icu4c/source/common/rbbitblb.h - external/github.com/unicode-org/icu - Git at Google

 // © 2016 and later: Unicode, Inc. and others.
 // License & terms of use: http://www.unicode.org/copyright.html
 //
 //  rbbitblb.h
 //

 /*
 **********************************************************************
 *   Copyright (c) 2002-2016, International Business Machines
 *   Corporation and others.  All Rights Reserved.
 **********************************************************************
 */

 #ifndef RBBITBLB_H
 #define RBBITBLB_H

 #include "unicode/utypes.h"

 #if !UCONFIG_NO_BREAK_ITERATION

 #include "unicode/uobject.h"
 #include "unicode/rbbi.h"
 #include "rbbirb.h"
 #include "rbbinode.h"


 U_NAMESPACE_BEGIN

 class RBBIRuleScanner;
 class RBBIRuleBuilder;
 class UVector32;

 //
 //  class RBBITableBuilder is part of the RBBI rule compiler.
 //                         It builds the state transition table used by the RBBI runtime
 //                         from the expression syntax tree generated by the rule scanner.
 //
 //                         This class is part of the RBBI implementation only.
 //                         There is no user-visible public API here.
 //

 class RBBITableBuilder : public UMemory {
 public:
     RBBITableBuilder(RBBIRuleBuilder *rb, RBBINode **rootNode, UErrorCode &status);
     ~RBBITableBuilder();

     void     buildForwardTable();

     /** Return the runtime size in bytes of the built state table.  */
     int32_t  getTableSize() const;

     /** Fill in the runtime state table. Sufficient memory must exist at the specified location.
      */
     void     exportTable(void *where);

     /** Use 8 bits to encode the forward table */
     bool     use8BitsForTable() const;

     /**
      *  Find duplicate (redundant) character classes. Begin looking with categories.first.
      *  Duplicate, if found are returned in the categories parameter.
      *  This is an iterator-like function, used to identify character classes
      *  (state table columns) that can be eliminated.
      *  @param categories in/out parameter, specifies where to start looking for duplicates,
      *                and returns the first pair of duplicates found, if any.
      *  @return true if duplicate char classes were found, false otherwise.
      */
     bool     findDuplCharClassFrom(IntPair *categories);

     /** Remove a column from the state table. Used when two character categories
      *  have been found equivalent, and merged together, to eliminate the uneeded table column.
      */
     void     removeColumn(int32_t column);

     /**
      * Check for, and remove dupicate states (table rows).
      * @return the number of states removed.
      */
     int32_t  removeDuplicateStates();

     /** Build the safe reverse table from the already-constructed forward table. */
     void     buildSafeReverseTable(UErrorCode &status);

     /** Return the runtime size in bytes of the built safe reverse state table. */
     int32_t  getSafeTableSize() const;

     /** Fill in the runtime safe state table. Sufficient memory must exist at the specified location.
      */
     void     exportSafeTable(void *where);

     /** Use 8 bits to encode the safe reverse table */
     bool     use8BitsForSafeTable() const;

 private:
     void     calcNullable(RBBINode *n);
     void     calcFirstPos(RBBINode *n);
     void     calcLastPos(RBBINode  *n);
     void     calcFollowPos(RBBINode *n);
     void     calcChainedFollowPos(RBBINode *n, RBBINode *endMarkNode);
     void     bofFixup();
     void     buildStateTable();
     void     mapLookAheadRules();
     void     flagAcceptingStates();
     void     flagLookAheadStates();
     void     flagTaggedStates();
     void     mergeRuleStatusVals();

     /**
      * Merge redundant state table columns, eliminating character classes with identical behavior.
      * Done after the state tables are generated, just before converting to their run-time format.
      */
     int32_t  mergeColumns();

     void     addRuleRootNodes(UVector *dest, RBBINode *node);

     /**
      *  Find duplicate (redundant) states, beginning at the specified pair,
      *  within this state table. This is an iterator-like function, used to
      *  identify states (state table rows) that can be eliminated.
      *  @param states in/out parameter, specifies where to start looking for duplicates,
      *                and returns the first pair of duplicates found, if any.
      *  @return true if duplicate states were found, false otherwise.
      */
     bool findDuplicateState(IntPair *states);

     /** Remove a duplicate state.
      * @param duplStates The duplicate states. The first is kept, the second is removed.
      *                   All references to the second in the state table are retargeted
      *                   to the first.
      */
     void removeState(IntPair duplStates);

     /** Find the next duplicate state in the safe reverse table. An iterator function.
      *  @param states in/out parameter, specifies where to start looking for duplicates,
      *                and returns the first pair of duplicates found, if any.
      *  @return true if a duplicate pair of states was found.
      */
     bool findDuplicateSafeState(IntPair *states);

     /** Remove a duplicate state from the safe table.
      * @param duplStates The duplicate states. The first is kept, the second is removed.
      *                   All references to the second in the state table are retargeted
      *                   to the first.
      */
     void removeSafeState(IntPair duplStates);

     // Set functions for UVector.
     //   TODO:  make a USet subclass of UVector

     void     setAdd(UVector *dest, UVector *source);
     UBool    setEquals(UVector *a, UVector *b);

     void     sortedAdd(UVector **dest, int32_t val);

 public:
 #ifdef RBBI_DEBUG
     void     printSet(UVector *s);
     void     printPosSets(RBBINode *n /* = NULL*/);
     void     printStates();
     void     printRuleStatusTable();
     void     printReverseTable();
 #else
     #define  printSet(s)
     #define  printPosSets(n)
     #define  printStates()
     #define  printRuleStatusTable()
     #define  printReverseTable()
 #endif

 private:
     RBBIRuleBuilder  *fRB;
     RBBINode         *&fTree;              // The root node of the parse tree to build a
                                            //   table for.
     UErrorCode       *fStatus;

     /** State Descriptors, UVector<RBBIStateDescriptor> */
     UVector          *fDStates;            //  D states (Aho's terminology)
                                            //  Index is state number
                                            //  Contents are RBBIStateDescriptor pointers.

     /** Synthesized safe table, UVector of UnicodeString, one string per table row.   */
     UVector          *fSafeTable;

     /** Map from rule number (fVal in look ahead nodes) to sequential lookahead index. */
     UVector32        *fLookAheadRuleMap = nullptr;


     RBBITableBuilder(const RBBITableBuilder &other); // forbid copying of this class
     RBBITableBuilder &operator=(const RBBITableBuilder &other); // forbid copying of this class
 };

 //
 //  RBBIStateDescriptor - The DFA is constructed as a set of these descriptors,
 //                        one for each state.
 class RBBIStateDescriptor : public UMemory {
 public:
     UBool            fMarked;
     uint32_t         fAccepting;
     uint32_t         fLookAhead;
     UVector          *fTagVals;
     int32_t          fTagsIdx;
     UVector          *fPositions;          // Set of parse tree positions associated
                                            //   with this state.  Unordered (it's a set).
                                            //   UVector contents are RBBINode *

     UVector32        *fDtran;              // Transitions out of this state.
                                            //   indexed by input character
                                            //   contents is int index of dest state
                                            //   in RBBITableBuilder.fDStates

     RBBIStateDescriptor(int maxInputSymbol,  UErrorCode *fStatus);
     ~RBBIStateDescriptor();

 private:
     RBBIStateDescriptor(const RBBIStateDescriptor &other); // forbid copying of this class
     RBBIStateDescriptor &operator=(const RBBIStateDescriptor &other); // forbid copying of this class
 };


 U_NAMESPACE_END

 #endif /* #if !UCONFIG_NO_BREAK_ITERATION */

 #endif
	// © 2016 and later: Unicode, Inc. and others.
	// License & terms of use: http://www.unicode.org/copyright.html
	//
	// rbbitblb.h
	//

	/*
	**********************************************************************
	* Copyright (c) 2002-2016, International Business Machines
	* Corporation and others. All Rights Reserved.
	**********************************************************************
	*/

	#ifndef RBBITBLB_H
	#define RBBITBLB_H

	#include "unicode/utypes.h"

	#if !UCONFIG_NO_BREAK_ITERATION

	#include "unicode/uobject.h"
	#include "unicode/rbbi.h"
	#include "rbbirb.h"
	#include "rbbinode.h"


	U_NAMESPACE_BEGIN

	class RBBIRuleScanner;
	class RBBIRuleBuilder;
	class UVector32;

	//
	// class RBBITableBuilder is part of the RBBI rule compiler.
	// It builds the state transition table used by the RBBI runtime
	// from the expression syntax tree generated by the rule scanner.
	//
	// This class is part of the RBBI implementation only.
	// There is no user-visible public API here.
	//

	class RBBITableBuilder : public UMemory {
	public:
	RBBITableBuilder(RBBIRuleBuilder rb, RBBINode *rootNode, UErrorCode &status);
	~RBBITableBuilder();

	void buildForwardTable();

	/** Return the runtime size in bytes of the built state table. */
	int32_t getTableSize() const;

	/** Fill in the runtime state table. Sufficient memory must exist at the specified location.
	*/
	void exportTable(void *where);

	/** Use 8 bits to encode the forward table */
	bool use8BitsForTable() const;

	/**
	* Find duplicate (redundant) character classes. Begin looking with categories.first.
	* Duplicate, if found are returned in the categories parameter.
	* This is an iterator-like function, used to identify character classes
	* (state table columns) that can be eliminated.
	* @param categories in/out parameter, specifies where to start looking for duplicates,
	* and returns the first pair of duplicates found, if any.
	* @return true if duplicate char classes were found, false otherwise.
	*/
	bool findDuplCharClassFrom(IntPair *categories);

	/** Remove a column from the state table. Used when two character categories
	* have been found equivalent, and merged together, to eliminate the uneeded table column.
	*/
	void removeColumn(int32_t column);

	/**
	* Check for, and remove dupicate states (table rows).
	* @return the number of states removed.
	*/
	int32_t removeDuplicateStates();

	/** Build the safe reverse table from the already-constructed forward table. */
	void buildSafeReverseTable(UErrorCode &status);

	/** Return the runtime size in bytes of the built safe reverse state table. */
	int32_t getSafeTableSize() const;

	/** Fill in the runtime safe state table. Sufficient memory must exist at the specified location.
	*/
	void exportSafeTable(void *where);

	/** Use 8 bits to encode the safe reverse table */
	bool use8BitsForSafeTable() const;

	private:
	void calcNullable(RBBINode *n);
	void calcFirstPos(RBBINode *n);
	void calcLastPos(RBBINode *n);
	void calcFollowPos(RBBINode *n);
	void calcChainedFollowPos(RBBINode n, RBBINode endMarkNode);
	void bofFixup();
	void buildStateTable();
	void mapLookAheadRules();
	void flagAcceptingStates();
	void flagLookAheadStates();
	void flagTaggedStates();
	void mergeRuleStatusVals();

	/**
	* Merge redundant state table columns, eliminating character classes with identical behavior.
	* Done after the state tables are generated, just before converting to their run-time format.
	*/
	int32_t mergeColumns();

	void addRuleRootNodes(UVector dest, RBBINode node);

	/**
	* Find duplicate (redundant) states, beginning at the specified pair,
	* within this state table. This is an iterator-like function, used to
	* identify states (state table rows) that can be eliminated.
	* @param states in/out parameter, specifies where to start looking for duplicates,
	* and returns the first pair of duplicates found, if any.
	* @return true if duplicate states were found, false otherwise.
	*/
	bool findDuplicateState(IntPair *states);

	/** Remove a duplicate state.
	* @param duplStates The duplicate states. The first is kept, the second is removed.
	* All references to the second in the state table are retargeted
	* to the first.
	*/
	void removeState(IntPair duplStates);

	/** Find the next duplicate state in the safe reverse table. An iterator function.
	* @param states in/out parameter, specifies where to start looking for duplicates,
	* and returns the first pair of duplicates found, if any.
	* @return true if a duplicate pair of states was found.
	*/
	bool findDuplicateSafeState(IntPair *states);

	/** Remove a duplicate state from the safe table.
	* @param duplStates The duplicate states. The first is kept, the second is removed.
	* All references to the second in the state table are retargeted
	* to the first.
	*/
	void removeSafeState(IntPair duplStates);

	// Set functions for UVector.
	// TODO: make a USet subclass of UVector

	void setAdd(UVector dest, UVector source);
	UBool setEquals(UVector a, UVector b);

	void sortedAdd(UVector **dest, int32_t val);

	public:
	#ifdef RBBI_DEBUG
	void printSet(UVector *s);
	void printPosSets(RBBINode n / = NULL*/);
	void printStates();
	void printRuleStatusTable();
	void printReverseTable();
	#else
	#define printSet(s)
	#define printPosSets(n)
	#define printStates()
	#define printRuleStatusTable()
	#define printReverseTable()
	#endif

	private:
	RBBIRuleBuilder *fRB;
	RBBINode *&fTree; // The root node of the parse tree to build a
	// table for.
	UErrorCode *fStatus;

	/** State Descriptors, UVector<RBBIStateDescriptor> */
	UVector *fDStates; // D states (Aho's terminology)
	// Index is state number
	// Contents are RBBIStateDescriptor pointers.

	/** Synthesized safe table, UVector of UnicodeString, one string per table row. */
	UVector *fSafeTable;

	/** Map from rule number (fVal in look ahead nodes) to sequential lookahead index. */
	UVector32 *fLookAheadRuleMap = nullptr;


	RBBITableBuilder(const RBBITableBuilder &other); // forbid copying of this class
	RBBITableBuilder &operator=(const RBBITableBuilder &other); // forbid copying of this class
	};

	//
	// RBBIStateDescriptor - The DFA is constructed as a set of these descriptors,
	// one for each state.
	class RBBIStateDescriptor : public UMemory {
	public:
	UBool fMarked;
	uint32_t fAccepting;
	uint32_t fLookAhead;
	UVector *fTagVals;
	int32_t fTagsIdx;
	UVector *fPositions; // Set of parse tree positions associated
	// with this state. Unordered (it's a set).
	// UVector contents are RBBINode *

	UVector32 *fDtran; // Transitions out of this state.
	// indexed by input character
	// contents is int index of dest state
	// in RBBITableBuilder.fDStates

	RBBIStateDescriptor(int maxInputSymbol, UErrorCode *fStatus);
	~RBBIStateDescriptor();

	private:
	RBBIStateDescriptor(const RBBIStateDescriptor &other); // forbid copying of this class
	RBBIStateDescriptor &operator=(const RBBIStateDescriptor &other); // forbid copying of this class
	};



	U_NAMESPACE_END

	#endif /* #if !UCONFIG_NO_BREAK_ITERATION */

	#endif