204 lines
7.8 KiB
C++
204 lines
7.8 KiB
C++
// Copyright (C) 2016 and later: Unicode, Inc. and others.
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// License & terms of use: http://www.unicode.org/copyright.html
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// file: rbbi_cache.h
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//
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#ifndef RBBI_CACHE_H
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#define RBBI_CACHE_H
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#include "unicode/utypes.h"
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#if !UCONFIG_NO_BREAK_ITERATION
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#include "unicode/rbbi.h"
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#include "unicode/uobject.h"
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#include "uvectr32.h"
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U_NAMESPACE_BEGIN
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/* DictionaryCache stores the boundaries obtained from a run of dictionary characters.
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* Dictionary boundaries are moved first to this cache, then from here
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* to the main BreakCache, where they may inter-leave with non-dictionary
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* boundaries. The public BreakIterator API always fetches directly
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* from the main BreakCache, not from here.
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*
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* In common situations, the number of boundaries in a single dictionary run
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* should be quite small, it will be terminated by punctuation, spaces,
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* or any other non-dictionary characters. The main BreakCache may end
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* up with boundaries from multiple dictionary based runs.
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*
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* The boundaries are stored in a simple ArrayList (vector), with the
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* assumption that they will be accessed sequentially.
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*/
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class RuleBasedBreakIterator::DictionaryCache: public UMemory {
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public:
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DictionaryCache(RuleBasedBreakIterator *bi, UErrorCode &status);
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~DictionaryCache();
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void reset();
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UBool following(int32_t fromPos, int32_t *pos, int32_t *statusIndex);
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UBool preceding(int32_t fromPos, int32_t *pos, int32_t *statusIndex);
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/**
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* Populate the cache with the dictionary based boundaries within a region of text.
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* @param startPos The start position of a range of text
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* @param endPos The end position of a range of text
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* @param firstRuleStatus The rule status index that applies to the break at startPos
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* @param otherRuleStatus The rule status index that applies to boundaries other than startPos
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* @internal
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*/
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void populateDictionary(int32_t startPos, int32_t endPos,
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int32_t firstRuleStatus, int32_t otherRuleStatus);
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RuleBasedBreakIterator *fBI;
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UVector32 fBreaks; // A vector containing the boundaries.
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int32_t fPositionInCache; // Index in fBreaks of last boundary returned by following()
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// or preceding(). Optimizes sequential access.
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int32_t fStart; // Text position of first boundary in cache.
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int32_t fLimit; // Last boundary in cache. Which is the limit of the
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// text segment being handled by the dictionary.
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int32_t fFirstRuleStatusIndex; // Rule status info for first boundary.
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int32_t fOtherRuleStatusIndex; // Rule status info for 2nd through last boundaries.
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};
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/*
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* class BreakCache
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*
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* Cache of break boundary positions and rule status values.
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* Break iterator API functions, next(), previous(), etc., will use cached results
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* when possible, and otherwise cache new results as they are obtained.
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*
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* Uniformly caches both dictionary and rule based (non-dictionary) boundaries.
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*
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* The cache is implemented as a single circular buffer.
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*/
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/*
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* size of the circular cache buffer.
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*/
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class RuleBasedBreakIterator::BreakCache: public UMemory {
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public:
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BreakCache(RuleBasedBreakIterator *bi, UErrorCode &status);
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virtual ~BreakCache();
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void reset(int32_t pos = 0, int32_t ruleStatus = 0);
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void next() { if (fBufIdx == fEndBufIdx) {
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nextOL();
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} else {
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fBufIdx = modChunkSize(fBufIdx + 1);
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fTextIdx = fBI->fPosition = fBoundaries[fBufIdx];
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fBI->fRuleStatusIndex = fStatuses[fBufIdx];
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}
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}
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void nextOL();
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void previous(UErrorCode &status);
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// Move the iteration state to the position following the startPosition.
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// Input position must be pinned to the input length.
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void following(int32_t startPosition, UErrorCode &status);
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void preceding(int32_t startPosition, UErrorCode &status);
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/*
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* Update the state of the public BreakIterator (fBI) to reflect the
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* current state of the break iterator cache (this).
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*/
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int32_t current();
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/**
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* Add boundaries to the cache near the specified position.
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* The given position need not be a boundary itself.
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* The input position must be within the range of the text, and
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* on a code point boundary.
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* If the requested position is a break boundary, leave the iteration
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* position on it.
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* If the requested position is not a boundary, leave the iteration
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* position on the preceding boundary and include both the
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* preceding and following boundaries in the cache.
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* Additional boundaries, either preceding or following, may be added
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* to the cache as a side effect.
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*
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* Return FALSE if the operation failed.
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*/
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UBool populateNear(int32_t position, UErrorCode &status);
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/**
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* Add boundary(s) to the cache following the current last boundary.
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* Return FALSE if at the end of the text, and no more boundaries can be added.
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* Leave iteration position at the first newly added boundary, or unchanged if no boundary was added.
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*/
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UBool populateFollowing();
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/**
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* Add one or more boundaries to the cache preceding the first currently cached boundary.
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* Leave the iteration position on the first added boundary.
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* Return false if no boundaries could be added (if at the start of the text.)
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*/
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UBool populatePreceding(UErrorCode &status);
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enum UpdatePositionValues {
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RetainCachePosition = 0,
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UpdateCachePosition = 1
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};
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/*
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* Add the boundary following the current position.
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* The current position can be left as it was, or changed to the newly added boundary,
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* as specified by the update parameter.
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*/
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void addFollowing(int32_t position, int32_t ruleStatusIdx, UpdatePositionValues update);
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/*
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* Add the boundary preceding the current position.
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* The current position can be left as it was, or changed to the newly added boundary,
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* as specified by the update parameter.
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*/
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bool addPreceding(int32_t position, int32_t ruleStatusIdx, UpdatePositionValues update);
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/**
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* Set the cache position to the specified position, or, if the position
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* falls between to cached boundaries, to the preceding boundary.
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* Fails if the requested position is outside of the range of boundaries currently held by the cache.
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* The startPosition must be on a code point boundary.
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*
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* Return TRUE if successful, FALSE if the specified position is after
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* the last cached boundary or before the first.
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*/
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UBool seek(int32_t startPosition);
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void dumpCache();
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private:
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static inline int32_t modChunkSize(int index) { return index & (CACHE_SIZE - 1); }
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static constexpr int32_t CACHE_SIZE = 128;
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static_assert((CACHE_SIZE & (CACHE_SIZE-1)) == 0, "CACHE_SIZE must be power of two.");
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RuleBasedBreakIterator *fBI;
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int32_t fStartBufIdx;
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int32_t fEndBufIdx; // inclusive
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int32_t fTextIdx;
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int32_t fBufIdx;
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int32_t fBoundaries[CACHE_SIZE];
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uint16_t fStatuses[CACHE_SIZE];
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UVector32 fSideBuffer;
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};
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U_NAMESPACE_END
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#endif // #if !UCONFIG_NO_BREAK_ITERATION
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#endif // RBBI_CACHE_H
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