paulxstretch/deps/juce/modules/juce_audio_basics/midi/juce_MidiMessageSequence.h

322 lines
14 KiB
C
Raw Normal View History

/*
==============================================================================
This file is part of the JUCE library.
Copyright (c) 2020 - Raw Material Software Limited
JUCE is an open source library subject to commercial or open-source
licensing.
The code included in this file is provided under the terms of the ISC license
http://www.isc.org/downloads/software-support-policy/isc-license. Permission
To use, copy, modify, and/or distribute this software for any purpose with or
without fee is hereby granted provided that the above copyright notice and
this permission notice appear in all copies.
JUCE IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL WARRANTIES, WHETHER
EXPRESSED OR IMPLIED, INCLUDING MERCHANTABILITY AND FITNESS FOR PURPOSE, ARE
DISCLAIMED.
==============================================================================
*/
namespace juce
{
//==============================================================================
/**
A sequence of timestamped midi messages.
This allows the sequence to be manipulated, and also to be read from and
written to a standard midi file.
@see MidiMessage, MidiFile
@tags{Audio}
*/
class JUCE_API MidiMessageSequence
{
public:
//==============================================================================
/** Creates an empty midi sequence object. */
MidiMessageSequence();
/** Creates a copy of another sequence. */
MidiMessageSequence (const MidiMessageSequence&);
/** Replaces this sequence with another one. */
MidiMessageSequence& operator= (const MidiMessageSequence&);
/** Move constructor */
MidiMessageSequence (MidiMessageSequence&&) noexcept;
/** Move assignment operator */
MidiMessageSequence& operator= (MidiMessageSequence&&) noexcept;
/** Destructor. */
~MidiMessageSequence();
//==============================================================================
/** Structure used to hold midi events in the sequence.
These structures act as 'handles' on the events as they are moved about in
the list, and make it quick to find the matching note-offs for note-on events.
@see MidiMessageSequence::getEventPointer
*/
class MidiEventHolder
{
public:
//==============================================================================
/** Destructor. */
~MidiEventHolder();
/** The message itself, whose timestamp is used to specify the event's time. */
MidiMessage message;
/** The matching note-off event (if this is a note-on event).
If this isn't a note-on, this pointer will be nullptr.
Use the MidiMessageSequence::updateMatchedPairs() method to keep these
note-offs up-to-date after events have been moved around in the sequence
or deleted.
*/
MidiEventHolder* noteOffObject = nullptr;
private:
//==============================================================================
friend class MidiMessageSequence;
MidiEventHolder (const MidiMessage&);
MidiEventHolder (MidiMessage&&);
JUCE_LEAK_DETECTOR (MidiEventHolder)
};
//==============================================================================
/** Clears the sequence. */
void clear();
/** Returns the number of events in the sequence. */
int getNumEvents() const noexcept;
/** Returns a pointer to one of the events. */
MidiEventHolder* getEventPointer (int index) const noexcept;
/** Iterator for the list of MidiEventHolders */
MidiEventHolder** begin() noexcept;
/** Iterator for the list of MidiEventHolders */
MidiEventHolder* const* begin() const noexcept;
/** Iterator for the list of MidiEventHolders */
MidiEventHolder** end() noexcept;
/** Iterator for the list of MidiEventHolders */
MidiEventHolder* const* end() const noexcept;
/** Returns the time of the note-up that matches the note-on at this index.
If the event at this index isn't a note-on, it'll just return 0.
@see MidiMessageSequence::MidiEventHolder::noteOffObject
*/
double getTimeOfMatchingKeyUp (int index) const noexcept;
/** Returns the index of the note-up that matches the note-on at this index.
If the event at this index isn't a note-on, it'll just return -1.
@see MidiMessageSequence::MidiEventHolder::noteOffObject
*/
int getIndexOfMatchingKeyUp (int index) const noexcept;
/** Returns the index of an event. */
int getIndexOf (const MidiEventHolder* event) const noexcept;
/** Returns the index of the first event on or after the given timestamp.
If the time is beyond the end of the sequence, this will return the
number of events.
*/
int getNextIndexAtTime (double timeStamp) const noexcept;
//==============================================================================
/** Returns the timestamp of the first event in the sequence.
@see getEndTime
*/
double getStartTime() const noexcept;
/** Returns the timestamp of the last event in the sequence.
@see getStartTime
*/
double getEndTime() const noexcept;
/** Returns the timestamp of the event at a given index.
If the index is out-of-range, this will return 0.0
*/
double getEventTime (int index) const noexcept;
//==============================================================================
/** Inserts a midi message into the sequence.
The index at which the new message gets inserted will depend on its timestamp,
because the sequence is kept sorted.
Remember to call updateMatchedPairs() after adding note-on events.
@param newMessage the new message to add (an internal copy will be made)
@param timeAdjustment an optional value to add to the timestamp of the message
that will be inserted
@see updateMatchedPairs
*/
MidiEventHolder* addEvent (const MidiMessage& newMessage, double timeAdjustment = 0);
/** Inserts a midi message into the sequence.
The index at which the new message gets inserted will depend on its timestamp,
because the sequence is kept sorted.
Remember to call updateMatchedPairs() after adding note-on events.
@param newMessage the new message to add (an internal copy will be made)
@param timeAdjustment an optional value to add to the timestamp of the message
that will be inserted
@see updateMatchedPairs
*/
MidiEventHolder* addEvent (MidiMessage&& newMessage, double timeAdjustment = 0);
/** Deletes one of the events in the sequence.
Remember to call updateMatchedPairs() after removing events.
@param index the index of the event to delete
@param deleteMatchingNoteUp whether to also remove the matching note-off
if the event you're removing is a note-on
*/
void deleteEvent (int index, bool deleteMatchingNoteUp);
/** Merges another sequence into this one.
Remember to call updateMatchedPairs() after using this method.
@param other the sequence to add from
@param timeAdjustmentDelta an amount to add to the timestamps of the midi events
as they are read from the other sequence
@param firstAllowableDestTime events will not be added if their time is earlier
than this time. (This is after their time has been adjusted
by the timeAdjustmentDelta)
@param endOfAllowableDestTimes events will not be added if their time is equal to
or greater than this time. (This is after their time has
been adjusted by the timeAdjustmentDelta)
*/
void addSequence (const MidiMessageSequence& other,
double timeAdjustmentDelta,
double firstAllowableDestTime,
double endOfAllowableDestTimes);
/** Merges another sequence into this one.
Remember to call updateMatchedPairs() after using this method.
@param other the sequence to add from
@param timeAdjustmentDelta an amount to add to the timestamps of the midi events
as they are read from the other sequence
*/
void addSequence (const MidiMessageSequence& other,
double timeAdjustmentDelta);
//==============================================================================
/** Makes sure all the note-on and note-off pairs are up-to-date.
Call this after re-ordering messages or deleting/adding messages, and it
will scan the list and make sure all the note-offs in the MidiEventHolder
structures are pointing at the correct ones.
*/
void updateMatchedPairs() noexcept;
/** Forces a sort of the sequence.
You may need to call this if you've manually modified the timestamps of some
events such that the overall order now needs updating.
*/
void sort() noexcept;
//==============================================================================
/** Copies all the messages for a particular midi channel to another sequence.
@param channelNumberToExtract the midi channel to look for, in the range 1 to 16
@param destSequence the sequence that the chosen events should be copied to
@param alsoIncludeMetaEvents if true, any meta-events (which don't apply to a specific
channel) will also be copied across.
@see extractSysExMessages
*/
void extractMidiChannelMessages (int channelNumberToExtract,
MidiMessageSequence& destSequence,
bool alsoIncludeMetaEvents) const;
/** Copies all midi sys-ex messages to another sequence.
@param destSequence this is the sequence to which any sys-exes in this sequence
will be added
@see extractMidiChannelMessages
*/
void extractSysExMessages (MidiMessageSequence& destSequence) const;
/** Removes any messages in this sequence that have a specific midi channel.
@param channelNumberToRemove the midi channel to look for, in the range 1 to 16
*/
void deleteMidiChannelMessages (int channelNumberToRemove);
/** Removes any sys-ex messages from this sequence. */
void deleteSysExMessages();
/** Adds an offset to the timestamps of all events in the sequence.
@param deltaTime the amount to add to each timestamp.
*/
void addTimeToMessages (double deltaTime) noexcept;
//==============================================================================
/** Scans through the sequence to determine the state of any midi controllers at
a given time.
This will create a sequence of midi controller changes that can be
used to set all midi controllers to the state they would be in at the
specified time within this sequence.
As well as controllers, it will also recreate the midi program number
and pitch bend position.
This function has special handling for the "bank select" and "data entry"
controllers (0x00, 0x20, 0x06, 0x26, 0x60, 0x61, 0x62, 0x63, 0x64, 0x65).
If the sequence contains multiple bank select and program change messages,
only the bank select messages immediately preceding the final program change
message will be kept.
All "data increment" and "data decrement" messages will be retained. Some hardware will
ignore the requested increment/decrement values, so retaining all messages is the only
way to ensure compatibility with all hardware.
"Parameter number" changes will be slightly condensed. Only the parameter number
events immediately preceding each data entry event will be kept. The parameter number
will also be set to its final value at the end of the sequence, if necessary.
@param channelNumber the midi channel to look for, in the range 1 to 16. Controllers
for other channels will be ignored.
@param time the time at which you want to find out the state - there are
no explicit units for this time measurement, it's the same units
as used for the timestamps of the messages
@param resultMessages an array to which midi controller-change messages will be added. This
will be the minimum number of controller changes to recreate the
state at the required time.
*/
void createControllerUpdatesForTime (int channelNumber, double time,
Array<MidiMessage>& resultMessages);
//==============================================================================
/** Swaps this sequence with another one. */
void swapWith (MidiMessageSequence&) noexcept;
private:
//==============================================================================
friend class MidiFile;
OwnedArray<MidiEventHolder> list;
MidiEventHolder* addEvent (MidiEventHolder*, double);
JUCE_LEAK_DETECTOR (MidiMessageSequence)
};
} // namespace juce