/* * Digital Peak Meter, a custom Qt4 widget * Copyright (C) 2011-2012 Filipe Coelho * * 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 * 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. * * For a full copy of the GNU General Public License see the COPYING file */ #include "digitalpeakmeter.hpp" #include DigitalPeakMeter::DigitalPeakMeter(QWidget* parent) : QWidget(parent), m_paintTimer(this) { m_channels = 0; m_orientation = VERTICAL; m_smoothMultiplier = 1; m_colorBackground = QColor("#111111"); m_gradientMeter = QLinearGradient(0, 0, 1, 1); setChannels(0); setColor(GREEN); m_paintTimer.setInterval(60); connect(&m_paintTimer, SIGNAL(timeout()), this, SLOT(update())); m_paintTimer.start(); } void DigitalPeakMeter::displayMeter(int meter, float level) { Q_ASSERT(meter > 0 && meter <= m_channels); if (meter <= 0 || meter > m_channels) return qCritical("DigitalPeakMeter::displayMeter(%i, %f) - invalid meter number", meter, level); if (level < 0.0f) level = -level; else if (level > 1.0f) level = 1.0f; m_channelsData[meter-1] = level; } void DigitalPeakMeter::setChannels(int channels) { Q_ASSERT(channels >= 0); if (channels < 0) return qCritical("DigitalPeakMeter::setChannels(%i) - 'channels' must be a positive integer", channels); m_channels = channels; m_channelsData.clear(); m_lastValueData.clear(); for (int i=0; i < channels; i++) { m_channelsData.append(0.0f); m_lastValueData.append(0.0f); } } void DigitalPeakMeter::setColor(Color color) { if (color == GREEN) { m_colorBase = QColor(93, 231, 61); m_colorBaseT = QColor(15, 110, 15, 100); } else if (color == BLUE) { m_colorBase = QColor(82, 238, 248); m_colorBaseT = QColor(15, 15, 110, 100); } else return qCritical("DigitalPeakMeter::setColor(%i) - invalid color", color); setOrientation(m_orientation); } void DigitalPeakMeter::setOrientation(Orientation orientation) { m_orientation = orientation; if (m_orientation == HORIZONTAL) { m_gradientMeter.setColorAt(0.0f, m_colorBase); m_gradientMeter.setColorAt(0.2f, m_colorBase); m_gradientMeter.setColorAt(0.4f, m_colorBase); m_gradientMeter.setColorAt(0.6f, m_colorBase); m_gradientMeter.setColorAt(0.8f, Qt::yellow); m_gradientMeter.setColorAt(1.0f, Qt::red); } else if (m_orientation == VERTICAL) { m_gradientMeter.setColorAt(0.0f, Qt::red); m_gradientMeter.setColorAt(0.2f, Qt::yellow); m_gradientMeter.setColorAt(0.4f, m_colorBase); m_gradientMeter.setColorAt(0.6f, m_colorBase); m_gradientMeter.setColorAt(0.8f, m_colorBase); m_gradientMeter.setColorAt(1.0f, m_colorBase); } else return qCritical("DigitalPeakMeter::setOrientation(%i) - invalid orientation", orientation); updateSizes(); } void DigitalPeakMeter::setRefreshRate(int rate) { Q_ASSERT(rate > 0); m_paintTimer.stop(); m_paintTimer.setInterval(rate); m_paintTimer.start(); } void DigitalPeakMeter::setSmoothRelease(int value) { Q_ASSERT(value >= 0 && value <= 5); if (value < 0) value = 0; else if (value > 5) value = 5; m_smoothMultiplier = value; } QSize DigitalPeakMeter::minimumSizeHint() const { return QSize(30, 30); } QSize DigitalPeakMeter::sizeHint() const { return QSize(m_width, m_height); } void DigitalPeakMeter::updateSizes() { m_width = width(); m_height = height(); m_sizeMeter = 0; if (m_orientation == HORIZONTAL) { m_gradientMeter.setFinalStop(m_width, 0); if (m_channels > 0) m_sizeMeter = m_height/m_channels; } else if (m_orientation == VERTICAL) { m_gradientMeter.setFinalStop(0, m_height); if (m_channels > 0) m_sizeMeter = m_width/m_channels; } } void DigitalPeakMeter::paintEvent(QPaintEvent*) { QPainter painter(this); painter.setPen(Qt::black); painter.setBrush(Qt::black); painter.drawRect(0, 0, m_width, m_height); int meterX = 0; painter.setPen(m_colorBackground); painter.setBrush(m_gradientMeter); for (int i=0; i < m_channels; i++) { float value, level = m_channelsData[i]; if (level == m_lastValueData[i]) continue; if (m_orientation == HORIZONTAL) value = level * m_width; else if (m_orientation == VERTICAL) value = float(m_height) - (level * m_height); else value = 0.0f; if (value < 0.0f) value = 0.0f; else if (m_smoothMultiplier > 0) value = (m_lastValueData[i] * m_smoothMultiplier + value) / (m_smoothMultiplier + 1); if (m_orientation == HORIZONTAL) painter.drawRect(0, meterX, value, m_sizeMeter); else if (m_orientation == VERTICAL) painter.drawRect(meterX, value, m_sizeMeter, m_height); meterX += m_sizeMeter; m_lastValueData[i] = value; } painter.setBrush(QColor(0, 0, 0, 0)); if (m_orientation == HORIZONTAL) { // Variables int lsmall = m_width; int lfull = m_height - 1; // Base painter.setPen(m_colorBaseT); painter.drawLine(lsmall * 0.25f, 2, lsmall * 0.25f, lfull-2); painter.drawLine(lsmall * 0.50f, 2, lsmall * 0.50f, lfull-2); // Yellow painter.setPen(QColor(110, 110, 15, 100)); painter.drawLine(lsmall * 0.70f, 2, lsmall * 0.70f, lfull-2); painter.drawLine(lsmall * 0.83f, 2, lsmall * 0.83f, lfull-2); // Orange painter.setPen(QColor(180, 110, 15, 100)); painter.drawLine(lsmall * 0.90f, 2, lsmall * 0.90f, lfull-2); // Red painter.setPen(QColor(110, 15, 15, 100)); painter.drawLine(lsmall * 0.96f, 2, lsmall * 0.96f, lfull-2); } else if (m_orientation == VERTICAL) { // Variables int lsmall = m_height; int lfull = m_width - 1; // Base painter.setPen(m_colorBaseT); painter.drawLine(2, lsmall - (lsmall * 0.25f), lfull-2, lsmall - (lsmall * 0.25f)); painter.drawLine(2, lsmall - (lsmall * 0.50f), lfull-2, lsmall - (lsmall * 0.50f)); // Yellow painter.setPen(QColor(110, 110, 15, 100)); painter.drawLine(2, lsmall - (lsmall * 0.70f), lfull-2, lsmall - (lsmall * 0.70f)); painter.drawLine(2, lsmall - (lsmall * 0.83f), lfull-2, lsmall - (lsmall * 0.83f)); // Orange painter.setPen(QColor(180, 110, 15, 100)); painter.drawLine(2, lsmall - (lsmall * 0.90f), lfull-2, lsmall - (lsmall * 0.90f)); // Red painter.setPen(QColor(110, 15, 15, 100)); painter.drawLine(2, lsmall - (lsmall * 0.96f), lfull-2, lsmall - (lsmall * 0.96f)); } } void DigitalPeakMeter::resizeEvent(QResizeEvent* event) { updateSizes(); QWidget::resizeEvent(event); }