Mercurial > hg > svgui
view layer/ColourMapper.cpp @ 541:e233627a923e
* spiff up thumbwheels
author | Chris Cannam |
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date | Mon, 03 Aug 2009 12:55:00 +0000 |
parents | aca01b3af29f |
children | 1a0dfcbffaf1 |
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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 2006-2007 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> ColourMapper::ColourMapper(int map, float min, float max) : QObject(), m_map(map), m_min(min), m_max(max) { if (m_min == m_max) { std::cerr << "WARNING: ColourMapper: min == max (== " << m_min << "), adjusting" << std::endl; m_max = m_min + 1; } } ColourMapper::~ColourMapper() { } int ColourMapper::getColourMapCount() { return 12; } QString ColourMapper::getColourMapName(int n) { if (n >= getColourMapCount()) return tr("<unknown>"); StandardMap map = (StandardMap)n; switch (map) { case DefaultColours: return tr("Default"); case WhiteOnBlack: return tr("White on Black"); case BlackOnWhite: return tr("Black on White"); case RedOnBlue: return tr("Red on Blue"); case YellowOnBlack: return tr("Yellow on Black"); case BlueOnBlack: return tr("Blue on Black"); case Sunset: return tr("Sunset"); case FruitSalad: return tr("Fruit Salad"); case Banded: return tr("Banded"); case Highlight: return tr("Highlight"); case Printer: return tr("Printer"); case HighGain: return tr("High Gain"); } return tr("<unknown>"); } QColor ColourMapper::map(float value) const { float norm = (value - m_min) / (m_max - m_min); if (norm < 0.f) norm = 0.f; if (norm > 1.f) norm = 1.f; float h = 0.f, s = 0.f, v = 0.f, r = 0.f, g = 0.f, b = 0.f; bool hsv = true; // float red = 0.f, green = 0.3333f; float blue = 0.6666f, pieslice = 0.3333f; if (m_map >= getColourMapCount()) return Qt::black; StandardMap map = (StandardMap)m_map; switch (map) { case DefaultColours: h = blue - norm * 2.f * pieslice; s = 0.5f + norm/2.f; v = norm; break; case WhiteOnBlack: r = g = b = norm; hsv = false; break; case BlackOnWhite: r = g = b = 1.f - norm; hsv = false; break; case RedOnBlue: h = blue - pieslice/4.f + norm * (pieslice + pieslice/4.f); s = 1.f; v = norm; break; case YellowOnBlack: h = 0.15f; s = 1.f; v = norm; break; case BlueOnBlack: h = blue; s = 1.f; v = norm * 2.f; if (v > 1.f) { v = 1.f; s = 1.f - (sqrtf(norm) - 0.707f) * 3.413f; if (s < 0.f) s = 0.f; if (s > 1.f) s = 1.f; } break; case Sunset: r = (norm - 0.24f) * 2.38f; if (r > 1.f) r = 1.f; if (r < 0.f) r = 0.f; g = (norm - 0.64f) * 2.777f; if (g > 1.f) g = 1.f; if (g < 0.f) g = 0.f; b = (3.6f * norm); if (norm > 0.277f) b = 2.f - b; if (b > 1.f) b = 1.f; if (b < 0.f) b = 0.f; hsv = false; break; case FruitSalad: h = blue + (pieslice/6.f) - norm; if (h < 0.f) h += 1.f; s = 1.f; v = 1.f; 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.f; } else if (norm > 0.7) { r = 0.9f; } else if (norm > 0.6) { r = 0.8f; } else if (norm > 0.5) { r = 0.7f; } else if (norm > 0.4) { r = 0.6f; } else if (norm > 0.3) { r = 0.5f; } else if (norm > 0.2) { r = 0.4f; } else { r = 0.f; } r = g = b = 1.f - r; hsv = false; break; case HighGain: if (norm <= 1.f / 256.f) { norm = 0.f; } else { norm = 0.1f + (powf(((norm - 0.5f) * 2.f), 3.f) + 1.f) / 2.081f; } // now as for Sunset r = (norm - 0.24f) * 2.38f; if (r > 1.f) r = 1.f; if (r < 0.f) r = 0.f; g = (norm - 0.64f) * 2.777f; if (g > 1.f) g = 1.f; if (g < 0.f) g = 0.f; b = (3.6f * norm); if (norm > 0.277f) b = 2.f - b; if (b > 1.f) b = 1.f; if (b < 0.f) b = 0.f; hsv = false; /* if (r > 1.f) r = 1.f; r = g = b = 1.f - r; hsv = false; */ break; } 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 DefaultColours: return QColor(255, 150, 50); case WhiteOnBlack: return Qt::red; case BlackOnWhite: return Qt::darkGreen; case RedOnBlue: return Qt::green; case YellowOnBlack: return QColor::fromHsv(240, 255, 255); case BlueOnBlack: 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; default: return false; } }