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/* -*- 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_OOX_HELPER_CONTAINERHELPER_HXX
#define INCLUDED_OOX_HELPER_CONTAINERHELPER_HXX
#include <cstddef>
#include <vector>
#include <com/sun/star/uno/Reference.hxx>
#include <com/sun/star/uno/Sequence.hxx>
#include <oox/dllapi.h>
#include <rtl/ustring.hxx>
#include <sal/types.h>
namespace com::sun::star {
namespace container { class XNameAccess; }
namespace container { class XNameContainer; }
namespace uno { class Any; }
}
namespace oox {
/** A range of signed 32-bit integer values. */
struct ValueRange
{
sal_Int32 mnFirst;
sal_Int32 mnLast;
explicit ValueRange( sal_Int32 nValue ) : mnFirst( nValue ), mnLast( nValue ) {}
explicit ValueRange( sal_Int32 nFirst, sal_Int32 nLast ) : mnFirst( nFirst ), mnLast( nLast ) {}
bool operator==( const ValueRange& rRange ) const { return (mnFirst == rRange.mnFirst) && (mnLast == rRange.mnLast); }
bool operator!=( const ValueRange& rRange ) const { return !(*this == rRange); }
bool contains( const ValueRange& rRange ) const { return (mnFirst <= rRange.mnFirst) && (rRange.mnLast <= mnLast); }
bool intersects( const ValueRange& rRange ) const { return (mnFirst <= rRange.mnLast) && (rRange.mnFirst <= mnLast); }
};
typedef ::std::vector< ValueRange > ValueRangeVector;
/** An ordered list of value ranges. The insertion operation will merge
consecutive value ranges.
*/
class OOX_DLLPUBLIC ValueRangeSet
{
public:
ValueRangeSet() {}
/** Inserts the passed value range into the range list. */
void insert( const ValueRange& rRange );
/** Returns the ordered list of all value ranges. */
const ValueRangeVector& getRanges() const { return maRanges; }
private:
ValueRangeVector maRanges;
};
/** Template for a 2-dimensional array of objects.
This class template provides a similar interface to the ::std::vector
template.
*/
template< typename Type >
class Matrix
{
public:
typedef ::std::vector< Type > container_type;
typedef typename container_type::value_type value_type;
typedef typename container_type::pointer pointer;
typedef typename container_type::reference reference;
typedef typename container_type::const_reference const_reference;
typedef typename container_type::size_type size_type;
typedef typename container_type::iterator iterator;
typedef typename container_type::const_iterator const_iterator;
Matrix() : mnWidth( 0 ) {}
explicit Matrix( size_type nWidth, size_type nHeight ) { resize( nWidth, nHeight ); }
explicit Matrix( size_type nWidth, size_type nHeight, const_reference rData ) { resize( nWidth, nHeight, rData ); }
bool empty() const { return maData.empty(); }
size_type size() const { return maData.size(); }
size_type width() const { return mnWidth; }
size_type height() const { return empty() ? 0 : (size() / width()); }
void clear() { resize( 0, 0 ); }
void resize( size_type nWidth, size_type nHeight ) { mnWidth = nWidth; maData.resize( nWidth * nHeight ); }
void resize( size_type nWidth, size_type nHeight, const_reference rData ) { mnWidth = nWidth; maData.resize( nWidth * nHeight, rData ); }
iterator at( size_type nX, size_type nY ) { return maData.begin() + mnWidth * nY + nX; }
const_iterator at( size_type nX, size_type nY ) const { return maData.begin() + mnWidth * nY + nX; }
reference operator()( size_type nX, size_type nY ) { return *at( nX, nY ); }
const_reference operator()( size_type nX, size_type nY ) const { return *at( nX, nY ); }
iterator begin() { return maData.begin(); }
const_iterator begin() const { return maData.begin(); }
iterator end() { return maData.end(); }
const_iterator end() const { return maData.end(); }
iterator row_begin( size_type nY ) { return at( 0, nY ); }
const_iterator row_begin( size_type nY ) const { return at( 0, nY ); }
iterator row_end( size_type nY ) { return at( mnWidth, nY ); }
const_iterator row_end( size_type nY ) const { return at( mnWidth, nY ); }
reference row_front( size_type nY ) { return (*this)( 0, nY ); }
const_reference row_front( size_type nY ) const { return (*this)( 0, nY ); }
private:
container_type maData;
size_type mnWidth;
};
/** Static helper functions for improved API container handling. */
class OOX_DLLPUBLIC ContainerHelper
{
public:
/** Returns a name that is not used in the passed name container.
@param rxNameAccess com.sun.star.container.XNameAccess interface of
the name container.
@param rSuggestedName Suggested name for the object.
@return An unused name. Will be equal to the suggested name, if not
contained, otherwise a numerical index will be appended.
*/
static OUString getUnusedName(
const css::uno::Reference< css::container::XNameAccess >& rxNameAccess,
const OUString& rSuggestedName,
sal_Unicode cSeparator );
/** Inserts an object into a name container.
@param rxNameContainer com.sun.star.container.XNameContainer interface
of the name container.
@param rName Exact name for the object.
@param rObject The object to be inserted.
@return True = object successfully inserted.
*/
static bool insertByName(
const css::uno::Reference< css::container::XNameContainer >& rxNameContainer,
const OUString& rName,
const css::uno::Any& rObject );
/** Inserts an object into a name container.
The function will use an unused name to insert the object, based on the
suggested object name. It is possible to specify whether the existing
object or the new inserted object will be renamed, if the container
already has an object with the name suggested for the new object.
@param rxNameContainer com.sun.star.container.XNameContainer interface
of the name container.
@param rSuggestedName Suggested name for the object.
@param rObject The object to be inserted.
The new object
will be inserted with a name not yet extant in the container (this
is done by appending a numerical index to the suggested name).
@return The final name the object is inserted with. Will always be
equal to the suggested name, if parameter bRenameOldExisting is
true.
*/
static OUString insertByUnusedName(
const css::uno::Reference< css::container::XNameContainer >& rxNameContainer,
const OUString& rSuggestedName,
sal_Unicode cSeparator,
const css::uno::Any& rObject );
// std::vector and std::map element access --------------------------------
/** Returns the pointer to an existing element of the passed vector, or a
null pointer, if the passed index is out of bounds. */
template< typename VectorType >
static const typename VectorType::value_type*
getVectorElement( const VectorType& rVector, sal_Int32 nIndex );
/** Returns the pointer to an existing element of the passed vector, or a
null pointer, if the passed index is out of bounds. */
template< typename VectorType >
static typename VectorType::value_type*
getVectorElementAccess( VectorType& rVector, sal_Int32 nIndex );
/** Returns the reference to an existing element of the passed vector, or
the passed default value, if the passed index is out of bounds. */
template< typename VectorType >
static const typename VectorType::value_type&
getVectorElement( const VectorType& rVector, sal_Int32 nIndex, const typename VectorType::value_type& rDefault );
/** Returns the pointer to an existing element of the passed map, or a null
pointer, if an element with the passed key does not exist. */
template< typename MapType >
static const typename MapType::mapped_type*
getMapElement( const MapType& rMap, const typename MapType::key_type& rKey );
/** Returns the reference to an existing element of the passed map, or the
passed default value, if an element with the passed key does not exist. */
template< typename MapType >
static const typename MapType::mapped_type&
getMapElement( const MapType& rMap, const typename MapType::key_type& rKey, const typename MapType::mapped_type& rDefault );
/** Creates a UNO sequence of sequences from a matrix with copies of all elements.
@param rMatrix The matrix to be converted to a sequence of sequences.
@return A com.sun.star.uno.Sequence object containing
com.sun.star.uno.Sequence objects with copies of all objects
contained in the passed matrix.
*/
template< typename MatrixType >
static css::uno::Sequence< css::uno::Sequence< typename MatrixType::value_type > >
matrixToSequenceSequence( const MatrixType& rMatrix );
};
template< typename VectorType >
/*static*/ const typename VectorType::value_type* ContainerHelper::getVectorElement( const VectorType& rVector, sal_Int32 nIndex )
{
return ((0 <= nIndex) && (static_cast< size_t >( nIndex ) < rVector.size())) ? &rVector[ static_cast< size_t >( nIndex ) ] : nullptr;
}
template< typename VectorType >
/*static*/ typename VectorType::value_type* ContainerHelper::getVectorElementAccess( VectorType& rVector, sal_Int32 nIndex )
{
return ((0 <= nIndex) && (static_cast< size_t >( nIndex ) < rVector.size())) ? &rVector[ static_cast< size_t >( nIndex ) ] : nullptr;
}
template< typename VectorType >
/*static*/ const typename VectorType::value_type& ContainerHelper::getVectorElement( const VectorType& rVector, sal_Int32 nIndex, const typename VectorType::value_type& rDefault )
{
return ((0 <= nIndex) && (static_cast< size_t >( nIndex ) < rVector.size())) ? rVector[ static_cast< size_t >( nIndex ) ] : rDefault;
}
template< typename MapType >
/*static*/ const typename MapType::mapped_type* ContainerHelper::getMapElement( const MapType& rMap, const typename MapType::key_type& rKey )
{
typename MapType::const_iterator aIt = rMap.find( rKey );
return (aIt == rMap.end()) ? nullptr : &aIt->second;
}
template< typename MapType >
/*static*/ const typename MapType::mapped_type& ContainerHelper::getMapElement( const MapType& rMap, const typename MapType::key_type& rKey, const typename MapType::mapped_type& rDefault )
{
typename MapType::const_iterator aIt = rMap.find( rKey );
return (aIt == rMap.end()) ? rDefault : aIt->second;
}
template< typename MatrixType >
/*static*/ css::uno::Sequence< css::uno::Sequence< typename MatrixType::value_type > > ContainerHelper::matrixToSequenceSequence( const MatrixType& rMatrix )
{
typedef typename MatrixType::value_type ValueType;
css::uno::Sequence< css::uno::Sequence< ValueType > > aSeq;
if( !rMatrix.empty() )
{
aSeq.realloc( static_cast< sal_Int32 >( rMatrix.height() ) );
auto pSeq = aSeq.getArray();
for( size_t nRow = 0, nHeight = rMatrix.height(); nRow < nHeight; ++nRow )
pSeq[ static_cast< sal_Int32 >( nRow ) ] =
css::uno::Sequence< ValueType >( &rMatrix.row_front( nRow ), static_cast< sal_Int32 >( rMatrix.width() ) );
}
return aSeq;
}
} // namespace oox
#endif
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