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 * 
 * 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
 * 
 * Unless required by applicable law or agreed to in writing,
 * software distributed under the License is distributed on an
 * "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY
 * KIND, either express or implied.  See the License for the
 * specific language governing permissions and limitations
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#ifndef SC_CONVUNO_HXX
#define SC_CONVUNO_HXX

#include <algorithm>
#include <i18npool/lang.h>
#include <com/sun/star/table/CellAddress.hpp>
#include <com/sun/star/table/CellRangeAddress.hpp>
#include <com/sun/star/lang/Locale.hpp>
#include "global.hxx"
#include "address.hxx"


class ScUnoConversion
{
public:
	static LanguageType GetLanguage( const com::sun::star::lang::Locale& rLocale );
	static void FillLocale( com::sun::star::lang::Locale& rLocale, LanguageType eLang );

	// CellAddress -> ScAddress
	static inline void	FillScAddress(
							ScAddress& rScAddress,
							const ::com::sun::star::table::CellAddress& rApiAddress );
	// ScAddress -> CellAddress
	static inline void	FillApiAddress(
							::com::sun::star::table::CellAddress& rApiAddress,
							const ScAddress& rScAddress );
	// CellRangeAddress -> ScRange
	static inline void	FillScRange(
							ScRange& rScRange,
							const ::com::sun::star::table::CellRangeAddress& rApiRange );
	// ScRange -> CellRangeAddress
	static inline void	FillApiRange(
							::com::sun::star::table::CellRangeAddress& rApiRange,
							const ScRange& rScRange );
	// CellAddress -> CellRangeAddress
	static inline void	FillApiRange(
							::com::sun::star::table::CellRangeAddress& rApiRange,
							const ::com::sun::star::table::CellAddress& rApiAddress );
	// CellRangeAddress-Start -> CellAddress
	static inline void	FillApiStartAddress(
							::com::sun::star::table::CellAddress& rApiAddress,
							const ::com::sun::star::table::CellRangeAddress& rApiRange );
	// CellRangeAddress-End -> CellAddress
	static inline void	FillApiEndAddress(
							::com::sun::star::table::CellAddress& rApiAddress,
							const ::com::sun::star::table::CellRangeAddress& rApiRange );

    /** Returns true, if the passed ranges have at least one common cell. */
    static inline bool  Intersects(
							const ::com::sun::star::table::CellRangeAddress& rApiARange1,
							const ::com::sun::star::table::CellRangeAddress& rApiARange2 );
    /** Returns true, if the passed address rApiInner is inside the passed range rApiOuter. */
    static inline bool  Contains(
                            const ::com::sun::star::table::CellRangeAddress& rApiOuter,
                            const ::com::sun::star::table::CellAddress& rApiInner );
    /** Returns true, if the passed range rApiInner is completely inside the passed range rApiOuter. */
    static inline bool  Contains(
                            const ::com::sun::star::table::CellRangeAddress& rApiOuter,
                            const ::com::sun::star::table::CellRangeAddress& rApiInner );
};


inline void	ScUnoConversion::FillScAddress(
		ScAddress& rScAddress,
		const ::com::sun::star::table::CellAddress& rApiAddress )
{
	rScAddress.Set( (SCCOL)rApiAddress.Column, (SCROW)rApiAddress.Row, (SCTAB)rApiAddress.Sheet );
}

inline void	ScUnoConversion::FillApiAddress(
		::com::sun::star::table::CellAddress& rApiAddress,
		const ScAddress& rScAddress )
{
	rApiAddress.Column = rScAddress.Col();
	rApiAddress.Row = rScAddress.Row();
	rApiAddress.Sheet = rScAddress.Tab();
}

inline void	ScUnoConversion::FillScRange(
		ScRange& rScRange,
		const ::com::sun::star::table::CellRangeAddress& rApiRange )
{
	rScRange.aStart.Set( (SCCOL)rApiRange.StartColumn, (SCROW)rApiRange.StartRow, (SCTAB)rApiRange.Sheet );
	rScRange.aEnd.Set( (SCCOL)rApiRange.EndColumn, (SCROW)rApiRange.EndRow, (SCTAB)rApiRange.Sheet );
}

inline void	ScUnoConversion::FillApiRange(
		::com::sun::star::table::CellRangeAddress& rApiRange,
		const ScRange& rScRange )
{
	rApiRange.StartColumn = rScRange.aStart.Col();
	rApiRange.StartRow = rScRange.aStart.Row();
	rApiRange.Sheet = rScRange.aStart.Tab();
	rApiRange.EndColumn = rScRange.aEnd.Col();
	rApiRange.EndRow = rScRange.aEnd.Row();
}

inline void	ScUnoConversion::FillApiRange(
		::com::sun::star::table::CellRangeAddress& rApiRange,
		const ::com::sun::star::table::CellAddress& rApiAddress )
{
	rApiRange.StartColumn = rApiRange.EndColumn = rApiAddress.Column;
	rApiRange.StartRow = rApiRange.EndRow = rApiAddress.Row;
	rApiRange.Sheet = rApiAddress.Sheet;
}

inline void	ScUnoConversion::FillApiStartAddress(
		::com::sun::star::table::CellAddress& rApiAddress,
		const ::com::sun::star::table::CellRangeAddress& rApiRange )
{
	rApiAddress.Column = rApiRange.StartColumn;
	rApiAddress.Row = rApiRange.StartRow;
	rApiAddress.Sheet = rApiRange.Sheet;
}

inline void	ScUnoConversion::FillApiEndAddress(
		::com::sun::star::table::CellAddress& rApiAddress,
		const ::com::sun::star::table::CellRangeAddress& rApiRange )
{
	rApiAddress.Column = rApiRange.EndColumn;
	rApiAddress.Row = rApiRange.EndRow;
	rApiAddress.Sheet = rApiRange.Sheet;
}

inline bool ScUnoConversion::Intersects(
        const ::com::sun::star::table::CellRangeAddress& rApiRange1,
        const ::com::sun::star::table::CellRangeAddress& rApiRange2 )
{
    return (rApiRange1.Sheet == rApiRange2.Sheet) &&
        (::std::max( rApiRange1.StartColumn, rApiRange2.StartColumn ) <= ::std::min( rApiRange1.EndColumn, rApiRange2.EndColumn )) &&
        (::std::max( rApiRange1.StartRow, rApiRange2.StartRow ) <= ::std::min( rApiRange1.EndRow, rApiRange2.EndRow ));
}

inline bool ScUnoConversion::Contains(
        const ::com::sun::star::table::CellRangeAddress& rApiOuter,
        const ::com::sun::star::table::CellAddress& rApiInner )
{
    return (rApiOuter.Sheet == rApiInner.Sheet) &&
        (rApiOuter.StartColumn <= rApiInner.Column) && (rApiInner.Column <= rApiOuter.EndColumn) &&
        (rApiOuter.StartRow <= rApiInner.Row) && (rApiInner.Row <= rApiOuter.EndRow);
}

inline bool ScUnoConversion::Contains(
        const ::com::sun::star::table::CellRangeAddress& rApiOuter,
        const ::com::sun::star::table::CellRangeAddress& rApiInner )
{
    return (rApiOuter.Sheet == rApiInner.Sheet) &&
        (rApiOuter.StartColumn <= rApiInner.StartColumn) && (rApiInner.EndColumn <= rApiOuter.EndColumn) &&
        (rApiOuter.StartRow <= rApiInner.StartRow) && (rApiInner.EndRow <= rApiOuter.EndRow);
}

//___________________________________________________________________

inline sal_Bool operator==(
		const ::com::sun::star::table::CellAddress& rApiAddress1,
		const ::com::sun::star::table::CellAddress& rApiAddress2 )
{
	return
		(rApiAddress1.Column == rApiAddress2.Column) &&
		(rApiAddress1.Row == rApiAddress2.Row) &&
		(rApiAddress1.Sheet == rApiAddress2.Sheet);
}

inline sal_Bool operator!=(
		const ::com::sun::star::table::CellAddress& rApiAddress1,
		const ::com::sun::star::table::CellAddress& rApiAddress2 )
{
	return !(rApiAddress1 == rApiAddress2);
}

inline sal_Bool operator==(
		const ::com::sun::star::table::CellRangeAddress& rApiRange1,
		const ::com::sun::star::table::CellRangeAddress& rApiRange2 )
{
	return
		(rApiRange1.StartColumn == rApiRange2.StartColumn) &&
		(rApiRange1.StartRow == rApiRange2.StartRow) &&
		(rApiRange1.EndColumn == rApiRange2.EndColumn) &&
		(rApiRange1.EndRow == rApiRange2.EndRow) &&
		(rApiRange1.Sheet == rApiRange2.Sheet);
}

inline sal_Bool operator!=(
		const ::com::sun::star::table::CellRangeAddress& rApiRange1,
		const ::com::sun::star::table::CellRangeAddress& rApiRange2 )
{
	return !(rApiRange1 == rApiRange2);
}

#endif