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https://github.com/mongodb/mongo.git
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406 lines
14 KiB
C++
406 lines
14 KiB
C++
// btree.h
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/**
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* Copyright (C) 2008 10gen Inc.
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*
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* This program is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Affero General Public License, version 3,
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* as published by the Free Software Foundation.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Affero General Public License for more details.
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*
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* You should have received a copy of the GNU Affero General Public License
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* along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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#pragma once
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#include "../stdafx.h"
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#include "jsobj.h"
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#include "storage.h"
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#include "pdfile.h"
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namespace mongo {
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#pragma pack(1)
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struct _KeyNode {
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DiskLoc prevChildBucket;
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DiskLoc recordLoc;
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short keyDataOfs() const {
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return (short) _kdo;
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}
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unsigned short _kdo;
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void setKeyDataOfs(short s) {
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_kdo = s;
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assert(s>=0);
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}
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void setKeyDataOfsSavingUse(short s) {
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_kdo = s;
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assert(s>=0);
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}
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void setUsed() {
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recordLoc.GETOFS() &= ~1;
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}
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void setUnused() {
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/* Setting ofs to odd is the sentinel for unused, as real recordLoc's are always
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even numbers.
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Note we need to keep its value basically the same as we use the recordLoc
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as part of the key in the index (to handle duplicate keys efficiently).
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*/
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recordLoc.GETOFS() |= 1;
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}
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int isUnused() {
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return recordLoc.getOfs() & 1;
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}
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int isUsed() {
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return !isUnused();
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}
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};
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#pragma pack()
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class BucketBasics;
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/* wrapper - this is our in memory representation of the key. _KeyNode is the disk representation. */
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class KeyNode {
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public:
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KeyNode(const BucketBasics& bb, const _KeyNode &k);
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const DiskLoc& prevChildBucket;
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const DiskLoc& recordLoc;
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BSONObj key;
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};
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#pragma pack(1)
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/* this class is all about the storage management */
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class BucketBasics {
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friend class BtreeBuilder;
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friend class KeyNode;
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public:
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void dumpTree(DiskLoc thisLoc, const BSONObj &order);
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bool isHead() { return parent.isNull(); }
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void assertValid(const BSONObj &order, bool force = false);
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int fullValidate(const DiskLoc& thisLoc, const BSONObj &order); /* traverses everything */
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protected:
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void modified(const DiskLoc& thisLoc);
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KeyNode keyNode(int i) const {
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assert( i < n );
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return KeyNode(*this, k(i));
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}
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char * dataAt(short ofs) {
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return data + ofs;
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}
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void init(); // initialize a new node
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/* returns false if node is full and must be split
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keypos is where to insert -- inserted after that key #. so keypos=0 is the leftmost one.
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*/
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bool basicInsert(const DiskLoc& thisLoc, int keypos, const DiskLoc& recordLoc, const BSONObj& key, const BSONObj &order);
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/**
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* @return true if works, false if not enough space
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*/
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bool _pushBack(const DiskLoc& recordLoc, BSONObj& key, const BSONObj &order, DiskLoc prevChild);
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void pushBack(const DiskLoc& recordLoc, BSONObj& key, const BSONObj &order, DiskLoc prevChild){
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bool ok = _pushBack( recordLoc , key , order , prevChild );
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assert(ok);
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}
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void popBack(DiskLoc& recLoc, BSONObj& key);
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void _delKeyAtPos(int keypos); // low level version that doesn't deal with child ptrs.
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/* !Packed means there is deleted fragment space within the bucket.
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We "repack" when we run out of space before considering the node
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to be full.
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*/
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enum Flags { Packed=1 };
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DiskLoc& childForPos(int p) {
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return p == n ? nextChild : k(p).prevChildBucket;
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}
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int totalDataSize() const;
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void pack( const BSONObj &order );
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void setNotPacked();
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void setPacked();
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int _alloc(int bytes);
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void _unalloc(int bytes);
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void truncateTo(int N, const BSONObj &order);
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void markUnused(int keypos);
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/* BtreeBuilder uses the parent var as a temp place to maintain a linked list chain.
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we use tempNext() when we do that to be less confusing. (one might have written a union in C)
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*/
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DiskLoc& tempNext() { return parent; }
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public:
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DiskLoc parent;
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string bucketSummary() const {
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stringstream ss;
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ss << " Bucket info:" << endl;
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ss << " n: " << n << endl;
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ss << " parent: " << parent.toString() << endl;
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ss << " nextChild: " << parent.toString() << endl;
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ss << " Size: " << _Size << " flags:" << flags << endl;
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ss << " emptySize: " << emptySize << " topSize: " << topSize << endl;
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return ss.str();
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}
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protected:
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void _shape(int level, stringstream&);
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DiskLoc nextChild; // child bucket off and to the right of the highest key.
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int _Size; // total size of this btree node in bytes. constant.
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int Size() const;
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int flags;
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int emptySize; // size of the empty region
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int topSize; // size of the data at the top of the bucket (keys are at the beginning or 'bottom')
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int n; // # of keys so far.
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int reserved;
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const _KeyNode& k(int i) const {
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return ((_KeyNode*)data)[i];
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}
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_KeyNode& k(int i) {
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return ((_KeyNode*)data)[i];
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}
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char data[4];
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};
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class BtreeBucket : public BucketBasics {
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friend class BtreeCursor;
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public:
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void dump();
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/* @return true if key exists in index
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order - indicates order of keys in the index. this is basically the index's key pattern, e.g.:
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BSONObj order = ((IndexDetails&)idx).keyPattern();
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likewise below in bt_insert() etc.
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*/
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bool exists(const IndexDetails& idx, DiskLoc thisLoc, const BSONObj& key, BSONObj order);
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static DiskLoc addBucket(IndexDetails&); /* start a new index off, empty */
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static void renameIndexNamespace(const char *oldNs, const char *newNs);
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int bt_insert(DiskLoc thisLoc, DiskLoc recordLoc,
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const BSONObj& key, const BSONObj &order, bool dupsAllowed,
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IndexDetails& idx, bool toplevel = true);
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bool unindex(const DiskLoc& thisLoc, IndexDetails& id, BSONObj& key, const DiskLoc& recordLoc);
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/* locate may return an "unused" key that is just a marker. so be careful.
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looks for a key:recordloc pair.
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found - returns true if exact match found. note you can get back a position
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result even if found is false.
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*/
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DiskLoc locate(const IndexDetails& , const DiskLoc& thisLoc, const BSONObj& key, const BSONObj &order,
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int& pos, bool& found, DiskLoc recordLoc, int direction=1);
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/**
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* find the first instance of the key
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* does not handle dups
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* returned DiskLock isNull if can't find anything with that
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*/
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DiskLoc findSingle( const IndexDetails& , const DiskLoc& thisLoc, const BSONObj& key );
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/* advance one key position in the index: */
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DiskLoc advance(const DiskLoc& thisLoc, int& keyOfs, int direction, const char *caller);
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DiskLoc getHead(const DiskLoc& thisLoc);
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/* get tree shape */
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void shape(stringstream&);
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static void a_test(IndexDetails&);
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private:
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void fixParentPtrs(const DiskLoc& thisLoc);
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void delBucket(const DiskLoc& thisLoc, IndexDetails&);
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void delKeyAtPos(const DiskLoc& thisLoc, IndexDetails& id, int p);
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BSONObj keyAt(int keyOfs) {
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return keyOfs >= n ? BSONObj() : keyNode(keyOfs).key;
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}
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static BtreeBucket* allocTemp(); /* caller must release with free() */
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void insertHere(DiskLoc thisLoc, int keypos,
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DiskLoc recordLoc, const BSONObj& key, const BSONObj &order,
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DiskLoc lchild, DiskLoc rchild, IndexDetails&);
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int _insert(DiskLoc thisLoc, DiskLoc recordLoc,
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const BSONObj& key, const BSONObj &order, bool dupsAllowed,
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DiskLoc lChild, DiskLoc rChild, IndexDetails&);
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bool find(const IndexDetails& idx, const BSONObj& key, DiskLoc recordLoc, const BSONObj &order, int& pos, bool assertIfDup);
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static void findLargestKey(const DiskLoc& thisLoc, DiskLoc& largestLoc, int& largestKey);
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public:
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// simply builds and returns a dup key error message string
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static string dupKeyError( const IndexDetails& idx , const BSONObj& key );
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};
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class BtreeCursor : public Cursor {
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public:
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BtreeCursor( NamespaceDetails *_d, int _idxNo, const IndexDetails&, const BSONObj &startKey, const BSONObj &endKey, bool endKeyInclusive, int direction );
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BtreeCursor( NamespaceDetails *_d, int _idxNo, const IndexDetails& _id, const BoundList &_bounds, int _direction );
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virtual bool ok() {
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return !bucket.isNull();
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}
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bool eof() {
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return !ok();
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}
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virtual bool advance();
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virtual void noteLocation(); // updates keyAtKeyOfs...
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virtual void checkLocation();
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/* used for multikey index traversal to avoid sending back dups. see JSMatcher::matches().
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if a multikey index traversal:
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if loc has already been sent, returns true.
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otherwise, marks loc as sent.
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@return true if the loc has not been seen
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*/
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set<DiskLoc> dups;
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virtual bool getsetdup(DiskLoc loc) {
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if( multikey ) {
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pair<set<DiskLoc>::iterator, bool> p = dups.insert(loc);
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return !p.second;
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}
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return false;
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}
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_KeyNode& _currKeyNode() {
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assert( !bucket.isNull() );
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_KeyNode& kn = bucket.btree()->k(keyOfs);
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assert( kn.isUsed() );
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return kn;
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}
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KeyNode currKeyNode() const {
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assert( !bucket.isNull() );
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return bucket.btree()->keyNode(keyOfs);
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}
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virtual BSONObj currKey() const {
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return currKeyNode().key;
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}
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virtual BSONObj indexKeyPattern() {
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return indexDetails.keyPattern();
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}
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virtual void aboutToDeleteBucket(const DiskLoc& b) {
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if ( bucket == b )
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keyOfs = -1;
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}
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virtual DiskLoc currLoc() {
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return !bucket.isNull() ? _currKeyNode().recordLoc : DiskLoc();
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}
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virtual DiskLoc refLoc() {
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return currLoc();
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}
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virtual Record* _current() {
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return currLoc().rec();
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}
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virtual BSONObj current() {
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return BSONObj(_current());
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}
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virtual string toString() {
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string s = string("BtreeCursor ") + indexDetails.indexName();
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if ( direction < 0 ) s += " reverse";
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if ( bounds_.size() > 1 ) s += " multi";
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return s;
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}
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BSONObj prettyKey( const BSONObj &key ) const {
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return key.replaceFieldNames( indexDetails.keyPattern() ).clientReadable();
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}
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virtual BSONObj prettyStartKey() const {
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return prettyKey( startKey );
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}
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virtual BSONObj prettyEndKey() const {
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return prettyKey( endKey );
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}
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void forgetEndKey() { endKey = BSONObj(); }
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private:
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/* Our btrees may (rarely) have "unused" keys when items are deleted.
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Skip past them.
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*/
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void skipUnusedKeys();
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/* Check if the current key is beyond endKey. */
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void checkEnd();
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// selective audits on construction
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void audit();
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// set initial bucket
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void init();
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// init start / end keys with a new range
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void initInterval();
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friend class BtreeBucket;
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NamespaceDetails *d;
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int idxNo;
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BSONObj startKey;
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BSONObj endKey;
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bool endKeyInclusive_;
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bool multikey; // note this must be updated every getmore batch in case someone added a multikey...
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const IndexDetails& indexDetails;
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BSONObj order;
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DiskLoc bucket;
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int keyOfs;
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int direction; // 1=fwd,-1=reverse
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BSONObj keyAtKeyOfs; // so we can tell if things moved around on us between the query and the getMore call
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DiskLoc locAtKeyOfs;
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BoundList bounds_;
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unsigned boundIndex_;
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};
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#pragma pack()
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inline bool IndexDetails::hasKey(const BSONObj& key) {
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return head.btree()->exists(*this, head, key, keyPattern());
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}
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/* build btree from the bottom up */
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/* _ TODO dropDups */
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class BtreeBuilder {
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bool dupsAllowed;
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IndexDetails& idx;
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unsigned long long n;
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BSONObj keyLast;
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BSONObj order;
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bool committed;
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DiskLoc cur, first;
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BtreeBucket *b;
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void newBucket();
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void buildNextLevel(DiskLoc);
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public:
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~BtreeBuilder();
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BtreeBuilder(bool _dupsAllowed, IndexDetails& _idx);
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/* keys must be added in order */
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void addKey(BSONObj& key, DiskLoc loc);
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/* commit work. if not called, destructor will clean up partially completed work
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(in case exception has happened).
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*/
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void commit();
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unsigned long long getn() { return n; }
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};
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} // namespace mongo;
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