#!/usr/bin/env python3 # -*- coding: utf-8 -*- # Carla Backend code # Copyright (C) 2011-2021 Filipe Coelho # # 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 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. # # For a full copy of the GNU General Public License see the doc/GPL.txt file. # --------------------------------------------------------------------------------------------------------------------- # Imports (Global) from abc import abstractmethod from platform import architecture from struct import pack from sys import platform, maxsize # --------------------------------------------------------------------------------------------------------------------- # Imports (ctypes) from ctypes import ( c_bool, c_char_p, c_double, c_float, c_int, c_long, c_longdouble, c_longlong, c_ubyte, c_uint, c_void_p, c_int8, c_int16, c_int32, c_int64, c_uint8, c_uint16, c_uint32, c_uint64, cast, Structure, CDLL, CFUNCTYPE, RTLD_GLOBAL, RTLD_LOCAL, POINTER ) # --------------------------------------------------------------------------------------------------------------------- # 64bit check kIs64bit = bool(architecture()[0] == "64bit" and maxsize > 2**32) # --------------------------------------------------------------------------------------------------------------------- # Define custom types c_enum = c_int c_uintptr = c_uint64 if kIs64bit else c_uint32 # --------------------------------------------------------------------------------------------------------------------- # Set Platform if platform == "darwin": HAIKU = False LINUX = False MACOS = True WINDOWS = False elif "haiku" in platform: HAIKU = True LINUX = False MACOS = False WINDOWS = False elif "linux" in platform: HAIKU = False LINUX = True MACOS = False WINDOWS = False elif platform in ("win32", "win64", "cygwin"): HAIKU = False LINUX = False MACOS = False WINDOWS = True else: HAIKU = False LINUX = False MACOS = False WINDOWS = False # --------------------------------------------------------------------------------------------------------------------- # Convert a ctypes c_char_p into a python string def charPtrToString(charPtr): if not charPtr: return "" if isinstance(charPtr, str): return charPtr return charPtr.decode("utf-8", errors="ignore") # --------------------------------------------------------------------------------------------------------------------- # Convert a ctypes POINTER(c_char_p) into a python string list def charPtrPtrToStringList(charPtrPtr): if not charPtrPtr: return [] i = 0 charPtr = charPtrPtr[0] strList = [] while charPtr: strList.append(charPtr.decode("utf-8", errors="ignore")) i += 1 charPtr = charPtrPtr[i] return strList # --------------------------------------------------------------------------------------------------------------------- # Convert a ctypes POINTER(c_) into a python number list def numPtrToList(numPtr): if not numPtr: return [] i = 0 num = numPtr[0] #.value numList = [] while num not in (0, 0.0): numList.append(num) i += 1 num = numPtr[i] #.value return numList # --------------------------------------------------------------------------------------------------------------------- # Convert a ctypes value into a python one c_int_types = (c_int, c_int8, c_int16, c_int32, c_int64, c_uint, c_uint8, c_uint16, c_uint32, c_uint64, c_long, c_longlong) c_float_types = (c_float, c_double, c_longdouble) c_intp_types = tuple(POINTER(i) for i in c_int_types) c_floatp_types = tuple(POINTER(i) for i in c_float_types) def toPythonType(value, attr): if isinstance(value, (bool, int, float)): return value if isinstance(value, bytes): return charPtrToString(value) # pylint: disable=consider-merging-isinstance if isinstance(value, c_intp_types) or isinstance(value, c_floatp_types): return numPtrToList(value) # pylint: enable=consider-merging-isinstance if isinstance(value, POINTER(c_char_p)): return charPtrPtrToStringList(value) print("..............", attr, ".....................", value, ":", type(value)) return value # --------------------------------------------------------------------------------------------------------------------- # Convert a ctypes struct into a python dict def structToDict(struct): # pylint: disable=protected-access return dict((attr, toPythonType(getattr(struct, attr), attr)) for attr, value in struct._fields_) # pylint: enable=protected-access # --------------------------------------------------------------------------------------------------------------------- # Carla Backend API (base definitions) # Maximum default number of loadable plugins. MAX_DEFAULT_PLUGINS = 512 # Maximum number of loadable plugins in rack mode. MAX_RACK_PLUGINS = 64 # Maximum number of loadable plugins in patchbay mode. MAX_PATCHBAY_PLUGINS = 255 # Maximum default number of parameters allowed. # @see ENGINE_OPTION_MAX_PARAMETERS MAX_DEFAULT_PARAMETERS = 200 # The "plugin Id" for the global Carla instance. # Currently only used for audio peaks. MAIN_CARLA_PLUGIN_ID = 0xFFFF # --------------------------------------------------------------------------------------------------------------------- # Engine Driver Device Hints # Various engine driver device hints. # @see carla_get_engine_driver_device_info() # Engine driver device has custom control-panel. ENGINE_DRIVER_DEVICE_HAS_CONTROL_PANEL = 0x1 # Engine driver device can use a triple-buffer (3 number of periods instead of the usual 2). # @see ENGINE_OPTION_AUDIO_NUM_PERIODS ENGINE_DRIVER_DEVICE_CAN_TRIPLE_BUFFER = 0x2 # Engine driver device can change buffer-size on the fly. # @see ENGINE_OPTION_AUDIO_BUFFER_SIZE ENGINE_DRIVER_DEVICE_VARIABLE_BUFFER_SIZE = 0x4 # Engine driver device can change sample-rate on the fly. # @see ENGINE_OPTION_AUDIO_SAMPLE_RATE ENGINE_DRIVER_DEVICE_VARIABLE_SAMPLE_RATE = 0x8 # --------------------------------------------------------------------------------------------------------------------- # Plugin Hints # Various plugin hints. # @see carla_get_plugin_info() # Plugin is a bridge. # This hint is required because "bridge" itself is not a plugin type. PLUGIN_IS_BRIDGE = 0x001 # Plugin is hard real-time safe. PLUGIN_IS_RTSAFE = 0x002 # Plugin is a synth (produces sound). PLUGIN_IS_SYNTH = 0x004 # Plugin has its own custom UI. # @see carla_show_custom_ui() PLUGIN_HAS_CUSTOM_UI = 0x008 # Plugin can use internal Dry/Wet control. PLUGIN_CAN_DRYWET = 0x010 # Plugin can use internal Volume control. PLUGIN_CAN_VOLUME = 0x020 # Plugin can use internal (Stereo) Balance controls. PLUGIN_CAN_BALANCE = 0x040 # Plugin can use internal (Mono) Panning control. PLUGIN_CAN_PANNING = 0x080 # Plugin needs a constant, fixed-size audio buffer. PLUGIN_NEEDS_FIXED_BUFFERS = 0x100 # Plugin needs to receive all UI events in the main thread. PLUGIN_NEEDS_UI_MAIN_THREAD = 0x200 # Plugin uses 1 program per MIDI channel. # @note: Only used in some internal plugins and sf2 files. PLUGIN_USES_MULTI_PROGS = 0x400 # Plugin can make use of inline display API. PLUGIN_HAS_INLINE_DISPLAY = 0x800 # --------------------------------------------------------------------------------------------------------------------- # Plugin Options # Various plugin options. # @see carla_get_plugin_info() and carla_set_option() # Use constant/fixed-size audio buffers. PLUGIN_OPTION_FIXED_BUFFERS = 0x001 # Force mono plugin as stereo. PLUGIN_OPTION_FORCE_STEREO = 0x002 # Map MIDI programs to plugin programs. PLUGIN_OPTION_MAP_PROGRAM_CHANGES = 0x004 # Use chunks to save and restore data instead of parameter values. PLUGIN_OPTION_USE_CHUNKS = 0x008 # Send MIDI control change events. PLUGIN_OPTION_SEND_CONTROL_CHANGES = 0x010 # Send MIDI channel pressure events. PLUGIN_OPTION_SEND_CHANNEL_PRESSURE = 0x020 # Send MIDI note after-touch events. PLUGIN_OPTION_SEND_NOTE_AFTERTOUCH = 0x040 # Send MIDI pitch-bend events. PLUGIN_OPTION_SEND_PITCHBEND = 0x080 # Send MIDI all-sounds/notes-off events, single note-offs otherwise. PLUGIN_OPTION_SEND_ALL_SOUND_OFF = 0x100 # Send MIDI bank/program changes. # @note: This option conflicts with PLUGIN_OPTION_MAP_PROGRAM_CHANGES and cannot be used at the same time. PLUGIN_OPTION_SEND_PROGRAM_CHANGES = 0x200 # SSkip sending MIDI note events. # This if off-by-default as a way to keep backwards compatibility. # We always want notes enabled by default, not the contrary. PLUGIN_OPTION_SKIP_SENDING_NOTES = 0x400 # Special flag to indicate that plugin options are not yet set. # This flag exists because 0x0 as an option value is a valid one, so we need something else to indicate "null-ness". PLUGIN_OPTIONS_NULL = 0x10000 # --------------------------------------------------------------------------------------------------------------------- # Parameter Hints # Various parameter hints. # @see CarlaPlugin::getParameterData() and carla_get_parameter_data() # Parameter value is boolean. PARAMETER_IS_BOOLEAN = 0x001 # Parameter value is integer. PARAMETER_IS_INTEGER = 0x002 # Parameter value is logarithmic. PARAMETER_IS_LOGARITHMIC = 0x004 # Parameter is enabled. # It can be viewed, changed and stored. PARAMETER_IS_ENABLED = 0x010 # Parameter is automable (real-time safe). PARAMETER_IS_AUTOMABLE = 0x020 # Parameter is read-only. # It cannot be changed. PARAMETER_IS_READ_ONLY = 0x040 # Parameter needs sample rate to work. # Value and ranges are multiplied by sample rate on usage and divided by sample rate on save. PARAMETER_USES_SAMPLERATE = 0x100 # Parameter uses scale points to define internal values in a meaningful way. PARAMETER_USES_SCALEPOINTS = 0x200 # Parameter uses custom text for displaying its value. # @see carla_get_parameter_text() PARAMETER_USES_CUSTOM_TEXT = 0x400 # Parameter can be turned into a CV control. PARAMETER_CAN_BE_CV_CONTROLLED = 0x800 # Parameter should not be saved as part of the project/session. # @note only valid for parameter inputs. PARAMETER_IS_NOT_SAVED = 0x1000 # --------------------------------------------------------------------------------------------------------------------- # Mapped Parameter Flags # Various flags for parameter mappings. # @see ParameterData::mappedFlags PARAMETER_MAPPING_MIDI_DELTA = 0x001 # --------------------------------------------------------------------------------------------------------------------- # Patchbay Port Hints # Various patchbay port hints. # Patchbay port is input. # When this hint is not set, port is assumed to be output. PATCHBAY_PORT_IS_INPUT = 0x01 # Patchbay port is of Audio type. PATCHBAY_PORT_TYPE_AUDIO = 0x02 # Patchbay port is of CV type (Control Voltage). PATCHBAY_PORT_TYPE_CV = 0x04 # Patchbay port is of MIDI type. PATCHBAY_PORT_TYPE_MIDI = 0x08 # Patchbay port is of OSC type. PATCHBAY_PORT_TYPE_OSC = 0x10 # --------------------------------------------------------------------------------------------------------------------- # Patchbay Port Group Hints # Various patchbay port group hints. # Indicates that this group should be considered the "main" input. PATCHBAY_PORT_GROUP_MAIN_INPUT = 0x01 # Indicates that this group should be considered the "main" output. PATCHBAY_PORT_GROUP_MAIN_OUTPUT = 0x02 # A stereo port group, where the 1st port is left and the 2nd is right. PATCHBAY_PORT_GROUP_STEREO = 0x04 # A mid-side stereo group, where the 1st port is center and the 2nd is side. PATCHBAY_PORT_GROUP_MID_SIDE = 0x08 # --------------------------------------------------------------------------------------------------------------------- # Custom Data Types # These types define how the value in the CustomData struct is stored. # @see CustomData.type # Boolean string type URI. # Only "true" and "false" are valid values. CUSTOM_DATA_TYPE_BOOLEAN = "http://kxstudio.sf.net/ns/carla/boolean" # Chunk type URI. CUSTOM_DATA_TYPE_CHUNK = "http://kxstudio.sf.net/ns/carla/chunk" # Property type URI. CUSTOM_DATA_TYPE_PROPERTY = "http://kxstudio.sf.net/ns/carla/property" # String type URI. CUSTOM_DATA_TYPE_STRING = "http://kxstudio.sf.net/ns/carla/string" # --------------------------------------------------------------------------------------------------------------------- # Custom Data Keys # Pre-defined keys used internally in Carla. # @see CustomData.key # Plugin options key. CUSTOM_DATA_KEY_PLUGIN_OPTIONS = "CarlaPluginOptions" # UI position key. CUSTOM_DATA_KEY_UI_POSITION = "CarlaUiPosition" # UI size key. CUSTOM_DATA_KEY_UI_SIZE = "CarlaUiSize" # UI visible key. CUSTOM_DATA_KEY_UI_VISIBLE = "CarlaUiVisible" # --------------------------------------------------------------------------------------------------------------------- # Binary Type # The binary type of a plugin. # Null binary type. BINARY_NONE = 0 # POSIX 32bit binary. BINARY_POSIX32 = 1 # POSIX 64bit binary. BINARY_POSIX64 = 2 # Windows 32bit binary. BINARY_WIN32 = 3 # Windows 64bit binary. BINARY_WIN64 = 4 # Other binary type. BINARY_OTHER = 5 # --------------------------------------------------------------------------------------------------------------------- # File Type # File type. # Null file type. FILE_NONE = 0 # Audio file. FILE_AUDIO = 1 # MIDI file. FILE_MIDI = 2 # --------------------------------------------------------------------------------------------------------------------- # Plugin Type # Plugin type. # Some files are handled as if they were plugins. # Null plugin type. PLUGIN_NONE = 0 # Internal plugin. PLUGIN_INTERNAL = 1 # LADSPA plugin. PLUGIN_LADSPA = 2 # DSSI plugin. PLUGIN_DSSI = 3 # LV2 plugin. PLUGIN_LV2 = 4 # VST2 plugin. PLUGIN_VST2 = 5 # VST3 plugin. # @note Windows and MacOS only PLUGIN_VST3 = 6 # AU plugin. # @note MacOS only PLUGIN_AU = 7 # DLS file. PLUGIN_DLS = 8 # GIG file. PLUGIN_GIG = 9 # SF2/3 file (SoundFont). PLUGIN_SF2 = 10 # SFZ file. PLUGIN_SFZ = 11 # JACK application. PLUGIN_JACK = 12 # JSFX plugin. PLUGIN_JSFX = 13 # --------------------------------------------------------------------------------------------------------------------- # Plugin Category # Plugin category, which describes the functionality of a plugin. # Null plugin category. PLUGIN_CATEGORY_NONE = 0 # A synthesizer or generator. PLUGIN_CATEGORY_SYNTH = 1 # A delay or reverb. PLUGIN_CATEGORY_DELAY = 2 # An equalizer. PLUGIN_CATEGORY_EQ = 3 # A filter. PLUGIN_CATEGORY_FILTER = 4 # A distortion plugin. PLUGIN_CATEGORY_DISTORTION = 5 # A 'dynamic' plugin (amplifier, compressor, gate, etc). PLUGIN_CATEGORY_DYNAMICS = 6 # A 'modulator' plugin (chorus, flanger, phaser, etc). PLUGIN_CATEGORY_MODULATOR = 7 # An 'utility' plugin (analyzer, converter, mixer, etc). PLUGIN_CATEGORY_UTILITY = 8 # Miscellaneous plugin (used to check if the plugin has a category). PLUGIN_CATEGORY_OTHER = 9 # --------------------------------------------------------------------------------------------------------------------- # Parameter Type # Plugin parameter type. # Null parameter type. PARAMETER_UNKNOWN = 0 # Input parameter. PARAMETER_INPUT = 1 # Output parameter. PARAMETER_OUTPUT = 2 # --------------------------------------------------------------------------------------------------------------------- # Internal Parameter Index # Special parameters used internally in Carla. # Plugins do not know about their existence. # Null parameter. PARAMETER_NULL = -1 # Active parameter, boolean type. # Default is 'false'. PARAMETER_ACTIVE = -2 # Dry/Wet parameter. # Range 0.0...1.0; default is 1.0. PARAMETER_DRYWET = -3 # Volume parameter. # Range 0.0...1.27; default is 1.0. PARAMETER_VOLUME = -4 # Stereo Balance-Left parameter. # Range -1.0...1.0; default is -1.0. PARAMETER_BALANCE_LEFT = -5 # Stereo Balance-Right parameter. # Range -1.0...1.0; default is 1.0. PARAMETER_BALANCE_RIGHT = -6 # Mono Panning parameter. # Range -1.0...1.0; default is 0.0. PARAMETER_PANNING = -7 # MIDI Control channel, integer type. # Range -1...15 (-1 = off). PARAMETER_CTRL_CHANNEL = -8 # Max value, defined only for convenience. PARAMETER_MAX = -9 # --------------------------------------------------------------------------------------------------------------------- # Special Mapped Control Index # Specially designated mapped control indexes. # Values between 0 and 119 (0x77) are reserved for MIDI CC, which uses direct values. # @see ParameterData::mappedControlIndex # Unused control index, meaning no mapping is enabled. CONTROL_INDEX_NONE = -1 # CV control index, meaning the parameter is exposed as CV port. CONTROL_INDEX_CV = 130 # Special value to indicate MIDI pitchbend. CONTROL_INDEX_MIDI_PITCHBEND = 131 # Special value to indicate MIDI learn. CONTROL_INDEX_MIDI_LEARN = 132 # Special value to indicate MIDI pitchbend. CONTROL_INDEX_MAX_ALLOWED = CONTROL_INDEX_MIDI_LEARN # --------------------------------------------------------------------------------------------------------------------- # Engine Callback Opcode # Engine callback opcodes. # Front-ends must never block indefinitely during a callback. # @see EngineCallbackFunc and carla_set_engine_callback() # Debug. # This opcode is undefined and used only for testing purposes. ENGINE_CALLBACK_DEBUG = 0 # A plugin has been added. # @a pluginId Plugin Id # @a valueStr Plugin name ENGINE_CALLBACK_PLUGIN_ADDED = 1 # A plugin has been removed. # @a pluginId Plugin Id ENGINE_CALLBACK_PLUGIN_REMOVED = 2 # A plugin has been renamed. # @a pluginId Plugin Id # @a valueStr New plugin name ENGINE_CALLBACK_PLUGIN_RENAMED = 3 # A plugin has become unavailable. # @a pluginId Plugin Id # @a valueStr Related error string ENGINE_CALLBACK_PLUGIN_UNAVAILABLE = 4 # A parameter value has changed. # @a pluginId Plugin Id # @a value1 Parameter index # @a valuef New parameter value ENGINE_CALLBACK_PARAMETER_VALUE_CHANGED = 5 # A parameter default has changed. # @a pluginId Plugin Id # @a value1 Parameter index # @a valuef New default value ENGINE_CALLBACK_PARAMETER_DEFAULT_CHANGED = 6 # A parameter's mapped control index has changed. # @a pluginId Plugin Id # @a value1 Parameter index # @a value2 New control index ENGINE_CALLBACK_PARAMETER_MAPPED_CONTROL_INDEX_CHANGED = 7 # A parameter's MIDI channel has changed. # @a pluginId Plugin Id # @a value1 Parameter index # @a value2 New MIDI channel ENGINE_CALLBACK_PARAMETER_MIDI_CHANNEL_CHANGED = 8 # A plugin option has changed. # @a pluginId Plugin Id # @a value1 Option # @a value2 New on/off state (1 for on, 0 for off) # @see PluginOptions ENGINE_CALLBACK_OPTION_CHANGED = 9 # The current program of a plugin has changed. # @a pluginId Plugin Id # @a value1 New program index ENGINE_CALLBACK_PROGRAM_CHANGED = 10 # The current MIDI program of a plugin has changed. # @a pluginId Plugin Id # @a value1 New MIDI program index ENGINE_CALLBACK_MIDI_PROGRAM_CHANGED = 11 # A plugin's custom UI state has changed. # @a pluginId Plugin Id # @a value1 New state, as follows: # 0: UI is now hidden # 1: UI is now visible # -1: UI has crashed and should not be shown again ENGINE_CALLBACK_UI_STATE_CHANGED = 12 # A note has been pressed. # @a pluginId Plugin Id # @a value1 Channel # @a value2 Note # @a value3 Velocity ENGINE_CALLBACK_NOTE_ON = 13 # A note has been released. # @a pluginId Plugin Id # @a value1 Channel # @a value2 Note ENGINE_CALLBACK_NOTE_OFF = 14 # A plugin needs update. # @a pluginId Plugin Id ENGINE_CALLBACK_UPDATE = 15 # A plugin's data/information has changed. # @a pluginId Plugin Id ENGINE_CALLBACK_RELOAD_INFO = 16 # A plugin's parameters have changed. # @a pluginId Plugin Id ENGINE_CALLBACK_RELOAD_PARAMETERS = 17 # A plugin's programs have changed. # @a pluginId Plugin Id ENGINE_CALLBACK_RELOAD_PROGRAMS = 18 # A plugin state has changed. # @a pluginId Plugin Id ENGINE_CALLBACK_RELOAD_ALL = 19 # A patchbay client has been added. # @a pluginId Client Id # @a value1 Client icon # @a value2 Plugin Id (-1 if not a plugin) # @a valueStr Client name # @see PatchbayIcon ENGINE_CALLBACK_PATCHBAY_CLIENT_ADDED = 20 # A patchbay client has been removed. # @a pluginId Client Id ENGINE_CALLBACK_PATCHBAY_CLIENT_REMOVED = 21 # A patchbay client has been renamed. # @a pluginId Client Id # @a valueStr New client name ENGINE_CALLBACK_PATCHBAY_CLIENT_RENAMED = 22 # A patchbay client data has changed. # @a pluginId Client Id # @a value1 New icon # @a value2 New plugin Id (-1 if not a plugin) # @see PatchbayIcon ENGINE_CALLBACK_PATCHBAY_CLIENT_DATA_CHANGED = 23 # A patchbay port has been added. # @a pluginId Client Id # @a value1 Port Id # @a value2 Port hints # @a value3 Port group Id (0 for none) # @a valueStr Port name # @see PatchbayPortHints ENGINE_CALLBACK_PATCHBAY_PORT_ADDED = 24 # A patchbay port has been removed. # @a pluginId Client Id # @a value1 Port Id ENGINE_CALLBACK_PATCHBAY_PORT_REMOVED = 25 # A patchbay port has changed (like the name or group Id). # @a pluginId Client Id # @a value1 Port Id # @a value2 Port hints # @a value3 Port group Id (0 for none) # @a valueStr New port name ENGINE_CALLBACK_PATCHBAY_PORT_CHANGED = 26 # A patchbay connection has been added. # @a pluginId Connection Id # @a valueStr Out group, port plus in group and port, in "og:op:ig:ip" syntax. ENGINE_CALLBACK_PATCHBAY_CONNECTION_ADDED = 27 # A patchbay connection has been removed. # @a pluginId Connection Id ENGINE_CALLBACK_PATCHBAY_CONNECTION_REMOVED = 28 # Engine started. # @a pluginId How many plugins are known to be running # @a value1 Process mode # @a value2 Transport mode # @a value3 Buffer size # @a valuef Sample rate # @a valuestr Engine driver # @see EngineProcessMode # @see EngineTransportMode ENGINE_CALLBACK_ENGINE_STARTED = 29 # Engine stopped. ENGINE_CALLBACK_ENGINE_STOPPED = 30 # Engine process mode has changed. # @a value1 New process mode # @see EngineProcessMode ENGINE_CALLBACK_PROCESS_MODE_CHANGED = 31 # Engine transport mode has changed. # @a value1 New transport mode # @a valueStr New transport features enabled # @see EngineTransportMode ENGINE_CALLBACK_TRANSPORT_MODE_CHANGED = 32 # Engine buffer-size changed. # @a value1 New buffer size ENGINE_CALLBACK_BUFFER_SIZE_CHANGED = 33 # Engine sample-rate changed. # @a valuef New sample rate ENGINE_CALLBACK_SAMPLE_RATE_CHANGED = 34 # A cancelable action has been started or stopped. # @a pluginId Plugin Id the action relates to, -1 for none # @a value1 1 for action started, 0 for stopped # @a valueStr Action name ENGINE_CALLBACK_CANCELABLE_ACTION = 35 # Project has finished loading. ENGINE_CALLBACK_PROJECT_LOAD_FINISHED = 36 # NSM callback. # Frontend must call carla_nsm_ready() with opcode as parameter as a response # @a value1 NSM opcode # @a value2 Integer value # @a valueStr String value # @see NsmCallbackOpcode ENGINE_CALLBACK_NSM = 37 # Idle frontend. # This is used by the engine during long operations that might block the frontend, # giving it the possibility to idle while the operation is still in place. ENGINE_CALLBACK_IDLE = 38 # Show a message as information. # @a valueStr The message ENGINE_CALLBACK_INFO = 39 # Show a message as an error. # @a valueStr The message ENGINE_CALLBACK_ERROR = 40 # The engine has crashed or malfunctioned and will no longer work. ENGINE_CALLBACK_QUIT = 41 # A plugin requested for its inline display to be redrawn. # @a pluginId Plugin Id to redraw ENGINE_CALLBACK_INLINE_DISPLAY_REDRAW = 42 # A patchbay port group has been added. # @a pluginId Client Id # @a value1 Group Id (unique within this client) # @a value2 Group hints # @a valueStr Group name # @see PatchbayPortGroupHints ENGINE_CALLBACK_PATCHBAY_PORT_GROUP_ADDED = 43 # A patchbay port group has been removed. # @a pluginId Client Id # @a value1 Group Id (unique within this client) ENGINE_CALLBACK_PATCHBAY_PORT_GROUP_REMOVED = 44 # A patchbay port group has changed. # @a pluginId Client Id # @a value1 Group Id (unique within this client) # @a value2 Group hints # @a valueStr Group name # @see PatchbayPortGroupHints ENGINE_CALLBACK_PATCHBAY_PORT_GROUP_CHANGED = 45 # A parameter's mapped range has changed. # @a pluginId Plugin Id # @a value1 Parameter index # @a valueStr New mapped range as "%f:%f" syntax ENGINE_CALLBACK_PARAMETER_MAPPED_RANGE_CHANGED = 46 # A patchbay client position has changed. # @a pluginId Client Id # @a value1 X position 1 # @a value2 Y position 1 # @a value3 X position 2 # @a valuef Y position 2 ENGINE_CALLBACK_PATCHBAY_CLIENT_POSITION_CHANGED = 47 # --------------------------------------------------------------------------------------------------------------------- # NSM Callback Opcode # NSM callback opcodes. # @see ENGINE_CALLBACK_NSM # NSM is available and initialized. NSM_CALLBACK_INIT = 0 # Error from NSM side. # @a valueInt Error code # @a valueStr Error string NSM_CALLBACK_ERROR = 1 # Announce message. # @a valueInt SM Flags (WIP, to be defined) # @a valueStr SM Name NSM_CALLBACK_ANNOUNCE = 2 # Open message. # @a valueStr Project filename NSM_CALLBACK_OPEN = 3 # Save message. NSM_CALLBACK_SAVE = 4 # Session-is-loaded message. NSM_CALLBACK_SESSION_IS_LOADED = 5 # Show-optional-gui message. NSM_CALLBACK_SHOW_OPTIONAL_GUI = 6 # Hide-optional-gui message. NSM_CALLBACK_HIDE_OPTIONAL_GUI = 7 # Set client name id message. NSM_CALLBACK_SET_CLIENT_NAME_ID = 8 # --------------------------------------------------------------------------------------------------------------------- # Engine Option # Engine options. # @see carla_set_engine_option() # Debug. # This option is undefined and used only for testing purposes. ENGINE_OPTION_DEBUG = 0 # Set the engine processing mode. # Default is ENGINE_PROCESS_MODE_MULTIPLE_CLIENTS on Linux and ENGINE_PROCESS_MODE_CONTINUOUS_RACK for all other OSes. # @see EngineProcessMode ENGINE_OPTION_PROCESS_MODE = 1 # Set the engine transport mode. # Default is ENGINE_TRANSPORT_MODE_JACK on Linux and ENGINE_TRANSPORT_MODE_INTERNAL for all other OSes. # @see EngineTransportMode ENGINE_OPTION_TRANSPORT_MODE = 2 # Force mono plugins as stereo, by running 2 instances at the same time. # Default is false, but always true when process mode is ENGINE_PROCESS_MODE_CONTINUOUS_RACK. # @note Not supported by all plugins # @see PLUGIN_OPTION_FORCE_STEREO ENGINE_OPTION_FORCE_STEREO = 3 # Use plugin bridges whenever possible. # Default is no, EXPERIMENTAL. ENGINE_OPTION_PREFER_PLUGIN_BRIDGES = 4 # Use UI bridges whenever possible, otherwise UIs will be directly handled in the main backend thread. # Default is yes. ENGINE_OPTION_PREFER_UI_BRIDGES = 5 # Make custom plugin UIs always-on-top. # Default is yes. ENGINE_OPTION_UIS_ALWAYS_ON_TOP = 6 # Maximum number of parameters allowed. # Default is MAX_DEFAULT_PARAMETERS. ENGINE_OPTION_MAX_PARAMETERS = 7 # Reset Xrun counter after project load. ENGINE_OPTION_RESET_XRUNS = 8 # Timeout value for how much to wait for UI bridges to respond, in milliseconds. # Default is 4000 (4 seconds). ENGINE_OPTION_UI_BRIDGES_TIMEOUT = 9 # Audio buffer size. # Default is 512. ENGINE_OPTION_AUDIO_BUFFER_SIZE = 10 # Audio sample rate. # Default is 44100. ENGINE_OPTION_AUDIO_SAMPLE_RATE = 11 # Wherever to use 3 audio periods instead of the default 2. # Default is false. ENGINE_OPTION_AUDIO_TRIPLE_BUFFER = 12 # Audio driver. # Default dppends on platform. ENGINE_OPTION_AUDIO_DRIVER = 13 # Audio device (within a driver). # Default unset. ENGINE_OPTION_AUDIO_DEVICE = 14 # Wherever to enable OSC support in the engine. ENGINE_OPTION_OSC_ENABLED = 15 # The network TCP port to use for OSC. # A value of 0 means use a random port. # A value of < 0 means to not enable the TCP port for OSC. # @note Valid ports begin at 1024 and end at 32767 (inclusive) ENGINE_OPTION_OSC_PORT_TCP = 16 # The network UDP port to use for OSC. # A value of 0 means use a random port. # A value of < 0 means to not enable the UDP port for OSC. # @note Disabling this option prevents DSSI UIs from working! # @note Valid ports begin at 1024 and end at 32767 (inclusive) ENGINE_OPTION_OSC_PORT_UDP = 17 # Set path used for a specific file type. # Uses value as the file format, valueStr as actual path. ENGINE_OPTION_FILE_PATH = 18 # Set path used for a specific plugin type. # Uses value as the plugin format, valueStr as actual path. # @see PluginType ENGINE_OPTION_PLUGIN_PATH = 19 # Set path to the binary files. # Default unset. # @note Must be set for plugin and UI bridges to work ENGINE_OPTION_PATH_BINARIES = 20 # Set path to the resource files. # Default unset. # @note Must be set for some internal plugins to work ENGINE_OPTION_PATH_RESOURCES = 21 # Prevent bad plugin and UI behaviour. # @note: Linux only ENGINE_OPTION_PREVENT_BAD_BEHAVIOUR = 22 # Set background color used in the frontend, so backend can do the same for plugin UIs. ENGINE_OPTION_FRONTEND_BACKGROUND_COLOR = 23 # Set foreground color used in the frontend, so backend can do the same for plugin UIs. ENGINE_OPTION_FRONTEND_FOREGROUND_COLOR = 24 # Set UI scaling used in the frontend, so backend can do the same for plugin UIs. ENGINE_OPTION_FRONTEND_UI_SCALE = 25 # Set frontend winId, used to define as parent window for plugin UIs. ENGINE_OPTION_FRONTEND_WIN_ID = 26 # Set path to wine executable. ENGINE_OPTION_WINE_EXECUTABLE = 27 # Enable automatic wineprefix detection. ENGINE_OPTION_WINE_AUTO_PREFIX = 28 # Fallback wineprefix to use if automatic detection fails or is disabled, and WINEPREFIX is not set. ENGINE_OPTION_WINE_FALLBACK_PREFIX = 29 # Enable realtime priority for Wine application and server threads. ENGINE_OPTION_WINE_RT_PRIO_ENABLED = 30 # Base realtime priority for Wine threads. ENGINE_OPTION_WINE_BASE_RT_PRIO = 31 # Wine server realtime priority. ENGINE_OPTION_WINE_SERVER_RT_PRIO = 32 # Capture console output into debug callbacks ENGINE_OPTION_DEBUG_CONSOLE_OUTPUT = 33 # A prefix to give to all plugin clients created by Carla. # Mostly useful for JACK multi-client mode. # @note MUST include at least one "." (dot). ENGINE_OPTION_CLIENT_NAME_PREFIX = 34 # Treat loaded plugins as standalone (that is, there is no host UI to manage them) ENGINE_OPTION_PLUGINS_ARE_STANDALONE = 35 # --------------------------------------------------------------------------------------------------------------------- # Engine Process Mode # Engine process mode. # @see ENGINE_OPTION_PROCESS_MODE # Single client mode. # Inputs and outputs are added dynamically as needed by plugins. ENGINE_PROCESS_MODE_SINGLE_CLIENT = 0 # Multiple client mode. # It has 1 master client + 1 client per plugin. ENGINE_PROCESS_MODE_MULTIPLE_CLIENTS = 1 # Single client, 'rack' mode. # Processes plugins in order of Id, with forced stereo always on. ENGINE_PROCESS_MODE_CONTINUOUS_RACK = 2 # Single client, 'patchbay' mode. ENGINE_PROCESS_MODE_PATCHBAY = 3 # Special mode, used in plugin-bridges only. ENGINE_PROCESS_MODE_BRIDGE = 4 # --------------------------------------------------------------------------------------------------------------------- # Engine Transport Mode # Engine transport mode. # @see ENGINE_OPTION_TRANSPORT_MODE # No transport. ENGINE_TRANSPORT_MODE_DISABLED = 0 # Internal transport mode. ENGINE_TRANSPORT_MODE_INTERNAL = 1 # Transport from JACK. # Only available if driver name is "JACK". ENGINE_TRANSPORT_MODE_JACK = 2 # Transport from host, used when Carla is a plugin. ENGINE_TRANSPORT_MODE_PLUGIN = 3 # Special mode, used in plugin-bridges only. ENGINE_TRANSPORT_MODE_BRIDGE = 4 # --------------------------------------------------------------------------------------------------------------------- # File Callback Opcode # File callback opcodes. # Front-ends must always block-wait for user input. # @see FileCallbackFunc and carla_set_file_callback() # Debug. # This opcode is undefined and used only for testing purposes. FILE_CALLBACK_DEBUG = 0 # Open file or folder. FILE_CALLBACK_OPEN = 1 # Save file or folder. FILE_CALLBACK_SAVE = 2 # --------------------------------------------------------------------------------------------------------------------- # Patchbay Icon # The icon of a patchbay client/group. # Generic application icon. # Used for all non-plugin clients that don't have a specific icon. PATCHBAY_ICON_APPLICATION = 0 # Plugin icon. # Used for all plugin clients that don't have a specific icon. PATCHBAY_ICON_PLUGIN = 1 # Hardware icon. # Used for hardware (audio or MIDI) clients. PATCHBAY_ICON_HARDWARE = 2 # Carla icon. # Used for the main app. PATCHBAY_ICON_CARLA = 3 # DISTRHO icon. # Used for DISTRHO based plugins. PATCHBAY_ICON_DISTRHO = 4 # File icon. # Used for file type plugins (like SF2 and SFZ). PATCHBAY_ICON_FILE = 5 # --------------------------------------------------------------------------------------------------------------------- # Carla Backend API (C stuff) # Engine callback function. # Front-ends must never block indefinitely during a callback. # @see EngineCallbackOpcode and carla_set_engine_callback() EngineCallbackFunc = CFUNCTYPE(None, c_void_p, c_enum, c_uint, c_int, c_int, c_int, c_float, c_char_p) # File callback function. # @see FileCallbackOpcode FileCallbackFunc = CFUNCTYPE(c_char_p, c_void_p, c_enum, c_bool, c_char_p, c_char_p) # Parameter data. class ParameterData(Structure): _fields_ = [ # This parameter type. ("type", c_enum), # This parameter hints. # @see ParameterHints ("hints", c_uint), # Index as seen by Carla. ("index", c_int32), # Real index as seen by plugins. ("rindex", c_int32), # Currently mapped MIDI channel. # Counts from 0 to 15. ("midiChannel", c_uint8), # Currently mapped index. # @see SpecialMappedControlIndex ("mappedControlIndex", c_int16), # Minimum value that this parameter maps to. ("mappedMinimum", c_float), # Maximum value that this parameter maps to. ("mappedMaximum", c_float), # Flags related to the current mapping of this parameter. # @see MappedParameterFlags ("mappedFlags", c_uint) ] # Parameter ranges. class ParameterRanges(Structure): _fields_ = [ # Default value. ("def", c_float), # Minimum value. ("min", c_float), # Maximum value. ("max", c_float), # Regular, single step value. ("step", c_float), # Small step value. ("stepSmall", c_float), # Large step value. ("stepLarge", c_float) ] # MIDI Program data. class MidiProgramData(Structure): _fields_ = [ # MIDI bank. ("bank", c_uint32), # MIDI program. ("program", c_uint32), # MIDI program name. ("name", c_char_p) ] # Custom data, used for saving key:value 'dictionaries'. class CustomData(Structure): _fields_ = [ # Value type, in URI form. # @see CustomDataTypes ("type", c_char_p), # Key. # @see CustomDataKeys ("key", c_char_p), # Value. ("value", c_char_p) ] # Engine driver device information. class EngineDriverDeviceInfo(Structure): _fields_ = [ # This driver device hints. # @see EngineDriverHints ("hints", c_uint), # Available buffer sizes. # Terminated with 0. ("bufferSizes", POINTER(c_uint32)), # Available sample rates. # Terminated with 0.0. ("sampleRates", POINTER(c_double)) ] # --------------------------------------------------------------------------------------------------------------------- # Carla Backend API (Python compatible stuff) # @see ParameterData PyParameterData = { 'type': PARAMETER_UNKNOWN, 'hints': 0x0, 'index': PARAMETER_NULL, 'rindex': -1, 'midiChannel': 0, 'mappedControlIndex': CONTROL_INDEX_NONE, 'mappedMinimum': 0.0, 'mappedMaximum': 0.0, 'mappedFlags': 0x0, } # @see ParameterRanges PyParameterRanges = { 'def': 0.0, 'min': 0.0, 'max': 1.0, 'step': 0.01, 'stepSmall': 0.0001, 'stepLarge': 0.1 } # @see MidiProgramData PyMidiProgramData = { 'bank': 0, 'program': 0, 'name': None } # @see CustomData PyCustomData = { 'type': None, 'key': None, 'value': None } # @see EngineDriverDeviceInfo PyEngineDriverDeviceInfo = { 'hints': 0x0, 'bufferSizes': [], 'sampleRates': [] } # --------------------------------------------------------------------------------------------------------------------- # Carla Host API (C stuff) # Information about a loaded plugin. # @see carla_get_plugin_info() class CarlaPluginInfo(Structure): _fields_ = [ # Plugin type. ("type", c_enum), # Plugin category. ("category", c_enum), # Plugin hints. # @see PluginHints ("hints", c_uint), # Plugin options available for the user to change. # @see PluginOptions ("optionsAvailable", c_uint), # Plugin options currently enabled. # Some options are enabled but not available, which means they will always be on. # @see PluginOptions ("optionsEnabled", c_uint), # Plugin filename. # This can be the plugin binary or resource file. ("filename", c_char_p), # Plugin name. # This name is unique within a Carla instance. # @see carla_get_real_plugin_name() ("name", c_char_p), # Plugin label or URI. ("label", c_char_p), # Plugin author/maker. ("maker", c_char_p), # Plugin copyright/license. ("copyright", c_char_p), # Icon name for this plugin, in lowercase. # Default is "plugin". ("iconName", c_char_p), # Plugin unique Id. # This Id is dependent on the plugin type and may sometimes be 0. ("uniqueId", c_int64) ] # Port count information, used for Audio and MIDI ports and parameters. # @see carla_get_audio_port_count_info() # @see carla_get_midi_port_count_info() # @see carla_get_parameter_count_info() class CarlaPortCountInfo(Structure): _fields_ = [ # Number of inputs. ("ins", c_uint32), # Number of outputs. ("outs", c_uint32) ] # Parameter information. # @see carla_get_parameter_info() class CarlaParameterInfo(Structure): _fields_ = [ # Parameter name. ("name", c_char_p), # Parameter symbol. ("symbol", c_char_p), # Parameter unit. ("unit", c_char_p), # Parameter comment / documentation. ("comment", c_char_p), # Parameter group name. ("groupName", c_char_p), # Number of scale points. # @see CarlaScalePointInfo ("scalePointCount", c_uint32) ] # Parameter scale point information. # @see carla_get_parameter_scalepoint_info() class CarlaScalePointInfo(Structure): _fields_ = [ # Scale point value. ("value", c_float), # Scale point label. ("label", c_char_p) ] # Transport information. # @see carla_get_transport_info() class CarlaTransportInfo(Structure): _fields_ = [ # Wherever transport is playing. ("playing", c_bool), # Current transport frame. ("frame", c_uint64), # Bar ("bar", c_int32), # Beat ("beat", c_int32), # Tick ("tick", c_int32), # Beats per minute. ("bpm", c_double) ] # Runtime engine information. class CarlaRuntimeEngineInfo(Structure): _fields_ = [ # DSP load. ("load", c_float), # Number of xruns. ("xruns", c_uint32) ] # Runtime engine driver device information. class CarlaRuntimeEngineDriverDeviceInfo(Structure): _fields_ = [ # Name of the driver device. ("name", c_char_p), # This driver device hints. # @see EngineDriverHints ("hints", c_uint), # Current buffer size. ("bufferSize", c_uint32), # Available buffer sizes. # Terminated with 0. ("bufferSizes", POINTER(c_uint32)), # Current sample rate. ("sampleRate", c_double), # Available sample rates. # Terminated with 0.0. ("sampleRates", POINTER(c_double)) ] # Image data for LV2 inline display API. # raw image pixmap format is ARGB32, class CarlaInlineDisplayImageSurface(Structure): _fields_ = [ ("data", POINTER(c_ubyte)), ("width", c_int), ("height", c_int), ("stride", c_int) ] # --------------------------------------------------------------------------------------------------------------------- # Carla Host API (Python compatible stuff) # @see CarlaPluginInfo PyCarlaPluginInfo = { 'type': PLUGIN_NONE, 'category': PLUGIN_CATEGORY_NONE, 'hints': 0x0, 'optionsAvailable': 0x0, 'optionsEnabled': 0x0, 'filename': "", 'name': "", 'label': "", 'maker': "", 'copyright': "", 'iconName': "", 'uniqueId': 0 } # @see CarlaPortCountInfo PyCarlaPortCountInfo = { 'ins': 0, 'outs': 0 } # @see CarlaParameterInfo PyCarlaParameterInfo = { 'name': "", 'symbol': "", 'unit': "", 'comment': "", 'groupName': "", 'scalePointCount': 0, } # @see CarlaScalePointInfo PyCarlaScalePointInfo = { 'value': 0.0, 'label': "" } # @see CarlaTransportInfo PyCarlaTransportInfo = { 'playing': False, 'frame': 0, 'bar': 0, 'beat': 0, 'tick': 0, 'bpm': 0.0 } # @see CarlaRuntimeEngineInfo PyCarlaRuntimeEngineInfo = { 'load': 0.0, 'xruns': 0 } # @see CarlaRuntimeEngineDriverDeviceInfo PyCarlaRuntimeEngineDriverDeviceInfo = { 'name': "", 'hints': 0x0, 'bufferSize': 0, 'bufferSizes': [], 'sampleRate': 0.0, 'sampleRates': [] } # --------------------------------------------------------------------------------------------------------------------- # Set BINARY_NATIVE if WINDOWS: BINARY_NATIVE = BINARY_WIN64 if kIs64bit else BINARY_WIN32 else: BINARY_NATIVE = BINARY_POSIX64 if kIs64bit else BINARY_POSIX32 # --------------------------------------------------------------------------------------------------------------------- # Carla Host object (Meta) class CarlaHostMeta(): def __init__(self): # info about this host object self.isControl = False self.isPlugin = False self.isRemote = False self.nsmOK = False # settings self.processMode = ENGINE_PROCESS_MODE_PATCHBAY self.transportMode = ENGINE_TRANSPORT_MODE_INTERNAL self.transportExtra = "" self.nextProcessMode = self.processMode self.processModeForced = False self.audioDriverForced = None # settings self.experimental = False self.exportLV2 = False self.forceStereo = False self.manageUIs = False self.maxParameters = 0 self.resetXruns = False self.preferPluginBridges = False self.preferUIBridges = False self.preventBadBehaviour = False self.showLogs = False self.showPluginBridges = False self.showWineBridges = False self.uiBridgesTimeout = 0 self.uisAlwaysOnTop = False # settings self.pathBinaries = "" self.pathResources = "" # Get how many engine drivers are available. @abstractmethod def get_engine_driver_count(self): raise NotImplementedError # Get an engine driver name. # @param index Driver index @abstractmethod def get_engine_driver_name(self, index): raise NotImplementedError # Get the device names of an engine driver. # @param index Driver index @abstractmethod def get_engine_driver_device_names(self, index): raise NotImplementedError # Get information about a device driver. # @param index Driver index # @param name Device name @abstractmethod def get_engine_driver_device_info(self, index, name): raise NotImplementedError # Show a device custom control panel. # @see ENGINE_DRIVER_DEVICE_HAS_CONTROL_PANEL # @param index Driver index # @param name Device name @abstractmethod def show_engine_driver_device_control_panel(self, index, name): raise NotImplementedError # Initialize the engine. # Make sure to call carla_engine_idle() at regular intervals afterwards. # @param driverName Driver to use # @param clientName Engine master client name @abstractmethod def engine_init(self, driverName, clientName): raise NotImplementedError # Close the engine. # This function always closes the engine even if it returns false. # In other words, even when something goes wrong when closing the engine it still be closed nonetheless. @abstractmethod def engine_close(self): raise NotImplementedError # Idle the engine. # Do not call this if the engine is not running. @abstractmethod def engine_idle(self): raise NotImplementedError # Check if the engine is running. @abstractmethod def is_engine_running(self): raise NotImplementedError # Get information about the currently running engine. @abstractmethod def get_runtime_engine_info(self): raise NotImplementedError # Get information about the currently running engine driver device. @abstractmethod def get_runtime_engine_driver_device_info(self): raise NotImplementedError # Dynamically change buffer size and/or sample rate while engine is running. # @see ENGINE_DRIVER_DEVICE_VARIABLE_BUFFER_SIZE # @see ENGINE_DRIVER_DEVICE_VARIABLE_SAMPLE_RATE def set_engine_buffer_size_and_sample_rate(self, bufferSize, sampleRate): raise NotImplementedError # Show the custom control panel for the current engine device. # @see ENGINE_DRIVER_DEVICE_HAS_CONTROL_PANEL def show_engine_device_control_panel(self): raise NotImplementedError # Clear the xrun count on the engine, so that the next time carla_get_runtime_engine_info() is called, it returns 0. @abstractmethod def clear_engine_xruns(self): raise NotImplementedError # Tell the engine to stop the current cancelable action. # @see ENGINE_CALLBACK_CANCELABLE_ACTION @abstractmethod def cancel_engine_action(self): raise NotImplementedError # Tell the engine it's about to close. # This is used to prevent the engine thread(s) from reactivating. @abstractmethod def set_engine_about_to_close(self): raise NotImplementedError # Set the engine callback function. # @param func Callback function @abstractmethod def set_engine_callback(self, func): raise NotImplementedError # Set an engine option. # @param option Option # @param value Value as number # @param valueStr Value as string @abstractmethod def set_engine_option(self, option, value, valueStr): raise NotImplementedError # Set the file callback function. # @param func Callback function # @param ptr Callback pointer @abstractmethod def set_file_callback(self, func): raise NotImplementedError # Load a file of any type. # This will try to load a generic file as a plugin, # either by direct handling (SF2 and SFZ) or by using an internal plugin (like Audio and MIDI). # @see carla_get_supported_file_extensions() @abstractmethod def load_file(self, filename): raise NotImplementedError # Load a Carla project file. # @note Currently loaded plugins are not removed; call carla_remove_all_plugins() first if needed. @abstractmethod def load_project(self, filename): raise NotImplementedError # Save current project to a file. @abstractmethod def save_project(self, filename): raise NotImplementedError # Clear the currently set project filename. @abstractmethod def clear_project_filename(self): raise NotImplementedError # Connect two patchbay ports. # @param groupIdA Output group # @param portIdA Output port # @param groupIdB Input group # @param portIdB Input port # @see ENGINE_CALLBACK_PATCHBAY_CONNECTION_ADDED @abstractmethod def patchbay_connect(self, external, groupIdA, portIdA, groupIdB, portIdB): raise NotImplementedError # Disconnect two patchbay ports. # @param connectionId Connection Id # @see ENGINE_CALLBACK_PATCHBAY_CONNECTION_REMOVED @abstractmethod def patchbay_disconnect(self, external, connectionId): raise NotImplementedError # Set the position of a group. # This is purely cached and saved in the project file, Carla backend does nothing with the value. # When loading a project, callbacks are used to inform of the previously saved positions. # @see ENGINE_CALLBACK_PATCHBAY_CLIENT_POSITION_CHANGED @abstractmethod def patchbay_set_group_pos(self, external, groupId, x1, y1, x2, y2): raise NotImplementedError # Force the engine to resend all patchbay clients, ports and connections again. # @param external Wherever to show external/hardware ports instead of internal ones. # Only valid in patchbay engine mode, other modes will ignore this. @abstractmethod def patchbay_refresh(self, external): raise NotImplementedError # Start playback of the engine transport. @abstractmethod def transport_play(self): raise NotImplementedError # Pause the engine transport. @abstractmethod def transport_pause(self): raise NotImplementedError # Pause the engine transport. @abstractmethod def transport_bpm(self, bpm): raise NotImplementedError # Relocate the engine transport to a specific frame. @abstractmethod def transport_relocate(self, frame): raise NotImplementedError # Get the current transport frame. @abstractmethod def get_current_transport_frame(self): raise NotImplementedError # Get the engine transport information. @abstractmethod def get_transport_info(self): raise NotImplementedError # Current number of plugins loaded. @abstractmethod def get_current_plugin_count(self): raise NotImplementedError # Maximum number of loadable plugins allowed. # Returns 0 if engine is not started. @abstractmethod def get_max_plugin_number(self): raise NotImplementedError # Add a new plugin. # If you don't know the binary type use the BINARY_NATIVE macro. # @param btype Binary type # @param ptype Plugin type # @param filename Filename, if applicable # @param name Name of the plugin, can be NULL # @param label Plugin label, if applicable # @param uniqueId Plugin unique Id, if applicable # @param extraPtr Extra pointer, defined per plugin type # @param options Initial plugin options @abstractmethod def add_plugin(self, btype, ptype, filename, name, label, uniqueId, extraPtr, options): raise NotImplementedError # Remove a plugin. # @param pluginId Plugin to remove. @abstractmethod def remove_plugin(self, pluginId): raise NotImplementedError # Remove all plugins. @abstractmethod def remove_all_plugins(self): raise NotImplementedError # Rename a plugin. # Returns the new name, or NULL if the operation failed. # @param pluginId Plugin to rename # @param newName New plugin name @abstractmethod def rename_plugin(self, pluginId, newName): raise NotImplementedError # Clone a plugin. # @param pluginId Plugin to clone @abstractmethod def clone_plugin(self, pluginId): raise NotImplementedError # Prepare replace of a plugin. # The next call to carla_add_plugin() will use this id, replacing the current plugin. # @param pluginId Plugin to replace # @note This function requires carla_add_plugin() to be called afterwards *as soon as possible*. @abstractmethod def replace_plugin(self, pluginId): raise NotImplementedError # Switch two plugins positions. # @param pluginIdA Plugin A # @param pluginIdB Plugin B @abstractmethod def switch_plugins(self, pluginIdA, pluginIdB): raise NotImplementedError # Load a plugin state. # @param pluginId Plugin # @param filename Path to plugin state # @see carla_save_plugin_state() @abstractmethod def load_plugin_state(self, pluginId, filename): raise NotImplementedError # Save a plugin state. # @param pluginId Plugin # @param filename Path to plugin state # @see carla_load_plugin_state() @abstractmethod def save_plugin_state(self, pluginId, filename): raise NotImplementedError # Export plugin as LV2. # @param pluginId Plugin # @param lv2path Path to lv2 plugin folder def export_plugin_lv2(self, pluginId, lv2path): raise NotImplementedError # Get information from a plugin. # @param pluginId Plugin @abstractmethod def get_plugin_info(self, pluginId): raise NotImplementedError # Get audio port count information from a plugin. # @param pluginId Plugin @abstractmethod def get_audio_port_count_info(self, pluginId): raise NotImplementedError # Get MIDI port count information from a plugin. # @param pluginId Plugin @abstractmethod def get_midi_port_count_info(self, pluginId): raise NotImplementedError # Get parameter count information from a plugin. # @param pluginId Plugin @abstractmethod def get_parameter_count_info(self, pluginId): raise NotImplementedError # Get parameter information from a plugin. # @param pluginId Plugin # @param parameterId Parameter index # @see carla_get_parameter_count() @abstractmethod def get_parameter_info(self, pluginId, parameterId): raise NotImplementedError # Get parameter scale point information from a plugin. # @param pluginId Plugin # @param parameterId Parameter index # @param scalePointId Parameter scale-point index # @see CarlaParameterInfo::scalePointCount @abstractmethod def get_parameter_scalepoint_info(self, pluginId, parameterId, scalePointId): raise NotImplementedError # Get a plugin's parameter data. # @param pluginId Plugin # @param parameterId Parameter index # @see carla_get_parameter_count() @abstractmethod def get_parameter_data(self, pluginId, parameterId): raise NotImplementedError # Get a plugin's parameter ranges. # @param pluginId Plugin # @param parameterId Parameter index # @see carla_get_parameter_count() @abstractmethod def get_parameter_ranges(self, pluginId, parameterId): raise NotImplementedError # Get a plugin's MIDI program data. # @param pluginId Plugin # @param midiProgramId MIDI Program index # @see carla_get_midi_program_count() @abstractmethod def get_midi_program_data(self, pluginId, midiProgramId): raise NotImplementedError # Get a plugin's custom data, using index. # @param pluginId Plugin # @param customDataId Custom data index # @see carla_get_custom_data_count() @abstractmethod def get_custom_data(self, pluginId, customDataId): raise NotImplementedError # Get a plugin's custom data value, using type and key. # @param pluginId Plugin # @param type Custom data type # @param key Custom data key # @see carla_get_custom_data_count() @abstractmethod def get_custom_data_value(self, pluginId, type_, key): raise NotImplementedError # Get a plugin's chunk data. # @param pluginId Plugin # @see PLUGIN_OPTION_USE_CHUNKS @abstractmethod def get_chunk_data(self, pluginId): raise NotImplementedError # Get how many parameters a plugin has. # @param pluginId Plugin @abstractmethod def get_parameter_count(self, pluginId): raise NotImplementedError # Get how many programs a plugin has. # @param pluginId Plugin # @see carla_get_program_name() @abstractmethod def get_program_count(self, pluginId): raise NotImplementedError # Get how many MIDI programs a plugin has. # @param pluginId Plugin # @see carla_get_midi_program_name() and carla_get_midi_program_data() @abstractmethod def get_midi_program_count(self, pluginId): raise NotImplementedError # Get how many custom data sets a plugin has. # @param pluginId Plugin # @see carla_get_custom_data() @abstractmethod def get_custom_data_count(self, pluginId): raise NotImplementedError # Get a plugin's parameter text (custom display of internal values). # @param pluginId Plugin # @param parameterId Parameter index # @see PARAMETER_USES_CUSTOM_TEXT @abstractmethod def get_parameter_text(self, pluginId, parameterId): raise NotImplementedError # Get a plugin's program name. # @param pluginId Plugin # @param programId Program index # @see carla_get_program_count() @abstractmethod def get_program_name(self, pluginId, programId): raise NotImplementedError # Get a plugin's MIDI program name. # @param pluginId Plugin # @param midiProgramId MIDI Program index # @see carla_get_midi_program_count() @abstractmethod def get_midi_program_name(self, pluginId, midiProgramId): raise NotImplementedError # Get a plugin's real name. # This is the name the plugin uses to identify itself; may not be unique. # @param pluginId Plugin @abstractmethod def get_real_plugin_name(self, pluginId): raise NotImplementedError # Get a plugin's program index. # @param pluginId Plugin @abstractmethod def get_current_program_index(self, pluginId): raise NotImplementedError # Get a plugin's midi program index. # @param pluginId Plugin @abstractmethod def get_current_midi_program_index(self, pluginId): raise NotImplementedError # Get a plugin's default parameter value. # @param pluginId Plugin # @param parameterId Parameter index @abstractmethod def get_default_parameter_value(self, pluginId, parameterId): raise NotImplementedError # Get a plugin's current parameter value. # @param pluginId Plugin # @param parameterId Parameter index @abstractmethod def get_current_parameter_value(self, pluginId, parameterId): raise NotImplementedError # Get a plugin's internal parameter value. # @param pluginId Plugin # @param parameterId Parameter index, maybe be negative # @see InternalParameterIndex @abstractmethod def get_internal_parameter_value(self, pluginId, parameterId): raise NotImplementedError # Get a plugin's input peak value. # @param pluginId Plugin # @param isLeft Wherever to get the left/mono value, otherwise right. @abstractmethod def get_input_peak_value(self, pluginId, isLeft): raise NotImplementedError # Get a plugin's output peak value. # @param pluginId Plugin # @param isLeft Wherever to get the left/mono value, otherwise right. @abstractmethod def get_output_peak_value(self, pluginId, isLeft): raise NotImplementedError # Render a plugin's inline display. # @param pluginId Plugin @abstractmethod def render_inline_display(self, pluginId, width, height): raise NotImplementedError # Enable a plugin's option. # @param pluginId Plugin # @param option An option from PluginOptions # @param yesNo New enabled state @abstractmethod def set_option(self, pluginId, option, yesNo): raise NotImplementedError # Enable or disable a plugin. # @param pluginId Plugin # @param onOff New active state @abstractmethod def set_active(self, pluginId, onOff): raise NotImplementedError # Change a plugin's internal dry/wet. # @param pluginId Plugin # @param value New dry/wet value @abstractmethod def set_drywet(self, pluginId, value): raise NotImplementedError # Change a plugin's internal volume. # @param pluginId Plugin # @param value New volume @abstractmethod def set_volume(self, pluginId, value): raise NotImplementedError # Change a plugin's internal stereo balance, left channel. # @param pluginId Plugin # @param value New value @abstractmethod def set_balance_left(self, pluginId, value): raise NotImplementedError # Change a plugin's internal stereo balance, right channel. # @param pluginId Plugin # @param value New value @abstractmethod def set_balance_right(self, pluginId, value): raise NotImplementedError # Change a plugin's internal mono panning value. # @param pluginId Plugin # @param value New value @abstractmethod def set_panning(self, pluginId, value): raise NotImplementedError # Change a plugin's internal control channel. # @param pluginId Plugin # @param channel New channel @abstractmethod def set_ctrl_channel(self, pluginId, channel): raise NotImplementedError # Change a plugin's parameter value. # @param pluginId Plugin # @param parameterId Parameter index # @param value New value @abstractmethod def set_parameter_value(self, pluginId, parameterId, value): raise NotImplementedError # Change a plugin's parameter mapped control index. # @param pluginId Plugin # @param parameterId Parameter index # @param cc New MIDI cc @abstractmethod def set_parameter_midi_channel(self, pluginId, parameterId, channel): raise NotImplementedError # Change a plugin's parameter MIDI channel. # @param pluginId Plugin # @param parameterId Parameter index # @param channel New control index @abstractmethod def set_parameter_mapped_control_index(self, pluginId, parameterId, index): raise NotImplementedError # Change a plugin's parameter mapped range. # @param pluginId Plugin # @param parameterId Parameter index # @param minimum New mapped minimum # @param maximum New mapped maximum @abstractmethod def set_parameter_mapped_range(self, pluginId, parameterId, minimum, maximum): raise NotImplementedError # Change a plugin's parameter in drag/touch mode state. # Usually happens from a UI when the user is moving a parameter with a mouse or similar input. # @param pluginId Plugin # @param parameterId Parameter index # @param touch New state @abstractmethod def set_parameter_touch(self, pluginId, parameterId, touch): raise NotImplementedError # Change a plugin's current program. # @param pluginId Plugin # @param programId New program @abstractmethod def set_program(self, pluginId, programId): raise NotImplementedError # Change a plugin's current MIDI program. # @param pluginId Plugin # @param midiProgramId New value @abstractmethod def set_midi_program(self, pluginId, midiProgramId): raise NotImplementedError # Set a plugin's custom data set. # @param pluginId Plugin # @param type Type # @param key Key # @param value New value # @see CustomDataTypes and CustomDataKeys @abstractmethod def set_custom_data(self, pluginId, type_, key, value): raise NotImplementedError # Set a plugin's chunk data. # @param pluginId Plugin # @param chunkData New chunk data # @see PLUGIN_OPTION_USE_CHUNKS and carla_get_chunk_data() @abstractmethod def set_chunk_data(self, pluginId, chunkData): raise NotImplementedError # Tell a plugin to prepare for save. # This should be called before saving custom data sets. # @param pluginId Plugin @abstractmethod def prepare_for_save(self, pluginId): raise NotImplementedError # Reset all plugin's parameters. # @param pluginId Plugin @abstractmethod def reset_parameters(self, pluginId): raise NotImplementedError # Randomize all plugin's parameters. # @param pluginId Plugin @abstractmethod def randomize_parameters(self, pluginId): raise NotImplementedError # Send a single note of a plugin. # If velocity is 0, note-off is sent; note-on otherwise. # @param pluginId Plugin # @param channel Note channel # @param note Note pitch # @param velocity Note velocity @abstractmethod def send_midi_note(self, pluginId, channel, note, velocity): raise NotImplementedError # Tell a plugin to show its own custom UI. # @param pluginId Plugin # @param yesNo New UI state, visible or not # @see PLUGIN_HAS_CUSTOM_UI @abstractmethod def show_custom_ui(self, pluginId, yesNo): raise NotImplementedError # Get the current engine buffer size. @abstractmethod def get_buffer_size(self): raise NotImplementedError # Get the current engine sample rate. @abstractmethod def get_sample_rate(self): raise NotImplementedError # Get the last error. @abstractmethod def get_last_error(self): raise NotImplementedError # Get the current engine OSC URL (TCP). @abstractmethod def get_host_osc_url_tcp(self): raise NotImplementedError # Get the current engine OSC URL (UDP). @abstractmethod def get_host_osc_url_udp(self): raise NotImplementedError # Initialize NSM (that is, announce ourselves to it). # Must be called as early as possible in the program's lifecycle. # Returns true if NSM is available and initialized correctly. @abstractmethod def nsm_init(self, pid, executableName): raise NotImplementedError # Respond to an NSM callback. @abstractmethod def nsm_ready(self, opcode): raise NotImplementedError # --------------------------------------------------------------------------------------------------------------------- # Carla Host object (dummy/null, does nothing) class CarlaHostNull(CarlaHostMeta): def __init__(self): CarlaHostMeta.__init__(self) self.fEngineCallback = None self.fFileCallback = None self.fEngineRunning = False def get_engine_driver_count(self): return 0 def get_engine_driver_name(self, index): return "" def get_engine_driver_device_names(self, index): return [] def get_engine_driver_device_info(self, index, name): return PyEngineDriverDeviceInfo def show_engine_driver_device_control_panel(self, index, name): return False def engine_init(self, driverName, clientName): self.fEngineRunning = True if self.fEngineCallback is not None: self.fEngineCallback(None, ENGINE_CALLBACK_ENGINE_STARTED, 0, self.processMode, self.transportMode, 0, 0.0, driverName) return True def engine_close(self): self.fEngineRunning = False if self.fEngineCallback is not None: self.fEngineCallback(None, ENGINE_CALLBACK_ENGINE_STOPPED, 0, 0, 0, 0, 0.0, "") return True def engine_idle(self): return def is_engine_running(self): return self.fEngineRunning def get_runtime_engine_info(self): return PyCarlaRuntimeEngineInfo def get_runtime_engine_driver_device_info(self): return PyCarlaRuntimeEngineDriverDeviceInfo def set_engine_buffer_size_and_sample_rate(self, bufferSize, sampleRate): return False def show_engine_device_control_panel(self): return False def clear_engine_xruns(self): return def cancel_engine_action(self): return def set_engine_about_to_close(self): return True def set_engine_callback(self, func): self.fEngineCallback = func def set_engine_option(self, option, value, valueStr): return def set_file_callback(self, func): self.fFileCallback = func def load_file(self, filename): return False def load_project(self, filename): return False def save_project(self, filename): return False def clear_project_filename(self): return def patchbay_connect(self, external, groupIdA, portIdA, groupIdB, portIdB): return False def patchbay_disconnect(self, external, connectionId): return False def patchbay_set_group_pos(self, external, groupId, x1, y1, x2, y2): return False def patchbay_refresh(self, external): return False def transport_play(self): return def transport_pause(self): return def transport_bpm(self, bpm): return def transport_relocate(self, frame): return def get_current_transport_frame(self): return 0 def get_transport_info(self): return PyCarlaTransportInfo def get_current_plugin_count(self): return 0 def get_max_plugin_number(self): return 0 def add_plugin(self, btype, ptype, filename, name, label, uniqueId, extraPtr, options): return False def remove_plugin(self, pluginId): return False def remove_all_plugins(self): return False def rename_plugin(self, pluginId, newName): return False def clone_plugin(self, pluginId): return False def replace_plugin(self, pluginId): return False def switch_plugins(self, pluginIdA, pluginIdB): return False def load_plugin_state(self, pluginId, filename): return False def save_plugin_state(self, pluginId, filename): return False def export_plugin_lv2(self, pluginId, lv2path): return False def get_plugin_info(self, pluginId): return PyCarlaPluginInfo def get_audio_port_count_info(self, pluginId): return PyCarlaPortCountInfo def get_midi_port_count_info(self, pluginId): return PyCarlaPortCountInfo def get_parameter_count_info(self, pluginId): return PyCarlaPortCountInfo def get_parameter_info(self, pluginId, parameterId): return PyCarlaParameterInfo def get_parameter_scalepoint_info(self, pluginId, parameterId, scalePointId): return PyCarlaScalePointInfo def get_parameter_data(self, pluginId, parameterId): return PyParameterData def get_parameter_ranges(self, pluginId, parameterId): return PyParameterRanges def get_midi_program_data(self, pluginId, midiProgramId): return PyMidiProgramData def get_custom_data(self, pluginId, customDataId): return PyCustomData def get_custom_data_value(self, pluginId, type_, key): return "" def get_chunk_data(self, pluginId): return "" def get_parameter_count(self, pluginId): return 0 def get_program_count(self, pluginId): return 0 def get_midi_program_count(self, pluginId): return 0 def get_custom_data_count(self, pluginId): return 0 def get_parameter_text(self, pluginId, parameterId): return "" def get_program_name(self, pluginId, programId): return "" def get_midi_program_name(self, pluginId, midiProgramId): return "" def get_real_plugin_name(self, pluginId): return "" def get_current_program_index(self, pluginId): return 0 def get_current_midi_program_index(self, pluginId): return 0 def get_default_parameter_value(self, pluginId, parameterId): return 0.0 def get_current_parameter_value(self, pluginId, parameterId): return 0.0 def get_internal_parameter_value(self, pluginId, parameterId): return 0.0 def get_input_peak_value(self, pluginId, isLeft): return 0.0 def get_output_peak_value(self, pluginId, isLeft): return 0.0 def render_inline_display(self, pluginId, width, height): return None def set_option(self, pluginId, option, yesNo): return def set_active(self, pluginId, onOff): return def set_drywet(self, pluginId, value): return def set_volume(self, pluginId, value): return def set_balance_left(self, pluginId, value): return def set_balance_right(self, pluginId, value): return def set_panning(self, pluginId, value): return def set_ctrl_channel(self, pluginId, channel): return def set_parameter_value(self, pluginId, parameterId, value): return def set_parameter_midi_channel(self, pluginId, parameterId, channel): return def set_parameter_mapped_control_index(self, pluginId, parameterId, index): return def set_parameter_mapped_range(self, pluginId, parameterId, minimum, maximum): return def set_parameter_touch(self, pluginId, parameterId, touch): return def set_program(self, pluginId, programId): return def set_midi_program(self, pluginId, midiProgramId): return def set_custom_data(self, pluginId, type_, key, value): return def set_chunk_data(self, pluginId, chunkData): return def prepare_for_save(self, pluginId): return def reset_parameters(self, pluginId): return def randomize_parameters(self, pluginId): return def send_midi_note(self, pluginId, channel, note, velocity): return def show_custom_ui(self, pluginId, yesNo): return def get_buffer_size(self): return 0 def get_sample_rate(self): return 0.0 def get_last_error(self): return "" def get_host_osc_url_tcp(self): return "" def get_host_osc_url_udp(self): return "" def nsm_init(self, pid, executableName): return False def nsm_ready(self, opcode): return # --------------------------------------------------------------------------------------------------------------------- # Carla Host object using a DLL class CarlaHostDLL(CarlaHostMeta): def __init__(self, libName, loadGlobal): CarlaHostMeta.__init__(self) # info about this host object self.isPlugin = False self.lib = CDLL(libName, RTLD_GLOBAL if loadGlobal else RTLD_LOCAL) self.lib.carla_get_engine_driver_count.argtypes = None self.lib.carla_get_engine_driver_count.restype = c_uint self.lib.carla_get_engine_driver_name.argtypes = (c_uint,) self.lib.carla_get_engine_driver_name.restype = c_char_p self.lib.carla_get_engine_driver_device_names.argtypes = (c_uint,) self.lib.carla_get_engine_driver_device_names.restype = POINTER(c_char_p) self.lib.carla_get_engine_driver_device_info.argtypes = (c_uint, c_char_p) self.lib.carla_get_engine_driver_device_info.restype = POINTER(EngineDriverDeviceInfo) self.lib.carla_show_engine_driver_device_control_panel.argtypes = (c_uint, c_char_p) self.lib.carla_show_engine_driver_device_control_panel.restype = c_bool self.lib.carla_standalone_host_init.argtypes = None self.lib.carla_standalone_host_init.restype = c_void_p self.lib.carla_engine_init.argtypes = (c_void_p, c_char_p, c_char_p) self.lib.carla_engine_init.restype = c_bool self.lib.carla_engine_close.argtypes = (c_void_p,) self.lib.carla_engine_close.restype = c_bool self.lib.carla_engine_idle.argtypes = (c_void_p,) self.lib.carla_engine_idle.restype = None self.lib.carla_is_engine_running.argtypes = (c_void_p,) self.lib.carla_is_engine_running.restype = c_bool self.lib.carla_get_runtime_engine_info.argtypes = (c_void_p,) self.lib.carla_get_runtime_engine_info.restype = POINTER(CarlaRuntimeEngineInfo) self.lib.carla_get_runtime_engine_driver_device_info.argtypes = (c_void_p,) self.lib.carla_get_runtime_engine_driver_device_info.restype = POINTER(CarlaRuntimeEngineDriverDeviceInfo) self.lib.carla_set_engine_buffer_size_and_sample_rate.argtypes = (c_void_p, c_uint, c_double) self.lib.carla_set_engine_buffer_size_and_sample_rate.restype = c_bool self.lib.carla_show_engine_device_control_panel.argtypes = (c_void_p,) self.lib.carla_show_engine_device_control_panel.restype = c_bool self.lib.carla_clear_engine_xruns.argtypes = (c_void_p,) self.lib.carla_clear_engine_xruns.restype = None self.lib.carla_cancel_engine_action.argtypes = (c_void_p,) self.lib.carla_cancel_engine_action.restype = None self.lib.carla_set_engine_about_to_close.argtypes = (c_void_p,) self.lib.carla_set_engine_about_to_close.restype = c_bool self.lib.carla_set_engine_callback.argtypes = (c_void_p, EngineCallbackFunc, c_void_p) self.lib.carla_set_engine_callback.restype = None self.lib.carla_set_engine_option.argtypes = (c_void_p, c_enum, c_int, c_char_p) self.lib.carla_set_engine_option.restype = None self.lib.carla_set_file_callback.argtypes = (c_void_p, FileCallbackFunc, c_void_p) self.lib.carla_set_file_callback.restype = None self.lib.carla_load_file.argtypes = (c_void_p, c_char_p) self.lib.carla_load_file.restype = c_bool self.lib.carla_load_project.argtypes = (c_void_p, c_char_p) self.lib.carla_load_project.restype = c_bool self.lib.carla_save_project.argtypes = (c_void_p, c_char_p) self.lib.carla_save_project.restype = c_bool self.lib.carla_clear_project_filename.argtypes = (c_void_p,) self.lib.carla_clear_project_filename.restype = None self.lib.carla_patchbay_connect.argtypes = (c_void_p, c_bool, c_uint, c_uint, c_uint, c_uint) self.lib.carla_patchbay_connect.restype = c_bool self.lib.carla_patchbay_disconnect.argtypes = (c_void_p, c_bool, c_uint) self.lib.carla_patchbay_disconnect.restype = c_bool self.lib.carla_patchbay_set_group_pos.argtypes = (c_void_p, c_bool, c_uint, c_int, c_int, c_int, c_int) self.lib.carla_patchbay_set_group_pos.restype = c_bool self.lib.carla_patchbay_refresh.argtypes = (c_void_p, c_bool) self.lib.carla_patchbay_refresh.restype = c_bool self.lib.carla_transport_play.argtypes = (c_void_p,) self.lib.carla_transport_play.restype = None self.lib.carla_transport_pause.argtypes = (c_void_p,) self.lib.carla_transport_pause.restype = None self.lib.carla_transport_bpm.argtypes = (c_void_p, c_double) self.lib.carla_transport_bpm.restype = None self.lib.carla_transport_relocate.argtypes = (c_void_p, c_uint64) self.lib.carla_transport_relocate.restype = None self.lib.carla_get_current_transport_frame.argtypes = (c_void_p,) self.lib.carla_get_current_transport_frame.restype = c_uint64 self.lib.carla_get_transport_info.argtypes = (c_void_p,) self.lib.carla_get_transport_info.restype = POINTER(CarlaTransportInfo) self.lib.carla_get_current_plugin_count.argtypes = (c_void_p,) self.lib.carla_get_current_plugin_count.restype = c_uint32 self.lib.carla_get_max_plugin_number.argtypes = (c_void_p,) self.lib.carla_get_max_plugin_number.restype = c_uint32 self.lib.carla_add_plugin.argtypes = (c_void_p, c_enum, c_enum, c_char_p, c_char_p, c_char_p, c_int64, c_void_p, c_uint) self.lib.carla_add_plugin.restype = c_bool self.lib.carla_remove_plugin.argtypes = (c_void_p, c_uint) self.lib.carla_remove_plugin.restype = c_bool self.lib.carla_remove_all_plugins.argtypes = (c_void_p,) self.lib.carla_remove_all_plugins.restype = c_bool self.lib.carla_rename_plugin.argtypes = (c_void_p, c_uint, c_char_p) self.lib.carla_rename_plugin.restype = c_bool self.lib.carla_clone_plugin.argtypes = (c_void_p, c_uint) self.lib.carla_clone_plugin.restype = c_bool self.lib.carla_replace_plugin.argtypes = (c_void_p, c_uint) self.lib.carla_replace_plugin.restype = c_bool self.lib.carla_switch_plugins.argtypes = (c_void_p, c_uint, c_uint) self.lib.carla_switch_plugins.restype = c_bool self.lib.carla_load_plugin_state.argtypes = (c_void_p, c_uint, c_char_p) self.lib.carla_load_plugin_state.restype = c_bool self.lib.carla_save_plugin_state.argtypes = (c_void_p, c_uint, c_char_p) self.lib.carla_save_plugin_state.restype = c_bool self.lib.carla_export_plugin_lv2.argtypes = (c_void_p, c_uint, c_char_p) self.lib.carla_export_plugin_lv2.restype = c_bool self.lib.carla_get_plugin_info.argtypes = (c_void_p, c_uint) self.lib.carla_get_plugin_info.restype = POINTER(CarlaPluginInfo) self.lib.carla_get_audio_port_count_info.argtypes = (c_void_p, c_uint) self.lib.carla_get_audio_port_count_info.restype = POINTER(CarlaPortCountInfo) self.lib.carla_get_midi_port_count_info.argtypes = (c_void_p, c_uint) self.lib.carla_get_midi_port_count_info.restype = POINTER(CarlaPortCountInfo) self.lib.carla_get_parameter_count_info.argtypes = (c_void_p, c_uint) self.lib.carla_get_parameter_count_info.restype = POINTER(CarlaPortCountInfo) self.lib.carla_get_parameter_info.argtypes = (c_void_p, c_uint, c_uint32) self.lib.carla_get_parameter_info.restype = POINTER(CarlaParameterInfo) self.lib.carla_get_parameter_scalepoint_info.argtypes = (c_void_p, c_uint, c_uint32, c_uint32) self.lib.carla_get_parameter_scalepoint_info.restype = POINTER(CarlaScalePointInfo) self.lib.carla_get_parameter_data.argtypes = (c_void_p, c_uint, c_uint32) self.lib.carla_get_parameter_data.restype = POINTER(ParameterData) self.lib.carla_get_parameter_ranges.argtypes = (c_void_p, c_uint, c_uint32) self.lib.carla_get_parameter_ranges.restype = POINTER(ParameterRanges) self.lib.carla_get_midi_program_data.argtypes = (c_void_p, c_uint, c_uint32) self.lib.carla_get_midi_program_data.restype = POINTER(MidiProgramData) self.lib.carla_get_custom_data.argtypes = (c_void_p, c_uint, c_uint32) self.lib.carla_get_custom_data.restype = POINTER(CustomData) self.lib.carla_get_custom_data_value.argtypes = (c_void_p, c_uint, c_char_p, c_char_p) self.lib.carla_get_custom_data_value.restype = c_char_p self.lib.carla_get_chunk_data.argtypes = (c_void_p, c_uint) self.lib.carla_get_chunk_data.restype = c_char_p self.lib.carla_get_parameter_count.argtypes = (c_void_p, c_uint) self.lib.carla_get_parameter_count.restype = c_uint32 self.lib.carla_get_program_count.argtypes = (c_void_p, c_uint) self.lib.carla_get_program_count.restype = c_uint32 self.lib.carla_get_midi_program_count.argtypes = (c_void_p, c_uint) self.lib.carla_get_midi_program_count.restype = c_uint32 self.lib.carla_get_custom_data_count.argtypes = (c_void_p, c_uint) self.lib.carla_get_custom_data_count.restype = c_uint32 self.lib.carla_get_parameter_text.argtypes = (c_void_p, c_uint, c_uint32) self.lib.carla_get_parameter_text.restype = c_char_p self.lib.carla_get_program_name.argtypes = (c_void_p, c_uint, c_uint32) self.lib.carla_get_program_name.restype = c_char_p self.lib.carla_get_midi_program_name.argtypes = (c_void_p, c_uint, c_uint32) self.lib.carla_get_midi_program_name.restype = c_char_p self.lib.carla_get_real_plugin_name.argtypes = (c_void_p, c_uint) self.lib.carla_get_real_plugin_name.restype = c_char_p self.lib.carla_get_current_program_index.argtypes = (c_void_p, c_uint) self.lib.carla_get_current_program_index.restype = c_int32 self.lib.carla_get_current_midi_program_index.argtypes = (c_void_p, c_uint) self.lib.carla_get_current_midi_program_index.restype = c_int32 self.lib.carla_get_default_parameter_value.argtypes = (c_void_p, c_uint, c_uint32) self.lib.carla_get_default_parameter_value.restype = c_float self.lib.carla_get_current_parameter_value.argtypes = (c_void_p, c_uint, c_uint32) self.lib.carla_get_current_parameter_value.restype = c_float self.lib.carla_get_internal_parameter_value.argtypes = (c_void_p, c_uint, c_int32) self.lib.carla_get_internal_parameter_value.restype = c_float self.lib.carla_get_input_peak_value.argtypes = (c_void_p, c_uint, c_bool) self.lib.carla_get_input_peak_value.restype = c_float self.lib.carla_get_output_peak_value.argtypes = (c_void_p, c_uint, c_bool) self.lib.carla_get_output_peak_value.restype = c_float self.lib.carla_render_inline_display.argtypes = (c_void_p, c_uint, c_uint, c_uint) self.lib.carla_render_inline_display.restype = POINTER(CarlaInlineDisplayImageSurface) self.lib.carla_set_option.argtypes = (c_void_p, c_uint, c_uint, c_bool) self.lib.carla_set_option.restype = None self.lib.carla_set_active.argtypes = (c_void_p, c_uint, c_bool) self.lib.carla_set_active.restype = None self.lib.carla_set_drywet.argtypes = (c_void_p, c_uint, c_float) self.lib.carla_set_drywet.restype = None self.lib.carla_set_volume.argtypes = (c_void_p, c_uint, c_float) self.lib.carla_set_volume.restype = None self.lib.carla_set_balance_left.argtypes = (c_void_p, c_uint, c_float) self.lib.carla_set_balance_left.restype = None self.lib.carla_set_balance_right.argtypes = (c_void_p, c_uint, c_float) self.lib.carla_set_balance_right.restype = None self.lib.carla_set_panning.argtypes = (c_void_p, c_uint, c_float) self.lib.carla_set_panning.restype = None self.lib.carla_set_ctrl_channel.argtypes = (c_void_p, c_uint, c_int8) self.lib.carla_set_ctrl_channel.restype = None self.lib.carla_set_parameter_value.argtypes = (c_void_p, c_uint, c_uint32, c_float) self.lib.carla_set_parameter_value.restype = None self.lib.carla_set_parameter_midi_channel.argtypes = (c_void_p, c_uint, c_uint32, c_uint8) self.lib.carla_set_parameter_midi_channel.restype = None self.lib.carla_set_parameter_mapped_control_index.argtypes = (c_void_p, c_uint, c_uint32, c_int16) self.lib.carla_set_parameter_mapped_control_index.restype = None self.lib.carla_set_parameter_mapped_range.argtypes = (c_void_p, c_uint, c_uint32, c_float, c_float) self.lib.carla_set_parameter_mapped_range.restype = None self.lib.carla_set_parameter_touch.argtypes = (c_void_p, c_uint, c_uint32, c_bool) self.lib.carla_set_parameter_touch.restype = None self.lib.carla_set_program.argtypes = (c_void_p, c_uint, c_uint32) self.lib.carla_set_program.restype = None self.lib.carla_set_midi_program.argtypes = (c_void_p, c_uint, c_uint32) self.lib.carla_set_midi_program.restype = None self.lib.carla_set_custom_data.argtypes = (c_void_p, c_uint, c_char_p, c_char_p, c_char_p) self.lib.carla_set_custom_data.restype = None self.lib.carla_set_chunk_data.argtypes = (c_void_p, c_uint, c_char_p) self.lib.carla_set_chunk_data.restype = None self.lib.carla_prepare_for_save.argtypes = (c_void_p, c_uint) self.lib.carla_prepare_for_save.restype = None self.lib.carla_reset_parameters.argtypes = (c_void_p, c_uint) self.lib.carla_reset_parameters.restype = None self.lib.carla_randomize_parameters.argtypes = (c_void_p, c_uint) self.lib.carla_randomize_parameters.restype = None self.lib.carla_send_midi_note.argtypes = (c_void_p, c_uint, c_uint8, c_uint8, c_uint8) self.lib.carla_send_midi_note.restype = None self.lib.carla_show_custom_ui.argtypes = (c_void_p, c_uint, c_bool) self.lib.carla_show_custom_ui.restype = None self.lib.carla_get_buffer_size.argtypes = (c_void_p,) self.lib.carla_get_buffer_size.restype = c_uint32 self.lib.carla_get_sample_rate.argtypes = (c_void_p,) self.lib.carla_get_sample_rate.restype = c_double self.lib.carla_get_last_error.argtypes = (c_void_p,) self.lib.carla_get_last_error.restype = c_char_p self.lib.carla_get_host_osc_url_tcp.argtypes = (c_void_p,) self.lib.carla_get_host_osc_url_tcp.restype = c_char_p self.lib.carla_get_host_osc_url_udp.argtypes = (c_void_p,) self.lib.carla_get_host_osc_url_udp.restype = c_char_p self.lib.carla_nsm_init.argtypes = (c_void_p, c_uint64, c_char_p) self.lib.carla_nsm_init.restype = c_bool self.lib.carla_nsm_ready.argtypes = (c_void_p, c_int) self.lib.carla_nsm_ready.restype = None self.handle = self.lib.carla_standalone_host_init() self._engineCallback = None self._fileCallback = None # -------------------------------------------------------------------------------------------------------- def get_engine_driver_count(self): return int(self.lib.carla_get_engine_driver_count()) def get_engine_driver_name(self, index): return charPtrToString(self.lib.carla_get_engine_driver_name(index)) def get_engine_driver_device_names(self, index): return charPtrPtrToStringList(self.lib.carla_get_engine_driver_device_names(index)) def get_engine_driver_device_info(self, index, name): return structToDict(self.lib.carla_get_engine_driver_device_info(index, name.encode("utf-8")).contents) def show_engine_driver_device_control_panel(self, index, name): return bool(self.lib.carla_show_engine_driver_device_control_panel(index, name.encode("utf-8"))) def engine_init(self, driverName, clientName): return bool(self.lib.carla_engine_init(self.handle, driverName.encode("utf-8"), clientName.encode("utf-8"))) def engine_close(self): return bool(self.lib.carla_engine_close(self.handle)) def engine_idle(self): self.lib.carla_engine_idle(self.handle) def is_engine_running(self): return bool(self.lib.carla_is_engine_running(self.handle)) def get_runtime_engine_info(self): return structToDict(self.lib.carla_get_runtime_engine_info(self.handle).contents) def get_runtime_engine_driver_device_info(self): return structToDict(self.lib.carla_get_runtime_engine_driver_device_info(self.handle).contents) def set_engine_buffer_size_and_sample_rate(self, bufferSize, sampleRate): return bool(self.lib.carla_set_engine_buffer_size_and_sample_rate(self.handle, bufferSize, sampleRate)) def show_engine_device_control_panel(self): return bool(self.lib.carla_show_engine_device_control_panel(self.handle)) def clear_engine_xruns(self): self.lib.carla_clear_engine_xruns(self.handle) def cancel_engine_action(self): self.lib.carla_cancel_engine_action(self.handle) def set_engine_about_to_close(self): return bool(self.lib.carla_set_engine_about_to_close(self.handle)) def set_engine_callback(self, func): self._engineCallback = EngineCallbackFunc(func) self.lib.carla_set_engine_callback(self.handle, self._engineCallback, None) def set_engine_option(self, option, value, valueStr): self.lib.carla_set_engine_option(self.handle, option, value, valueStr.encode("utf-8")) def set_file_callback(self, func): self._fileCallback = FileCallbackFunc(func) self.lib.carla_set_file_callback(self.handle, self._fileCallback, None) def load_file(self, filename): return bool(self.lib.carla_load_file(self.handle, filename.encode("utf-8"))) def load_project(self, filename): return bool(self.lib.carla_load_project(self.handle, filename.encode("utf-8"))) def save_project(self, filename): return bool(self.lib.carla_save_project(self.handle, filename.encode("utf-8"))) def clear_project_filename(self): self.lib.carla_clear_project_filename(self.handle) def patchbay_connect(self, external, groupIdA, portIdA, groupIdB, portIdB): return bool(self.lib.carla_patchbay_connect(self.handle, external, groupIdA, portIdA, groupIdB, portIdB)) def patchbay_disconnect(self, external, connectionId): return bool(self.lib.carla_patchbay_disconnect(self.handle, external, connectionId)) def patchbay_set_group_pos(self, external, groupId, x1, y1, x2, y2): return bool(self.lib.carla_patchbay_set_group_pos(self.handle, external, groupId, x1, y1, x2, y2)) def patchbay_refresh(self, external): return bool(self.lib.carla_patchbay_refresh(self.handle, external)) def transport_play(self): self.lib.carla_transport_play(self.handle) def transport_pause(self): self.lib.carla_transport_pause(self.handle) def transport_bpm(self, bpm): self.lib.carla_transport_bpm(self.handle, bpm) def transport_relocate(self, frame): self.lib.carla_transport_relocate(self.handle, frame) def get_current_transport_frame(self): return int(self.lib.carla_get_current_transport_frame(self.handle)) def get_transport_info(self): return structToDict(self.lib.carla_get_transport_info(self.handle).contents) def get_current_plugin_count(self): return int(self.lib.carla_get_current_plugin_count(self.handle)) def get_max_plugin_number(self): return int(self.lib.carla_get_max_plugin_number(self.handle)) def add_plugin(self, btype, ptype, filename, name, label, uniqueId, extraPtr, options): cfilename = filename.encode("utf-8") if filename else None cname = name.encode("utf-8") if name else None if ptype == PLUGIN_JACK: clabel = bytes(ord(b) for b in label) else: clabel = label.encode("utf-8") if label else None return bool(self.lib.carla_add_plugin(self.handle, btype, ptype, cfilename, cname, clabel, uniqueId, cast(extraPtr, c_void_p), options)) def remove_plugin(self, pluginId): return bool(self.lib.carla_remove_plugin(self.handle, pluginId)) def remove_all_plugins(self): return bool(self.lib.carla_remove_all_plugins(self.handle)) def rename_plugin(self, pluginId, newName): return bool(self.lib.carla_rename_plugin(self.handle, pluginId, newName.encode("utf-8"))) def clone_plugin(self, pluginId): return bool(self.lib.carla_clone_plugin(self.handle, pluginId)) def replace_plugin(self, pluginId): return bool(self.lib.carla_replace_plugin(self.handle, pluginId)) def switch_plugins(self, pluginIdA, pluginIdB): return bool(self.lib.carla_switch_plugins(self.handle, pluginIdA, pluginIdB)) def load_plugin_state(self, pluginId, filename): return bool(self.lib.carla_load_plugin_state(self.handle, pluginId, filename.encode("utf-8"))) def save_plugin_state(self, pluginId, filename): return bool(self.lib.carla_save_plugin_state(self.handle, pluginId, filename.encode("utf-8"))) def export_plugin_lv2(self, pluginId, lv2path): return bool(self.lib.carla_export_plugin_lv2(self.handle, pluginId, lv2path.encode("utf-8"))) def get_plugin_info(self, pluginId): return structToDict(self.lib.carla_get_plugin_info(self.handle, pluginId).contents) def get_audio_port_count_info(self, pluginId): return structToDict(self.lib.carla_get_audio_port_count_info(self.handle, pluginId).contents) def get_midi_port_count_info(self, pluginId): return structToDict(self.lib.carla_get_midi_port_count_info(self.handle, pluginId).contents) def get_parameter_count_info(self, pluginId): return structToDict(self.lib.carla_get_parameter_count_info(self.handle, pluginId).contents) def get_parameter_info(self, pluginId, parameterId): return structToDict(self.lib.carla_get_parameter_info(self.handle, pluginId, parameterId).contents) def get_parameter_scalepoint_info(self, pluginId, parameterId, scalePointId): return structToDict(self.lib.carla_get_parameter_scalepoint_info(self.handle, pluginId, parameterId, scalePointId).contents) def get_parameter_data(self, pluginId, parameterId): return structToDict(self.lib.carla_get_parameter_data(self.handle, pluginId, parameterId).contents) def get_parameter_ranges(self, pluginId, parameterId): return structToDict(self.lib.carla_get_parameter_ranges(self.handle, pluginId, parameterId).contents) def get_midi_program_data(self, pluginId, midiProgramId): return structToDict(self.lib.carla_get_midi_program_data(self.handle, pluginId, midiProgramId).contents) def get_custom_data(self, pluginId, customDataId): return structToDict(self.lib.carla_get_custom_data(self.handle, pluginId, customDataId).contents) def get_custom_data_value(self, pluginId, type_, key): return charPtrToString(self.lib.carla_get_custom_data_value(self.handle, pluginId, type_.encode("utf-8"), key.encode("utf-8"))) def get_chunk_data(self, pluginId): return charPtrToString(self.lib.carla_get_chunk_data(self.handle, pluginId)) def get_parameter_count(self, pluginId): return int(self.lib.carla_get_parameter_count(self.handle, pluginId)) def get_program_count(self, pluginId): return int(self.lib.carla_get_program_count(self.handle, pluginId)) def get_midi_program_count(self, pluginId): return int(self.lib.carla_get_midi_program_count(self.handle, pluginId)) def get_custom_data_count(self, pluginId): return int(self.lib.carla_get_custom_data_count(self.handle, pluginId)) def get_parameter_text(self, pluginId, parameterId): return charPtrToString(self.lib.carla_get_parameter_text(self.handle, pluginId, parameterId)) def get_program_name(self, pluginId, programId): return charPtrToString(self.lib.carla_get_program_name(self.handle, pluginId, programId)) def get_midi_program_name(self, pluginId, midiProgramId): return charPtrToString(self.lib.carla_get_midi_program_name(self.handle, pluginId, midiProgramId)) def get_real_plugin_name(self, pluginId): return charPtrToString(self.lib.carla_get_real_plugin_name(self.handle, pluginId)) def get_current_program_index(self, pluginId): return int(self.lib.carla_get_current_program_index(self.handle, pluginId)) def get_current_midi_program_index(self, pluginId): return int(self.lib.carla_get_current_midi_program_index(self.handle, pluginId)) def get_default_parameter_value(self, pluginId, parameterId): return float(self.lib.carla_get_default_parameter_value(self.handle, pluginId, parameterId)) def get_current_parameter_value(self, pluginId, parameterId): return float(self.lib.carla_get_current_parameter_value(self.handle, pluginId, parameterId)) def get_internal_parameter_value(self, pluginId, parameterId): return float(self.lib.carla_get_internal_parameter_value(self.handle, pluginId, parameterId)) def get_input_peak_value(self, pluginId, isLeft): return float(self.lib.carla_get_input_peak_value(self.handle, pluginId, isLeft)) def get_output_peak_value(self, pluginId, isLeft): return float(self.lib.carla_get_output_peak_value(self.handle, pluginId, isLeft)) def render_inline_display(self, pluginId, width, height): ptr = self.lib.carla_render_inline_display(self.handle, pluginId, width, height) if not ptr or not ptr.contents: return None contents = ptr.contents datalen = contents.height * contents.stride databuf = pack("%iB" % datalen, *contents.data[:datalen]) data = { 'data': databuf, 'width': contents.width, 'height': contents.height, 'stride': contents.stride, } return data def set_option(self, pluginId, option, yesNo): self.lib.carla_set_option(self.handle, pluginId, option, yesNo) def set_active(self, pluginId, onOff): self.lib.carla_set_active(self.handle, pluginId, onOff) def set_drywet(self, pluginId, value): self.lib.carla_set_drywet(self.handle, pluginId, value) def set_volume(self, pluginId, value): self.lib.carla_set_volume(self.handle, pluginId, value) def set_balance_left(self, pluginId, value): self.lib.carla_set_balance_left(self.handle, pluginId, value) def set_balance_right(self, pluginId, value): self.lib.carla_set_balance_right(self.handle, pluginId, value) def set_panning(self, pluginId, value): self.lib.carla_set_panning(self.handle, pluginId, value) def set_ctrl_channel(self, pluginId, channel): self.lib.carla_set_ctrl_channel(self.handle, pluginId, channel) def set_parameter_value(self, pluginId, parameterId, value): self.lib.carla_set_parameter_value(self.handle, pluginId, parameterId, value) def set_parameter_midi_channel(self, pluginId, parameterId, channel): self.lib.carla_set_parameter_midi_channel(self.handle, pluginId, parameterId, channel) def set_parameter_mapped_control_index(self, pluginId, parameterId, index): self.lib.carla_set_parameter_mapped_control_index(self.handle, pluginId, parameterId, index) def set_parameter_mapped_range(self, pluginId, parameterId, minimum, maximum): self.lib.carla_set_parameter_mapped_range(self.handle, pluginId, parameterId, minimum, maximum) def set_parameter_touch(self, pluginId, parameterId, touch): self.lib.carla_set_parameter_touch(self.handle, pluginId, parameterId, touch) def set_program(self, pluginId, programId): self.lib.carla_set_program(self.handle, pluginId, programId) def set_midi_program(self, pluginId, midiProgramId): self.lib.carla_set_midi_program(self.handle, pluginId, midiProgramId) def set_custom_data(self, pluginId, type_, key, value): self.lib.carla_set_custom_data(self.handle, pluginId, type_.encode("utf-8"), key.encode("utf-8"), value.encode("utf-8")) def set_chunk_data(self, pluginId, chunkData): self.lib.carla_set_chunk_data(self.handle, pluginId, chunkData.encode("utf-8")) def prepare_for_save(self, pluginId): self.lib.carla_prepare_for_save(self.handle, pluginId) def reset_parameters(self, pluginId): self.lib.carla_reset_parameters(self.handle, pluginId) def randomize_parameters(self, pluginId): self.lib.carla_randomize_parameters(self.handle, pluginId) def send_midi_note(self, pluginId, channel, note, velocity): self.lib.carla_send_midi_note(self.handle, pluginId, channel, note, velocity) def show_custom_ui(self, pluginId, yesNo): self.lib.carla_show_custom_ui(self.handle, pluginId, yesNo) def get_buffer_size(self): return int(self.lib.carla_get_buffer_size(self.handle)) def get_sample_rate(self): return float(self.lib.carla_get_sample_rate(self.handle)) def get_last_error(self): return charPtrToString(self.lib.carla_get_last_error(self.handle)) def get_host_osc_url_tcp(self): return charPtrToString(self.lib.carla_get_host_osc_url_tcp(self.handle)) def get_host_osc_url_udp(self): return charPtrToString(self.lib.carla_get_host_osc_url_udp(self.handle)) def nsm_init(self, pid, executableName): return bool(self.lib.carla_nsm_init(self.handle, pid, executableName.encode("utf-8"))) def nsm_ready(self, opcode): self.lib.carla_nsm_ready(self.handle, opcode) # --------------------------------------------------------------------------------------------------------------------- # Helper object for CarlaHostPlugin class PluginStoreInfo(): def __init__(self): self.clear() def clear(self): self.pluginInfo = PyCarlaPluginInfo.copy() self.pluginRealName = "" self.internalValues = [0.0, 1.0, 1.0, -1.0, 1.0, 0.0, -1.0] self.audioCountInfo = PyCarlaPortCountInfo.copy() self.midiCountInfo = PyCarlaPortCountInfo.copy() self.parameterCount = 0 self.parameterCountInfo = PyCarlaPortCountInfo.copy() self.parameterInfo = [] self.parameterData = [] self.parameterRanges = [] self.parameterValues = [] self.programCount = 0 self.programCurrent = -1 self.programNames = [] self.midiProgramCount = 0 self.midiProgramCurrent = -1 self.midiProgramData = [] self.customDataCount = 0 self.customData = [] self.peaks = [0.0, 0.0, 0.0, 0.0] # --------------------------------------------------------------------------------------------------------------------- # Carla Host object for plugins (using pipes) class CarlaHostPlugin(CarlaHostMeta): def __init__(self): CarlaHostMeta.__init__(self) # info about this host object self.isPlugin = True self.processModeForced = True # text data to return when requested self.fMaxPluginNumber = 0 self.fLastError = "" # plugin info self.fPluginsInfo = {} self.fFallbackPluginInfo = PluginStoreInfo() # runtime engine info self.fRuntimeEngineInfo = { "load": 0.0, "xruns": 0 } # transport info self.fTransportInfo = { "playing": False, "frame": 0, "bar": 0, "beat": 0, "tick": 0, "bpm": 0.0 } # some other vars self.fBufferSize = 0 self.fSampleRate = 0.0 self.fOscTCP = "" self.fOscUDP = "" # -------------------------------------------------------------------------------------------------------- # Needs to be reimplemented @abstractmethod def sendMsg(self, lines): raise NotImplementedError # internal, sets error if sendMsg failed def sendMsgAndSetError(self, lines): if self.sendMsg(lines): return True self.fLastError = "Communication error with backend" return False # -------------------------------------------------------------------------------------------------------- def get_engine_driver_count(self): return 1 def get_engine_driver_name(self, index): return "Plugin" def get_engine_driver_device_names(self, index): return [] def get_engine_driver_device_info(self, index, name): return PyEngineDriverDeviceInfo def show_engine_driver_device_control_panel(self, index, name): return False def get_runtime_engine_info(self): return self.fRuntimeEngineInfo def get_runtime_engine_driver_device_info(self): return PyCarlaRuntimeEngineDriverDeviceInfo def set_engine_buffer_size_and_sample_rate(self, bufferSize, sampleRate): return False def show_engine_device_control_panel(self): return False def clear_engine_xruns(self): self.sendMsg(["clear_engine_xruns"]) def cancel_engine_action(self): self.sendMsg(["cancel_engine_action"]) def set_engine_callback(self, func): return # TODO def set_engine_option(self, option, value, valueStr): self.sendMsg(["set_engine_option", option, int(value), valueStr]) def set_file_callback(self, func): return # TODO def load_file(self, filename): return self.sendMsgAndSetError(["load_file", filename]) def load_project(self, filename): return self.sendMsgAndSetError(["load_project", filename]) def save_project(self, filename): return self.sendMsgAndSetError(["save_project", filename]) def clear_project_filename(self): return self.sendMsgAndSetError(["clear_project_filename"]) def patchbay_connect(self, external, groupIdA, portIdA, groupIdB, portIdB): return self.sendMsgAndSetError(["patchbay_connect", external, groupIdA, portIdA, groupIdB, portIdB]) def patchbay_disconnect(self, external, connectionId): return self.sendMsgAndSetError(["patchbay_disconnect", external, connectionId]) def patchbay_set_group_pos(self, external, groupId, x1, y1, x2, y2): return self.sendMsgAndSetError(["patchbay_set_group_pos", external, groupId, x1, y1, x2, y2]) def patchbay_refresh(self, external): return self.sendMsgAndSetError(["patchbay_refresh", external]) def transport_play(self): self.sendMsg(["transport_play"]) def transport_pause(self): self.sendMsg(["transport_pause"]) def transport_bpm(self, bpm): self.sendMsg(["transport_bpm", bpm]) def transport_relocate(self, frame): self.sendMsg(["transport_relocate", frame]) def get_current_transport_frame(self): return self.fTransportInfo['frame'] def get_transport_info(self): return self.fTransportInfo def get_current_plugin_count(self): return len(self.fPluginsInfo) def get_max_plugin_number(self): return self.fMaxPluginNumber def add_plugin(self, btype, ptype, filename, name, label, uniqueId, extraPtr, options): return self.sendMsgAndSetError(["add_plugin", btype, ptype, filename or "(null)", name or "(null)", label, uniqueId, options]) def remove_plugin(self, pluginId): return self.sendMsgAndSetError(["remove_plugin", pluginId]) def remove_all_plugins(self): return self.sendMsgAndSetError(["remove_all_plugins"]) def rename_plugin(self, pluginId, newName): return self.sendMsgAndSetError(["rename_plugin", pluginId, newName]) def clone_plugin(self, pluginId): return self.sendMsgAndSetError(["clone_plugin", pluginId]) def replace_plugin(self, pluginId): return self.sendMsgAndSetError(["replace_plugin", pluginId]) def switch_plugins(self, pluginIdA, pluginIdB): ret = self.sendMsgAndSetError(["switch_plugins", pluginIdA, pluginIdB]) if ret: self._switchPlugins(pluginIdA, pluginIdB) return ret def load_plugin_state(self, pluginId, filename): return self.sendMsgAndSetError(["load_plugin_state", pluginId, filename]) def save_plugin_state(self, pluginId, filename): return self.sendMsgAndSetError(["save_plugin_state", pluginId, filename]) def export_plugin_lv2(self, pluginId, lv2path): self.fLastError = "Operation unavailable in plugin version" return False def get_plugin_info(self, pluginId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).pluginInfo def get_audio_port_count_info(self, pluginId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).audioCountInfo def get_midi_port_count_info(self, pluginId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).midiCountInfo def get_parameter_count_info(self, pluginId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).parameterCountInfo def get_parameter_info(self, pluginId, parameterId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).parameterInfo[parameterId] def get_parameter_scalepoint_info(self, pluginId, parameterId, scalePointId): return PyCarlaScalePointInfo def get_parameter_data(self, pluginId, parameterId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).parameterData[parameterId] def get_parameter_ranges(self, pluginId, parameterId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).parameterRanges[parameterId] def get_midi_program_data(self, pluginId, midiProgramId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).midiProgramData[midiProgramId] def get_custom_data(self, pluginId, customDataId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).customData[customDataId] def get_custom_data_value(self, pluginId, type_, key): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: return "" for customData in plugin.customData: if customData['type'] == type_ and customData['key'] == key: return customData['value'] return "" def get_chunk_data(self, pluginId): return "" def get_parameter_count(self, pluginId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).parameterCount def get_program_count(self, pluginId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).programCount def get_midi_program_count(self, pluginId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).midiProgramCount def get_custom_data_count(self, pluginId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).customDataCount def get_parameter_text(self, pluginId, parameterId): return "" def get_program_name(self, pluginId, programId): return self.fPluginsInfo[pluginId].programNames[programId] def get_midi_program_name(self, pluginId, midiProgramId): return self.fPluginsInfo[pluginId].midiProgramData[midiProgramId]['label'] def get_real_plugin_name(self, pluginId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).pluginRealName def get_current_program_index(self, pluginId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).programCurrent def get_current_midi_program_index(self, pluginId): return self.fPluginsInfo.get(pluginId, self.fFallbackPluginInfo).midiProgramCurrent def get_default_parameter_value(self, pluginId, parameterId): return self.fPluginsInfo[pluginId].parameterRanges[parameterId]['def'] def get_current_parameter_value(self, pluginId, parameterId): return self.fPluginsInfo[pluginId].parameterValues[parameterId] def get_internal_parameter_value(self, pluginId, parameterId): if parameterId == PARAMETER_NULL or parameterId <= PARAMETER_MAX: return 0.0 if parameterId < 0: return self.fPluginsInfo[pluginId].internalValues[abs(parameterId)-2] return self.fPluginsInfo[pluginId].parameterValues[parameterId] def get_input_peak_value(self, pluginId, isLeft): return self.fPluginsInfo[pluginId].peaks[0 if isLeft else 1] def get_output_peak_value(self, pluginId, isLeft): return self.fPluginsInfo[pluginId].peaks[2 if isLeft else 3] def render_inline_display(self, pluginId, width, height): return None def set_option(self, pluginId, option, yesNo): self.sendMsg(["set_option", pluginId, option, yesNo]) def set_active(self, pluginId, onOff): self.sendMsg(["set_active", pluginId, onOff]) self.fPluginsInfo[pluginId].internalValues[0] = 1.0 if onOff else 0.0 def set_drywet(self, pluginId, value): self.sendMsg(["set_drywet", pluginId, value]) self.fPluginsInfo[pluginId].internalValues[1] = value def set_volume(self, pluginId, value): self.sendMsg(["set_volume", pluginId, value]) self.fPluginsInfo[pluginId].internalValues[2] = value def set_balance_left(self, pluginId, value): self.sendMsg(["set_balance_left", pluginId, value]) self.fPluginsInfo[pluginId].internalValues[3] = value def set_balance_right(self, pluginId, value): self.sendMsg(["set_balance_right", pluginId, value]) self.fPluginsInfo[pluginId].internalValues[4] = value def set_panning(self, pluginId, value): self.sendMsg(["set_panning", pluginId, value]) self.fPluginsInfo[pluginId].internalValues[5] = value def set_ctrl_channel(self, pluginId, channel): self.sendMsg(["set_ctrl_channel", pluginId, channel]) self.fPluginsInfo[pluginId].internalValues[6] = float(channel) def set_parameter_value(self, pluginId, parameterId, value): self.sendMsg(["set_parameter_value", pluginId, parameterId, value]) self.fPluginsInfo[pluginId].parameterValues[parameterId] = value def set_parameter_midi_channel(self, pluginId, parameterId, channel): self.sendMsg(["set_parameter_midi_channel", pluginId, parameterId, channel]) self.fPluginsInfo[pluginId].parameterData[parameterId]['midiChannel'] = channel def set_parameter_mapped_control_index(self, pluginId, parameterId, index): self.sendMsg(["set_parameter_mapped_control_index", pluginId, parameterId, index]) self.fPluginsInfo[pluginId].parameterData[parameterId]['mappedControlIndex'] = index def set_parameter_mapped_range(self, pluginId, parameterId, minimum, maximum): self.sendMsg(["set_parameter_mapped_range", pluginId, parameterId, minimum, maximum]) self.fPluginsInfo[pluginId].parameterData[parameterId]['mappedMinimum'] = minimum self.fPluginsInfo[pluginId].parameterData[parameterId]['mappedMaximum'] = maximum def set_parameter_touch(self, pluginId, parameterId, touch): self.sendMsg(["set_parameter_touch", pluginId, parameterId, touch]) def set_program(self, pluginId, programId): self.sendMsg(["set_program", pluginId, programId]) self.fPluginsInfo[pluginId].programCurrent = programId def set_midi_program(self, pluginId, midiProgramId): self.sendMsg(["set_midi_program", pluginId, midiProgramId]) self.fPluginsInfo[pluginId].midiProgramCurrent = midiProgramId def set_custom_data(self, pluginId, type_, key, value): self.sendMsg(["set_custom_data", pluginId, type_, key, value]) for cdata in self.fPluginsInfo[pluginId].customData: if cdata['type'] != type_: continue if cdata['key'] != key: continue cdata['value'] = value break def set_chunk_data(self, pluginId, chunkData): self.sendMsg(["set_chunk_data", pluginId, chunkData]) def prepare_for_save(self, pluginId): self.sendMsg(["prepare_for_save", pluginId]) def reset_parameters(self, pluginId): self.sendMsg(["reset_parameters", pluginId]) def randomize_parameters(self, pluginId): self.sendMsg(["randomize_parameters", pluginId]) def send_midi_note(self, pluginId, channel, note, velocity): self.sendMsg(["send_midi_note", pluginId, channel, note, velocity]) def show_custom_ui(self, pluginId, yesNo): self.sendMsg(["show_custom_ui", pluginId, yesNo]) def get_buffer_size(self): return self.fBufferSize def get_sample_rate(self): return self.fSampleRate def get_last_error(self): return self.fLastError def get_host_osc_url_tcp(self): return self.fOscTCP def get_host_osc_url_udp(self): return self.fOscUDP # -------------------------------------------------------------------------------------------------------- def _set_runtime_info(self, load, xruns): self.fRuntimeEngineInfo = { "load": load, "xruns": xruns } def _set_transport(self, playing, frame, bar, beat, tick, bpm): self.fTransportInfo = { "playing": playing, "frame": frame, "bar": bar, "beat": beat, "tick": tick, "bpm": bpm } def _add(self, pluginId): self.fPluginsInfo[pluginId] = PluginStoreInfo() def _reset(self, maxPluginId): self.fPluginsInfo = {} for i in range(maxPluginId): self.fPluginsInfo[i] = PluginStoreInfo() def _allocateAsNeeded(self, pluginId): if pluginId < len(self.fPluginsInfo): return for pid in range(len(self.fPluginsInfo), pluginId+1): self.fPluginsInfo[pid] = PluginStoreInfo() def _set_pluginInfo(self, pluginId, info): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_pluginInfo failed for", pluginId) return plugin.pluginInfo = info def _set_pluginInfoUpdate(self, pluginId, info): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_pluginInfoUpdate failed for", pluginId) return plugin.pluginInfo.update(info) def _set_pluginName(self, pluginId, name): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_pluginName failed for", pluginId) return plugin.pluginInfo['name'] = name def _set_pluginRealName(self, pluginId, realName): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_pluginRealName failed for", pluginId) return plugin.pluginRealName = realName def _set_internalValue(self, pluginId, paramIndex, value): pluginInfo = self.fPluginsInfo.get(pluginId, None) if pluginInfo is None: print("_set_internalValue failed for", pluginId) return if PARAMETER_NULL > paramIndex > PARAMETER_MAX: pluginInfo.internalValues[abs(paramIndex)-2] = float(value) else: print("_set_internalValue failed for", pluginId, "with param", paramIndex) def _set_audioCountInfo(self, pluginId, info): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_audioCountInfo failed for", pluginId) return plugin.audioCountInfo = info def _set_midiCountInfo(self, pluginId, info): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_midiCountInfo failed for", pluginId) return plugin.midiCountInfo = info def _set_parameterCountInfo(self, pluginId, count, info): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_parameterCountInfo failed for", pluginId) return plugin.parameterCount = count plugin.parameterCountInfo = info # clear plugin.parameterInfo = [] plugin.parameterData = [] plugin.parameterRanges = [] plugin.parameterValues = [] # add placeholders for _ in range(count): plugin.parameterInfo.append(PyCarlaParameterInfo.copy()) plugin.parameterData.append(PyParameterData.copy()) plugin.parameterRanges.append(PyParameterRanges.copy()) plugin.parameterValues.append(0.0) def _set_programCount(self, pluginId, count): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_internalValue failed for", pluginId) return plugin.programCount = count plugin.programNames = ["" for _ in range(count)] def _set_midiProgramCount(self, pluginId, count): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_internalValue failed for", pluginId) return plugin.midiProgramCount = count plugin.midiProgramData = [PyMidiProgramData.copy() for _ in range(count)] def _set_customDataCount(self, pluginId, count): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_internalValue failed for", pluginId) return plugin.customDataCount = count plugin.customData = [PyCustomData.copy() for _ in range(count)] def _set_parameterInfo(self, pluginId, paramIndex, info): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_parameterInfo failed for", pluginId) return if paramIndex < plugin.parameterCount: plugin.parameterInfo[paramIndex] = info else: print("_set_parameterInfo failed for", pluginId, "and index", paramIndex) def _set_parameterData(self, pluginId, paramIndex, data): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_parameterData failed for", pluginId) return if paramIndex < plugin.parameterCount: plugin.parameterData[paramIndex] = data else: print("_set_parameterData failed for", pluginId, "and index", paramIndex) def _set_parameterRanges(self, pluginId, paramIndex, ranges): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_parameterRanges failed for", pluginId) return if paramIndex < plugin.parameterCount: plugin.parameterRanges[paramIndex] = ranges else: print("_set_parameterRanges failed for", pluginId, "and index", paramIndex) def _set_parameterRangesUpdate(self, pluginId, paramIndex, ranges): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_parameterRangesUpdate failed for", pluginId) return if paramIndex < plugin.parameterCount: plugin.parameterRanges[paramIndex].update(ranges) else: print("_set_parameterRangesUpdate failed for", pluginId, "and index", paramIndex) def _set_parameterValue(self, pluginId, paramIndex, value): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_parameterValue failed for", pluginId) return if paramIndex < plugin.parameterCount: plugin.parameterValues[paramIndex] = value else: print("_set_parameterValue failed for", pluginId, "and index", paramIndex) def _set_parameterDefault(self, pluginId, paramIndex, value): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_parameterDefault failed for", pluginId) return if paramIndex < plugin.parameterCount: plugin.parameterRanges[paramIndex]['def'] = value else: print("_set_parameterDefault failed for", pluginId, "and index", paramIndex) def _set_parameterMappedControlIndex(self, pluginId, paramIndex, index): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_parameterMappedControlIndex failed for", pluginId) return if paramIndex < plugin.parameterCount: plugin.parameterData[paramIndex]['mappedControlIndex'] = index else: print("_set_parameterMappedControlIndex failed for", pluginId, "and index", paramIndex) def _set_parameterMappedRange(self, pluginId, paramIndex, minimum, maximum): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_parameterMappedRange failed for", pluginId) return if paramIndex < plugin.parameterCount: plugin.parameterData[paramIndex]['mappedMinimum'] = minimum plugin.parameterData[paramIndex]['mappedMaximum'] = maximum else: print("_set_parameterMappedRange failed for", pluginId, "and index", paramIndex) def _set_parameterMidiChannel(self, pluginId, paramIndex, channel): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_parameterMidiChannel failed for", pluginId) return if paramIndex < plugin.parameterCount: plugin.parameterData[paramIndex]['midiChannel'] = channel else: print("_set_parameterMidiChannel failed for", pluginId, "and index", paramIndex) def _set_currentProgram(self, pluginId, pIndex): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_currentProgram failed for", pluginId) return plugin.programCurrent = pIndex def _set_currentMidiProgram(self, pluginId, mpIndex): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_currentMidiProgram failed for", pluginId) return plugin.midiProgramCurrent = mpIndex def _set_programName(self, pluginId, pIndex, name): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_programName failed for", pluginId) return if pIndex < plugin.programCount: plugin.programNames[pIndex] = name else: print("_set_programName failed for", pluginId, "and index", pIndex) def _set_midiProgramData(self, pluginId, mpIndex, data): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_midiProgramData failed for", pluginId) return if mpIndex < plugin.midiProgramCount: plugin.midiProgramData[mpIndex] = data else: print("_set_midiProgramData failed for", pluginId, "and index", mpIndex) def _set_customData(self, pluginId, cdIndex, data): plugin = self.fPluginsInfo.get(pluginId, None) if plugin is None: print("_set_customData failed for", pluginId) return if cdIndex < plugin.customDataCount: plugin.customData[cdIndex] = data else: print("_set_customData failed for", pluginId, "and index", cdIndex) def _set_peaks(self, pluginId, in1, in2, out1, out2): pluginInfo = self.fPluginsInfo.get(pluginId, None) if pluginInfo is not None: pluginInfo.peaks = [in1, in2, out1, out2] def _removePlugin(self, pluginId): pluginCountM1 = len(self.fPluginsInfo)-1 if pluginId >= pluginCountM1: self.fPluginsInfo[pluginId] = PluginStoreInfo() return # push all plugins 1 slot back starting from the plugin that got removed for i in range(pluginId, pluginCountM1): self.fPluginsInfo[i] = self.fPluginsInfo[i+1] self.fPluginsInfo[pluginCountM1] = PluginStoreInfo() def _switchPlugins(self, pluginIdA, pluginIdB): tmp = self.fPluginsInfo[pluginIdA] self.fPluginsInfo[pluginIdA] = self.fPluginsInfo[pluginIdB] self.fPluginsInfo[pluginIdB] = tmp def _setViaCallback(self, action, pluginId, value1, value2, value3, valuef, valueStr): if action == ENGINE_CALLBACK_ENGINE_STARTED: self.fBufferSize = value3 self.fSampleRate = valuef if value1 == ENGINE_PROCESS_MODE_CONTINUOUS_RACK: maxPluginId = MAX_RACK_PLUGINS elif value1 == ENGINE_PROCESS_MODE_PATCHBAY: maxPluginId = MAX_PATCHBAY_PLUGINS else: maxPluginId = MAX_DEFAULT_PLUGINS self._reset(maxPluginId) elif action == ENGINE_CALLBACK_BUFFER_SIZE_CHANGED: self.fBufferSize = value1 elif action == ENGINE_CALLBACK_SAMPLE_RATE_CHANGED: self.fSampleRate = valuef elif action == ENGINE_CALLBACK_PLUGIN_REMOVED: self._removePlugin(pluginId) elif action == ENGINE_CALLBACK_PLUGIN_RENAMED: self._set_pluginName(pluginId, valueStr) elif action == ENGINE_CALLBACK_PARAMETER_VALUE_CHANGED: if value1 < 0: self._set_internalValue(pluginId, value1, valuef) else: self._set_parameterValue(pluginId, value1, valuef) elif action == ENGINE_CALLBACK_PARAMETER_DEFAULT_CHANGED: self._set_parameterDefault(pluginId, value1, valuef) elif action == ENGINE_CALLBACK_PARAMETER_MAPPED_CONTROL_INDEX_CHANGED: self._set_parameterMappedControlIndex(pluginId, value1, value2) elif action == ENGINE_CALLBACK_PARAMETER_MAPPED_RANGE_CHANGED: minimum, maximum = (float(i) for i in valueStr.split(":")) self._set_parameterMappedRange(pluginId, value1, minimum, maximum) elif action == ENGINE_CALLBACK_PARAMETER_MIDI_CHANNEL_CHANGED: self._set_parameterMidiChannel(pluginId, value1, value2) elif action == ENGINE_CALLBACK_PROGRAM_CHANGED: self._set_currentProgram(pluginId, value1) elif action == ENGINE_CALLBACK_MIDI_PROGRAM_CHANGED: self._set_currentMidiProgram(pluginId, value1) # ---------------------------------------------------------------------------------------------------------------------