/* ============================================================================== 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 { //============================================================================== /** This struct contains information about a MIDI input or output device. You can get one of these structs by calling the static getAvailableDevices() or getDefaultDevice() methods of MidiInput and MidiOutput or by calling getDeviceInfo() on an instance of these classes. Devices can be opened by passing the identifier to the openDevice() method. @tags{Audio} */ struct MidiDeviceInfo { MidiDeviceInfo() = default; MidiDeviceInfo (const String& deviceName, const String& deviceIdentifier) : name (deviceName), identifier (deviceIdentifier) { } /** The name of this device. This will be provided by the OS unless the device has been created with the createNewDevice() method. Note that the name is not guaranteed to be unique and two devices with the same name will be indistinguishable. If you want to address a specific device it is better to use the identifier. */ String name; /** The identifier for this device. This will be provided by the OS and it's format will differ on different systems e.g. on macOS it will be a number whereas on Windows it will be a long alphanumeric string. */ String identifier; //============================================================================== bool operator== (const MidiDeviceInfo& other) const noexcept { return name == other.name && identifier == other.identifier; } bool operator!= (const MidiDeviceInfo& other) const noexcept { return ! operator== (other); } }; class MidiInputCallback; //============================================================================== /** Represents a midi input device. To create one of these, use the static getAvailableDevices() method to find out what inputs are available, and then use the openDevice() method to try to open one. @see MidiOutput @tags{Audio} */ class JUCE_API MidiInput final { public: //============================================================================== /** Returns a list of the available midi input devices. You can open one of the devices by passing its identifier into the openDevice() method. @see MidiDeviceInfo, getDevices, getDefaultDeviceIndex, openDevice */ static Array getAvailableDevices(); /** Returns the MidiDeviceInfo of the default midi input device to use. */ static MidiDeviceInfo getDefaultDevice(); /** Tries to open one of the midi input devices. This will return a MidiInput object if it manages to open it, you can then call start() and stop() on this device. If the device can't be opened, this will return an empty object. @param deviceIdentifier the ID of the device to open - use the getAvailableDevices() method to find the available devices that can be opened @param callback the object that will receive the midi messages from this device @see MidiInputCallback, getDevices */ static std::unique_ptr openDevice (const String& deviceIdentifier, MidiInputCallback* callback); #if JUCE_LINUX || JUCE_MAC || JUCE_IOS || DOXYGEN /** This will try to create a new midi input device (only available on Linux, macOS and iOS). This will attempt to create a new midi input device with the specified name for other apps to connect to. NB - if you are calling this method on iOS you must have enabled the "Audio Background Capability" setting in the iOS exporter otherwise this method will fail. Returns an empty object if a device can't be created. @param deviceName the name of the device to create @param callback the object that will receive the midi messages from this device */ static std::unique_ptr createNewDevice (const String& deviceName, MidiInputCallback* callback); #endif //============================================================================== /** Destructor. */ ~MidiInput(); /** Starts the device running. After calling this, the device will start sending midi messages to the MidiInputCallback object that was specified when the openDevice() method was called. @see stop */ void start(); /** Stops the device running. @see start */ void stop(); /** Returns the MidiDeviceInfo struct containing some information about this device. */ MidiDeviceInfo getDeviceInfo() const noexcept { return deviceInfo; } /** Returns the identifier of this device. */ String getIdentifier() const noexcept { return deviceInfo.identifier; } /** Returns the name of this device. */ String getName() const noexcept { return deviceInfo.name; } /** Sets a custom name for the device. */ void setName (const String& newName) noexcept { deviceInfo.name = newName; } //============================================================================== /** Deprecated. */ static StringArray getDevices(); /** Deprecated. */ static int getDefaultDeviceIndex(); /** Deprecated. */ static std::unique_ptr openDevice (int, MidiInputCallback*); /** @internal */ class Pimpl; private: //============================================================================== explicit MidiInput (const String&, const String&); MidiDeviceInfo deviceInfo; std::unique_ptr internal; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (MidiInput) }; //============================================================================== /** Receives incoming messages from a physical MIDI input device. This class is overridden to handle incoming midi messages. See the MidiInput class for more details. @see MidiInput @tags{Audio} */ class JUCE_API MidiInputCallback { public: /** Destructor. */ virtual ~MidiInputCallback() = default; /** Receives an incoming message. A MidiInput object will call this method when a midi event arrives. It'll be called on a high-priority system thread, so avoid doing anything time-consuming in here, and avoid making any UI calls. You might find the MidiBuffer class helpful for queueing incoming messages for use later. @param source the MidiInput object that generated the message @param message the incoming message. The message's timestamp is set to a value equivalent to (Time::getMillisecondCounter() / 1000.0) to specify the time when the message arrived */ virtual void handleIncomingMidiMessage (MidiInput* source, const MidiMessage& message) = 0; /** Notification sent each time a packet of a multi-packet sysex message arrives. If a long sysex message is broken up into multiple packets, this callback is made for each packet that arrives until the message is finished, at which point the normal handleIncomingMidiMessage() callback will be made with the entire message. The message passed in will contain the start of a sysex, but won't be finished with the terminating 0xf7 byte. */ virtual void handlePartialSysexMessage (MidiInput* source, const uint8* messageData, int numBytesSoFar, double timestamp) { ignoreUnused (source, messageData, numBytesSoFar, timestamp); } }; //============================================================================== /** Represents a midi output device. To create one of these, use the static getAvailableDevices() method to find out what outputs are available, and then use the openDevice() method to try to open one. @see MidiInput @tags{Audio} */ class JUCE_API MidiOutput final : private Thread { public: //============================================================================== /** Returns a list of the available midi output devices. You can open one of the devices by passing its identifier into the openDevice() method. @see MidiDeviceInfo, getDevices, getDefaultDeviceIndex, openDevice */ static Array getAvailableDevices(); /** Returns the MidiDeviceInfo of the default midi output device to use. */ static MidiDeviceInfo getDefaultDevice(); /** Tries to open one of the midi output devices. This will return a MidiOutput object if it manages to open it, you can then send messages to this device. If the device can't be opened, this will return an empty object. @param deviceIdentifier the ID of the device to open - use the getAvailableDevices() method to find the available devices that can be opened @see getDevices */ static std::unique_ptr openDevice (const String& deviceIdentifier); #if JUCE_LINUX || JUCE_MAC || JUCE_IOS || DOXYGEN /** This will try to create a new midi output device (only available on Linux, macOS and iOS). This will attempt to create a new midi output device with the specified name that other apps can connect to and use as their midi input. NB - if you are calling this method on iOS you must have enabled the "Audio Background Capability" setting in the iOS exporter otherwise this method will fail. Returns an empty object if a device can't be created. @param deviceName the name of the device to create */ static std::unique_ptr createNewDevice (const String& deviceName); #endif //============================================================================== /** Destructor. */ ~MidiOutput() override; /** Returns the MidiDeviceInfo struct containing some information about this device. */ MidiDeviceInfo getDeviceInfo() const noexcept { return deviceInfo; } /** Returns the identifier of this device. */ String getIdentifier() const noexcept { return deviceInfo.identifier; } /** Returns the name of this device. */ String getName() const noexcept { return deviceInfo.name; } /** Sets a custom name for the device. */ void setName (const String& newName) noexcept { deviceInfo.name = newName; } //============================================================================== /** Sends out a MIDI message immediately. */ void sendMessageNow (const MidiMessage& message); /** Sends out a sequence of MIDI messages immediately. */ void sendBlockOfMessagesNow (const MidiBuffer& buffer); /** This lets you supply a block of messages that will be sent out at some point in the future. The MidiOutput class has an internal thread that can send out timestamped messages - this appends a set of messages to its internal buffer, ready for sending. This will only work if you've already started the thread with startBackgroundThread(). A time is specified, at which the block of messages should be sent. This time uses the same time base as Time::getMillisecondCounter(), and must be in the future. The samplesPerSecondForBuffer parameter indicates the number of samples per second used by the MidiBuffer. Each event in a MidiBuffer has a sample position, and the samplesPerSecondForBuffer value is needed to convert this sample position to a real time. */ void sendBlockOfMessages (const MidiBuffer& buffer, double millisecondCounterToStartAt, double samplesPerSecondForBuffer); /** Gets rid of any midi messages that had been added by sendBlockOfMessages(). */ void clearAllPendingMessages(); /** Starts up a background thread so that the device can send blocks of data. Call this to get the device ready, before using sendBlockOfMessages(). */ void startBackgroundThread(); /** Stops the background thread, and clears any pending midi events. @see startBackgroundThread */ void stopBackgroundThread(); /** Returns true if the background thread used to send blocks of data is running. @see startBackgroundThread, stopBackgroundThread */ bool isBackgroundThreadRunning() const noexcept { return isThreadRunning(); } //============================================================================== /** Deprecated. */ static StringArray getDevices(); /** Deprecated. */ static int getDefaultDeviceIndex(); /** Deprecated. */ static std::unique_ptr openDevice (int); /** @internal */ class Pimpl; private: //============================================================================== struct PendingMessage { PendingMessage (const void* data, int len, double timeStamp) : message (data, len, timeStamp) { } MidiMessage message; PendingMessage* next; }; //============================================================================== explicit MidiOutput (const String&, const String&); void run() override; MidiDeviceInfo deviceInfo; std::unique_ptr internal; CriticalSection lock; PendingMessage* firstMessage = nullptr; JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (MidiOutput) }; } // namespace juce