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591 lines
15 KiB
591 lines
15 KiB
/****************************************************************************
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**
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** TQMemArray class documentation
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**
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** Copyright (C) 1992-2008 Trolltech ASA. All rights reserved.
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**
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** This file is part of the TQt GUI Toolkit.
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**
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** This file may be used under the terms of the GNU General
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** Public License versions 2.0 or 3.0 as published by the Free
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** Software Foundation and appearing in the files LICENSE.GPL2
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** and LICENSE.GPL3 included in the packaging of this file.
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** Alternatively you may (at your option) use any later version
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** of the GNU General Public License if such license has been
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** publicly approved by Trolltech ASA (or its successors, if any)
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** and the KDE Free TQt Foundation.
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**
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** Please review the following information to ensure GNU General
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** Public Licensing requirements will be met:
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** http://trolltech.com/products/qt/licenses/licensing/opensource/.
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** If you are unsure which license is appropriate for your use, please
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** review the following information:
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** http://trolltech.com/products/qt/licenses/licensing/licensingoverview
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** or contact the sales department at sales@trolltech.com.
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**
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** This file may be used under the terms of the Q Public License as
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** defined by Trolltech ASA and appearing in the file LICENSE.QPL
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** included in the packaging of this file. Licensees holding valid Qt
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** Commercial licenses may use this file in accordance with the Qt
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** Commercial License Agreement provided with the Software.
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**
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** This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
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** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR
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** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted
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** herein.
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**
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**********************************************************************/
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/*****************************************************************************
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TQMemArray documentation
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*****************************************************************************/
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/*!
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\class TQMemArray tqmemarray.h
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\reentrant
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\brief The TQMemArray class is a template class that provides arrays of simple types.
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\ingroup tools
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TQMemArray is implemented as a template class. Define a template
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instance TQMemArray\<X\> to create an array that contains X items.
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TQMemArray stores the array elements directly in the array. It can
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only deal with simple types (i.e. C++ types, structs, and classes
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that have no constructors, destructors, or virtual functions).
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TQMemArray uses bitwise operations to copy and compare array
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elements.
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The TQPtrVector collection class is also a kind of array. Like most
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\link collection.html collection classes\endlink, it uses pointers
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to the contained items.
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TQMemArray uses \link shclass.html explicit sharing\endlink with a
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reference count. If more than one array shares common data and one
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of the arrays is modified, all the arrays are modified.
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The benefit of sharing is that a program does not need to duplicate
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data when it is not required, which results in lower memory use
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and less copying of data.
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An alternative to TQMemArray is TQValueVector. The TQValueVector class
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also provides an array of objects, but can deal with objects that
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have constructors (specifically a copy constructor and a default
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constructor). TQValueVector provides an STL-compatible syntax and is
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\link shclass.html implicitly shared\endlink.
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Example:
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\code
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#include <tqmemarray.h>
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#include <stdio.h>
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TQMemArray<int> fib( int num ) // returns fibonacci array
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{
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Q_ASSERT( num > 2 );
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TQMemArray<int> f( num ); // array of ints
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f[0] = f[1] = 1;
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for ( int i = 2; i < num; i++ )
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f[i] = f[i-1] + f[i-2];
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return f;
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}
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int main()
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{
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TQMemArray<int> a = fib( 6 ); // get first 6 fibonaccis
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for ( int i = 0; i < a.size(); i++ )
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tqDebug( "%d: %d", i, a[i] );
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tqDebug( "1 is found %d times", a.contains(1) );
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tqDebug( "5 is found at index %d", a.find(5) );
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return 0;
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}
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\endcode
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Program output:
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\code
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0: 1
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1: 1
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2: 2
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3: 3
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4: 5
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5: 8
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1 is found 2 times
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5 is found at index 4
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\endcode
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Note concerning the use of TQMemArray for manipulating structs or
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classes: Compilers will often pad the size of structs of odd sizes
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up to the nearest word boundary. This will then be the size
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TQMemArray will use for its bitwise element comparisons. Because
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the remaining bytes will typically be uninitialized, this can
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cause find() etc. to fail to find the element. Example:
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\code
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// MyStruct may be padded to 4 or 8 bytes
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struct MyStruct
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{
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short i; // 2 bytes
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char c; // 1 byte
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};
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TQMemArray<MyStruct> a(1);
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a[0].i = 5;
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a[0].c = 't';
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MyStruct x;
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x.i = '5';
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x.c = 't';
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int i = a.find( x ); // may return -1 if the pad bytes differ
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\endcode
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To work around this, make sure that you use a struct where
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sizeof() returns the same as the sum of the sizes of the members
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either by changing the types of the struct members or by adding
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dummy members.
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TQMemArray data can be traversed by iterators (see begin() and
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end()). The number of items is returned by count(). The array can
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be resized with resize() and filled using fill().
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You can make a shallow copy of the array with assign() (or
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operator=()) and a deep copy with duplicate().
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Search for values in the array with find() and contains(). For
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sorted arrays (see sort()) you can search using bsearch().
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You can set the data directly using setRawData() and
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resetRawData(), although this requires care.
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\sa \link shclass.html Shared Classes\endlink
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*/
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/*! \enum TQMemArray::Iterator
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A TQMemArray iterator.
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\sa begin() end()
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*/
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/*! \enum TQMemArray::ConstIterator
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A const TQMemArray iterator.
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\sa begin() end()
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*/
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/*! \enum TQMemArray::ValueType
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\internal
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*/
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/*!
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\fn TQMemArray::TQMemArray()
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Constructs a null array.
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\sa isNull()
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*/
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/*!
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\fn TQMemArray::TQMemArray( int size )
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Constructs an array with room for \a size elements. Makes a null
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array if \a size == 0.
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The elements are left uninitialized.
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\sa resize(), isNull()
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*/
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/*!
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\fn TQMemArray::TQMemArray( const TQMemArray<type> &a )
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Constructs a shallow copy of \a a.
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\sa assign()
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*/
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/*!
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\fn TQMemArray::TQMemArray( int, int )
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Constructs an array \e{without allocating} array space. The
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arguments should be (0, 0). Use at your own risk.
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*/
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/*!
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\fn TQMemArray::~TQMemArray()
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Dereferences the array data and deletes it if this was the last
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reference.
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*/
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/*!
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\fn TQMemArray<type> &TQMemArray::operator=( const TQMemArray<type> &a )
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Assigns a shallow copy of \a a to this array and returns a
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reference to this array.
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Equivalent to assign( a ).
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*/
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/*!
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\fn type *TQMemArray::data() const
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Returns a pointer to the actual array data.
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The array is a null array if data() == 0 (null pointer).
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\sa isNull()
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*/
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/*!
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\fn uint TQMemArray::nrefs() const
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Returns the reference count for the shared array data. This
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reference count is always greater than zero.
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*/
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/*!
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\fn uint TQMemArray::size() const
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Returns the size of the array (maximum number of elements).
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The array is a null array if size() == 0.
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\sa isNull(), resize()
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*/
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/*!
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\fn uint TQMemArray::count() const
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Returns the same as size().
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\sa size()
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*/
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/*!
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\fn bool TQMemArray::isEmpty() const
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Returns TRUE if the array is empty; otherwise returns FALSE.
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isEmpty() is equivalent to isNull() for TQMemArray (unlike
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TQString).
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*/
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/*!
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\fn bool TQMemArray::isNull() const
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Returns TRUE if the array is null; otherwise returns FALSE.
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A null array has size() == 0 and data() == 0.
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*/
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/*!
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\fn bool TQMemArray::resize( uint size, Optimization optim )
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Resizes (expands or shrinks) the array to \a size elements. The
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array becomes a null array if \a size == 0.
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Returns TRUE if successful, or FALSE if the memory cannot be
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allocated.
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New elements are not initialized.
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\a optim is either \c TQGArray::MemOptim (the default) or
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\c TQGArray::SpeedOptim.
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<b>Note:</b> By default, \c SpeedOptim is not available for general
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use since it is only available if TQt is built in a particular
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configuration.
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\sa size()
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*/
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/*!
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\fn bool TQMemArray::resize( uint size )
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\overload
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Resizes (expands or shrinks) the array to \a size elements. The
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array becomes a null array if \a size == 0.
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Returns TRUE if successful, i.e. if the memory can be allocated;
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otherwise returns FALSE.
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New elements are not initialized.
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\sa size()
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*/
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/*!
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\fn bool TQMemArray::truncate( uint pos )
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Truncates the array at position \a pos.
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Returns TRUE if successful, i.e. if the memory can be allocated;
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otherwise returns FALSE.
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Equivalent to resize(\a pos).
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\sa resize()
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*/
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/*!
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\fn bool TQMemArray::fill( const type &v, int size )
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Fills the array with the value \a v. If \a size is specified as
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different from -1, then the array will be resized before being
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filled.
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Returns TRUE if successful, i.e. if \a size is -1, or \a size is
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!= -1 and the memory can be allocated; otherwise returns FALSE.
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\sa resize()
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*/
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/*!
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\fn void TQMemArray::detach()
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Detaches this array from shared array data; i.e. it makes a
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private, deep copy of the data.
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Copying will be performed only if the \link nrefs() reference
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count\endlink is greater than one.
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\sa copy()
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*/
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/*!
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\fn TQMemArray<type> TQMemArray::copy() const
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Returns a deep copy of this array.
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\sa detach(), duplicate()
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*/
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/*!
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\fn TQMemArray<type> &TQMemArray::assign( const TQMemArray<type> &a )
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Shallow copy. Dereferences the current array and references the
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data contained in \a a instead. Returns a reference to this array.
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\sa operator=()
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*/
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/*!
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\fn TQMemArray<type> &TQMemArray::assign( const type *data, uint size )
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\overload
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Shallow copy. Dereferences the current array and references the
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array data \a data, which contains \a size elements. Returns a
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reference to this array.
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Do not delete \a data later; TQMemArray will call free() on it
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at the right time.
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*/
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/*!
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\fn TQMemArray<type> &TQMemArray::duplicate( const TQMemArray<type> &a )
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Deep copy. Dereferences the current array and obtains a copy of
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the data contained in \a a instead. Returns a reference to this
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array.
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\sa copy()
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*/
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/*!
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\fn TQMemArray<type> &TQMemArray::duplicate( const type *data, uint size )
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\overload
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Deep copy. Dereferences the current array and obtains a copy of
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the array data \a data instead. Returns a reference to this array.
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The size of the array is given by \a size.
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\sa copy()
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*/
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/*!
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\fn TQMemArray<type> &TQMemArray::setRawData( const type *data, uint size )
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Sets raw data and returns a reference to the array.
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Dereferences the current array and sets the new array data to \a
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data and the new array size to \a size. Do not attempt to resize
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or re-assign the array data when raw data has been set. Call
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resetRawData(\a data, \a size) to reset the array.
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Setting raw data is useful because it sets TQMemArray data without
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allocating memory or copying data.
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Example I (intended use):
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\code
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static char bindata[] = { 231, 1, 44, ... };
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TQByteArray a;
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a.setRawData( bindata, sizeof(bindata) ); // a points to bindata
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TQDataStream s( a, IO_ReadOnly ); // open on a's data
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s >> <something>; // read raw bindata
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a.resetRawData( bindata, sizeof(bindata) ); // finished
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\endcode
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Example II (you don't want to do this):
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\code
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static char bindata[] = { 231, 1, 44, ... };
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TQByteArray a, b;
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a.setRawData( bindata, sizeof(bindata) ); // a points to bindata
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a.resize( 8 ); // will crash
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b = a; // will crash
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a[2] = 123; // might crash
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// forget to resetRawData: will crash
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\endcode
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\warning If you do not call resetRawData(), TQMemArray will attempt
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to deallocate or reallocate the raw data, which might not be too
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good. Be careful.
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\sa resetRawData()
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*/
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/*!
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\fn void TQMemArray::resetRawData( const type *data, uint size )
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Removes internal references to the raw data that was set using
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setRawData(). This means that TQMemArray no longer has access to
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the \a data, so you are free to manipulate \a data as you wish.
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You can now use the TQMemArray without affecting the original \a
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data, for example by calling setRawData() with a pointer to some
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other data.
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The arguments must be the \a data and length, \a size, that were
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passed to setRawData(). This is for consistency checking.
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\sa setRawData()
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*/
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/*!
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\fn int TQMemArray::find( const type &v, uint index ) const
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Finds the first occurrence of \a v, starting at position \a index.
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Returns the position of \a v, or -1 if \a v could not be found.
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\sa contains()
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*/
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/*!
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\fn int TQMemArray::contains( const type &v ) const
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Returns the number of times \a v occurs in the array.
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\sa find()
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*/
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/*!
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\fn void TQMemArray::sort()
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Sorts the array elements in ascending order, using bitwise
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comparison (memcmp()).
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\sa bsearch()
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*/
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/*!
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\fn int TQMemArray::bsearch( const type &v ) const
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In a sorted array (as sorted by sort()), finds the first
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occurrence of \a v by using a binary search. For a sorted
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array this is generally much faster than find(), which does
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a linear search.
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Returns the position of \a v, or -1 if \a v could not be found.
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\sa sort(), find()
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*/
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/*!
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\fn type &TQMemArray::operator[]( int index ) const
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Returns a reference to the element at position \a index in the
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array.
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This can be used to both read and set an element. Equivalent to
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at().
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\sa at()
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*/
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/*!
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\fn type &TQMemArray::at( uint index ) const
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Returns a reference to the element at position \a index in the array.
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This can be used to both read and set an element.
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\sa operator[]()
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*/
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/*!
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\fn TQMemArray::operator const type *() const
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Cast operator. Returns a pointer to the array.
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\sa data()
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*/
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/*!
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\fn bool TQMemArray::operator==( const TQMemArray<type> &a ) const
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Returns TRUE if this array is equal to \a a; otherwise returns
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FALSE.
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The two arrays are compared bitwise.
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\sa operator!=()
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*/
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/*!
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\fn bool TQMemArray::operator!=( const TQMemArray<type> &a ) const
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Returns TRUE if this array is different from \a a; otherwise
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returns FALSE.
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The two arrays are compared bitwise.
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\sa operator==()
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*/
|
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/*!
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\fn Iterator TQMemArray::begin()
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Returns an iterator pointing at the beginning of this array. This
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iterator can be used in the same way as the iterators of
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TQValueList and TQMap, for example.
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*/
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/*!
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\fn Iterator TQMemArray::end()
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Returns an iterator pointing behind the last element of this
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array. This iterator can be used in the same way as the iterators
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of TQValueList and TQMap, for example.
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*/
|
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|
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/*!
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\fn ConstIterator TQMemArray::begin() const
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\overload
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Returns a const iterator pointing at the beginning of this array.
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This iterator can be used in the same way as the iterators of
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TQValueList and TQMap, for example.
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*/
|
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|
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/*!
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\fn ConstIterator TQMemArray::end() const
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\overload
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Returns a const iterator pointing behind the last element of this
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array. This iterator can be used in the same way as the iterators
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of TQValueList and TQMap, for example.
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*/
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