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Link.hpp
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Link.hpp
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/*! @file Link.hpp
* @copyright 2016, Ableton AG, Berlin. All rights reserved.
* @brief Library for cross-device shared tempo and quantized beat grid
*
* @license:
* 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.
*
* This program 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.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
* If you would like to incorporate Link into a proprietary software application,
* please contact <link-devs@ableton.com>.
*/
#pragma once
#include <ableton/platforms/Config.hpp>
#include <chrono>
#include <mutex>
namespace ableton
{
/*! @class Link and BasicLink
* @brief Classes representing a participant in a Link session.
* The BasicLink type allows to customize the clock. The Link type
* uses the recommended platform-dependent representation of the
* system clock as defined in platforms/Config.hpp.
* It's preferred to use Link instead of BasicLink.
*
* @discussion Each Link instance has its own session state which
* represents a beat timeline and a transport start/stop state. The
* timeline starts running from beat 0 at the initial tempo when
* constructed. The timeline always advances at a speed defined by
* its current tempo, even if transport is stopped. Synchronizing to the
* transport start/stop state of Link is optional for every peer.
* The transport start/stop state is only shared with other peers when
* start/stop synchronization is enabled.
*
* A Link instance is initially disabled after construction, which
* means that it will not communicate on the network. Once enabled,
* a Link instance initiates network communication in an effort to
* discover other peers. When peers are discovered, they immediately
* become part of a shared Link session.
*
* Each method of the Link type documents its thread-safety and
* realtime-safety properties. When a method is marked thread-safe,
* it means it is safe to call from multiple threads
* concurrently. When a method is marked realtime-safe, it means that
* it does not block and is appropriate for use in the thread that
* performs audio IO.
*
* Link provides one session state capture/commit method pair for use
* in the audio thread and one for all other application contexts. In
* general, modifying the session state should be done in the audio
* thread for the most accurate timing results. The ability to modify
* the session state from application threads should only be used in
* cases where an application's audio thread is not actively running
* or if it doesn't generate audio at all. Modifying the Link session
* state from both the audio thread and an application thread
* concurrently is not advised and will potentially lead to unexpected
* behavior.
*
* Only use the BasicLink class if the default platform clock does not
* fulfill other requirements of the client application. Please note this
* will require providing a custom Clock implementation. See the clock()
* documentation for details.
*/
template <typename Clock>
class BasicLink
{
public:
class SessionState;
/*! @brief Construct with an initial tempo. */
BasicLink(double bpm);
/*! @brief Link instances cannot be copied or moved */
BasicLink(const BasicLink<Clock>&) = delete;
BasicLink& operator=(const BasicLink<Clock>&) = delete;
BasicLink(BasicLink<Clock>&&) = delete;
BasicLink& operator=(BasicLink<Clock>&&) = delete;
/*! @brief Is Link currently enabled?
* Thread-safe: yes
* Realtime-safe: yes
*/
bool isEnabled() const;
/*! @brief Enable/disable Link.
* Thread-safe: yes
* Realtime-safe: no
*/
void enable(bool bEnable);
/*! @brief: Is start/stop synchronization enabled?
* Thread-safe: yes
* Realtime-safe: no
*/
bool isStartStopSyncEnabled() const;
/*! @brief: Enable start/stop synchronization.
* Thread-safe: yes
* Realtime-safe: no
*/
void enableStartStopSync(bool bEnable);
/*! @brief How many peers are currently connected in a Link session?
* Thread-safe: yes
* Realtime-safe: yes
*/
std::size_t numPeers() const;
/*! @brief Register a callback to be notified when the number of
* peers in the Link session changes.
* Thread-safe: yes
* Realtime-safe: no
*
* @discussion The callback is invoked on a Link-managed thread.
*
* @param callback The callback signature is:
* void (std::size_t numPeers)
*/
template <typename Callback>
void setNumPeersCallback(Callback callback);
/*! @brief Register a callback to be notified when the session
* tempo changes.
* Thread-safe: yes
* Realtime-safe: no
*
* @discussion The callback is invoked on a Link-managed thread.
*
* @param callback The callback signature is: void (double bpm)
*/
template <typename Callback>
void setTempoCallback(Callback callback);
/*! brief: Register a callback to be notified when the state of
* start/stop isPlaying changes.
* Thread-safe: yes
* Realtime-safe: no
*
* @discussion The callback is invoked on a Link-managed thread.
*
* @param callback The callback signature is:
* void (bool isPlaying)
*/
template <typename Callback>
void setStartStopCallback(Callback callback);
/*! @brief The clock used by Link.
* Thread-safe: yes
* Realtime-safe: yes
*
* @discussion The Clock type is a platform-dependent representation
* of the system clock. It exposes a micros() method, which is a
* normalized representation of the current system time in
* std::chrono::microseconds.
*/
Clock clock() const;
/*! @brief Capture the current Link Session State from the audio thread.
* Thread-safe: no
* Realtime-safe: yes
*
* @discussion This method should ONLY be called in the audio thread
* and must not be accessed from any other threads. The returned
* object stores a snapshot of the current Link Session State, so it
* should be captured and used in a local scope. Storing the
* Session State for later use in a different context is not advised
* because it will provide an outdated view.
*/
SessionState captureAudioSessionState() const;
/*! @brief Commit the given Session State to the Link session from the
* audio thread.
* Thread-safe: no
* Realtime-safe: yes
*
* @discussion This method should ONLY be called in the audio
* thread. The given Session State will replace the current Link
* state. Modifications will be communicated to other peers in the
* session.
*/
void commitAudioSessionState(SessionState state);
/*! @brief Capture the current Link Session State from an application
* thread.
* Thread-safe: yes
* Realtime-safe: no
*
* @discussion Provides a mechanism for capturing the Link Session
* State from an application thread (other than the audio thread).
* The returned Session State stores a snapshot of the current Link
* state, so it should be captured and used in a local scope.
* Storing the it for later use in a different context is not
* advised because it will provide an outdated view.
*/
SessionState captureAppSessionState() const;
/*! @brief Commit the given Session State to the Link session from an
* application thread.
* Thread-safe: yes
* Realtime-safe: no
*
* @discussion The given Session State will replace the current Link
* Session State. Modifications of the Session State will be
* communicated to other peers in the session.
*/
void commitAppSessionState(SessionState state);
/*! @class SessionState
* @brief Representation of a timeline and the start/stop state
*
* @discussion A SessionState object is intended for use in a local scope within
* a single thread - none of its methods are thread-safe. All of its methods are
* non-blocking, so it is safe to use from a realtime thread.
* It provides functions to observe and manipulate the timeline and start/stop
* state.
*
* The timeline is a representation of a mapping between time and beats for varying
* quanta.
* The start/stop state represents the user intention to start or stop transport at
* a specific time. Start stop synchronization is an optional feature that allows to
* share the user request to start or stop transport between a subgroup of peers in
* a Link session. When observing a change of start/stop state, audio playback of a
* peer should be started or stopped the same way it would have happened if the user
* had requested that change at the according time locally. The start/stop state can
* only be changed by the user. This means that the current local start/stop state
* persists when joining or leaving a Link session. After joining a Link session
* start/stop change requests will be communicated to all connected peers.
*/
class SessionState
{
public:
SessionState(const link::ApiState state, const bool bRespectQuantum);
/*! @brief: The tempo of the timeline, in Beats Per Minute.
*
* @discussion This is a stable value that is appropriate for display
* to the user. Beat time progress will not necessarily match this tempo
* exactly because of clock drift compensation.
*/
double tempo() const;
/*! @brief: Set the timeline tempo to the given bpm value, taking
* effect at the given time.
*/
void setTempo(double bpm, std::chrono::microseconds atTime);
/*! @brief: Get the beat value corresponding to the given time
* for the given quantum.
*
* @discussion: The magnitude of the resulting beat value is
* unique to this Link instance, but its phase with respect to
* the provided quantum is shared among all session
* peers. For non-negative beat values, the following
* property holds: fmod(beatAtTime(t, q), q) == phaseAtTime(t, q)
*/
double beatAtTime(std::chrono::microseconds time, double quantum) const;
/*! @brief: Get the session phase at the given time for the given
* quantum.
*
* @discussion: The result is in the interval [0, quantum). The
* result is equivalent to fmod(beatAtTime(t, q), q) for
* non-negative beat values. This method is convenient if the
* client is only interested in the phase and not the beat
* magnitude. Also, unlike fmod, it handles negative beat values
* correctly.
*/
double phaseAtTime(std::chrono::microseconds time, double quantum) const;
/*! @brief: Get the time at which the given beat occurs for the
* given quantum.
*
* @discussion: The inverse of beatAtTime, assuming a constant
* tempo. beatAtTime(timeAtBeat(b, q), q) === b.
*/
std::chrono::microseconds timeAtBeat(double beat, double quantum) const;
/*! @brief: Attempt to map the given beat to the given time in the
* context of the given quantum.
*
* @discussion: This method behaves differently depending on the
* state of the session. If no other peers are connected,
* then this instance is in a session by itself and is free to
* re-map the beat/time relationship whenever it pleases. In this
* case, beatAtTime(time, quantum) == beat after this method has
* been called.
*
* If there are other peers in the session, this instance
* should not abruptly re-map the beat/time relationship in the
* session because that would lead to beat discontinuities among
* the other peers. In this case, the given beat will be mapped
* to the next time value greater than the given time with the
* same phase as the given beat.
*
* This method is specifically designed to enable the concept of
* "quantized launch" in client applications. If there are no other
* peers in the session, then an event (such as starting
* transport) happens immediately when it is requested. If there
* are other peers, however, we wait until the next time at which
* the session phase matches the phase of the event, thereby
* executing the event in-phase with the other peers in the
* session. The client only needs to invoke this method to
* achieve this behavior and should not need to explicitly check
* the number of peers.
*/
void requestBeatAtTime(double beat, std::chrono::microseconds time, double quantum);
/*! @brief: Rudely re-map the beat/time relationship for all peers
* in a session.
*
* @discussion: DANGER: This method should only be needed in
* certain special circumstances. Most applications should not
* use it. It is very similar to requestBeatAtTime except that it
* does not fall back to the quantizing behavior when it is in a
* session with other peers. Calling this method will
* unconditionally map the given beat to the given time and
* broadcast the result to the session. This is very anti-social
* behavior and should be avoided.
*
* One of the few legitimate uses of this method is to
* synchronize a Link session with an external clock source. By
* periodically forcing the beat/time mapping according to an
* external clock source, a peer can effectively bridge that
* clock into a Link session. Much care must be taken at the
* application layer when implementing such a feature so that
* users do not accidentally disrupt Link sessions that they may
* join.
*/
void forceBeatAtTime(double beat, std::chrono::microseconds time, double quantum);
/*! @brief: Set if transport should be playing or stopped, taking effect
* at the given time.
*/
void setIsPlaying(bool isPlaying, std::chrono::microseconds time);
/*! @brief: Is transport playing? */
bool isPlaying() const;
/*! @brief: Get the time at which a transport start/stop occurs */
std::chrono::microseconds timeForIsPlaying() const;
/*! @brief: Convenience function to attempt to map the given beat to the time
* when transport is starting to play in context of the given quantum.
* This function evaluates to a no-op if isPlaying() equals false.
*/
void requestBeatAtStartPlayingTime(double beat, double quantum);
/*! @brief: Convenience function to start or stop transport at a given time and
* attempt to map the given beat to this time in context of the given quantum.
*/
void setIsPlayingAndRequestBeatAtTime(
bool isPlaying, std::chrono::microseconds time, double beat, double quantum);
private:
friend BasicLink<Clock>;
link::ApiState mOriginalState;
link::ApiState mState;
bool mbRespectQuantum;
};
private:
using Controller = ableton::link::Controller<link::PeerCountCallback,
link::TempoCallback,
link::StartStopStateCallback,
Clock,
link::platform::Random,
link::platform::IoContext>;
std::mutex mCallbackMutex;
link::PeerCountCallback mPeerCountCallback = [](std::size_t) {};
link::TempoCallback mTempoCallback = [](link::Tempo) {};
link::StartStopStateCallback mStartStopCallback = [](bool) {};
Clock mClock;
Controller mController;
};
class Link : public BasicLink<link::platform::Clock>
{
public:
using Clock = link::platform::Clock;
Link(double bpm)
: BasicLink(bpm)
{
}
};
} // namespace ableton
#include <ableton/Link.ipp>