Mercurial > hg > svgui
view widgets/Thumbwheel.cpp @ 362:a9dfa2d6d5ac
* Add pitch range in octaves, semitones and cents to the measurement rect
as well as in Hz
* Avoid crash when adding time ruler
This commit contains a lot of debug output (will be slow)
author | Chris Cannam |
---|---|
date | Wed, 06 Feb 2008 16:21:29 +0000 |
parents | c492902dba40 |
children | 846746e4e865 06b5f110c5d2 |
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/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Sonic Visualiser An audio file viewer and annotation editor. Centre for Digital Music, Queen Mary, University of London. This file copyright 2006 QMUL. 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. See the file COPYING included with this distribution for more information. */ #include "Thumbwheel.h" #include "base/RangeMapper.h" #include "base/Profiler.h" #include <QMouseEvent> #include <QPaintEvent> #include <QWheelEvent> #include <QInputDialog> #include <QPainter> #include <QPainterPath> #include <cmath> #include <iostream> Thumbwheel::Thumbwheel(Qt::Orientation orientation, QWidget *parent) : QWidget(parent), m_min(0), m_max(100), m_default(50), m_value(50), m_mappedValue(50), m_noMappedUpdate(false), m_rotation(0.5), m_orientation(orientation), m_speed(1.0), m_tracking(true), m_showScale(true), m_clicked(false), m_atDefault(true), m_clickRotation(m_rotation), m_showTooltip(true), m_rangeMapper(0) { } Thumbwheel::~Thumbwheel() { delete m_rangeMapper; } void Thumbwheel::setRangeMapper(RangeMapper *mapper) { if (m_rangeMapper == mapper) return; if (!m_rangeMapper && mapper) { connect(this, SIGNAL(valueChanged(int)), this, SLOT(updateMappedValue(int))); } delete m_rangeMapper; m_rangeMapper = mapper; updateMappedValue(getValue()); } void Thumbwheel::setShowToolTip(bool show) { m_showTooltip = show; m_noMappedUpdate = true; updateMappedValue(getValue()); m_noMappedUpdate = false; } void Thumbwheel::setMinimumValue(int min) { if (m_min == min) return; m_min = min; if (m_max <= m_min) m_max = m_min + 1; if (m_value < m_min) m_value = m_min; if (m_value > m_max) m_value = m_max; m_rotation = float(m_value - m_min) / float(m_max - m_min); update(); } int Thumbwheel::getMinimumValue() const { return m_min; } void Thumbwheel::setMaximumValue(int max) { if (m_max == max) return; m_max = max; if (m_min >= m_max) m_min = m_max - 1; if (m_value < m_min) m_value = m_min; if (m_value > m_max) m_value = m_max; m_rotation = float(m_value - m_min) / float(m_max - m_min); update(); } int Thumbwheel::getMaximumValue() const { return m_max; } void Thumbwheel::setDefaultValue(int deft) { if (m_default == deft) return; m_default = deft; if (m_atDefault) { setValue(m_default); m_atDefault = true; // setValue unsets this emit valueChanged(getValue()); } } void Thumbwheel::setMappedValue(float mappedValue) { if (m_rangeMapper) { int newValue = m_rangeMapper->getPositionForValue(mappedValue); bool changed = (m_mappedValue != mappedValue); m_mappedValue = mappedValue; m_noMappedUpdate = true; // std::cerr << "Thumbwheel::setMappedValue(" << mappedValue << "): new value is " << newValue << " (visible " << isVisible() << ")" << std::endl; if (newValue != getValue()) { setValue(newValue); changed = true; } if (changed) emit valueChanged(newValue); m_noMappedUpdate = false; } else { int v = int(mappedValue); if (v != getValue()) { setValue(v); emit valueChanged(v); } } } int Thumbwheel::getDefaultValue() const { return m_default; } void Thumbwheel::setValue(int value) { // std::cerr << "Thumbwheel::setValue(" << value << ") (from " << m_value // << ", rotation " << m_rotation << ")" << " (visible " << isVisible() << ")" << std::endl; if (m_value != value) { m_atDefault = false; if (value < m_min) value = m_min; if (value > m_max) value = m_max; m_value = value; } m_rotation = float(m_value - m_min) / float(m_max - m_min); if (isVisible()) update(); } void Thumbwheel::resetToDefault() { if (m_default == m_value) return; setValue(m_default); m_atDefault = true; emit valueChanged(getValue()); } int Thumbwheel::getValue() const { return m_value; } float Thumbwheel::getMappedValue() const { if (m_rangeMapper) { // std::cerr << "Thumbwheel::getMappedValue(): value = " << getValue() << ", mappedValue = " << m_mappedValue << std::endl; return m_mappedValue; } return getValue(); } void Thumbwheel::updateMappedValue(int value) { if (!m_noMappedUpdate) { if (m_rangeMapper) { m_mappedValue = m_rangeMapper->getValueForPosition(value); } else { m_mappedValue = value; } } if (m_showTooltip) { QString name = objectName(); QString unit = ""; QString text; if (m_rangeMapper) unit = m_rangeMapper->getUnit(); if (name != "") { text = tr("%1: %2%3").arg(name).arg(m_mappedValue).arg(unit); } else { text = tr("%2%3").arg(m_mappedValue).arg(unit); } setToolTip(text); } } void Thumbwheel::scroll(bool up) { int step = lrintf(m_speed); if (step == 0) step = 1; if (up) { setValue(m_value + step); } else { setValue(m_value - step); } emit valueChanged(getValue()); } void Thumbwheel::setSpeed(float speed) { m_speed = speed; } float Thumbwheel::getSpeed() const { return m_speed; } void Thumbwheel::setTracking(bool tracking) { m_tracking = tracking; } bool Thumbwheel::getTracking() const { return m_tracking; } void Thumbwheel::setShowScale(bool showScale) { m_showScale = showScale; } bool Thumbwheel::getShowScale() const { return m_showScale; } void Thumbwheel::enterEvent(QEvent *) { emit mouseEntered(); } void Thumbwheel::leaveEvent(QEvent *) { emit mouseLeft(); } void Thumbwheel::mousePressEvent(QMouseEvent *e) { if (e->button() == Qt::MidButton || ((e->button() == Qt::LeftButton) && (e->modifiers() & Qt::ControlModifier))) { resetToDefault(); } else if (e->button() == Qt::LeftButton) { m_clicked = true; m_clickPos = e->pos(); m_clickRotation = m_rotation; } } void Thumbwheel::mouseDoubleClickEvent(QMouseEvent *mouseEvent) { //!!! needs a common base class with AudioDial (and Panner?) if (mouseEvent->button() != Qt::LeftButton) { return; } bool ok = false; if (m_rangeMapper) { float min = m_rangeMapper->getValueForPosition(m_min); float max = m_rangeMapper->getValueForPosition(m_max); if (min > max) { float tmp = min; min = max; max = tmp; } QString unit = m_rangeMapper->getUnit(); QString text; if (objectName() != "") { if (unit != "") { text = tr("New value for %1, from %2 to %3 %4:") .arg(objectName()).arg(min).arg(max).arg(unit); } else { text = tr("New value for %1, from %2 to %3:") .arg(objectName()).arg(min).arg(max); } } else { if (unit != "") { text = tr("Enter a new value from %1 to %2 %3:") .arg(min).arg(max).arg(unit); } else { text = tr("Enter a new value from %1 to %2:") .arg(min).arg(max); } } float newValue = QInputDialog::getDouble (this, tr("Enter new value"), text, m_mappedValue, min, max, 4, &ok); if (ok) { setMappedValue(newValue); } } else { int newValue = QInputDialog::getInteger (this, tr("Enter new value"), tr("Enter a new value from %1 to %2:") .arg(m_min).arg(m_max), getValue(), m_min, m_max, 1, &ok); if (ok) { setValue(newValue); } } } void Thumbwheel::mouseMoveEvent(QMouseEvent *e) { if (!m_clicked) return; int dist = 0; if (m_orientation == Qt::Horizontal) { dist = e->x() - m_clickPos.x(); } else { dist = e->y() - m_clickPos.y(); } float rotation = m_clickRotation + (m_speed * dist) / 100; if (rotation < 0.f) rotation = 0.f; if (rotation > 1.f) rotation = 1.f; int value = lrintf(m_min + (m_max - m_min) * m_rotation); if (value != m_value) { setValue(value); if (m_tracking) emit valueChanged(getValue()); m_rotation = rotation; } else if (fabsf(rotation - m_rotation) > 0.001) { m_rotation = rotation; repaint(); } } void Thumbwheel::mouseReleaseEvent(QMouseEvent *e) { if (!m_clicked) return; bool reallyTracking = m_tracking; m_tracking = true; mouseMoveEvent(e); m_tracking = reallyTracking; m_clicked = false; } void Thumbwheel::wheelEvent(QWheelEvent *e) { int step = lrintf(m_speed); if (step == 0) step = 1; if (e->delta() > 0) { setValue(m_value + step); } else { setValue(m_value - step); } emit valueChanged(getValue()); } void Thumbwheel::paintEvent(QPaintEvent *) { Profiler profiler("Thumbwheel::paintEvent", true); int bw = 3; QRect subclip; if (m_orientation == Qt::Horizontal) { subclip = QRect(bw, bw+1, width() - bw*2, height() - bw*2 - 2); } else { subclip = QRect(bw+1, bw, width() - bw*2 - 2, height() - bw*2); } QPainter paint(this); paint.fillRect(subclip, palette().background().color()); paint.setRenderHint(QPainter::Antialiasing, true); float w = width(); float w0 = 0.5; float w1 = w - 0.5; float h = height(); float h0 = 0.5; float h1 = h - 0.5; for (int i = bw-1; i >= 0; --i) { // for (int i = 0; i < 1; ++i) { int grey = (i + 1) * (256 / (bw + 1)); QColor fc = QColor(grey, grey, grey); paint.setPen(fc); QPainterPath path; if (m_orientation == Qt::Horizontal) { path.moveTo(w0 + i, h0 + i + 2); path.quadTo(w/2, i * 1.25, w1 - i, h0 + i + 2); path.lineTo(w1 - i, h1 - i - 2); path.quadTo(w/2, h - i * 1.25, w0 + i, h1 - i - 2); path.closeSubpath(); } else { path.moveTo(w0 + i + 2, h0 + i); path.quadTo(i * 1.25, h/2, w0 + i + 2, h1 - i); path.lineTo(w1 - i - 2, h1 - i); path.quadTo(w - i * 1.25, h/2, w1 - i - 2, h0 + i); path.closeSubpath(); } paint.drawPath(path); } paint.setClipRect(subclip); float radians = m_rotation * 1.5f * M_PI; // std::cerr << "value = " << m_value << ", min = " << m_min << ", max = " << m_max << ", rotation = " << rotation << std::endl; w = (m_orientation == Qt::Horizontal ? width() : height()) - bw*2; // total number of notches on the entire wheel int notches = 25; // radius of the wheel including invisible part int radius = int(w / 2 + 2); for (int i = 0; i < notches; ++i) { float a0 = (2.f * M_PI * i) / notches + radians; float a1 = a0 + M_PI / (notches * 2); float a2 = (2.f * M_PI * (i + 1)) / notches + radians; float depth = cosf((a0 + a2) / 2); if (depth < 0) continue; float x0 = radius * sinf(a0) + w/2; float x1 = radius * sinf(a1) + w/2; float x2 = radius * sinf(a2) + w/2; if (x2 < 0 || x0 > w) continue; if (x0 < 0) x0 = 0; if (x2 > w) x2 = w; x0 += bw; x1 += bw; x2 += bw; int grey = lrintf(255 * depth); QColor fc = QColor(grey, grey, grey); QColor oc = palette().dark().color(); paint.setPen(oc); paint.setBrush(fc); if (m_orientation == Qt::Horizontal) { paint.drawRect(QRectF(x1, bw, x2 - x1, height() - bw*2)); } else { paint.drawRect(QRectF(bw, x1, width() - bw*2, x2 - x1)); } if (m_showScale) { paint.setBrush(oc); float prop; if (i >= notches / 4) { prop = float(notches - (((i - float(notches) / 4.f) * 4.f) / 3.f)) / notches; } else { prop = 0.f; } if (m_orientation == Qt::Horizontal) { paint.drawRect(QRectF(x1, height() - (height() - bw*2) * prop - bw, x2 - x1, height() * prop)); } else { paint.drawRect(QRectF(bw, x1, (width() - bw*2) * prop, x2 - x1)); } } paint.setPen(oc); paint.setBrush(palette().background().color()); if (m_orientation == Qt::Horizontal) { paint.drawRect(QRectF(x0, bw, x1 - x0, height() - bw*2)); } else { paint.drawRect(QRectF(bw, x0, width() - bw*2, x1 - x0)); } } } QSize Thumbwheel::sizeHint() const { if (m_orientation == Qt::Horizontal) { return QSize(80, 12); } else { return QSize(12, 80); } }