/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ /* * This file is part of the LibreOffice project. * * This Source Code Form is subject to the terms of the Mozilla Public * License, v. 2.0. If a copy of the MPL was not distributed with this * file, You can obtain one at http://mozilla.org/MPL/2.0/. * * This file incorporates work covered by the following license notice: * * Licensed to the Apache Software Foundation (ASF) under one or more * contributor license agreements. See the NOTICE file distributed * with this work for additional information regarding copyright * ownership. The ASF licenses this file to you under the Apache * License, Version 2.0 (the "License"); you may not use this file * except in compliance with the License. You may obtain a copy of * the License at http://www.apache.org/licenses/LICENSE-2.0 . */ #ifndef INCLUDED_CONNECTIVITY_SQLITERATOR_HXX #define INCLUDED_CONNECTIVITY_SQLITERATOR_HXX #include #include #include #include #include #include #include #include #include #include #include #include #include namespace connectivity { class OSQLParseNode; class OSQLParser; typedef ::std::pair TNodePair; enum OSQLStatementType { SQL_STATEMENT_UNKNOWN, SQL_STATEMENT_SELECT, SQL_STATEMENT_INSERT, SQL_STATEMENT_UPDATE, SQL_STATEMENT_DELETE, SQL_STATEMENT_ODBC_CALL, SQL_STATEMENT_CREATE_TABLE }; struct OSQLParseTreeIteratorImpl; class OOO_DLLPUBLIC_DBTOOLS OSQLParseTreeIterator { private: ::com::sun::star::sdbc::SQLException m_aErrors; // conatins the error while iterating through the statement const OSQLParseNode* m_pParseTree; // current ParseTree const OSQLParser& m_rParser; // if set used for general error messages from the context OSQLStatementType m_eStatementType; ::rtl::Reference m_aSelectColumns; // all columns from the Select clause ::rtl::Reference m_aParameters; // all parameters ::rtl::Reference m_aGroupColumns; // the group by columns ::rtl::Reference m_aOrderColumns; // the order by columns ::rtl::Reference m_aCreateColumns; // the columns for Create table clause ::std::auto_ptr< OSQLParseTreeIteratorImpl > m_pImpl; void traverseParameter(const OSQLParseNode* _pParseNode,const OSQLParseNode* _pColumnRef,const OUString& _aColumnName, OUString& _aTableRange, const OUString& _rColumnAlias); // inserts a table into the map void traverseOneTableName( OSQLTables& _rTables,const OSQLParseNode * pTableName, const OUString & rTableRange ); void traverseSearchCondition(OSQLParseNode * pSearchCondition); void traverseOnePredicate( OSQLParseNode * pColumnRef, OUString& aValue, OSQLParseNode * pParameter); void traverseByColumnNames(const OSQLParseNode* pSelectNode,sal_Bool _bOrder); void traverseParameters(const OSQLParseNode* pSelectNode); const OSQLParseNode* getTableNode( OSQLTables& _rTables, const OSQLParseNode* pTableRef, OUString& aTableRange ); void getQualified_join( OSQLTables& _rTables, const OSQLParseNode *pTableRef, OUString& aTableRange ); void getSelect_statement(OSQLTables& _rTables,const OSQLParseNode* pSelect); OUString getUniqueColumnName(const OUString & rColumnName) const; /** finds the column with a given name, belonging to a given table, in a given tables collection @param _rTables the tables collection to look in @param rColumnName the column name to look for @param rTableRange the table alias name; if empty, look in all tables @return the desired column object, or if no such column could be found */ static ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > findColumn( const OSQLTables& _rTables, const OUString & rColumnName, OUString & rTableRange ); /** finds a column with a given name, belonging to a given table @param rColumnName the column name to look for @param rTableRange the table alias name; if empty, look in all tables @param _bLookInSubTables if and only if not only our direct tables, but also our sub tables (from sub selects) should be searched @return */ ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > findColumn( const OUString & rColumnName, OUString & rTableRange, bool _bLookInSubTables ); /** finds a column with a given name among the select columns @param rColumnName the column name to look for @return */ ::com::sun::star::uno::Reference< ::com::sun::star::beans::XPropertySet > findSelectColumn( const OUString & rColumnName ); protected: void setSelectColumnName(::rtl::Reference& _rColumns,const OUString & rColumnName,const OUString & rColumnAlias, const OUString & rTableRange,sal_Bool bFkt=sal_False,sal_Int32 _nType = com::sun::star::sdbc::DataType::VARCHAR,sal_Bool bAggFkt=sal_False); void appendColumns(::rtl::Reference& _rColumns,const OUString& _rTableAlias,const OSQLTable& _rTable); // Other member variables that should be available in the "set" functions // can be defined in the derived class. They can be initialized // in its constructor and, after the "traverse" routines have been used, // they can be queried using other functions. private: OSQLParseTreeIterator(); // never implemented OSQLParseTreeIterator(const OSQLParseTreeIterator & rIter); // never implemented public: OSQLParseTreeIterator( const ::com::sun::star::uno::Reference< ::com::sun::star::sdbc::XConnection >& _rxConnection, const ::com::sun::star::uno::Reference< ::com::sun::star::container::XNameAccess >& _rxTables, const OSQLParser& _rParser, const OSQLParseNode* pRoot = NULL ); ~OSQLParseTreeIterator(); inline static void * SAL_CALL operator new( size_t nSize ) SAL_THROW(()) { return ::rtl_allocateMemory( nSize ); } inline static void * SAL_CALL operator new( size_t,void* _pHint ) SAL_THROW(()) { return _pHint; } inline static void SAL_CALL operator delete( void * pMem ) SAL_THROW(()) { ::rtl_freeMemory( pMem ); } inline static void SAL_CALL operator delete( void *,void* ) SAL_THROW(()) { } void dispose(); bool isCaseSensitive() const; // The parse tree to be analysed/traversed: // If NULL is passed, the current parse tree will be deleted and the error status cleared. void setParseTree(const OSQLParseNode * pNewParseTree); // void setParser(const OSQLParser* _pParser) { m_pParser = _pParser; } const OSQLParseNode * getParseTree() const { return m_pParseTree; }; // subtrees in case of a select statement const OSQLParseNode* getWhereTree() const; const OSQLParseNode* getOrderTree() const; const OSQLParseNode* getGroupByTree() const; const OSQLParseNode* getHavingTree() const; const OSQLParseNode* getSimpleWhereTree() const; const OSQLParseNode* getSimpleOrderTree() const; const OSQLParseNode* getSimpleGroupByTree() const; const OSQLParseNode* getSimpleHavingTree() const; /** returns the errors which occurred during parsing. The returned object contains a chain (via SQLException::NextException) of SQLExceptions. */ inline const ::com::sun::star::sdbc::SQLException& getErrors() const { return m_aErrors; } inline bool hasErrors() const { return !m_aErrors.Message.isEmpty(); } // statement type (already set in setParseTree): OSQLStatementType getStatementType() const { return m_eStatementType; } /** traverses the complete statement tree, and fills all our data with the information obatined during traversal. Implemented by calling the single traverse* methods in the proper order (depending on the statement type). */ void traverseAll(); enum TraversalParts { Parameters = 0x0001, TableNames = 0x0002, SelectColumns = 0x0006, // note that this includes TableNames. No SelectColumns without TableNames // Those are not implemented currently // GroupColumns = 0x0008, // OrderColumns = 0x0010, // SelectColumns = 0x0020, // CreateColumns = 0x0040, All = 0xFFFF }; /** traverses selected parts of the statement tree, and fills our data with the information obtained during traversal @param _nIncludeMask set of TraversalParts bits, specifying which information is to be collected. Note TraversalParts is currently not */ void traverseSome( sal_uInt32 _nIncludeMask ); // The TableRangeMap contains all tables associated with the range name found first. const OSQLTables& getTables() const; ::rtl::Reference getSelectColumns() const { return m_aSelectColumns;} ::rtl::Reference getGroupColumns() const { return m_aGroupColumns;} ::rtl::Reference getOrderColumns() const { return m_aOrderColumns;} ::rtl::Reference getParameters() const { return m_aParameters; } ::rtl::Reference getCreateColumns() const { return m_aCreateColumns;} /** return the columname and the table range @param _pColumnRef The column ref parse node. @param _rColumnName The column name to be set. @param _rTableRange The table range to be set. */ void getColumnRange( const OSQLParseNode* _pColumnRef, OUString &_rColumnName, OUString& _rTableRange) const; /** retrieves a column's name, table range, and alias @param _pColumnRef The column_ref parse node. @param _out_rColumnName The column name to be set. @param _out_rTableRange The table range to be set. @param _out_rColumnAliasIfPresent If the column specified by _pColumnRef is part of the select columns, and contains a column alias there, this alias is returned here. */ void getColumnRange( const OSQLParseNode* _pColumnRef, OUString& _out_rColumnName, OUString& _out_rTableRange, OUString& _out_rColumnAliasIfPresent ) const; /** return the alias name of a column @param _pDerivedColumn The parse node where SQL_ISRULE(_pDerivedColumn,derived_column) must be true @return The alias name of the column or an empty string. */ static OUString getColumnAlias(const OSQLParseNode* _pDerivedColumn); /** return the columname and the table range @param _pColumnRef The column ref parse node. @param _xMetaData The database meta data. @param _rColumnName The column name to be set. @param _rTableRange The table range to be set. */ static void getColumnRange( const OSQLParseNode* _pColumnRef, const ::com::sun::star::uno::Reference< ::com::sun::star::sdbc::XConnection >& _rxConnection, OUString &_rColumnName, OUString& _rTableRange); // empty if ambiguous bool getColumnTableRange(const OSQLParseNode* pNode, OUString &rTableRange) const; // return true when the tableNode is a rule like catalog_name, schema_name or table_name sal_Bool isTableNode(const OSQLParseNode* _pTableNode) const; // tries to find the correct type of the function sal_Int32 getFunctionReturnType(const OSQLParseNode* _pNode ); // returns a lis of all joined columns ::std::vector< TNodePair >& getJoinConditions() const; private: // helper to implement getColumnTableRange bool impl_getColumnTableRange(const OSQLParseNode* pNode, OUString &rTableRange) const; /** traverses the list of table names, and filles _rTables */ bool traverseTableNames( OSQLTables& _rTables ); /// traverses columns in a SELECT statement bool traverseSelectColumnNames(const OSQLParseNode* pSelectNode); /// traverses columns in a CREATE TABLE statement void traverseCreateColumns(const OSQLParseNode* pSelectNode); bool traverseOrderByColumnNames(const OSQLParseNode* pSelectNode); bool traverseGroupByColumnNames(const OSQLParseNode* pSelectNode); bool traverseSelectionCriteria(const OSQLParseNode* pSelectNode); private: /** constructs a new iterator, which inherits some of the settings from a parent iterator */ OSQLParseTreeIterator( const OSQLParseTreeIterator& _rParentIterator, const OSQLParser& _rParser, const OSQLParseNode* pRoot ); /** creates a table object and inserts it into our tables collection only used when we're iterating through a CREATE TABLE statement */ OSQLTable impl_createTableObject( const OUString& rTableName, const OUString& rCatalogName, const OUString& rSchemaName ); /** locates a record source (a table or query) with the given name */ OSQLTable impl_locateRecordSource( const OUString& _rComposedName ); /** implementation for both traverseAll and traverseSome */ void impl_traverse( sal_uInt32 _nIncludeMask ); /** retrieves the parameter columns of the given query */ void impl_getQueryParameterColumns( const OSQLTable& _rQuery ); void setOrderByColumnName(const OUString & rColumnName, OUString & rTableRange, sal_Bool bAscending); void setGroupByColumnName(const OUString & rColumnName, OUString & rTableRange); private: /** appends an SQLException corresponding to the given error code to our error collection @param _eError the code of the error which occurred @param _pReplaceToken1 if not , the first occurrence of '#' in the error message will be replaced with the given token @param _pReplaceToken2 if not , and if _rReplaceToken1 is not , the second occurrence of '#' in the error message will be replaced with _rReplaceToken2 */ void impl_appendError( IParseContext::ErrorCode _eError, const OUString* _pReplaceToken1 = NULL, const OUString* _pReplaceToken2 = NULL ); /** appends an SQLException corresponding to the given error code to our error collection */ void impl_appendError( const ::com::sun::star::sdbc::SQLException& _rError ); /** resets our errors */ inline void impl_resetErrors() { m_aErrors = ::com::sun::star::sdbc::SQLException(); } void impl_fillJoinConditions(const OSQLParseNode* i_pJoinCondition); }; } #endif // INCLUDED_CONNECTIVITY_SQLITERATOR_HXX /* vim:set shiftwidth=4 softtabstop=4 expandtab: */