// -*- c-basic-offset: 4 -*- /* Rosegarden A sequencer and musical notation editor. This program is Copyright 2000-2008 Guillaume Laurent , Chris Cannam , Richard Bown The moral right of the authors to claim authorship of this work has been asserted. 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 "Segment.h" #include "SegmentNotationHelper.h" #include "BaseProperties.h" namespace Rosegarden { EventSelection::EventSelection(Segment& t) : m_originalSegment(t), m_beginTime(0), m_endTime(0), m_haveRealStartTime(false) { t.addObserver(this); } EventSelection::EventSelection(Segment& t, timeT beginTime, timeT endTime, bool overlap) : m_originalSegment(t), m_beginTime(0), m_endTime(0), m_haveRealStartTime(false) { t.addObserver(this); Segment::iterator i = t.findTime(beginTime); Segment::iterator j = t.findTime(endTime); if (i != t.end()) { m_beginTime = (*i)->getAbsoluteTime(); while (i != j) { m_endTime = (*i)->getAbsoluteTime() + (*i)->getDuration(); m_segmentEvents.insert(*i); ++i; } m_haveRealStartTime = true; } // Find events overlapping the beginning // if (overlap) { i = t.findTime(beginTime); while (i != t.begin() && i != t.end() && i != j) { if ((*i)->getAbsoluteTime() + (*i)->getDuration() > beginTime) { m_segmentEvents.insert(*i); // duplicates are filtered automatically m_beginTime = (*i)->getAbsoluteTime(); } else break; --i; } } } EventSelection::EventSelection(const EventSelection &sel) : SegmentObserver(), m_originalSegment(sel.m_originalSegment), m_segmentEvents(sel.m_segmentEvents), m_beginTime(sel.m_beginTime), m_endTime(sel.m_endTime), m_haveRealStartTime(sel.m_haveRealStartTime) { m_originalSegment.addObserver(this); } EventSelection::~EventSelection() { m_originalSegment.removeObserver(this); } void EventSelection::addEvent(Event *e) { timeT eventDuration = e->getDuration(); if (eventDuration == 0) eventDuration = 1; if (contains(e)) return; if (e->getAbsoluteTime() < m_beginTime || !m_haveRealStartTime) { m_beginTime = e->getAbsoluteTime(); m_haveRealStartTime = true; } if (e->getAbsoluteTime() + eventDuration > m_endTime) { m_endTime = e->getAbsoluteTime() + eventDuration; } m_segmentEvents.insert(e); } void EventSelection::addFromSelection(EventSelection *sel) { for (eventcontainer::iterator i = sel->getSegmentEvents().begin(); i != sel->getSegmentEvents().end(); ++i) { if (!contains(*i)) addEvent(*i); } } void EventSelection::removeEvent(Event *e) { std::pair interval = m_segmentEvents.equal_range(e); for (eventcontainer::iterator it = interval.first; it != interval.second; it++) { if (*it == e) { m_segmentEvents.erase(it); return; } } } bool EventSelection::contains(Event *e) const { std::pair interval = m_segmentEvents.equal_range(e); for (eventcontainer::const_iterator it = interval.first; it != interval.second; ++it) { if (*it == e) return true; } return false; } bool EventSelection::contains(const std::string &type) const { for (eventcontainer::const_iterator i = m_segmentEvents.begin(); i != m_segmentEvents.end(); ++i) { if ((*i)->isa(type)) return true; } return false; } timeT EventSelection::getTotalDuration() const { return getEndTime() - getStartTime(); } EventSelection::RangeList EventSelection::getRanges() const { RangeList ranges; Segment::iterator i = m_originalSegment.findTime(getStartTime()); Segment::iterator j = i; Segment::iterator k = m_originalSegment.findTime(getEndTime()); while (j != k) { for (j = i; j != k && contains(*j); ++j); if (j != i) { ranges.push_back(RangeList::value_type(i, j)); } for (i = j; i != k && !contains(*i); ++i); j = i; } return ranges; } EventSelection::RangeTimeList EventSelection::getRangeTimes() const { RangeList ranges(getRanges()); RangeTimeList rangeTimes; for (RangeList::iterator i = ranges.begin(); i != ranges.end(); ++i) { timeT startTime = m_originalSegment.getEndTime(); timeT endTime = m_originalSegment.getEndTime(); if (i->first != m_originalSegment.end()) { startTime = (*i->first)->getAbsoluteTime(); } if (i->second != m_originalSegment.end()) { endTime = (*i->second)->getAbsoluteTime(); } rangeTimes.push_back(RangeTimeList::value_type(startTime, endTime)); } return rangeTimes; } void EventSelection::eventRemoved(const Segment *s, Event *e) { if (s == &m_originalSegment /*&& contains(e)*/) { removeEvent(e); } } void EventSelection::segmentDeleted(const Segment *) { /* std::cerr << "WARNING: EventSelection notified of segment deletion: this is probably a bug " << "(selection should have been deleted before segment)" << std::endl; */ } bool SegmentSelection::hasNonAudioSegment() const { for (const_iterator i = begin(); i != end(); ++i) { if ((*i)->getType() == Segment::Internal) return true; } return false; } TimeSignatureSelection::TimeSignatureSelection() { } TimeSignatureSelection::TimeSignatureSelection(Composition &composition, timeT beginTime, timeT endTime, bool includeOpeningTimeSig) { int n = composition.getTimeSignatureNumberAt(endTime); for (int i = composition.getTimeSignatureNumberAt(beginTime); i <= n; ++i) { if (i < 0) continue; std::pair sig = composition.getTimeSignatureChange(i); if (sig.first < endTime) { if (sig.first < beginTime) { if (includeOpeningTimeSig) { sig.first = beginTime; } else { continue; } } addTimeSignature(sig.first, sig.second); } } } TimeSignatureSelection::~TimeSignatureSelection() { } void TimeSignatureSelection::addTimeSignature(timeT t, TimeSignature timeSig) { m_timeSignatures.insert(timesigcontainer::value_type(t, timeSig)); } TempoSelection::TempoSelection() { } TempoSelection::TempoSelection(Composition &composition, timeT beginTime, timeT endTime, bool includeOpeningTempo) { int n = composition.getTempoChangeNumberAt(endTime); for (int i = composition.getTempoChangeNumberAt(beginTime); i <= n; ++i) { if (i < 0) continue; std::pair change = composition.getTempoChange(i); if (change.first < endTime) { if (change.first < beginTime) { if (includeOpeningTempo) { change.first = beginTime; } else { continue; } } std::pair ramping = composition.getTempoRamping(i, false); addTempo(change.first, change.second, ramping.first ? ramping.second : -1); } } } TempoSelection::~TempoSelection() { } void TempoSelection::addTempo(timeT t, tempoT tempo, tempoT targetTempo) { m_tempos.insert(tempocontainer::value_type (t, tempochange(tempo, targetTempo))); } }