view layer/ColourMapper.cpp @ 1135:628cd329c241 spectrogram-minor-refactor

Use a count of bins rather than min and max bins (because the name maxbin tells us nothing about whether the range is inclusive or not)
author Chris Cannam
date Wed, 03 Aug 2016 14:20:27 +0100
parents 65b183494331
children 73d43e410a6b
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 2006-2007 Chris Cannam and 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 "ColourMapper.h"

#include <iostream>

#include <cmath>

#include "base/Debug.h"

#include <vector>

using namespace std;

static vector<QColor> convertStrings(const vector<QString> &strs)
{
    vector<QColor> converted;
    for (const auto &s: strs) converted.push_back(QColor(s));
    reverse(converted.begin(), converted.end());
    return converted;
}

static vector<QColor> ice = convertStrings({
        // Based on ColorBrewer ylGnBu
        "#ffffff", "#ffff00", "#f7fcf0", "#e0f3db", "#ccebc5", "#a8ddb5",
        "#7bccc4", "#4eb3d3", "#2b8cbe", "#0868ac", "#084081", "#042040"
        });

static vector<QColor> cherry = convertStrings({
        "#f7f7f7", "#fddbc7", "#f4a582", "#d6604d", "#b2182b", "#dd3497",
        "#ae017e", "#7a0177", "#49006a"
        });
    
static void
mapDiscrete(double norm, vector<QColor> &colours, double &r, double &g, double &b)
{
    int n = int(colours.size());
    double m = norm * (n-1);
    if (m >= n-1) { colours[n-1].getRgbF(&r, &g, &b, 0); return; }
    if (m <= 0) { colours[0].getRgbF(&r, &g, &b, 0); return; }
    int base(int(floor(m)));
    double prop0 = (base + 1.0) - m, prop1 = m - base;
    QColor c0(colours[base]), c1(colours[base+1]);
    r = c0.redF() * prop0 + c1.redF() * prop1;
    g = c0.greenF() * prop0 + c1.greenF() * prop1;
    b = c0.blueF() * prop0 + c1.blueF() * prop1;
}

ColourMapper::ColourMapper(int map, double min, double max) :
    m_map(map),
    m_min(min),
    m_max(max)
{
    if (m_min == m_max) {
        cerr << "WARNING: ColourMapper: min == max (== " << m_min
                  << "), adjusting" << endl;
        m_max = m_min + 1;
    }
}

ColourMapper::~ColourMapper()
{
}

int
ColourMapper::getColourMapCount()
{
    return 12;
}

QString
ColourMapper::getColourMapName(int n)
{
    if (n >= getColourMapCount()) return QObject::tr("<unknown>");
    StandardMap map = (StandardMap)n;

    switch (map) {
    case Green:            return QObject::tr("Green");
    case WhiteOnBlack:     return QObject::tr("White on Black");
    case BlackOnWhite:     return QObject::tr("Black on White");
    case Cherry:           return QObject::tr("Cherry");
    case Wasp:             return QObject::tr("Wasp");
    case Ice:              return QObject::tr("Ice");
    case Sunset:           return QObject::tr("Sunset");
    case FruitSalad:       return QObject::tr("Fruit Salad");
    case Banded:           return QObject::tr("Banded");
    case Highlight:        return QObject::tr("Highlight");
    case Printer:          return QObject::tr("Printer");
    case HighGain:         return QObject::tr("High Gain");
    }

    return QObject::tr("<unknown>");
}

QColor
ColourMapper::map(double value) const
{
    double norm = (value - m_min) / (m_max - m_min);
    if (norm < 0.0) norm = 0.0;
    if (norm > 1.0) norm = 1.0;
    
    double h = 0.0, s = 0.0, v = 0.0, r = 0.0, g = 0.0, b = 0.0;
    bool hsv = true;

    double blue = 0.6666, pieslice = 0.3333;

    if (m_map >= getColourMapCount()) return Qt::black;
    StandardMap map = (StandardMap)m_map;

    switch (map) {

    case Green:
        h = blue - norm * 2.0 * pieslice;
        s = 0.5f + norm/2.0;
        v = norm;
        break;

    case WhiteOnBlack:
        r = g = b = norm;
        hsv = false;
        break;

    case BlackOnWhite:
        r = g = b = 1.0 - norm;
        hsv = false;
        break;

    case Cherry:
        hsv = false;
        mapDiscrete(norm, cherry, r, g, b);
        break;

    case Wasp:
        h = 0.15;
        s = 1.0;
        v = norm;
        break;

    case Sunset:
        r = (norm - 0.24) * 2.38;
        if (r > 1.0) r = 1.0;
        if (r < 0.0) r = 0.0;
        g = (norm - 0.64) * 2.777;
        if (g > 1.0) g = 1.0;
        if (g < 0.0) g = 0.0;
        b = (3.6f * norm);
        if (norm > 0.277) b = 2.0 - b;
        if (b > 1.0) b = 1.0;
        if (b < 0.0) b = 0.0;
        hsv = false;
        break;

    case FruitSalad:
        h = blue + (pieslice/6.0) - norm;
        if (h < 0.0) h += 1.0;
        s = 1.0;
        v = 1.0;
        break;

    case Banded:
        if      (norm < 0.125) return Qt::darkGreen;
        else if (norm < 0.25)  return Qt::green;
        else if (norm < 0.375) return Qt::darkBlue;
        else if (norm < 0.5)   return Qt::blue;
        else if (norm < 0.625) return Qt::darkYellow;
        else if (norm < 0.75)  return Qt::yellow;
        else if (norm < 0.875) return Qt::darkRed;
        else                   return Qt::red;
        break;

    case Highlight:
        if (norm > 0.99) return Qt::white;
        else return Qt::darkBlue;

    case Printer:
        if (norm > 0.8) {
            r = 1.0;
        } else if (norm > 0.7) {
            r = 0.9;
        } else if (norm > 0.6) {
            r = 0.8;
        } else if (norm > 0.5) {
            r = 0.7;
        } else if (norm > 0.4) {
            r = 0.6;
        } else if (norm > 0.3) {
            r = 0.5;
        } else if (norm > 0.2) {
            r = 0.4;
        } else {
            r = 0.0;
        }
        r = g = b = 1.0 - r;
        hsv = false;
        break;

    case HighGain:
        if (norm <= 1.0 / 256.0) {
            norm = 0.0;
        } else {
            norm = 0.1f + (pow(((norm - 0.5) * 2.0), 3.0) + 1.0) / 2.081;
        }
        // now as for Sunset
        r = (norm - 0.24) * 2.38;
        if (r > 1.0) r = 1.0;
        if (r < 0.0) r = 0.0;
        g = (norm - 0.64) * 2.777;
        if (g > 1.0) g = 1.0;
        if (g < 0.0) g = 0.0;
        b = (3.6f * norm);
        if (norm > 0.277) b = 2.0 - b;
        if (b > 1.0) b = 1.0;
        if (b < 0.0) b = 0.0;
        hsv = false;
/*
        if (r > 1.0) r = 1.0;
        r = g = b = 1.0 - r;
        hsv = false;
*/
        break;

    case Ice:
        hsv = false;
        mapDiscrete(norm, ice, r, g, b);
    }

    if (hsv) {
        return QColor::fromHsvF(h, s, v);
    } else {
        return QColor::fromRgbF(r, g, b);
    }
}

QColor
ColourMapper::getContrastingColour() const
{
    if (m_map >= getColourMapCount()) return Qt::white;
    StandardMap map = (StandardMap)m_map;

    switch (map) {

    case Green:
        return QColor(255, 150, 50);

    case WhiteOnBlack:
        return Qt::red;

    case BlackOnWhite:
        return Qt::darkGreen;

    case Cherry:
        return Qt::green;

    case Wasp:
        return QColor::fromHsv(240, 255, 255);

    case Ice:
        return Qt::red;

    case Sunset:
        return Qt::white;

    case FruitSalad:
        return Qt::white;

    case Banded:
        return Qt::cyan;

    case Highlight:
        return Qt::red;

    case Printer:
        return Qt::red;

    case HighGain:
        return Qt::red;
    }

    return Qt::white;
}

bool
ColourMapper::hasLightBackground() const
{
    if (m_map >= getColourMapCount()) return false;
    StandardMap map = (StandardMap)m_map;

    switch (map) {

    case BlackOnWhite:
    case Printer:
    case HighGain:
        return true;

    case Green:
    case Sunset:
    case WhiteOnBlack:
    case Cherry:
    case Wasp:
    case Ice:
    case FruitSalad:
    case Banded:
    case Highlight:
        
    default:
        return false;
    }
}