//---------------------------------------------------------------------- // This software is part of the Haiku distribution and is covered // by the MIT License. //--------------------------------------------------------------------- /*! \file QueryPredicate.h BQuery predicate helper classes interface declaration. */ #ifndef _QUERY_PREDICATE_H #define _QUERY_PREDICATE_H #include #include #include #include namespace BPrivate { namespace Storage { // QueryNode class QueryNode { public: QueryNode(); virtual ~QueryNode(); virtual uint32 Arity() const = 0; virtual status_t SetChildAt(QueryNode *child, int32 index) = 0; virtual QueryNode *ChildAt(int32 index) = 0; virtual status_t GetString(BString &predicate) = 0; }; // LeafNode class LeafNode : public QueryNode { public: LeafNode(); virtual ~LeafNode(); virtual uint32 Arity() const; virtual status_t SetChildAt(QueryNode *child, int32 index); virtual QueryNode *ChildAt(int32 index); }; // UnaryNode class UnaryNode : public QueryNode { public: UnaryNode(); virtual ~UnaryNode(); virtual uint32 Arity() const; virtual status_t SetChildAt(QueryNode *child, int32 index); virtual QueryNode *ChildAt(int32 index); protected: QueryNode *fChild; }; // BinaryNode class BinaryNode : public QueryNode { public: BinaryNode(); virtual ~BinaryNode(); virtual uint32 Arity() const; virtual status_t SetChildAt(QueryNode *child, int32 index); virtual QueryNode *ChildAt(int32 index); protected: QueryNode *fChild1; QueryNode *fChild2; }; // AttributeNode class AttributeNode : public LeafNode { public: AttributeNode(const char *attribute); virtual status_t GetString(BString &predicate); private: BString fAttribute; }; // StringNode class StringNode : public LeafNode { public: StringNode(const char *value, bool caseInsensitive = false); virtual status_t GetString(BString &predicate); inline const char *Value() const { return fValue.String(); } private: BString fValue; }; // DateNode class DateNode : public LeafNode { public: DateNode(const char *value); virtual status_t GetString(BString &predicate); private: BString fValue; }; // ValueNode template class ValueNode : public LeafNode { public: ValueNode(const ValueType &value); virtual status_t GetString(BString &predicate); private: ValueType fValue; }; // constructor template ValueNode::ValueNode(const ValueType &value) : LeafNode(), fValue(value) { } // GetString template status_t ValueNode::GetString(BString &predicate) { predicate.SetTo(""); predicate << fValue; return B_OK; } // specializations for float and double template<> status_t ValueNode::GetString(BString &predicate); template<> status_t ValueNode::GetString(BString &predicate); // short hands typedef ValueNode Int32ValueNode; typedef ValueNode UInt32ValueNode; typedef ValueNode Int64ValueNode; typedef ValueNode UInt64ValueNode; typedef ValueNode FloatValueNode; typedef ValueNode DoubleValueNode; // SpecialOpNode class SpecialOpNode : public LeafNode { public: SpecialOpNode(query_op op); virtual status_t GetString(BString &predicate); private: query_op fOp; }; // UnaryOpNode class UnaryOpNode : public UnaryNode { public: UnaryOpNode(query_op op); virtual status_t GetString(BString &predicate); private: query_op fOp; }; // BinaryOpNode class BinaryOpNode : public BinaryNode { public: BinaryOpNode(query_op op); virtual status_t GetString(BString &predicate); private: query_op fOp; }; // QueryStack class QueryStack { public: QueryStack(); virtual ~QueryStack(); status_t PushNode(QueryNode *node); QueryNode *PopNode(); status_t ConvertToTree(QueryNode *&rootNode); private: status_t _GetSubTree(QueryNode *&rootNode); private: BList fNodes; }; }; // namespace Storage }; // namespace BPrivate #endif // _QUERY_PREDICATE_H