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 /****************************************************************************
 **
 ** Copyright (C) 2016 The Qt Company Ltd.
 ** Contact: https://www.qt.io/licensing/
 **
 ** This file is part of the documentation of the Qt Toolkit.
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 ** $QT_BEGIN_LICENSE:FDL$
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 ** Licensees holding valid commercial Qt licenses may use this file in
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 ** GNU Free Documentation License Usage
 ** Alternatively, this file may be used under the terms of the GNU Free
 ** Documentation License version 1.3 as published by the Free Software
 ** Foundation and appearing in the file included in the packaging of
 ** this file. Please review the following information to ensure
 ** the GNU Free Documentation License version 1.3 requirements
 ** will be met: https://www.gnu.org/licenses/fdl-1.3.html.
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 /*!
     \example itemviews/frozencolumn
     \title Frozen Column Example
     \ingroup examples-itemviews
     \brief This example demonstrates how to freeze a column within a QTableView.

     \image frozencolumn-example.png "Screenshot of the example"

     We use Qt's model/view framework to implement a table with its first
     column frozen. This technique can be aplied to several columns or rows,
     as long as they are on the edge of the table.

     The model/view framework allows for one model to be displayed in different
     ways using multiple views. For this example, we use two views on the same
     model - two \l {QTableView}{table views} sharing one model. The frozen
     column is a child of the main tableview, and we provide the desired visual
     effect using an overlay technique which will be described step by step in
     the coming sections.

     \image frozencolumn-tableview.png


     \section1 FreezeTableWidget Class Definition

     The \c FreezeTableWidget class has a constructor and a destructor. Also, it
     has two private members: the table view that we will use as an overlay, and
     the shared model for both table views. Two slots are added to help keep the
     section sizes in sync, as well as a function to readjust the frozen
     column's geometry. In addition, we reimplement two functions:
     \l{QAbstractItemView::}{resizeEvent()} and \l{QTableView::}{moveCursor()}.

     \snippet itemviews/frozencolumn/freezetablewidget.h Widget definition

     \note QAbstractItemView is \l{QTableView}'s ancestor.


     \section1 FreezeTableWidget Class Implementation

     The constructor takes \a model as an argument and creates a table view that
     we will use to display the frozen column. Then, within the constructor, we
     invoke the \c init() function to set up the frozen column. Finally, we
     connect the \l{QHeaderView::sectionResized()} signals (for horizontal and
     vertical headers) to the appropriate slots. This ensures that our frozen
     column's sections are in sync with the headers. We also connect the
     vertical scrollbars together so that the frozen column scrolls vertically
     with the rest of our table.

     \snippet itemviews/frozencolumn/freezetablewidget.cpp constructor


     In the \c init() function, we ensure that the overlay table view
     responsible for displaying the frozen column, is set up properly. This
     means that this table view, \c frozenTableView, has to have the same model
     as the main table view. However, the difference here is: \c frozenTableView's
     only visible column is its first column; we hide the others using
     \l{QTableView::}{setColumnHidden()}

     \snippet itemviews/frozencolumn/freezetablewidget.cpp init part1


     In terms of the frozen column's z-order, we stack it on top of the
     viewport. This is achieved by calling \l{QWidget::}{stackUnder()} on the
     viewport. For appearance's sake, we prevent the column from stealing focus
     from the main tableview. Also, we make sure that both views share the same
     selection model, so only one cell can be selected at a time. A few other
     tweaks are done to make our application look good and behave consistently
     with the main tableview. Note that we called \c updateFrozenTableGeometry()
     to make the column occupy the correct spot.

     \snippet itemviews/frozencolumn/freezetablewidget.cpp init part2

     When you resize the frozen column, the same column on the main table view
     must resize accordingly, to provide seamless integration. This is
     accomplished by getting the new size of the column from the \c newSize
     value from the \l{QHeaderView::}{sectionResized()} signal, emitted by both
     the horizontal and vertical header.

     \snippet itemviews/frozencolumn/freezetablewidget.cpp sections

     Since the width of the frozen column is modified, we adjust the geometry of
     the widget accordingly by invoking \c updateFrozenTableGeometry(). This
     function is further explained below.

     In our reimplementation of QTableView::resizeEvent(), we call
     \c updateFrozenTableGeometry() after invoking the base class
     implementation.

     \snippet itemviews/frozencolumn/freezetablewidget.cpp resize

     When navigating around the table with the keyboard, we need to ensure that
     the current selection does not disappear behind the frozen column. To
     synchronize this, we reimplement QTableView::moveCursor() and adjust the
     scrollbar positions if needed, after calling the base class implementation.

     \snippet itemviews/frozencolumn/freezetablewidget.cpp navigate

     The frozen column's geometry calculation is based on the geometry of the
     table underneath, so it always appears in the right place. Using the
     QFrame::frameWidth() function helps to calculate this geometry correctly,
     no matter which style is used. We rely on the geometry of the viewport and
     headers to set the boundaries for the frozen column.

     \snippet itemviews/frozencolumn/freezetablewidget.cpp geometry

 */
	/****************************************************************************
	**
	** Copyright (C) 2016 The Qt Company Ltd.
	** Contact: https://www.qt.io/licensing/
	**
	** This file is part of the documentation of the Qt Toolkit.
	**
	** $QT_BEGIN_LICENSE:FDL$
	** Commercial License Usage
	** Licensees holding valid commercial Qt licenses may use this file in
	** accordance with the commercial license agreement provided with the
	** Software or, alternatively, in accordance with the terms contained in
	** a written agreement between you and The Qt Company. For licensing terms
	** and conditions see https://www.qt.io/terms-conditions. For further
	** information use the contact form at https://www.qt.io/contact-us.
	**
	** GNU Free Documentation License Usage
	** Alternatively, this file may be used under the terms of the GNU Free
	** Documentation License version 1.3 as published by the Free Software
	** Foundation and appearing in the file included in the packaging of
	** this file. Please review the following information to ensure
	** the GNU Free Documentation License version 1.3 requirements
	** will be met: https://www.gnu.org/licenses/fdl-1.3.html.
	** $QT_END_LICENSE$
	**
	****************************************************************************/

	/*!
	\example itemviews/frozencolumn
	\title Frozen Column Example
	\ingroup examples-itemviews
	\brief This example demonstrates how to freeze a column within a QTableView.

	\image frozencolumn-example.png "Screenshot of the example"

	We use Qt's model/view framework to implement a table with its first
	column frozen. This technique can be aplied to several columns or rows,
	as long as they are on the edge of the table.

	The model/view framework allows for one model to be displayed in different
	ways using multiple views. For this example, we use two views on the same
	model - two \l {QTableView}{table views} sharing one model. The frozen
	column is a child of the main tableview, and we provide the desired visual
	effect using an overlay technique which will be described step by step in
	the coming sections.

	\image frozencolumn-tableview.png


	\section1 FreezeTableWidget Class Definition

	The \c FreezeTableWidget class has a constructor and a destructor. Also, it
	has two private members: the table view that we will use as an overlay, and
	the shared model for both table views. Two slots are added to help keep the
	section sizes in sync, as well as a function to readjust the frozen
	column's geometry. In addition, we reimplement two functions:
	\l{QAbstractItemView::}{resizeEvent()} and \l{QTableView::}{moveCursor()}.

	\snippet itemviews/frozencolumn/freezetablewidget.h Widget definition

	\note QAbstractItemView is \l{QTableView}'s ancestor.


	\section1 FreezeTableWidget Class Implementation

	The constructor takes \a model as an argument and creates a table view that
	we will use to display the frozen column. Then, within the constructor, we
	invoke the \c init() function to set up the frozen column. Finally, we
	connect the \l{QHeaderView::sectionResized()} signals (for horizontal and
	vertical headers) to the appropriate slots. This ensures that our frozen
	column's sections are in sync with the headers. We also connect the
	vertical scrollbars together so that the frozen column scrolls vertically
	with the rest of our table.

	\snippet itemviews/frozencolumn/freezetablewidget.cpp constructor


	In the \c init() function, we ensure that the overlay table view
	responsible for displaying the frozen column, is set up properly. This
	means that this table view, \c frozenTableView, has to have the same model
	as the main table view. However, the difference here is: \c frozenTableView's
	only visible column is its first column; we hide the others using
	\l{QTableView::}{setColumnHidden()}

	\snippet itemviews/frozencolumn/freezetablewidget.cpp init part1


	In terms of the frozen column's z-order, we stack it on top of the
	viewport. This is achieved by calling \l{QWidget::}{stackUnder()} on the
	viewport. For appearance's sake, we prevent the column from stealing focus
	from the main tableview. Also, we make sure that both views share the same
	selection model, so only one cell can be selected at a time. A few other
	tweaks are done to make our application look good and behave consistently
	with the main tableview. Note that we called \c updateFrozenTableGeometry()
	to make the column occupy the correct spot.

	\snippet itemviews/frozencolumn/freezetablewidget.cpp init part2

	When you resize the frozen column, the same column on the main table view
	must resize accordingly, to provide seamless integration. This is
	accomplished by getting the new size of the column from the \c newSize
	value from the \l{QHeaderView::}{sectionResized()} signal, emitted by both
	the horizontal and vertical header.

	\snippet itemviews/frozencolumn/freezetablewidget.cpp sections

	Since the width of the frozen column is modified, we adjust the geometry of
	the widget accordingly by invoking \c updateFrozenTableGeometry(). This
	function is further explained below.

	In our reimplementation of QTableView::resizeEvent(), we call
	\c updateFrozenTableGeometry() after invoking the base class
	implementation.

	\snippet itemviews/frozencolumn/freezetablewidget.cpp resize

	When navigating around the table with the keyboard, we need to ensure that
	the current selection does not disappear behind the frozen column. To
	synchronize this, we reimplement QTableView::moveCursor() and adjust the
	scrollbar positions if needed, after calling the base class implementation.

	\snippet itemviews/frozencolumn/freezetablewidget.cpp navigate

	The frozen column's geometry calculation is based on the geometry of the
	table underneath, so it always appears in the right place. Using the
	QFrame::frameWidth() function helps to calculate this geometry correctly,
	no matter which style is used. We rely on the geometry of the viewport and
	headers to set the boundaries for the frozen column.

	\snippet itemviews/frozencolumn/freezetablewidget.cpp geometry

	*/