/* -*- c-basic-offset: 4 indent-tabs-mode: nil -*- vi:set ts=8 sts=4 sw=4: */ /* Rosegarden A sequencer and musical notation editor. Copyright 2000-2011 the Rosegarden development team. See the AUTHORS file for more details. This file is Copyright 2003 Mark Hymers 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 #include #include "ColourMap.h" #include "XmlExportable.h" namespace Rosegarden { ColourMap::ColourMap() { // Set up the default colour. The #defines can be found in ColourMap.h Colour tempcolour(COLOUR_DEF_R, COLOUR_DEF_G, COLOUR_DEF_B); m_map[0] = make_pair(tempcolour, std::string("")); } ColourMap::ColourMap(const Colour& input) { // Set up the default colour based on the input m_map[0] = make_pair(input, std::string("")); } ColourMap::~ColourMap() { // Everything should destroy itself automatically } bool ColourMap::deleteItemByIndex(unsigned int item_num) { // We explicitly refuse to delete the default colour if (item_num == 0) return false; unsigned int n_e = m_map.erase(item_num); if (n_e != 0) { return true; } // Otherwise we didn't find the right item return false; } Colour ColourMap::getColourByIndex(unsigned int item_num) const { // Iterate over the m_map and if we find a match, return the // Colour. If we don't match, return the default colour. m_map // was initialised with at least one item in the ctor, so this is // safe. Colour ret = (*m_map.begin()).second.first; for (RCMap::const_iterator position = m_map.begin(); position != m_map.end(); ++position) if (position->first == item_num) ret = position->second.first; return ret; } std::string ColourMap::getNameByIndex(unsigned int item_num) const { // Iterate over the m_map and if we find a match, return the name. // If we don't match, return the default colour's name. m_map was // initialised with at least one item in the ctor, so this is // safe. std::string ret = (*m_map.begin()).second.second; for (RCMap::const_iterator position = m_map.begin(); position != m_map.end(); ++position) if (position->first == item_num) ret = position->second.second; return ret; } bool ColourMap::addItem(Colour colour, std::string name) { // If we want to limit the number of colours, here's the place to do it unsigned int highest=0; for (RCMap::iterator position = m_map.begin(); position != m_map.end(); ++position) { if (position->first != highest) break; ++highest; } m_map[highest] = make_pair(colour, name); return true; } // WARNING: This version of addItem is only for use by rosexmlhandler.cpp bool ColourMap::addItem(Colour colour, std::string name, unsigned int id) { m_map[id] = make_pair(colour, name); return true; } bool ColourMap::modifyNameByIndex(unsigned int item_num, std::string name) { // We don't allow a name to be given to the default colour if (item_num == 0) return false; for (RCMap::iterator position = m_map.begin(); position != m_map.end(); ++position) if (position->first == item_num) { position->second.second = name; return true; } // We didn't find the element return false; } bool ColourMap::modifyColourByIndex(unsigned int item_num, Colour colour) { for (RCMap::iterator position = m_map.begin(); position != m_map.end(); ++position) if (position->first == item_num) { position->second.first = colour; return true; } // We didn't find the element return false; } bool ColourMap::swapItems(unsigned int item_1, unsigned int item_2) { // It would make no difference but we return false because // we haven't altered the iterator (see docs in ColourMap.h) if (item_1 == item_2) return false; // We refuse to swap the default colour for something else // Basically because what would we do with the strings? if ((item_1 == 0) || (item_2 == 0)) return false; unsigned int one = 0, two = 0; // Check that both elements exist // It's not worth bothering about optimising this for (RCMap::iterator position = m_map.begin(); position != m_map.end(); ++position) { if (position->first == item_1) one = position->first; if (position->first == item_2) two = position->first; } // If they both exist, do it // There's probably a nicer way to do this if ((one != 0) && (two != 0)) { Colour tempC = m_map[one].first; std::string tempS = m_map[one].second; m_map[one].first = m_map[two].first; m_map[one].second = m_map[two].second; m_map[two].first = tempC; m_map[two].second = tempS; return true; } // Else they didn't return false; } RCMap::const_iterator ColourMap::begin() { RCMap::const_iterator ret = m_map.begin(); return ret; } RCMap::const_iterator ColourMap::end() { RCMap::const_iterator ret = m_map.end(); return ret; } ColourMap& ColourMap::operator=(const ColourMap& input) { if (this != &input) m_map = input.m_map; return *this; } unsigned int ColourMap::size() const { return (unsigned int)m_map.size(); } std::string ColourMap::toXmlString(std::string name) const { std::stringstream output; output << " " << std::endl; for (RCMap::const_iterator pos = m_map.begin(); pos != m_map.end(); ++pos) { output << " " << " first << "\" name=\"" << XmlExportable::encode(pos->second.second) << "\" " << pos->second.first.dataToXmlString() << "/>" << std::endl; } output << " " << std::endl; return output.str(); } }