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// path.h
/**
* Copyright (C) 2013 10gen Inc.
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License, version 3,
* as published by the Free Software Foundation.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
* As a special exception, the copyright holders give permission to link the
* code of portions of this program with the OpenSSL library under certain
* conditions as described in each individual source file and distribute
* linked combinations including the program with the OpenSSL library. You
* must comply with the GNU Affero General Public License in all respects for
* all of the code used other than as permitted herein. If you modify file(s)
* with this exception, you may extend this exception to your version of the
* file(s), but you are not obligated to do so. If you do not wish to do so,
* delete this exception statement from your version. If you delete this
* exception statement from all source files in the program, then also delete
* it in the license file.
*/
#pragma once
#include "mongo/base/status.h"
#include "mongo/base/string_data.h"
#include "mongo/bson/bsonobj.h"
#include "mongo/db/field_ref.h"
namespace mongo {
class ElementPath {
public:
/**
* Controls how the element path interacts with leaf arrays, e.g. how we will handle the path
* "a.b" when "b" is an array.
*/
enum class LeafArrayBehavior {
// Matches against the elements of arrays at the end of the path (in addition to the array
// as a whole).
//
// For example, for the path "f" and document {f: [1, 2]}, causes the path iterator to
// return 1, 2, and [1, 2].
kTraverse,
// Does not traverse arrays at the end of the path. For the path "f" and document {f: [1,
// 2]}, the path iterator returns only the entire array [1, 2].
kNoTraversal,
};
/**
* Controls how the element path interacts with non-leaf arrays, e.g. how we will handle the
* path "a.b" when "a" is an array.
*/
enum class NonLeafArrayBehavior {
// Path traversal spans non-leaf arrays.
kTraverse,
// Path traversal stops at non-leaf array boundaries. The path iterator will return no
// elements.
kNoTraversal,
// Path traversal stops at non-leaf array boundaries. The path iterator will return the
// array element.
kMatchSubpath,
};
ElementPath(StringData path,
LeafArrayBehavior leafArrayBehavior = LeafArrayBehavior::kTraverse,
NonLeafArrayBehavior nonLeafArrayBehavior = NonLeafArrayBehavior::kTraverse)
: _leafArrayBehavior(leafArrayBehavior),
_nonLeafArrayBehavior(nonLeafArrayBehavior),
_fieldRef(path) {}
// TODO: replace uses of members below with regular construction.
ElementPath() {}
void init(StringData path);
void setLeafArrayBehavior(LeafArrayBehavior leafArrBehavior) {
_leafArrayBehavior = leafArrBehavior;
}
LeafArrayBehavior leafArrayBehavior() const {
return _leafArrayBehavior;
}
void setNonLeafArrayBehavior(NonLeafArrayBehavior value) {
_nonLeafArrayBehavior = value;
}
NonLeafArrayBehavior nonLeafArrayBehavior() const {
return _nonLeafArrayBehavior;
}
const FieldRef& fieldRef() const {
return _fieldRef;
}
private:
LeafArrayBehavior _leafArrayBehavior;
NonLeafArrayBehavior _nonLeafArrayBehavior;
FieldRef _fieldRef;
};
class ElementIterator {
public:
class Context {
public:
void reset();
void reset(BSONElement element, BSONElement arrayOffset);
void setArrayOffset(BSONElement e) {
_arrayOffset = e;
}
BSONElement element() const {
return _element;
}
BSONElement arrayOffset() const {
return _arrayOffset;
}
private:
BSONElement _element;
BSONElement _arrayOffset;
};
virtual ~ElementIterator();
virtual bool more() = 0;
virtual Context next() = 0;
};
// ---------------------------------------------------------------
class SingleElementElementIterator : public ElementIterator {
public:
explicit SingleElementElementIterator(BSONElement e) : _seen(false) {
_element.reset(e, BSONElement());
}
virtual ~SingleElementElementIterator() {}
virtual bool more() {
return !_seen;
}
virtual Context next() {
_seen = true;
return _element;
}
private:
bool _seen;
ElementIterator::Context _element;
};
class SimpleArrayElementIterator : public ElementIterator {
public:
SimpleArrayElementIterator(const BSONElement& theArray, bool returnArrayLast);
virtual bool more();
virtual Context next();
private:
BSONElement _theArray;
bool _returnArrayLast;
BSONObjIterator _iterator;
};
class BSONElementIterator : public ElementIterator {
public:
BSONElementIterator();
/**
* Constructs an iterator over 'elementToIterate', where the desired element(s) is/are at the
* end of the suffix of 'path' starting at 'suffixIndex'. For example, constructing a
* BSONElementIterator with path="a.b.c", suffixIndex=1, and 'elementToIterate' as the
* subdocument located at 'a' within the object {a: {b: [{c: 1}, {c: 2}]}} would iterate over
* the elements of {b: [{c: 1}, {c: 2}]} at the end of the path 'b.c'. 'elementToIterate' does
* not need to be of type Object, so it would also be valid to construct a BSONElementIterator
* with path="a.b" and 'elementToIterate' as the array within 'a.b'.
*/
BSONElementIterator(const ElementPath* path, size_t suffixIndex, BSONElement elementToIterate);
/**
* Constructs an iterator over 'objectToIterate', where the desired element(s) is/are at the end
* of 'path'.
*/
BSONElementIterator(const ElementPath* path, const BSONObj& objectToIterate);
virtual ~BSONElementIterator();
void reset(const ElementPath* path, size_t suffixIndex, BSONElement elementToIterate);
void reset(const ElementPath* path, const BSONObj& objectToIterate);
bool more();
Context next();
private:
/**
* Helper for more(). Recurs on _subCursor (which traverses the remainder of a path through
* subdocuments of an array).
*/
bool subCursorHasMore();
/**
* Sets _traversalStart and _traversalStartIndex by traversing 'elementToIterate' along the
* suffix of '_path' starting at 'suffixIndex'.
*/
void _setTraversalStart(size_t suffixIndex, BSONElement elementToIterate);
const ElementPath* _path;
// The element where we begin our iteration. This is either:
// -- The element at the end of _path.
// -- The first array element encountered along _path.
// -- EOO, if _path does not exist in the object/element we are exploring.
BSONElement _traversalStart;
// This index of _traversalStart in _path, or 0 if _traversalStart is EOO.
size_t _traversalStartIndex;
enum State { BEGIN, IN_ARRAY, DONE } _state;
Context _next;
struct ArrayIterationState {
void reset(const FieldRef& ref, int start);
void startIterator(BSONElement theArray);
bool more();
BSONElement next();
bool isArrayOffsetMatch(StringData fieldName) const;
bool nextEntireRest() const {
return nextPieceOfPath.size() == restOfPath.size();
}
std::string restOfPath;
bool hasMore;
StringData nextPieceOfPath;
bool nextPieceOfPathIsNumber;
BSONElement _theArray;
BSONElement _current;
std::unique_ptr<BSONObjIterator> _iterator;
};
ArrayIterationState _arrayIterationState;
std::unique_ptr<ElementIterator> _subCursor;
std::unique_ptr<ElementPath> _subCursorPath;
};
}
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