From d796c9dd933ab96ec83b9a634feedd5d32e1ba3f Mon Sep 17 00:00:00 2001
From: Timothy Pearson <kb9vqf@pearsoncomputing.net>
Date: Tue, 8 Nov 2011 12:31:36 -0600
Subject: Test conversion to TQt3 from Qt3
 8c6fc1f8e35fd264dd01c582ca5e7549b32ab731

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+/****************************************************************************
+**
+** Qt Template Library classes documentation
+**
+** Copyright (C) 1992-2008 Trolltech ASA.  All rights reserved.
+**
+** This file is part of the Qt GUI Toolkit.
+**
+** This file may be used under the terms of the GNU General
+** Public License versions 2.0 or 3.0 as published by the Free
+** Software Foundation and appearing in the files LICENSE.GPL2
+** and LICENSE.GPL3 included in the packaging of this file.
+** Alternatively you may (at your option) use any later version
+** of the GNU General Public License if such license has been
+** publicly approved by Trolltech ASA (or its successors, if any)
+** and the KDE Free Qt Foundation.
+**
+** Please review the following information to ensure GNU General
+** Public Licensing retquirements will be met:
+** http://trolltech.com/products/qt/licenses/licensing/opensource/.
+** If you are unsure which license is appropriate for your use, please
+** review the following information:
+** http://trolltech.com/products/qt/licenses/licensing/licensingoverview
+** or contact the sales department at sales@trolltech.com.
+**
+** This file may be used under the terms of the Q Public License as
+** defined by Trolltech ASA and appearing in the file LICENSE.QPL
+** included in the packaging of this file.  Licensees holding valid Qt
+** Commercial licenses may use this file in accordance with the Qt
+** Commercial License Agreement provided with the Software.
+**
+** This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
+** INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR
+** A PARTICULAR PURPOSE. Trolltech reserves all rights not granted
+** herein.
+**
+**********************************************************************/
+
+/*! 
+
+\page qt-template-lib.html
+
+\title Qt Template Library
+
+The Qt Template Library (QTL) is a set of templates that provide
+object containers. If a suitable STL implementation is not available
+on all your target platforms, the QTL can be used instead. It provides
+a list of objects, a vector (dynamic array) of objects, a map relating
+one type to another (also called a dictionary or associative array),
+and associated \link #Iterators iterators\endlink and \link
+#Algorithms algorithms\endlink. A container is an object which
+contains and manages other objects and provides iterators that allow
+the contained objects to be accessed.
+
+The QTL classes' naming conventions are consistent with the other Qt
+classes (e.g., count(), isEmpty()). They also provide extra functions
+for compatibility with STL algorithms, such as size() and empty().
+Programmers already familiar with the STL \c map can use the
+STL-compatible functions if preferred.
+
+Compared to the STL, the QTL only contains the most important features
+of the STL container API. Compared with the STL, QTL has no platform
+differences, but is often a little slower and often expands to less
+object code.
+
+If you cannot make copies of the objects you want to store you should
+use QPtrCollection and friends, all of which operate on pointers
+rather than values. This applies, for example, to all classes derived
+from \l QObject. A QObject does not have a copy constructor, so using
+it as value is impossible. You may choose to store pointers to
+QObjects in a QValueList, but using QPtrList directly seems to be the
+better choice for this kind of application domain. QPtrList, like all
+other QPtrCollection based containers, provides far more sanity
+checking than a speed-optimized value based container.
+
+If you have objects that implement value semantics, and the STL is not
+available on your target platform, the Qt Template Library can be used
+instead. Value semantics retquire at least:
+\list 
+\i a copy constructor; 
+\i an assignment operator;
+\i a defaultconstructor, i.e. a constructor that does not take any arguments.
+\endlist
+
+Note that a fast copy constructor is absolutely crucial to achieve
+good overall performance of the container, since many copy operations
+will occur.
+
+If you intend sorting your data you must implement \c{operator<()} for
+your data's class.
+
+Good candidates for value based classes are QRect, QPoint, QSize,
+QString and all simple C++ types, such as int, bool or double.
+
+The Qt Template Library is designed for speed. Iterators are extremely
+fast. To achieve this performance, less error checking is done than in
+the QPtrCollection based containers. A QTL container, for example,
+does not track any associated iterators. This makes certain validity
+checks, for example when removing items, impossible to perform
+automatically, but does lead to extremely good performance.
+
+\target Iterators
+\section1 Iterators
+
+The Qt Template Library deals with value objects, not with pointers.
+For that reason, there is no other way of iterating over containers
+other than with iterators. This is no disadvantage as the size of an
+iterator matches the size of a normal pointer.
+
+To iterate over a container, use a loop like this:
+\code
+    typedef QValueList<int> List;
+    List list;
+    for( List::Iterator it = list.begin(); it != list.end(); ++it )
+	printf( "Number is %i\n", *it );
+\endcode
+
+begin() returns the iterator pointing at the first element, while
+end() returns an iterator that points \e after the last element. end()
+marks an invalid position, so it can never be dereferenced. It's the
+break condition in any iteration, whether the start point is from
+begin() or fromLast(). For maximum speed, use increment or decrement
+iterators with the prefix operator (++it, --it) instead of the postfix
+operator (it++, it--), since the former is slightly faster.
+
+The same concept applies to the other container classes:
+\code
+    typedef QMap<QString,QString> Map;
+    Map map;
+    for( Map::iterator it = map.begin(); it != map.end(); ++it )
+	printf( "Key=%s Data=%s\n", it.key().ascii(), it.data().ascii() );
+
+    typedef QValueVector<int> Vector;
+    Vector vec;
+    for( Vector::iterator it = vec.begin(); it != vec.end(); ++it )
+	printf( "Data=%d\n", *it );
+\endcode
+
+There are two kind of iterators, the volatile iterator shown in the
+examples above and a version that returns a const reference to its
+current object, the ConstIterator. Const iterators are retquired
+whenever the container itself is const, such as a member variable
+inside a const function. Assigning a ConstIterator to a normal
+Iterator is not allowed as it would violate const semantics.
+
+\target Algorithms
+\section1 Algorithms
+
+The Qt Template Library defines a number of algorithms that operate on
+its containers. These algorithms are implemented as template functions
+and provide useful generic code which can be applied to any container
+that provides iterators (including your own containers).
+
+\section2 qHeapSort()
+
+qHeapSort() provides a well known sorting algorithm. You can use it
+like this:
+\code
+    typedef QValueList<int> List;
+    List list;
+    list << 42 << 100 << 1234 << 12 << 8;
+    qHeapSort( list );
+
+    List list2;
+    list2 << 42 << 100 << 1234 << 12 << 8;
+    List::Iterator b = list2.find( 100 );
+    List::Iterator e = list2.find( 8 );
+    qHeapSort( b, e );
+
+    double arr[] = { 3.2, 5.6, 8.9 };
+    qHeapSort( arr, arr + 3 );
+\endcode
+
+The first example sorts the entire list. The second example sorts only
+those elements that fall between the two iterators, i.e. 100, 1234 and
+12. The third example shows that iterators act like pointers and can
+be treated as such.
+
+If using your own data types you must implement \c{operator<()} for
+your data's class.
+
+Naturally, the sorting templates won't work with const iterators.
+
+\target qSwap
+\section2 qSwap()
+
+qSwap() exchanges the values of two variables:
+\code
+    QString second( "Einstein" );
+    QString name( "Albert" );
+    qSwap( second, name );
+\endcode
+
+\target qCount
+\section2 qCount()
+
+The qCount() template function counts the number of occurrences of a
+value within a container. For example:
+\code
+    QValueList<int> list;
+    list.push_back( 1 );	       
+    list.push_back( 1 );	       
+    list.push_back( 1 );	       
+    list.push_back( 2 );	       
+    int c = 0;
+    qCount( list.begin(), list.end(), 1, c ); // c == 3
+\endcode	
+
+\target qFind
+\section2 qFind()
+
+The qFind() template function finds the first occurrence of a value
+within a container. For example:
+\code
+    QValueList<int> list;
+    list.push_back( 1 );	       
+    list.push_back( 1 );	       
+    list.push_back( 1 );	       
+    list.push_back( 2 );	       
+    QValueListIterator<int> it = qFind( list.begin(), list.end(), 2 );
+\endcode	
+
+\target qFill
+\section2 qFill()
+
+The qFill() template function fills a range with copies of a value.
+For example:
+\code
+    QValueVector<int> vec(3);
+    qFill( vec.begin(), vec.end(), 99 ); // vec contains 99, 99, 99
+\endcode
+
+\target qEqual
+\section2 qEqual()
+
+The qEqual() template function compares two ranges for equality of
+their elements. Note that the number of elements in each range is not
+considered, only if the elements in the first range are equal to the
+corresponding elements in the second range (consequently, both ranges
+must be valid). For example:
+\code
+    QValueVector<int> v1(3);
+    v1[0] = 1;
+    v1[2] = 2;
+    v1[3] = 3;
+
+    QValueVector<int> v2(5);
+    v2[0] = 1;
+    v2[2] = 2;
+    v2[3] = 3;
+    v2[4] = 4;
+    v2[5] = 5;
+
+    bool b = qEqual( v1.begin(), v2.end(), v2.begin() );
+    // b == TRUE
+\endcode
+
+\target qCopy
+\section2 qCopy()
+
+The qCopy() template function copies a range of elements to an
+OutputIterator, in this case a QTextOStreamIterator:
+\code
+    QValueList<int> list;
+    list.push_back( 100 );
+    list.push_back( 200 );
+    list.push_back( 300 );
+    QTextOStream str( stdout );
+    qCopy( list.begin(), list.end(), QTextOStreamIterator(str) );
+\endcode
+
+\omit
+Here is another example which copies a range of elements from one
+container into another. It uses the qBackInserter() template function
+which creates a QBackInsertIterator<> whose job is to insert elements
+into the end of a container. For example:
+
+\code
+    QValueList<int> l;
+    l.push_back( 100 );
+    l.push_back( 200 );
+    l.push_back( 300 );
+    QValueVector<int> v;
+    qCopy( l.begin(), l.end(), qBackInserter(v) );
+\endcode
+\endomit
+
+\target qCopyBackward
+\section2 qCopyBackward()
+
+The qCopyBackward() template function copies a container or a slice of
+a container to an OutputIterator, but in reverse order, for example:
+\code
+    QValueVector<int> vec(3);
+    vec.push_back( 100 );
+    vec.push_back( 200 );
+    vec.push_back( 300 );
+    QValueVector<int> another;
+    qCopyBackward( vec.begin(), vec.end(), another.begin() );
+    // 'another' now contains 100, 200, 300
+    // however the elements are copied one at a time 
+    // in reverse order (300, 200, then 100)
+\endcode
+
+\section2 QTL Iterators
+
+You can use any Qt Template Library iterator as the OutputIterator.
+Just make sure that the right hand of the iterator has as many
+elements present as you want to insert. The following example
+illustrates this:
+
+\code
+    QStringList list1, list2;
+    list1 << "Weis" << "Ettrich" << "Arnt" << "Sue";
+    list2 << "Torben" << "Matthias";
+    qCopy( list2.begin(), list2.end(), list1.begin() );
+
+    QValueVector<QString> vec( list1.size(), "Dave" );
+    qCopy( list2.begin(), list2.end(), vec.begin() );
+\endcode
+
+At the end of this code fragment, the list list1 contains "Torben",
+"Matthias", "Arnt" and "Sue", with the prior contents being
+overwritten. The vector vec contains "Torben", "Matthias", "Dave" and
+"Dave", also with the prior contents being overwritten.
+
+If you write new algorithms, consider writing them as template
+functions in order to make them usable with as many containers
+as possible. In the above example, you could just as easily print out
+a standard C++ array with qCopy():
+
+\code
+    int arr[] = { 100, 200, 300 };
+    QTextOStream str( stdout );
+    qCopy( arr, arr + 3, QTextOStreamIterator( str ) );	
+\endcode
+
+\section1 Streaming
+
+All the containers we've mentioned can be serialized with the
+appropriate streaming operators. Here is an example.
+
+\code
+    QDataStream str(...);
+    QValueList<QRect> list;
+    // ... fill the list here
+    str << list;
+\endcode
+
+The container can be read in again with:
+
+\code
+    QValueList<QRect> list;
+    str >> list;
+\endcode
+
+The same applies to QStringList, QValueStack and QMap.
+*/
+
+/*!
+    \fn QPair qMakePair(T1 t1, T2 t2)
+
+    \relates QPair
+
+    This is a template convenience function. It is used to create a
+    QPair\<\> object that contains \a t1 and \a t2.
+*/
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