view widgets/Thumbwheel.cpp @ 494:b3140e9e0665

* Some fairly simplistic code to set up layer type properties based on RDF data about feature types (both when running transforms and when importing features from RDF files).
author Chris Cannam
date Thu, 12 Feb 2009 15:26:43 +0000
parents 06b5f110c5d2
children e233627a923e
line wrap: on
line source
/* -*- 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
        m_cache = QImage();
        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;
            m_cache = QImage();
        }
        if (changed) emit valueChanged(newValue);
        m_noMappedUpdate = false;
    } else {
        int v = int(mappedValue);
        if (v != getValue()) {
            setValue(v);
            m_cache = QImage();
            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);
    m_cache = QImage();
    if (isVisible()) update();
}

void
Thumbwheel::resetToDefault()
{
    if (m_default == m_value) return;
    setValue(m_default);
    m_atDefault = true;
    m_cache = QImage();
    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");

    if (!m_cache.isNull()) {
        QPainter paint(this);
        paint.drawImage(0, 0, m_cache);
        return;
    }

    Profiler profiler2("Thumbwheel::paintEvent (no cache)");

    m_cache = QImage(size(), QImage::Format_ARGB32);
    m_cache.fill(Qt::transparent);

    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(&m_cache);
    paint.setClipRect(rect());
    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));
        }
    }

    QPainter paint2(this);
    paint2.drawImage(0, 0, m_cache);
}

QSize
Thumbwheel::sizeHint() const
{
    if (m_orientation == Qt::Horizontal) {
        return QSize(80, 12);
    } else {
        return QSize(12, 80);
    }
}