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@ -36,6 +36,16 @@ namespace { |
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// numbers, deletion markers, overwrites, etc.
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// numbers, deletion markers, overwrites, etc.
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class DBIter: public Iterator { |
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class DBIter: public Iterator { |
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public: |
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public: |
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// Which direction is the iterator currently moving?
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// (1) When moving forward, the internal iterator is positioned at
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// the exact entry that yields this->key(), this->value()
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// (2) When moving backwards, the internal iterator is positioned
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// just before all entries whose user key == this->key().
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enum Direction { |
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kForward, |
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kReverse |
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}; |
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DBIter(const std::string* dbname, Env* env, |
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DBIter(const std::string* dbname, Env* env, |
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const Comparator* cmp, Iterator* iter, SequenceNumber s) |
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const Comparator* cmp, Iterator* iter, SequenceNumber s) |
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: dbname_(dbname), |
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: dbname_(dbname), |
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@ -44,6 +54,7 @@ class DBIter: public Iterator { |
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iter_(iter), |
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iter_(iter), |
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sequence_(s), |
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sequence_(s), |
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large_(NULL), |
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large_(NULL), |
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direction_(kForward), |
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valid_(false) { |
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valid_(false) { |
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} |
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} |
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virtual ~DBIter() { |
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virtual ~DBIter() { |
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@ -53,48 +64,21 @@ class DBIter: public Iterator { |
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virtual bool Valid() const { return valid_; } |
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virtual bool Valid() const { return valid_; } |
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virtual Slice key() const { |
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virtual Slice key() const { |
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assert(valid_); |
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assert(valid_); |
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return key_; |
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return (direction_ == kForward) ? ExtractUserKey(iter_->key()) : saved_key_; |
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} |
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} |
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virtual Slice value() const { |
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virtual Slice value() const { |
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assert(valid_); |
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assert(valid_); |
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Slice raw_value = (direction_ == kForward) ? iter_->value() : saved_value_; |
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if (large_ == NULL) { |
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if (large_ == NULL) { |
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return value_; |
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return raw_value; |
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} else { |
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} else { |
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MutexLock l(&large_->mutex); |
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MutexLock l(&large_->mutex); |
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if (!large_->produced) { |
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if (!large_->produced) { |
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ReadIndirectValue(); |
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ReadIndirectValue(raw_value); |
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} |
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} |
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return large_->value; |
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return large_->value; |
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} |
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} |
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} |
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} |
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virtual void Next() { |
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assert(valid_); |
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// iter_ is already positioned past DBIter::key()
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FindNextUserEntry(); |
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} |
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virtual void Prev() { |
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assert(valid_); |
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bool ignored; |
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ScanUntilBeforeCurrentKey(&ignored); |
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FindPrevUserEntry(); |
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} |
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virtual void Seek(const Slice& target) { |
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ParsedInternalKey ikey(target, sequence_, kValueTypeForSeek); |
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std::string tmp; |
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AppendInternalKey(&tmp, ikey); |
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iter_->Seek(tmp); |
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FindNextUserEntry(); |
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} |
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virtual void SeekToFirst() { |
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iter_->SeekToFirst(); |
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FindNextUserEntry(); |
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} |
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virtual void SeekToLast(); |
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virtual Status status() const { |
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virtual Status status() const { |
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if (status_.ok()) { |
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if (status_.ok()) { |
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if (large_ != NULL && !large_->status.ok()) return large_->status; |
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if (large_ != NULL && !large_->status.ok()) return large_->status; |
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@ -104,23 +88,13 @@ class DBIter: public Iterator { |
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} |
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} |
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} |
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} |
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private: |
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void FindNextUserEntry(); |
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void FindPrevUserEntry(); |
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void SaveKey(const Slice& k) { key_.assign(k.data(), k.size()); } |
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void SaveValue(const Slice& v) { |
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if (value_.capacity() > v.size() + 1048576) { |
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std::string empty; |
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swap(empty, value_); |
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} |
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value_.assign(v.data(), v.size()); |
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} |
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bool ParseKey(ParsedInternalKey* key); |
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void SkipPast(const Slice& k); |
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void ScanUntilBeforeCurrentKey(bool* found_live); |
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void ReadIndirectValue() const; |
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virtual void Next(); |
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virtual void Prev(); |
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virtual void Seek(const Slice& target); |
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virtual void SeekToFirst(); |
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virtual void SeekToLast(); |
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private: |
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struct Large { |
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struct Large { |
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port::Mutex mutex; |
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port::Mutex mutex; |
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std::string value; |
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std::string value; |
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@ -128,19 +102,42 @@ class DBIter: public Iterator { |
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Status status; |
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Status status; |
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}; |
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}; |
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void FindNextUserEntry(bool skipping, std::string* skip); |
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void FindPrevUserEntry(); |
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bool ParseKey(ParsedInternalKey* key); |
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void ReadIndirectValue(Slice ref) const; |
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inline void SaveKey(const Slice& k, std::string* dst) { |
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dst->assign(k.data(), k.size()); |
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} |
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inline void ForgetLargeValue() { |
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if (large_ != NULL) { |
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delete large_; |
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large_ = NULL; |
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} |
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} |
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inline void ClearSavedValue() { |
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if (saved_value_.capacity() > 1048576) { |
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std::string empty; |
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swap(empty, saved_value_); |
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} else { |
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saved_value_.clear(); |
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} |
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} |
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const std::string* const dbname_; |
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const std::string* const dbname_; |
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Env* const env_; |
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Env* const env_; |
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const Comparator* const user_comparator_; |
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const Comparator* const user_comparator_; |
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// iter_ is positioned just past current entry for DBIter if valid_
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Iterator* const iter_; |
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Iterator* const iter_; |
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SequenceNumber const sequence_; |
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SequenceNumber const sequence_; |
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Status status_; |
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Status status_; |
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std::string key_; // Always a user key
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std::string value_; |
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Large* large_; // Non-NULL if value is an indirect reference
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std::string saved_key_; // == current key when direction_==kReverse
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std::string saved_value_; // == current raw value when direction_==kReverse
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Large* large_; // Non-NULL if value is an indirect reference
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Direction direction_; |
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bool valid_; |
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bool valid_; |
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// No copying allowed
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// No copying allowed
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@ -157,204 +154,189 @@ inline bool DBIter::ParseKey(ParsedInternalKey* ikey) { |
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} |
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} |
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} |
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} |
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void DBIter::FindNextUserEntry() { |
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if (large_ != NULL) { |
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if (status_.ok() && !large_->status.ok()) { |
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status_ = large_->status; |
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} |
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delete large_; |
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large_ = NULL; |
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} |
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while (iter_->Valid()) { |
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ParsedInternalKey ikey; |
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if (!ParseKey(&ikey)) { |
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// Skip past corrupted entry
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iter_->Next(); |
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continue; |
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} |
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if (ikey.sequence > sequence_) { |
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// Ignore entries newer than the snapshot
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void DBIter::Next() { |
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assert(valid_); |
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ForgetLargeValue(); |
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if (direction_ == kReverse) { // Switch directions?
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direction_ = kForward; |
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// iter_ is pointing just before the entries for this->key(),
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// so advance into the range of entries for this->key() and then
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// use the normal skipping code below.
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if (!iter_->Valid()) { |
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iter_->SeekToFirst(); |
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} else { |
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iter_->Next(); |
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iter_->Next(); |
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continue; |
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} |
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} |
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switch (ikey.type) { |
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case kTypeDeletion: |
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SaveKey(ikey.user_key); // Make local copy for use by SkipPast()
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iter_->Next(); |
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SkipPast(key_); |
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// Do not return deleted entries. Instead keep looping.
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break; |
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case kTypeValue: |
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SaveKey(ikey.user_key); |
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SaveValue(iter_->value()); |
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iter_->Next(); |
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SkipPast(key_); |
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// Yield the value we just found.
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valid_ = true; |
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return; |
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case kTypeLargeValueRef: |
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SaveKey(ikey.user_key); |
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// Save the large value ref as value_, and read it lazily on a call
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// to value()
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SaveValue(iter_->value()); |
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large_ = new Large; |
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large_->produced = false; |
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iter_->Next(); |
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SkipPast(key_); |
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// Yield the value we just found.
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valid_ = true; |
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return; |
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if (!iter_->Valid()) { |
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valid_ = false; |
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saved_key_.clear(); |
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return; |
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} |
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} |
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} |
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} |
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valid_ = false; |
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key_.clear(); |
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value_.clear(); |
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assert(large_ == NULL); |
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// Temporarily use saved_key_ as storage for key to skip.
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std::string* skip = &saved_key_; |
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SaveKey(ExtractUserKey(iter_->key()), skip); |
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FindNextUserEntry(true, skip); |
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} |
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} |
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void DBIter::SkipPast(const Slice& k) { |
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while (iter_->Valid()) { |
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void DBIter::FindNextUserEntry(bool skipping, std::string* skip) { |
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// Loop until we hit an acceptable entry to yield
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assert(iter_->Valid()); |
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assert(direction_ == kForward); |
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assert(large_ == NULL); |
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do { |
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ParsedInternalKey ikey; |
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ParsedInternalKey ikey; |
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// Note that if we cannot parse an internal key, we keep looping
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// so that if we have a run like the following:
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// <x,100,v> => value100
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// <corrupted entry for user key x>
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// <x,50,v> => value50
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// we will skip over the corrupted entry as well as value50.
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if (ParseKey(&ikey) && user_comparator_->Compare(ikey.user_key, k) != 0) { |
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break; |
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if (ParseKey(&ikey) && ikey.sequence <= sequence_) { |
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switch (ikey.type) { |
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case kTypeDeletion: |
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// Arrange to skip all upcoming entries for this key since
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// they are hidden by this deletion.
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SaveKey(ikey.user_key, skip); |
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skipping = true; |
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break; |
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case kTypeValue: |
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case kTypeLargeValueRef: |
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if (skipping && |
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user_comparator_->Compare(ikey.user_key, *skip) <= 0) { |
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// Entry hidden
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} else { |
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valid_ = true; |
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saved_key_.clear(); |
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if (ikey.type == kTypeLargeValueRef) { |
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large_ = new Large; |
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large_->produced = false; |
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} |
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return; |
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} |
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break; |
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} |
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} |
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} |
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iter_->Next(); |
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iter_->Next(); |
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} |
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} while (iter_->Valid()); |
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saved_key_.clear(); |
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valid_ = false; |
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} |
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} |
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void DBIter::SeekToLast() { |
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// Position iter_ at the last uncorrupted user key and then
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// let FindPrevUserEntry() do the heavy lifting to find
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// a user key that is live.
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iter_->SeekToLast(); |
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ParsedInternalKey current; |
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while (iter_->Valid() && !ParseKey(¤t)) { |
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iter_->Prev(); |
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} |
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if (iter_->Valid()) { |
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SaveKey(current.user_key); |
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} |
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FindPrevUserEntry(); |
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} |
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void DBIter::Prev() { |
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assert(valid_); |
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ForgetLargeValue(); |
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// Let X be the user key at which iter_ is currently positioned.
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// Adjust DBIter to point at the last entry with a key <= X that
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// has a live value.
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void DBIter::FindPrevUserEntry() { |
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// Consider the following example:
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//
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// A@540
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// A@400
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//
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// B@300
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// B@200
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// B@100 <- iter_
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//
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// C@301
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// C@201
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//
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// The comments marked "(first iteration)" below relate what happens
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// for the preceding example in the first iteration of the while loop
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// below. There may be more than one iteration either if there are
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// no live values for B, or if there is a corruption.
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while (iter_->Valid()) { |
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std::string saved = key_; |
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bool found_live; |
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ScanUntilBeforeCurrentKey(&found_live); |
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// (first iteration) iter_ at A@400
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if (found_live) { |
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// Step forward into range of entries with user key >= saved
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if (direction_ == kForward) { // Switch directions?
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// iter_ is pointing at the current entry. Scan backwards until
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// the key changes so we can use the normal reverse scanning code.
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assert(iter_->Valid()); // Otherwise valid_ would have been false
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SaveKey(ExtractUserKey(iter_->key()), &saved_key_); |
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while (true) { |
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iter_->Prev(); |
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if (!iter_->Valid()) { |
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if (!iter_->Valid()) { |
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iter_->SeekToFirst(); |
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} else { |
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iter_->Next(); |
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} |
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// (first iteration) iter_ at B@300
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FindNextUserEntry(); // Sets key_ to the key of the next value it found
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if (valid_ && user_comparator_->Compare(key_, saved) == 0) { |
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// (first iteration) iter_ at C@301
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valid_ = false; |
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saved_key_.clear(); |
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ClearSavedValue(); |
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return; |
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return; |
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} |
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} |
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// FindNextUserEntry() could not find any entries under the
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// user key "saved". This is probably a corruption since
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// ScanUntilBefore(saved) found a live value. So we skip
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// backwards to an earlier key and ignore the corrupted
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// entries for "saved".
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//
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// (first iteration) iter_ at C@301 and saved == "B"
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key_ = saved; |
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bool ignored; |
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ScanUntilBeforeCurrentKey(&ignored); |
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// (first iteration) iter_ at A@400
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if (user_comparator_->Compare(ExtractUserKey(iter_->key()), |
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saved_key_) < 0) { |
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break; |
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} |
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} |
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} |
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direction_ = kReverse; |
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} |
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} |
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valid_ = false; |
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key_.clear(); |
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value_.clear(); |
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FindPrevUserEntry(); |
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} |
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} |
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void DBIter::ScanUntilBeforeCurrentKey(bool* found_live) { |
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*found_live = false; |
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if (!iter_->Valid()) { |
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iter_->SeekToLast(); |
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} |
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void DBIter::FindPrevUserEntry() { |
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assert(direction_ == kReverse); |
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assert(large_ == NULL); |
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while (iter_->Valid()) { |
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ParsedInternalKey current; |
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if (!ParseKey(¤t)) { |
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ValueType value_type = kTypeDeletion; |
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if (iter_->Valid()) { |
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SaveKey(ExtractUserKey(iter_->key()), &saved_key_); |
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do { |
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ParsedInternalKey ikey; |
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if (ParseKey(&ikey) && ikey.sequence <= sequence_) { |
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if ((value_type != kTypeDeletion) && |
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user_comparator_->Compare(ikey.user_key, saved_key_) < 0) { |
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// We encountered a non-deleted value in entries for previous keys,
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break; |
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} |
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value_type = ikey.type; |
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if (value_type == kTypeDeletion) { |
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ClearSavedValue(); |
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} else { |
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Slice raw_value = iter_->value(); |
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if (saved_value_.capacity() > raw_value.size() + 1048576) { |
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std::string empty; |
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swap(empty, saved_value_); |
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} |
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saved_value_.assign(raw_value.data(), raw_value.size()); |
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} |
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} |
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iter_->Prev(); |
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iter_->Prev(); |
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continue; |
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} |
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} while (iter_->Valid()); |
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} |
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if (current.sequence > sequence_) { |
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// Ignore entries that are serialized after this read
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iter_->Prev(); |
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continue; |
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if (value_type == kTypeDeletion) { |
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// End
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valid_ = false; |
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saved_key_.clear(); |
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ClearSavedValue(); |
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direction_ = kForward; |
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} else { |
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valid_ = true; |
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if (value_type == kTypeLargeValueRef) { |
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large_ = new Large; |
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large_->produced = false; |
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} |
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} |
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} |
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} |
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const int cmp = user_comparator_->Compare(current.user_key, key_); |
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if (cmp < 0) { |
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SaveKey(current.user_key); |
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return; |
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} else if (cmp == 0) { |
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switch (current.type) { |
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case kTypeDeletion: |
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*found_live = false; |
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break; |
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case kTypeValue: |
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case kTypeLargeValueRef: |
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*found_live = true; |
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break; |
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} |
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} else { // cmp > 0
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*found_live = false; |
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} |
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void DBIter::Seek(const Slice& target) { |
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direction_ = kForward; |
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ForgetLargeValue(); |
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ClearSavedValue(); |
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saved_key_.clear(); |
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AppendInternalKey( |
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&saved_key_, ParsedInternalKey(target, sequence_, kValueTypeForSeek)); |
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iter_->Seek(saved_key_); |
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if (iter_->Valid()) { |
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FindNextUserEntry(false, &saved_key_ /* temporary storage */); |
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} else { |
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valid_ = false; |
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} |
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} |
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iter_->Prev(); |
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void DBIter::SeekToFirst() { |
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direction_ = kForward; |
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ForgetLargeValue(); |
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ClearSavedValue(); |
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iter_->SeekToFirst(); |
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if (iter_->Valid()) { |
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FindNextUserEntry(false, &saved_key_ /* temporary storage */); |
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} else { |
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valid_ = false; |
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} |
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} |
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} |
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} |
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void DBIter::ReadIndirectValue() const { |
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void DBIter::SeekToLast() { |
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direction_ = kReverse; |
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ForgetLargeValue(); |
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ClearSavedValue(); |
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iter_->SeekToLast(); |
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FindPrevUserEntry(); |
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} |
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void DBIter::ReadIndirectValue(Slice ref) const { |
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assert(!large_->produced); |
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assert(!large_->produced); |
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large_->produced = true; |
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large_->produced = true; |
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LargeValueRef large_ref; |
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LargeValueRef large_ref; |
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if (value_.size() != LargeValueRef::ByteSize()) { |
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if (ref.size() != LargeValueRef::ByteSize()) { |
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large_->status = Status::Corruption("malformed large value reference"); |
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large_->status = Status::Corruption("malformed large value reference"); |
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return; |
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return; |
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} |
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} |
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memcpy(large_ref.data, value_.data(), LargeValueRef::ByteSize()); |
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memcpy(large_ref.data, ref.data(), LargeValueRef::ByteSize()); |
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std::string fname = LargeValueFileName(*dbname_, large_ref); |
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std::string fname = LargeValueFileName(*dbname_, large_ref); |
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RandomAccessFile* file; |
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RandomAccessFile* file; |
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Status s = env_->NewRandomAccessFile(fname, &file); |
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Status s = env_->NewRandomAccessFile(fname, &file); |
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