HG_REPOSITORIES/LPP/INSTRUMENTATION/USERS/JEANDET/qtcharts Files · src/splinechart/qsplineseries.cpp

Missing member initialization in QPieSeriesPrivate

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             qsplineseries.cpp
        
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      /****************************************************************************

      **

      ** Copyright (C) 2012 Digia Plc

      ** All rights reserved.

      ** For any questions to Digia, please use contact form at http://qt.digia.com

      **

      ** This file is part of the Qt Commercial Charts Add-on.

      **

      ** $QT_BEGIN_LICENSE$

      ** Licensees holding valid Qt Commercial licenses may use this file in

      ** accordance with the Qt Commercial License Agreement provided with the

      ** Software or, alternatively, in accordance with the terms contained in

      ** a written agreement between you and Digia.

      **

      ** If you have questions regarding the use of this file, please use

      ** contact form at http://qt.digia.com

      ** $QT_END_LICENSE$

      **

      ****************************************************************************/

      #include "qsplineseries.h"

      /*!

          \class QSplineSeries

          \brief Series type used to store data needed to draw a spline.

          QSplineSeries stores the data points along with the segment control points needed by QPainterPath to draw spline

          Control points are automatically calculated when data changes. The algorithm computes the points so that the normal spline can be drawn.

      */

      /*!

        \fn QSeriesType QSplineSeries::type() const

        Returns the type of the series

        */

      /*!

        \fn QSeriesType QSplineSeries::controlPoint(int index) const

        Returns the control point specified by \a index

        */

      QTCOMMERCIALCHART_BEGIN_NAMESPACE

      /*!

          Constructs empty series object which is a child of \a parent.

          When series object is added to QChartView or QChart instance then the ownerships is transfered.

        */

      QSplineSeries::QSplineSeries(QObject *parent) :

          QLineSeries(parent)

      {

          connect(this,SIGNAL(pointAdded(int)), this, SLOT(updateControlPoints()));

          connect(this,SIGNAL(pointRemoved(int)), this, SLOT(updateControlPoints()));

          connect(this,SIGNAL(pointReplaced(int)), this, SLOT(updateControlPoints()));

      }

      /*!

        \internal

        Calculates control points which are needed by QPainterPath.cubicTo function to draw the cubic Bezier cureve between two points.

        */

      void QSplineSeries::calculateControlPoints()

      {

          // Based on http://www.codeproject.com/Articles/31859/Draw-a-Smooth-Curve-through-a-Set-of-2D-Points-wit

          // CPOL License

          int n = count() - 1;

          if (n == 1)

          { // Special case: Bezier curve should be a straight line.

              //            firstControlPoints = new Point[1];

              // 3P1 = 2P0 + P3

              m_controlPoints.append(QPointF((2 * x(0) + x(1)) / 3, (2 * y(0) + y(1)) / 3));

              // P2 = 2P1  P0

              m_controlPoints.append(QPointF(2 * m_controlPoints[0].x() - x(0), 2 * m_controlPoints[0].y() - y(0)));

              return;

          }

          // Calculate first Bezier control points

          // Right hand side vector

          //  Set of equations for P0 to Pn points.

          //

          //  |   2   1   0   0   ... 0   0   0   ... 0   0   0   |   |   P1_1    |   |   P0 + 2 * P1             |

          //  |   1   4   1   0   ... 0   0   0   ... 0   0   0   |   |   P1_2    |   |   4 * P1 + 2 * P2         |

          //  |   0   1   4   1   ... 0   0   0   ... 0   0   0   |   |   P1_3    |   |   4 * P2 + 2 * P3         |

          //  |   .   .   .   .   .   .   .   .   .   .   .   .   |   |   ...     |   |   ...                     |

          //  |   0   0   0   0   ... 1   4   1   ... 0   0   0   | * |   P1_i    | = |   4 * P(i-1) + 2 * Pi     |

          //  |   .   .   .   .   .   .   .   .   .   .   .   .   |   |   ...     |   |   ...                     |

          //  |   0   0   0   0   0   0   0   0   ... 1   4   1   |   |   P1_(n-1)|   |   4 * P(n-2) + 2 * P(n-1) |

          //  |   0   0   0   0   0   0   0   0   ... 0   2   7   |   |   P1_n    |   |   8 * P(n-1) + Pn         |

          //

          QList<qreal> rhs;

          rhs.append(x(0) + 2 * x(1));

          // Set right hand side X values

          for (int i = 1; i < n - 1; ++i)

              rhs.append(4 * x(i) + 2 * x(i + 1));

          rhs.append((8 * x(n - 1) + x(n)) / 2.0);

          // Get first control points X-values

          QList<qreal> xControl = getFirstControlPoints(rhs);

          rhs[0] = y(0) + 2 * y(1);

          // Set right hand side Y values

          for (int i = 1; i < n - 1; ++i)

              rhs[i] = 4 * y(i) + 2 * y(i + 1);

          rhs[n - 1] = (8 * y(n - 1) + y(n)) / 2.0;

          // Get first control points Y-values

          QList<qreal> yControl = getFirstControlPoints(rhs);

          // Fill output arrays.

          for (int i = 0; i < n; ++i) {

              // First control point

              m_controlPoints.append(QPointF(xControl[i], yControl[i]));

              // Second control point

              if (i < n - 1)

                  m_controlPoints.append(QPointF(2 * x(i + 1) - xControl[i + 1], 2 * y(i + 1) - yControl[i + 1]));

              else

                  m_controlPoints.append(QPointF((x(n) + xControl[n - 1]) / 2, (y(n) + yControl[n - 1]) / 2));

          }

      }

      /*!

        \internal

        */

      QList<qreal> QSplineSeries::getFirstControlPoints(QList<qreal> rhs)

      {

          QList<qreal> x; // Solution vector.

          QList<qreal> tmp; // Temp workspace.

          qreal b = 2.0;

          x.append(rhs[0] / b);

          tmp.append(0);

          for (int i = 1; i < rhs.size(); i++) {

              // Decomposition and forward substitution.

              tmp.append(1 / b);

              b = (i < rhs.size() - 1 ? 4.0 : 3.5) - tmp[i];

              x.append((rhs[i] - x[i - 1]) / b);

          }

          for (int i = 1; i < rhs.size(); i++)

              x[rhs.size() - i - 1] -= tmp[rhs.size() - i] * x[rhs.size() - i]; // Backsubstitution.

          return x;

      }

      /*!

        \internal

        Updates the control points, besed on currently avaiable knots.

        */

      void QSplineSeries::updateControlPoints()

      {

          if (count() > 1) {

              m_controlPoints.clear();

              calculateControlPoints();

          }

      }

      bool QSplineSeries::setModel(QAbstractItemModel* model)

      {

          QXYSeries::setModel(model);

      //    calculateControlPoints();

          return true;

      }

      void QSplineSeries::setModelMapping(int modelX, int modelY, Qt::Orientation orientation)

      {

          QLineSeries::setModelMapping(modelX, modelY, orientation);

      //    calculateControlPoints();

      }

      void QSplineSeries::setModelMappingShift(int first, int count)

      {

          QLineSeries::setModelMappingShift(first, count);

          calculateControlPoints();

      }

      #include "moc_qsplineseries.cpp"

      QTCOMMERCIALCHART_END_NAMESPACE

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				/****************************************************************************
				**
				** Copyright (C) 2012 Digia Plc
				** All rights reserved.
				** For any questions to Digia, please use contact form at http://qt.digia.com
				**
				** This file is part of the Qt Commercial Charts Add-on.
				**
				** $QT_BEGIN_LICENSE$
				** Licensees holding valid Qt Commercial licenses may use this file in
				** accordance with the Qt Commercial License Agreement provided with the
				** Software or, alternatively, in accordance with the terms contained in
				** a written agreement between you and Digia.
				**
				** If you have questions regarding the use of this file, please use
				** contact form at http://qt.digia.com
				** $QT_END_LICENSE$
				**
				****************************************************************************/

				#include "qsplineseries.h"

				/*!
				\class QSplineSeries
				\brief Series type used to store data needed to draw a spline.

				QSplineSeries stores the data points along with the segment control points needed by QPainterPath to draw spline
				Control points are automatically calculated when data changes. The algorithm computes the points so that the normal spline can be drawn.
				*/

				/*!
				\fn QSeriesType QSplineSeries::type() const
				Returns the type of the series
				*/

				/*!
				\fn QSeriesType QSplineSeries::controlPoint(int index) const
				Returns the control point specified by \a index
				*/

				QTCOMMERCIALCHART_BEGIN_NAMESPACE

				/*!
				Constructs empty series object which is a child of \a parent.
				When series object is added to QChartView or QChart instance then the ownerships is transfered.
				*/

				QSplineSeries::QSplineSeries(QObject *parent) :
				QLineSeries(parent)
				{
				connect(this,SIGNAL(pointAdded(int)), this, SLOT(updateControlPoints()));
				connect(this,SIGNAL(pointRemoved(int)), this, SLOT(updateControlPoints()));
				connect(this,SIGNAL(pointReplaced(int)), this, SLOT(updateControlPoints()));
				}

				/*!
				\internal
				Calculates control points which are needed by QPainterPath.cubicTo function to draw the cubic Bezier cureve between two points.
				*/
				void QSplineSeries::calculateControlPoints()
				{

				// Based on http://www.codeproject.com/Articles/31859/Draw-a-Smooth-Curve-through-a-Set-of-2D-Points-wit
				// CPOL License

				int n = count() - 1;
				if (n == 1)
				{ // Special case: Bezier curve should be a straight line.
				// firstControlPoints = new Point[1];
				// 3P1 = 2P0 + P3
				m_controlPoints.append(QPointF((2 * x(0) + x(1)) / 3, (2 * y(0) + y(1)) / 3));

				// P2 = 2P1 P0
				m_controlPoints.append(QPointF(2 * m_controlPoints[0].x() - x(0), 2 * m_controlPoints[0].y() - y(0)));
				return;
				}

				// Calculate first Bezier control points
				// Right hand side vector
				// Set of equations for P0 to Pn points.
				//
				// \| 2 1 0 0 ... 0 0 0 ... 0 0 0 \| \| P1_1 \| \| P0 + 2 * P1 \|
				// \| 1 4 1 0 ... 0 0 0 ... 0 0 0 \| \| P1_2 \| \| 4 * P1 + 2 * P2 \|
				// \| 0 1 4 1 ... 0 0 0 ... 0 0 0 \| \| P1_3 \| \| 4 * P2 + 2 * P3 \|
				// \| . . . . . . . . . . . . \| \| ... \| \| ... \|
				// \| 0 0 0 0 ... 1 4 1 ... 0 0 0 \| * \| P1_i \| = \| 4 * P(i-1) + 2 * Pi \|
				// \| . . . . . . . . . . . . \| \| ... \| \| ... \|
				// \| 0 0 0 0 0 0 0 0 ... 1 4 1 \| \| P1_(n-1)\| \| 4 * P(n-2) + 2 * P(n-1) \|
				// \| 0 0 0 0 0 0 0 0 ... 0 2 7 \| \| P1_n \| \| 8 * P(n-1) + Pn \|
				//
				QList<qreal> rhs;
				rhs.append(x(0) + 2 * x(1));

				// Set right hand side X values
				for (int i = 1; i < n - 1; ++i)
				rhs.append(4 * x(i) + 2 * x(i + 1));

				rhs.append((8 * x(n - 1) + x(n)) / 2.0);
				// Get first control points X-values
				QList<qreal> xControl = getFirstControlPoints(rhs);
				rhs[0] = y(0) + 2 * y(1);

				// Set right hand side Y values
				for (int i = 1; i < n - 1; ++i)
				rhs[i] = 4 * y(i) + 2 * y(i + 1);

				rhs[n - 1] = (8 * y(n - 1) + y(n)) / 2.0;
				// Get first control points Y-values
				QList<qreal> yControl = getFirstControlPoints(rhs);

				// Fill output arrays.
				for (int i = 0; i < n; ++i) {
				// First control point
				m_controlPoints.append(QPointF(xControl[i], yControl[i]));
				// Second control point
				if (i < n - 1)
				m_controlPoints.append(QPointF(2 * x(i + 1) - xControl[i + 1], 2 * y(i + 1) - yControl[i + 1]));
				else
				m_controlPoints.append(QPointF((x(n) + xControl[n - 1]) / 2, (y(n) + yControl[n - 1]) / 2));
				}
				}

				/*!
				\internal
				*/
				QList<qreal> QSplineSeries::getFirstControlPoints(QList<qreal> rhs)
				{
				QList<qreal> x; // Solution vector.
				QList<qreal> tmp; // Temp workspace.

				qreal b = 2.0;
				x.append(rhs[0] / b);
				tmp.append(0);
				for (int i = 1; i < rhs.size(); i++) {
				// Decomposition and forward substitution.
				tmp.append(1 / b);
				b = (i < rhs.size() - 1 ? 4.0 : 3.5) - tmp[i];
				x.append((rhs[i] - x[i - 1]) / b);
				}
				for (int i = 1; i < rhs.size(); i++)
				x[rhs.size() - i - 1] -= tmp[rhs.size() - i] * x[rhs.size() - i]; // Backsubstitution.

				return x;
				}

				/*!
				\internal
				Updates the control points, besed on currently avaiable knots.
				*/
				void QSplineSeries::updateControlPoints()
				{
				if (count() > 1) {
				m_controlPoints.clear();
				calculateControlPoints();
				}
				}

				bool QSplineSeries::setModel(QAbstractItemModel* model)
				{
				QXYSeries::setModel(model);
				// calculateControlPoints();
				return true;
				}

				void QSplineSeries::setModelMapping(int modelX, int modelY, Qt::Orientation orientation)
				{
				QLineSeries::setModelMapping(modelX, modelY, orientation);
				// calculateControlPoints();
				}

				void QSplineSeries::setModelMappingShift(int first, int count)
				{
				QLineSeries::setModelMappingShift(first, count);
				calculateControlPoints();
				}

				#include "moc_qsplineseries.cpp"

				QTCOMMERCIALCHART_END_NAMESPACE