Mercurial > hg > svgui
view layer/ColourDatabase.cpp @ 1551:e79731086b0f
Fixes to NoteLayer, particularly to calculation of vertical scale when model unit is not Hz. To avoid inconsistency we now behave as if the unit is always Hz from the point of view of the external API and display, converting at the point where we obtain values from the events themselves. Also various fixes to editing.
| author | Chris Cannam |
|---|---|
| date | Thu, 21 Nov 2019 14:02:57 +0000 |
| parents | ad86aa712d11 |
| children | 57a4ee52ad69 |
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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 2007 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 "ColourDatabase.h" #include "base/XmlExportable.h" #include <QPainter> //#define DEBUG_COLOUR_DATABASE 1 ColourDatabase ColourDatabase::m_instance; ColourDatabase * ColourDatabase::getInstance() { return &m_instance; } ColourDatabase::ColourDatabase() { } int ColourDatabase::getColourCount() const { return int(m_colours.size()); } QString ColourDatabase::getColourName(int c) const { if (!in_range_for(m_colours, c)) return ""; return m_colours[c].name; } QColor ColourDatabase::getColour(int c) const { if (!in_range_for(m_colours, c)) return Qt::black; return m_colours[c].colour; } QColor ColourDatabase::getColour(QString name) const { for (auto &c: m_colours) { if (c.name == name) return c.colour; } return Qt::black; } int ColourDatabase::getColourIndex(QString name) const { int index = 0; for (auto &c: m_colours) { if (c.name == name) return index; ++index; } return -1; } int ColourDatabase::getColourIndex(QColor col) const { int index = 0; for (auto &c: m_colours) { if (c.colour == col) return index; ++index; } return -1; } int ColourDatabase::getNearbyColourIndex(QColor col) const { int index = 0; int closestIndex = -1; int closestDistance = 0; for (auto &c: m_colours) { int distance = std::abs(col.red() - c.colour.red()) + std::abs(col.green() - c.colour.green()) + std::abs(col.blue() - c.colour.blue()); #ifdef DEBUG_COLOUR_DATABASE SVDEBUG << "getNearbyColourIndex: comparing " << c.colour.name() << " to " << col.name() << ": distance = " << distance << endl; #endif if (closestIndex < 0 || distance < closestDistance) { closestIndex = index; closestDistance = distance; #ifdef DEBUG_COLOUR_DATABASE SVDEBUG << "(this is the best so far)" << endl; #endif } ++index; } #ifdef DEBUG_COLOUR_DATABASE SVDEBUG << "returning " << closestIndex << endl; #endif return closestIndex; } QColor ColourDatabase::getContrastingColour(int c) const { QColor col = getColour(c); QColor contrasting = Qt::red; bool dark = (col.red() < 240 && col.green() < 240 && col.blue() < 240); if (dark) { if (col.red() > col.blue()) { if (col.green() > col.blue()) { contrasting = Qt::blue; } else { contrasting = Qt::yellow; } } else { if (col.green() > col.blue()) { contrasting = Qt::yellow; } else { contrasting = Qt::red; } } } else { if (col.red() > 230 && col.green() > 230 && col.blue() > 230) { contrasting = QColor(30, 150, 255); } else { contrasting = QColor(255, 188, 80); } } #ifdef DEBUG_COLOUR_DATABASE SVDEBUG << "getContrastingColour(" << col.name() << "): dark = " << dark << ", returning " << contrasting.name() << endl; #endif return contrasting; } bool ColourDatabase::useDarkBackground(int c) const { if (!in_range_for(m_colours, c)) return false; return m_colours[c].darkbg; } void ColourDatabase::setUseDarkBackground(int c, bool dark) { if (!in_range_for(m_colours, c)) return; if (m_colours[c].darkbg != dark) { m_colours[c].darkbg = dark; emit colourDatabaseChanged(); } } int ColourDatabase::addColour(QColor c, QString name) { int index = 0; for (ColourList::iterator i = m_colours.begin(); i != m_colours.end(); ++i) { if (i->name == name) { i->colour = c; return index; } ++index; } ColourRec rec; rec.colour = c; rec.name = name; rec.darkbg = false; m_colours.push_back(rec); emit colourDatabaseChanged(); return index; } void ColourDatabase::removeColour(QString name) { for (ColourList::iterator i = m_colours.begin(); i != m_colours.end(); ++i) { if (i->name == name) { m_colours.erase(i); return; } } } void ColourDatabase::getStringValues(int index, QString &colourName, QString &colourSpec, QString &darkbg) const { colourName = ""; colourSpec = ""; if (!in_range_for(m_colours, index)) return; colourName = getColourName(index); QColor c = getColour(index); colourSpec = XmlExportable::encodeColour(c.red(), c.green(), c.blue()); darkbg = useDarkBackground(index) ? "true" : "false"; } int ColourDatabase::putStringValues(QString colourName, QString colourSpec, QString darkbg) { int index = -1; if (colourSpec != "") { QColor colour(colourSpec); index = getColourIndex(colour); if (index < 0) { index = addColour(colour, colourName == "" ? colourSpec : colourName); } } else if (colourName != "") { index = getColourIndex(colourName); } if (index >= 0) { setUseDarkBackground(index, darkbg == "true"); } return index; } void ColourDatabase::getColourPropertyRange(int *min, int *max) const { ColourDatabase *db = getInstance(); if (min) *min = 0; if (max) { *max = 0; if (db->getColourCount() > 0) *max = db->getColourCount()-1; } } QPixmap ColourDatabase::getExamplePixmap(int index, QSize size) const { QPixmap pmap(size); pmap.fill(useDarkBackground(index) ? Qt::black : Qt::white); QPainter paint(&pmap); QColor colour(getColour(index)); paint.setPen(colour); paint.setBrush(colour); int margin = 2; if (size.width() < 4 || size.height() < 4) margin = 0; else if (size.width() < 8 || size.height() < 8) margin = 1; paint.drawRect(margin, margin, size.width() - margin*2 - 1, size.height() - margin*2 - 1); return pmap; }