/* * Bittorrent Client using Qt and libtorrent. * Copyright (C) 2015 Anton Lashkov * * 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. * * In addition, as a special exception, the copyright holders give permission to * link this program with the OpenSSL project's "OpenSSL" library (or with * modified versions of it that use the same license as the "OpenSSL" library), * and distribute the linked executables. You must obey the GNU General Public * License in all respects for all of the code used other than "OpenSSL". If you * modify file(s), you may extend this exception to your version of the file(s), * but you are not obligated to do so. If you do not wish to do so, delete this * exception statement from your version. */ #include "speedplotview.h" #include #include #include "base/utils/misc.h" SpeedPlotView::SpeedPlotView(QWidget *parent) : QGraphicsView(parent) , m_xData(HOUR6_SEC) , m_viewablePointsCount(MIN5_SEC) , m_maxCapacity(HOUR6_SEC) { QPen greenPen; greenPen.setWidthF(1.5); greenPen.setColor(QColor(134, 196, 63)); QPen bluePen; bluePen.setWidthF(1.5); bluePen.setColor(QColor(50, 153, 255)); m_properties[UP] = GraphProperties(tr("Total Upload"), bluePen); m_properties[DOWN] = GraphProperties(tr("Total Download"), greenPen); bluePen.setStyle(Qt::DashLine); greenPen.setStyle(Qt::DashLine); m_properties[PAYLOAD_UP] = GraphProperties(tr("Payload Upload"), bluePen); m_properties[PAYLOAD_DOWN] = GraphProperties(tr("Payload Download"), greenPen); bluePen.setStyle(Qt::DashDotLine); greenPen.setStyle(Qt::DashDotLine); m_properties[OVERHEAD_UP] = GraphProperties(tr("Overhead Upload"), bluePen); m_properties[OVERHEAD_DOWN] = GraphProperties(tr("Overhead Download"), greenPen); bluePen.setStyle(Qt::DashDotDotLine); greenPen.setStyle(Qt::DashDotDotLine); m_properties[DHT_UP] = GraphProperties(tr("DHT Upload"), bluePen); m_properties[DHT_DOWN] = GraphProperties(tr("DHT Download"), greenPen); bluePen.setStyle(Qt::DotLine); greenPen.setStyle(Qt::DotLine); m_properties[TRACKER_UP] = GraphProperties(tr("Tracker Upload"), bluePen); m_properties[TRACKER_DOWN] = GraphProperties(tr("Tracker Download"), greenPen); m_yData[UP] = boost::circular_buffer(HOUR6_SEC); m_yData[DOWN] = boost::circular_buffer(HOUR6_SEC); m_yData[PAYLOAD_UP] = boost::circular_buffer(HOUR6_SEC); m_yData[PAYLOAD_DOWN] = boost::circular_buffer(HOUR6_SEC); m_yData[OVERHEAD_UP] = boost::circular_buffer(HOUR6_SEC); m_yData[OVERHEAD_DOWN] = boost::circular_buffer(HOUR6_SEC); m_yData[DHT_UP] = boost::circular_buffer(HOUR6_SEC); m_yData[DHT_DOWN] = boost::circular_buffer(HOUR6_SEC); m_yData[TRACKER_UP] = boost::circular_buffer(HOUR6_SEC); m_yData[TRACKER_DOWN] = boost::circular_buffer(HOUR6_SEC); } void SpeedPlotView::setGraphEnable(GraphID id, bool enable) { m_properties[id].m_enable = enable; } void SpeedPlotView::pushXPoint(uint x) { m_xData.push_back(x); } void SpeedPlotView::pushYPoint(GraphID id, int y) { m_yData[id].push_back(y); } void SpeedPlotView::setViewableLastPoints(TimePeriod period) { switch (period) { case SpeedPlotView::MIN1: m_viewablePointsCount = SpeedPlotView::MIN1_SEC; break; case SpeedPlotView::MIN5: m_viewablePointsCount = SpeedPlotView::MIN5_SEC; break; case SpeedPlotView::MIN30: m_viewablePointsCount = SpeedPlotView::MIN30_SEC; break; case SpeedPlotView::HOUR6: m_viewablePointsCount = SpeedPlotView::HOUR6_SEC; break; default: break; } } void SpeedPlotView::replot() { this->viewport()->update(); } int SpeedPlotView::maxYValue() { int maxYValue = 0; for (QMap >::const_iterator it = m_yData.begin(); it != m_yData.end(); ++it) { if (!m_properties[it.key()].m_enable) continue; const boost::circular_buffer &queue = it.value(); for (int i = queue.size() - 1, j = 0; i >= 0 && j <= m_viewablePointsCount; --i, ++j) { if (queue[i] > maxYValue) maxYValue = queue[i]; } } return maxYValue; } void SpeedPlotView::paintEvent(QPaintEvent *) { QPainter painter(this->viewport()); QRect full_rect = this->viewport()->rect(); QRect rect = this->viewport()->rect(); QFontMetrics font_metrics = painter.fontMetrics(); rect.adjust(4, 4, 0, -4); // Add padding int max_y = maxYValue(); rect.adjust(0, font_metrics.height(), 0, 0); // Add top padding for top speed text // draw Y axis speed labels QVector speed_labels(QVector() << Utils::Misc::friendlyUnit(max_y, true) << Utils::Misc::friendlyUnit(0.75 * max_y, true) << Utils::Misc::friendlyUnit(0.5 * max_y, true) << Utils::Misc::friendlyUnit(0.25 * max_y, true) << Utils::Misc::friendlyUnit(0, true)); int y_axe_width = 0; for (int i = 0; i < speed_labels.size(); ++i) { if (font_metrics.width(speed_labels[i]) > y_axe_width) y_axe_width = font_metrics.width(speed_labels[i]); } for (int i = 0; i < speed_labels.size(); ++i) { QRectF label_rect(rect.topLeft() + QPointF(-y_axe_width, i * 0.25 * rect.height() - font_metrics.height()), QSizeF(2 * y_axe_width, font_metrics.height())); painter.drawText(label_rect, speed_labels[i], QTextOption((Qt::AlignRight) | (Qt::AlignTop))); } // draw grid lines rect.adjust(y_axe_width + 4, 0, 0, 0); QPen grid_pen; grid_pen.setStyle(Qt::DashLine); grid_pen.setWidthF(1); grid_pen.setColor(QColor(128, 128, 128, 128)); painter.setPen(grid_pen); painter.drawLine(full_rect.left(), rect.top(), rect.right(), rect.top()); painter.drawLine(full_rect.left(), rect.top() + 0.25 * rect.height(), rect.right(), rect.top() + 0.25 * rect.height()); painter.drawLine(full_rect.left(), rect.top() + 0.50 * rect.height(), rect.right(), rect.top() + 0.50 * rect.height()); painter.drawLine(full_rect.left(), rect.top() + 0.75 * rect.height(), rect.right(), rect.top() + 0.75 * rect.height()); painter.drawLine(full_rect.left(), rect.bottom(), rect.right(), rect.bottom()); painter.drawLine(rect.left(), full_rect.top(), rect.left(), full_rect.bottom()); painter.drawLine(rect.left() + 0.2 * rect.width(), full_rect.top(), rect.left() + 0.2 * rect.width(), full_rect.bottom()); painter.drawLine(rect.left() + 0.4 * rect.width(), full_rect.top(), rect.left() + 0.4 * rect.width(), full_rect.bottom()); painter.drawLine(rect.left() + 0.6 * rect.width(), full_rect.top(), rect.left() + 0.6 * rect.width(), full_rect.bottom()); painter.drawLine(rect.left() + 0.8 * rect.width(), full_rect.top(), rect.left() + 0.8 * rect.width(), full_rect.bottom()); // Set antialiasing for graphs painter.setRenderHints(QPainter::Antialiasing | QPainter::HighQualityAntialiasing); // draw graphs rect.adjust(3, 0, 0, 0); // Need, else graphs cross left gridline double y_multiplier = (max_y == 0) ? 0.0 : double(rect.height()) / max_y; double x_tick_size = double(rect.width()) / m_viewablePointsCount; for (QMap >::const_iterator it = m_yData.begin(); it != m_yData.end(); ++it) { if (!m_properties[it.key()].m_enable) continue; const boost::circular_buffer &queue = it.value(); QVector points; for (int i = queue.size() - 1, j = 0; i >= 0 && j <= m_viewablePointsCount; --i, ++j) { int new_x = rect.right() - j * x_tick_size; int new_y = rect.bottom() - queue[i] * y_multiplier; if (points.size() > 1) { QPoint &last_point = points[points.size()-1]; QPoint &prelast_point = points[points.size()-2]; if (last_point.x() == new_x && prelast_point.x() == new_x) { last_point.setY(qMax(last_point.y(), new_y)); prelast_point.setY(qMin(prelast_point.y(), new_y)); continue; } } points.push_back(QPoint(new_x, new_y)); } painter.setPen(m_properties[it.key()].m_pen); painter.drawPolyline(points.data(), points.size()); } // draw legend QPoint legend_top_left(rect.left() + 4, full_rect.top() + 4); double legend_height = 0; int legend_width = 0; for (QMap::const_iterator it = m_properties.begin(); it != m_properties.end(); ++it) { if (!it.value().m_enable) continue; if (font_metrics.width(it.value().m_name) > legend_width) legend_width = font_metrics.width(it.value().m_name); legend_height += 1.5 * font_metrics.height(); } QRectF legend_background_rect(QPoint(legend_top_left.x()-4, legend_top_left.y()-4), QSizeF(legend_width+8, legend_height+8)); QColor legendBackgroundColor = QWidget::palette().color(QWidget::backgroundRole()); legendBackgroundColor.setAlpha(128); // 50% transparent painter.fillRect(legend_background_rect, legendBackgroundColor); int i = 0; for (QMap::const_iterator it = m_properties.begin(); it != m_properties.end(); ++it) { if (!it.value().m_enable) continue; int name_size = font_metrics.width(it.value().m_name); double indent = 1.5 * i * font_metrics.height(); painter.setPen(it.value().m_pen); painter.drawLine(legend_top_left + QPointF(0, indent + font_metrics.height()), legend_top_left + QPointF(name_size, indent + font_metrics.height())); painter.drawText(QRectF(legend_top_left + QPointF(0, indent), QSizeF(2 * name_size, font_metrics.height())), it.value().m_name, QTextOption(Qt::AlignVCenter)); ++i; } } SpeedPlotView::GraphProperties::GraphProperties() : m_enable(false) { } SpeedPlotView::GraphProperties::GraphProperties(const QString &name, const QPen &pen, bool enable) : m_name(name) , m_pen(pen) , m_enable(enable) { }