/* ============================================================================== This file is part of the JUCE library. Copyright (c) 2013 - Raw Material Software Ltd. Permission is granted to use this software under the terms of either: a) the GPL v2 (or any later version) b) the Affero GPL v3 Details of these licenses can be found at: www.gnu.org/licenses JUCE is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. ------------------------------------------------------------------------------ To release a closed-source product which uses JUCE, commercial licenses are available: visit www.juce.com for more information. ============================================================================== */ MidiMessageSequence::MidiMessageSequence() { } MidiMessageSequence::MidiMessageSequence (const MidiMessageSequence& other) { list.ensureStorageAllocated (other.list.size()); for (int i = 0; i < other.list.size(); ++i) list.add (new MidiEventHolder (other.list.getUnchecked(i)->message)); } MidiMessageSequence& MidiMessageSequence::operator= (const MidiMessageSequence& other) { MidiMessageSequence otherCopy (other); swapWith (otherCopy); return *this; } void MidiMessageSequence::swapWith (MidiMessageSequence& other) noexcept { list.swapWith (other.list); } MidiMessageSequence::~MidiMessageSequence() { } void MidiMessageSequence::clear() { list.clear(); } int MidiMessageSequence::getNumEvents() const { return list.size(); } MidiMessageSequence::MidiEventHolder* MidiMessageSequence::getEventPointer (const int index) const { return list [index]; } double MidiMessageSequence::getTimeOfMatchingKeyUp (const int index) const { if (const MidiEventHolder* const meh = list [index]) if (meh->noteOffObject != nullptr) return meh->noteOffObject->message.getTimeStamp(); return 0.0; } int MidiMessageSequence::getIndexOfMatchingKeyUp (const int index) const { if (const MidiEventHolder* const meh = list [index]) return list.indexOf (meh->noteOffObject); return -1; } int MidiMessageSequence::getIndexOf (MidiEventHolder* const event) const { return list.indexOf (event); } int MidiMessageSequence::getNextIndexAtTime (const double timeStamp) const { const int numEvents = list.size(); int i; for (i = 0; i < numEvents; ++i) if (list.getUnchecked(i)->message.getTimeStamp() >= timeStamp) break; return i; } //============================================================================== double MidiMessageSequence::getStartTime() const { return getEventTime (0); } double MidiMessageSequence::getEndTime() const { return getEventTime (list.size() - 1); } double MidiMessageSequence::getEventTime (const int index) const { if (const MidiEventHolder* const meh = list [index]) return meh->message.getTimeStamp(); return 0.0; } //============================================================================== MidiMessageSequence::MidiEventHolder* MidiMessageSequence::addEvent (const MidiMessage& newMessage, double timeAdjustment) { MidiEventHolder* const newOne = new MidiEventHolder (newMessage); timeAdjustment += newMessage.getTimeStamp(); newOne->message.setTimeStamp (timeAdjustment); int i; for (i = list.size(); --i >= 0;) if (list.getUnchecked(i)->message.getTimeStamp() <= timeAdjustment) break; list.insert (i + 1, newOne); return newOne; } void MidiMessageSequence::deleteEvent (const int index, const bool deleteMatchingNoteUp) { if (isPositiveAndBelow (index, list.size())) { if (deleteMatchingNoteUp) deleteEvent (getIndexOfMatchingKeyUp (index), false); list.remove (index); } } struct MidiMessageSequenceSorter { static int compareElements (const MidiMessageSequence::MidiEventHolder* const first, const MidiMessageSequence::MidiEventHolder* const second) noexcept { const double diff = first->message.getTimeStamp() - second->message.getTimeStamp(); return (diff > 0) - (diff < 0); } }; void MidiMessageSequence::addSequence (const MidiMessageSequence& other, double timeAdjustment, double firstAllowableTime, double endOfAllowableDestTimes) { firstAllowableTime -= timeAdjustment; endOfAllowableDestTimes -= timeAdjustment; for (int i = 0; i < other.list.size(); ++i) { const MidiMessage& m = other.list.getUnchecked(i)->message; const double t = m.getTimeStamp(); if (t >= firstAllowableTime && t < endOfAllowableDestTimes) { MidiEventHolder* const newOne = new MidiEventHolder (m); newOne->message.setTimeStamp (timeAdjustment + t); list.add (newOne); } } sort(); } //============================================================================== void MidiMessageSequence::sort() { MidiMessageSequenceSorter sorter; list.sort (sorter, true); } void MidiMessageSequence::updateMatchedPairs() { for (int i = 0; i < list.size(); ++i) { MidiEventHolder* const meh = list.getUnchecked(i); const MidiMessage& m1 = meh->message; if (m1.isNoteOn()) { meh->noteOffObject = nullptr; const int note = m1.getNoteNumber(); const int chan = m1.getChannel(); const int len = list.size(); for (int j = i + 1; j < len; ++j) { const MidiMessage& m = list.getUnchecked(j)->message; if (m.getNoteNumber() == note && m.getChannel() == chan) { if (m.isNoteOff()) { meh->noteOffObject = list[j]; break; } else if (m.isNoteOn()) { MidiEventHolder* const newEvent = new MidiEventHolder (MidiMessage::noteOff (chan, note)); list.insert (j, newEvent); newEvent->message.setTimeStamp (m.getTimeStamp()); meh->noteOffObject = newEvent; break; } } } } } } void MidiMessageSequence::addTimeToMessages (const double delta) { for (int i = list.size(); --i >= 0;) { MidiMessage& mm = list.getUnchecked(i)->message; mm.setTimeStamp (mm.getTimeStamp() + delta); } } //============================================================================== void MidiMessageSequence::extractMidiChannelMessages (const int channelNumberToExtract, MidiMessageSequence& destSequence, const bool alsoIncludeMetaEvents) const { for (int i = 0; i < list.size(); ++i) { const MidiMessage& mm = list.getUnchecked(i)->message; if (mm.isForChannel (channelNumberToExtract) || (alsoIncludeMetaEvents && mm.isMetaEvent())) destSequence.addEvent (mm); } } void MidiMessageSequence::extractSysExMessages (MidiMessageSequence& destSequence) const { for (int i = 0; i < list.size(); ++i) { const MidiMessage& mm = list.getUnchecked(i)->message; if (mm.isSysEx()) destSequence.addEvent (mm); } } void MidiMessageSequence::deleteMidiChannelMessages (const int channelNumberToRemove) { for (int i = list.size(); --i >= 0;) if (list.getUnchecked(i)->message.isForChannel (channelNumberToRemove)) list.remove(i); } void MidiMessageSequence::deleteSysExMessages() { for (int i = list.size(); --i >= 0;) if (list.getUnchecked(i)->message.isSysEx()) list.remove(i); } //============================================================================== void MidiMessageSequence::createControllerUpdatesForTime (const int channelNumber, const double time, OwnedArray& dest) { bool doneProg = false; bool donePitchWheel = false; Array doneControllers; doneControllers.ensureStorageAllocated (32); for (int i = list.size(); --i >= 0;) { const MidiMessage& mm = list.getUnchecked(i)->message; if (mm.isForChannel (channelNumber) && mm.getTimeStamp() <= time) { if (mm.isProgramChange()) { if (! doneProg) { dest.add (new MidiMessage (mm, 0.0)); doneProg = true; } } else if (mm.isController()) { if (! doneControllers.contains (mm.getControllerNumber())) { dest.add (new MidiMessage (mm, 0.0)); doneControllers.add (mm.getControllerNumber()); } } else if (mm.isPitchWheel()) { if (! donePitchWheel) { dest.add (new MidiMessage (mm, 0.0)); donePitchWheel = true; } } } } } //============================================================================== MidiMessageSequence::MidiEventHolder::MidiEventHolder (const MidiMessage& mm) : message (mm), noteOffObject (nullptr) { } MidiMessageSequence::MidiEventHolder::~MidiEventHolder() { }