RetroShare/retroshare-gui/src/gui/graphframe.cpp

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/****************************************************************
* This file is distributed under the following license:
*
* Copyright (c) 2006-2007, crypton
* Copyright (c) 2006, Matt Edman, Justin Hipple
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
****************************************************************/
#include <QtGlobal>
#include "graphframe.h"
/** Default contructor */
GraphFrame::GraphFrame(QWidget *parent)
: QFrame(parent)
{
/* Create Graph Frame related objects */
_recvData = new QList<qreal>();
_sendData = new QList<qreal>();
_painter = new QPainter();
_graphStyle = SolidLine;
/* Initialize graph values */
_recvData->prepend(0);
_sendData->prepend(0);
_maxPoints = getNumPoints();
_showRecv = true;
_showSend = true;
_maxValue = MIN_SCALE;
}
/** Default destructor */
GraphFrame::~GraphFrame()
{
delete _painter;
delete _recvData;
delete _sendData;
}
/** Gets the width of the desktop, which is the maximum number of points
* we can plot in the graph. */
int
GraphFrame::getNumPoints()
{
QDesktopWidget *desktop = QApplication::desktop();
int width = desktop->width();
return width;
}
/** Adds new data points to the graph. */
void
GraphFrame::addPoints(qreal recv, qreal send)
{
/* If maximum number of points plotted, remove oldest */
if (_sendData->size() == _maxPoints) {
_sendData->removeLast();
_recvData->removeLast();
}
/* Add the points to their respective lists */
_sendData->prepend(send);
_recvData->prepend(recv);
/* Add to the total counters */
_totalSend += send;
_totalRecv += recv;
/* Check for a new maximum value */
if (send > _maxValue) _maxValue = send;
if (recv > _maxValue) _maxValue = recv;
this->update();
}
/** Clears the graph. */
void
GraphFrame::resetGraph()
{
_recvData->clear();
_sendData->clear();
_recvData->prepend(0);
_sendData->prepend(0);
_maxValue = MIN_SCALE;
_totalSend = 0;
_totalRecv = 0;
this->update();
}
/** Toggles display of respective graph lines and counters. */
void
GraphFrame::setShowCounters(bool showRecv, bool showSend)
{
_showRecv = showRecv;
_showSend = showSend;
this->update();
}
/** Overloads default QWidget::paintEvent. Draws the actual
* bandwidth graph. */
void
GraphFrame::paintEvent(QPaintEvent *event)
{
Q_UNUSED(event);
/* Set current graph dimensions */
_rec = this->frameRect();
/* Start the painter */
_painter->begin(this);
/* We want antialiased lines and text */
_painter->setRenderHint(QPainter::Antialiasing);
_painter->setRenderHint(QPainter::TextAntialiasing);
/* Fill in the background */
_painter->fillRect(_rec, QBrush(BACK_COLOR));
_painter->drawRect(_rec);
/* Paint the scale */
paintScale();
/* Plot the send/receive data */
paintData();
/* Paint the send/recv totals */
paintTotals();
/* Stop the painter */
_painter->end();
}
/** Paints an integral and an outline of that integral for each data set (send
* and/or receive) that is to be displayed. The integrals will be drawn first,
* followed by the outlines, since we want the area of overlapping integrals
* to blend, but not the outlines of those integrals. */
void
GraphFrame::paintData()
{
QVector<QPointF> recvPoints, sendPoints;
/* Convert the bandwidth data points to graph points */
recvPoints = pointsFromData(_recvData);
sendPoints = pointsFromData(_sendData);
if (_graphStyle == AreaGraph) {
/* Plot the bandwidth data as area graphs */
if (_showRecv)
paintIntegral(recvPoints, RECV_COLOR, 0.6);
if (_showSend)
paintIntegral(sendPoints, SEND_COLOR, 0.4);
}
/* Plot the bandwidth as solid lines. If the graph style is currently an
* area graph, we end up outlining the integrals. */
if (_showRecv)
paintLine(recvPoints, RECV_COLOR);
if (_showSend)
paintLine(sendPoints, SEND_COLOR);
}
/** Returns a list of points on the bandwidth graph based on the supplied set
* of send or receive values. */
QVector<QPointF>
GraphFrame::pointsFromData(QList<qreal>* list)
{
QVector<QPointF> points;
int x = _rec.width();
int y = _rec.height();
qreal scale = (y - (y/10)) / _maxValue;
qreal currValue;
/* Translate all data points to points on the graph frame */
points << QPointF(x, y);
for (int i = 0; i < list->size(); i++) {
currValue = y - (list->at(i) * scale);
if (x - SCROLL_STEP < SCALE_WIDTH) {
points << QPointF(SCALE_WIDTH, currValue);
break;
}
points << QPointF(x, currValue);
x -= SCROLL_STEP;
}
points << QPointF(SCALE_WIDTH, y);
return points;
}
/** Plots an integral using the data points in <b>points</b>. The area will be
* filled in using <b>color</b> and an alpha-blending level of <b>alpha</b>
* (default is opaque). */
void
GraphFrame::paintIntegral(QVector<QPointF> points, QColor color, qreal alpha)
{
/* Save the current brush, plot the integral, and restore the old brush */
QBrush oldBrush = _painter->brush();
color.setAlphaF(alpha);
_painter->setBrush(QBrush(color));
_painter->drawPolygon(points.data(), points.size());
_painter->setBrush(oldBrush);
}
/** Iterates the input list and draws a line on the graph in the appropriate
* color. */
void
GraphFrame::paintLine(QVector<QPointF> points, QColor color, Qt::PenStyle lineStyle)
{
/* Save the current brush, plot the line, and restore the old brush */
QPen oldPen = _painter->pen();
_painter->setPen(QPen(color, lineStyle));
_painter->drawPolyline(points.data(), points.size());
_painter->setPen(oldPen);
}
/** Paints selected total indicators on the graph. */
void
GraphFrame::paintTotals()
{
int x = SCALE_WIDTH + FONT_SIZE, y = 0;
int rowHeight = FONT_SIZE;
#if !defined(Q_WS_MAC)
/* On Mac, we don't need vertical spacing between the text rows. */
rowHeight += 5;
#endif
/* If total received is selected */
if (_showRecv) {
y = rowHeight;
_painter->setPen(RECV_COLOR);
_painter->drawText(x, y,
tr("Recv: ") + totalToStr(_totalRecv) +
" ("+tr("%1 KB/s").arg(_recvData->first(), 0, 'f', 2)+")");
}
/* If total sent is selected */
if (_showSend) {
y += rowHeight;
_painter->setPen(SEND_COLOR);
_painter->drawText(x, y,
tr("Sent: ") + totalToStr(_totalSend) +
" ("+tr("%1 KB/s").arg(_sendData->first(), 0, 'f', 2)+")");
}
}
/** Returns a formatted string with the correct size suffix. */
QString
GraphFrame::totalToStr(qreal total)
{
/* Determine the correct size suffix */
if (total < 1024) {
/* Use KB suffix */
return tr("%1 KB").arg(total, 0, 'f', 2);
} else if (total < 1048576) {
/* Use MB suffix */
return tr("%1 MB").arg(total/1024.0, 0, 'f', 2);
} else {
/* Use GB suffix */
return tr("%1 GB").arg(total/1048576.0, 0, 'f', 2);
}
}
/** Paints the scale on the graph. */
void
GraphFrame::paintScale()
{
qreal markStep = _maxValue * .25;
int top = _rec.y();
int bottom = _rec.height();
qreal paintStep = (bottom - (bottom/10)) / 4;
/* Draw the other marks in their correctly scaled locations */
qreal scale;
qreal pos;
for (int i = 1; i < 5; i++) {
pos = bottom - (i * paintStep);
scale = i * markStep;
_painter->setPen(SCALE_COLOR);
_painter->drawText(QPointF(5, pos+FONT_SIZE),
tr("%1 KB/s").arg(scale, 0, 'f', 2));
_painter->setPen(GRID_COLOR);
_painter->drawLine(QPointF(SCALE_WIDTH, pos),
QPointF(_rec.width(), pos));
}
/* Draw vertical separator */
_painter->drawLine(SCALE_WIDTH, top, SCALE_WIDTH, bottom);
}