAndDepth,
Vector<size_t> &elementTransition,
Vector<ContentModelAmbiguity> &,
Boolean &pcdataUnreachable);
unsigned computeMinAndDepth1(const AndState&) const;
unsigned leafIndex_;
unsigned typeIndex_;
Vector<LeafContentToken *> follow_;
PackedBoolean isFinal_;
PackedBoolean orGroupMember_;
// 0 none, 1 yes - simple, 2 - compled
char pcdataTransitionType_;
const LeafContentToken *simplePcdataTransition_;
size_t requiredIndex_;
Owner<AndInfo> andInfo_;
};
class PcdataToken : public LeafContentToken {
public:
PcdataToken();
void analyze1(GroupInfo &, const AndModelGroup *, unsigned,
FirstSet &, LastSet &);
private:
PcdataToken(const PcdataToken &); // undefined
void operator=(const PcdataToken &); // undefined
};
class InitialPseudoToken : public LeafContentToken {
public:
InitialPseudoToken();
Boolean isInitial() const;
private:
InitialPseudoToken(const InitialPseudoToken &); // undefined
void operator=(const InitialPseudoToken &); // undefined
};
class ElementToken : public LeafContentToken {
public:
ElementToken(const ElementType *, OccurrenceIndicator);
private:
ElementToken(const ElementToken &); // undefined
void operator=(const ElementToken &); // undefined
};
class DataTagGroup : public SeqModelGroup {
public:
// first content token is a DataTagElementToken, second is PcdataToken
DataTagGroup(NCVector<Owner<ContentToken> > &, OccurrenceIndicator);
private:
DataTagGroup(const DataTagGroup &); // undefined
void operator=(const DataTagGroup &); // undefined
};
class DataTagElementToken : public ElementToken {
public:
DataTagElementToken(const ElementType *, Vector<Text> &templates);
DataTagElementToken(const ElementType *, Vector<Text> &templates,
Text &paddingTemplate);
private:
DataTagElementToken(const DataTagElementToken &); // undefined
void operator=(const DataTagElementToken &); // undefined
Vector<Text> templates_;
Boolean havePaddingTemplate_;
Text paddingTemplate_;
};
class SP_API CompiledModelGroup {
public:
CompiledModelGroup(Owner<ModelGroup> &);
inline ~CompiledModelGroup() {};
void compile(size_t nElementTypeIndex,
Vector<ContentModelAmbiguity> &,
Boolean &pcdataUnreachable);
CompiledModelGroup *copy() const;
const LeafContentToken *initial() const;
unsigned andStateSize() const;
Boolean containsPcdata() const;
const ModelGroup *modelGroup() const;
private:
CompiledModelGroup(const CompiledModelGroup &); // undefined
void operator=(const CompiledModelGroup &); // undefined
Owner<ModelGroup> modelGroup_;
Owner<LeafContentToken> initial_;
unsigned andStateSize_;
Boolean containsPcdata_;
};
class SP_API AndState {
public:
AndState(unsigned);
Boolean isClear(unsigned) const;
void clearFrom(unsigned);
void set(unsigned);
Boolean operator==(const AndState &) const;
Boolean operator!=(const AndState &) const;
private:
void clearFrom1(unsigned);
unsigned clearFrom_;
Vector<PackedBoolean> v_;
};
class SP_API MatchState {
public:
MatchState();
MatchState(const CompiledModelGroup *); // may be 0
Boolean tryTransition(const ElementType *);
Boolean tryTransitionPcdata();
void possibleTransitions(Vector<const ElementType *> &) const;
Boolean isFinished() const;
const LeafContentToken *impliedStartTag() const;
const LeafContentToken *invalidExclusion(const ElementType *) const;
void doRequiredTransition();
const LeafContentToken *currentPosition() const;
Boolean operator==(const MatchState &) const;
Boolean operator!=(const MatchState &) const;
private:
const LeafContentToken *pos_;
AndState andState_;
unsigned minAndDepth_;
};
inline
ContentToken::OccurrenceIndicator ContentToken::occurrenceIndicator() const
{
return occurrenceIndicator_;
}
inline
unsigned LeafContentToken::index() const
{
return leafIndex_;
}
inline
unsigned LeafContentToken::typeIndex() const
{
return typeIndex_;
}
inline
Boolean ContentToken::inherentlyOptional() const
{
return inherentlyOptional_;
}
inline
const ElementType *LeafContentToken::elementType() const
{
return element_;
}
inline
unsigned AndModelGroup::andDepth() const
{
return andDepth_;
}
inline
unsigned AndModelGroup::andIndex() const
{
return andIndex_;
}
inline
unsigned ModelGroup::nMembers() const
{
return members_.size();
}
inline
unsigned ContentToken::andDepth(const AndModelGroup *andAncestor)
{
return andAncestor ? andAncestor->andDepth() + 1 : 0;
}
inline
unsigned ContentToken::andIndex(const AndModelGroup *andAncestor)
{
return (andAncestor
? andAncestor->andIndex() + andAncestor->nMembers()
: 0);
}
inline
ContentToken &ModelGroup::member(unsigned i)
{
return *members_[i];
}
inline
const ContentToken &ModelGroup::member(unsigned i) const
{
return *members_[i];
}
inline
void LeafContentToken::setFinal()
{
isFinal_ = 1;
}
inline
Boolean LeafContentToken::isFinal() const
{
return isFinal_;
}
inline
Boolean LeafContentToken::orGroupMember() const
{
return orGroupMember_;
}
inline
unsigned CompiledModelGroup::andStateSize() const
{
return andStateSize_;
}
inline
Boolean CompiledModelGroup::containsPcdata() const
{
return containsPcdata_;
}
inline
const AndModelGroup *AndModelGroup::andAncestor() const
{
return andAncestor_;
}
inline
unsigned AndModelGroup::andGroupIndex() const
{
return andGroupIndex_;
}
inline
const LeafContentToken *CompiledModelGroup::initial() const
{
return initial_.pointer();
}
inline
const ModelGroup *CompiledModelGroup::modelGroup() const
{
return modelGroup_.pointer();
}
inline
const AndModelGroup *LeafContentToken::andAncestor() const
{
return andInfo_ ? andInfo_->andAncestor : 0;
}
inline
unsigned LeafContentToken::andDepth() const
{
return andInfo_ ? ContentToken::andDepth(andInfo_->andAncestor) : 0;
}
inline
unsigned LeafContentToken::computeMinAndDepth(const AndState &andState) const
{
return andInfo_ ? computeMinAndDepth1(andState) : 0;
}
inline
Boolean LeafContentToken::tryTransitionPcdata(AndState &andState,
unsigned &minAndDepth,
const LeafContentToken *&newpos)
const
{
if (pcdataTransitionType_ == 1) {
newpos = simplePcdataTransition_;
return 1;
}
else if (pcdataTransitionType_ == 0)
return 0;
else
return tryTransition(0, andState, minAndDepth, newpos);
}
inline
Boolean MatchState::tryTransition(const ElementType *to)
{
return pos_->tryTransition(to, andState_, minAndDepth_, pos_);
}
inline
Boolean MatchState::tryTransitionPcdata()
{
return pos_->tryTransitionPcdata(andState_, minAndDepth_, pos_);
}
inline
void MatchState::possibleTransitions(Vector<const ElementType *> &v) const
{
pos_->possibleTransitions(andState_, minAndDepth_, v);
}
inline
Boolean MatchState::isFinished() const
{
return pos_->isFinal() && minAndDepth_ == 0;
}
inline
const LeafContentToken *
MatchState::impliedStartTag() const
{
return pos_->impliedStartTag(andState_, minAndDepth_);
}
inline
void MatchState::doRequiredTransition()
{
pos_->doRequiredTransition(andState_, minAndDepth_, pos_);
}
inline
const LeafContentToken *MatchState::currentPosition() const
{
return pos_;
}
inline
Boolean MatchState::operator!=(const MatchState &state) const
{
return !(*this == state);
}
inline
Boolean AndState::isClear(unsigned i) const
{
return v_[i] == 0;
}
inline
void AndState::set(unsigned i)
{
v_[i] = 1;
if (i >= clearFrom_)
clearFrom_ = i + 1;
}
inline
void AndState::clearFrom(unsigned i)
{
if (i < clearFrom_)
clearFrom1(i);
}
inline
Boolean AndState::operator!=(const AndState &state) const
{
return !(*this == state);
}
inline
size_t FirstSet::size() const
{
return v_.size();
}
inline
LeafContentToken *FirstSet::token(size_t i) const
{
return v_[i];
}
inline
size_t FirstSet::requiredIndex() const
{
return requiredIndex_;
}
inline
void FirstSet::setNotRequired()
{
requiredIndex_ = size_t(-1);
}
#ifdef SP_NAMESPACE
}
#endif
#endif /* not ContentToken_INCLUDED */
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