Mercurial > hg > svcore
view base/Selection.cpp @ 1520:954d0cf29ca7 import-audio-data
Switch the normalisation option in WritableWaveFileModel from normalising on read to normalising on write, so that the saved file is already normalised and therefore can be read again without having to remember to normalise it
author | Chris Cannam |
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date | Wed, 12 Sep 2018 13:56:56 +0100 |
parents | 48e9f538e6e9 |
children | 796ae7eecced |
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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 Chris Cannam. 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 "Selection.h" #include <QTextStream> Selection::Selection() : m_startFrame(0), m_endFrame(0) { } Selection::Selection(sv_frame_t startFrame, sv_frame_t endFrame) : m_startFrame(startFrame), m_endFrame(endFrame) { if (m_startFrame > m_endFrame) { sv_frame_t tmp = m_endFrame; m_endFrame = m_startFrame; m_startFrame = tmp; } } Selection::Selection(const Selection &s) : m_startFrame(s.m_startFrame), m_endFrame(s.m_endFrame) { } Selection & Selection::operator=(const Selection &s) { if (this != &s) { m_startFrame = s.m_startFrame; m_endFrame = s.m_endFrame; } return *this; } Selection::~Selection() { } bool Selection::isEmpty() const { return m_startFrame == m_endFrame; } sv_frame_t Selection::getStartFrame() const { return m_startFrame; } sv_frame_t Selection::getEndFrame() const { return m_endFrame; } bool Selection::contains(sv_frame_t frame) const { return (frame >= m_startFrame) && (frame < m_endFrame); } bool Selection::operator<(const Selection &s) const { if (isEmpty()) { if (s.isEmpty()) return false; else return true; } else { if (s.isEmpty()) return false; else return (m_startFrame < s.m_startFrame); } } bool Selection::operator==(const Selection &s) const { if (isEmpty()) return s.isEmpty(); return (m_startFrame == s.m_startFrame && m_endFrame == s.m_endFrame); } MultiSelection::MultiSelection() { } MultiSelection::~MultiSelection() { } const MultiSelection::SelectionList & MultiSelection::getSelections() const { return m_selections; } void MultiSelection::setSelection(const Selection &selection) { clearSelections(); addSelection(selection); } void MultiSelection::addSelection(const Selection &selection) { m_selections.insert(selection); // Cope with a sitation where the new selection overlaps one or // more existing ones. This is a terribly inefficient way to do // this, but that probably isn't significant in real life. // It's essential for the correct operation of // getContainingSelection that the selections do not overlap, so // this is not just a frill. for (SelectionList::iterator i = m_selections.begin(); i != m_selections.end(); ) { SelectionList::iterator j = i; if (++j == m_selections.end()) break; if (i->getEndFrame() >= j->getStartFrame()) { Selection merged(i->getStartFrame(), std::max(i->getEndFrame(), j->getEndFrame())); m_selections.erase(i); m_selections.erase(j); m_selections.insert(merged); i = m_selections.begin(); } else { ++i; } } } void MultiSelection::removeSelection(const Selection &selection) { //!!! Likewise this needs to cope correctly with the situation //where selection is not one of the original selection set but //simply overlaps one of them (cutting down the original selection //appropriately) if (m_selections.find(selection) != m_selections.end()) { m_selections.erase(selection); } } void MultiSelection::clearSelections() { if (!m_selections.empty()) { m_selections.clear(); } } void MultiSelection::getExtents(sv_frame_t &startFrame, sv_frame_t &endFrame) const { startFrame = 0; endFrame = 0; for (SelectionList::const_iterator i = m_selections.begin(); i != m_selections.end(); ++i) { if (i == m_selections.begin() || i->getStartFrame() < startFrame) { startFrame = i->getStartFrame(); } if (i == m_selections.begin() || i->getEndFrame() > endFrame) { endFrame = i->getEndFrame(); } } } Selection MultiSelection::getContainingSelection(sv_frame_t frame, bool defaultToFollowing) const { // This scales very badly with the number of selections, but it's // more efficient for very small numbers of selections than a more // scalable method, and I think that may be what we need for (SelectionList::const_iterator i = m_selections.begin(); i != m_selections.end(); ++i) { if (i->contains(frame)) return *i; if (i->getStartFrame() > frame) { if (defaultToFollowing) return *i; else return Selection(); } } return Selection(); } void MultiSelection::toXml(QTextStream &stream, QString indent, QString extraAttributes) const { stream << indent << QString("<selections %1>\n").arg(extraAttributes); for (SelectionList::iterator i = m_selections.begin(); i != m_selections.end(); ++i) { stream << indent << QString(" <selection start=\"%1\" end=\"%2\"/>\n") .arg(i->getStartFrame()).arg(i->getEndFrame()); } stream << indent << "</selections>\n"; }