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655 lines
28 KiB
C
655 lines
28 KiB
C
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#ifndef PORT_MIDI_H
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#define PORT_MIDI_H
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#ifdef __cplusplus
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extern "C" {
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#endif /* __cplusplus */
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/*
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* PortMidi Portable Real-Time MIDI Library
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* PortMidi API Header File
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* Latest version available at: http://sourceforge.net/projects/portmedia
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*
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* Copyright (c) 1999-2000 Ross Bencina and Phil Burk
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* Copyright (c) 2001-2006 Roger B. Dannenberg
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*
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* Permission is hereby granted, free of charge, to any person obtaining
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* a copy of this software and associated documentation files
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* (the "Software"), to deal in the Software without restriction,
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* including without limitation the rights to use, copy, modify, merge,
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* publish, distribute, sublicense, and/or sell copies of the Software,
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* and to permit persons to whom the Software is furnished to do so,
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* subject to the following conditions:
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*
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* The above copyright notice and this permission notice shall be
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* included in all copies or substantial portions of the Software.
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*
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* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
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* EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
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* MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
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* IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR
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* ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF
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* CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION
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* WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
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*/
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/*
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* The text above constitutes the entire PortMidi license; however,
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* the PortMusic community also makes the following non-binding requests:
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*
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* Any person wishing to distribute modifications to the Software is
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* requested to send the modifications to the original developer so that
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* they can be incorporated into the canonical version. It is also
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* requested that these non-binding requests be included along with the
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* license above.
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*/
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/* CHANGELOG FOR PORTMIDI
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* (see ../CHANGELOG.txt)
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*
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* NOTES ON HOST ERROR REPORTING:
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*
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* PortMidi errors (of type PmError) are generic, system-independent errors.
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* When an error does not map to one of the more specific PmErrors, the
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* catch-all code pmHostError is returned. This means that PortMidi has
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* retained a more specific system-dependent error code. The caller can
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* get more information by calling Pm_HasHostError() to test if there is
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* a pending host error, and Pm_GetHostErrorText() to get a text string
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* describing the error. Host errors are reported on a per-device basis
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* because only after you open a device does PortMidi have a place to
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* record the host error code. I.e. only
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* those routines that receive a (PortMidiStream *) argument check and
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* report errors. One exception to this is that Pm_OpenInput() and
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* Pm_OpenOutput() can report errors even though when an error occurs,
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* there is no PortMidiStream* to hold the error. Fortunately, both
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* of these functions return any error immediately, so we do not really
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* need per-device error memory. Instead, any host error code is stored
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* in a global, pmHostError is returned, and the user can call
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* Pm_GetHostErrorText() to get the error message (and the invalid stream
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* parameter will be ignored.) The functions
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* pm_init and pm_term do not fail or raise
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* errors. The job of pm_init is to locate all available devices so that
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* the caller can get information via PmDeviceInfo(). If an error occurs,
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* the device is simply not listed as available.
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*
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* Host errors come in two flavors:
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* a) host error
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* b) host error during callback
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* These can occur w/midi input or output devices. (b) can only happen
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* asynchronously (during callback routines), whereas (a) only occurs while
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* synchronously running PortMidi and any resulting system dependent calls.
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* Both (a) and (b) are reported by the next read or write call. You can
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* also query for asynchronous errors (b) at any time by calling
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* Pm_HasHostError().
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*
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* NOTES ON COMPILE-TIME SWITCHES
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*
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* DEBUG assumes stdio and a console. Use this if you want automatic, simple
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* error reporting, e.g. for prototyping. If you are using MFC or some
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* other graphical interface with no console, DEBUG probably should be
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* undefined.
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* PM_CHECK_ERRORS more-or-less takes over error checking for return values,
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* stopping your program and printing error messages when an error
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* occurs. This also uses stdio for console text I/O.
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*/
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#ifndef WIN32
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// Linux and OS X have stdint.h
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#include <stdint.h>
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#else
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#ifndef INT32_DEFINED
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// rather than having users install a special .h file for windows,
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// just put the required definitions inline here. porttime.h uses
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// these too, so the definitions are (unfortunately) duplicated there
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typedef int int32_t;
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typedef unsigned int uint32_t;
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#define INT32_DEFINED
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#endif
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#endif
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#ifdef _WINDLL
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#define PMEXPORT __declspec(dllexport)
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#else
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#define PMEXPORT
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#endif
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#ifndef FALSE
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#define FALSE 0
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#endif
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#ifndef TRUE
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#define TRUE 1
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#endif
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/* default size of buffers for sysex transmission: */
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#define PM_DEFAULT_SYSEX_BUFFER_SIZE 1024
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/** List of portmidi errors.*/
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typedef enum {
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pmNoError = 0,
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pmNoData = 0, /**< A "no error" return that also indicates no data avail. */
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pmGotData = 1, /**< A "no error" return that also indicates data available */
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pmHostError = -10000,
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pmInvalidDeviceId, /** out of range or
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* output device when input is requested or
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* input device when output is requested or
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* device is already opened
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*/
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pmInsufficientMemory,
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pmBufferTooSmall,
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pmBufferOverflow,
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pmBadPtr, /* PortMidiStream parameter is NULL or
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* stream is not opened or
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* stream is output when input is required or
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* stream is input when output is required */
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pmBadData, /** illegal midi data, e.g. missing EOX */
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pmInternalError,
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pmBufferMaxSize /** buffer is already as large as it can be */
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/* NOTE: If you add a new error type, be sure to update Pm_GetErrorText() */
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} PmError;
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/**
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Pm_Initialize() is the library initialisation function - call this before
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using the library.
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*/
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PMEXPORT PmError Pm_Initialize( void );
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/**
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Pm_Terminate() is the library termination function - call this after
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using the library.
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*/
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PMEXPORT PmError Pm_Terminate( void );
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/** A single PortMidiStream is a descriptor for an open MIDI device.
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*/
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typedef void PortMidiStream;
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#define PmStream PortMidiStream
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/**
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Test whether stream has a pending host error. Normally, the client finds
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out about errors through returned error codes, but some errors can occur
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asynchronously where the client does not
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explicitly call a function, and therefore cannot receive an error code.
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The client can test for a pending error using Pm_HasHostError(). If true,
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the error can be accessed and cleared by calling Pm_GetErrorText().
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Errors are also cleared by calling other functions that can return
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errors, e.g. Pm_OpenInput(), Pm_OpenOutput(), Pm_Read(), Pm_Write(). The
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client does not need to call Pm_HasHostError(). Any pending error will be
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reported the next time the client performs an explicit function call on
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the stream, e.g. an input or output operation. Until the error is cleared,
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no new error codes will be obtained, even for a different stream.
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*/
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PMEXPORT int Pm_HasHostError( PortMidiStream * stream );
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/** Translate portmidi error number into human readable message.
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These strings are constants (set at compile time) so client has
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no need to allocate storage
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*/
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PMEXPORT const char *Pm_GetErrorText( PmError errnum );
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/** Translate portmidi host error into human readable message.
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These strings are computed at run time, so client has to allocate storage.
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After this routine executes, the host error is cleared.
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*/
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PMEXPORT void Pm_GetHostErrorText(char * msg, unsigned int len);
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#define HDRLENGTH 50
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#define PM_HOST_ERROR_MSG_LEN 256u /* any host error msg will occupy less
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than this number of characters */
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/**
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Device enumeration mechanism.
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Device ids range from 0 to Pm_CountDevices()-1.
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*/
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typedef int PmDeviceID;
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#define pmNoDevice -1
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typedef struct {
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int structVersion; /**< this internal structure version */
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const char *interf; /**< underlying MIDI API, e.g. MMSystem or DirectX */
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const char *name; /**< device name, e.g. USB MidiSport 1x1 */
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int input; /**< true iff input is available */
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int output; /**< true iff output is available */
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int opened; /**< used by generic PortMidi code to do error checking on arguments */
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} PmDeviceInfo;
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/** Get devices count, ids range from 0 to Pm_CountDevices()-1. */
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PMEXPORT int Pm_CountDevices( void );
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/**
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Pm_GetDefaultInputDeviceID(), Pm_GetDefaultOutputDeviceID()
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Return the default device ID or pmNoDevice if there are no devices.
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The result (but not pmNoDevice) can be passed to Pm_OpenMidi().
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The default device can be specified using a small application
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named pmdefaults that is part of the PortMidi distribution. This
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program in turn uses the Java Preferences object created by
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java.util.prefs.Preferences.userRoot().node("/PortMidi"); the
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preference is set by calling
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prefs.put("PM_RECOMMENDED_OUTPUT_DEVICE", prefName);
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or prefs.put("PM_RECOMMENDED_INPUT_DEVICE", prefName);
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In the statements above, prefName is a string describing the
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MIDI device in the form "interf, name" where interf identifies
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the underlying software system or API used by PortMdi to access
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devices and name is the name of the device. These correspond to
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the interf and name fields of a PmDeviceInfo. (Currently supported
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interfaces are "MMSystem" for Win32, "ALSA" for Linux, and
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"CoreMIDI" for OS X, so in fact, there is no choice of interface.)
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In "interf, name", the strings are actually substrings of
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the full interface and name strings. For example, the preference
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"Core, Sport" will match a device with interface "CoreMIDI"
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and name "In USB MidiSport 1x1". It will also match "CoreMIDI"
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and "In USB MidiSport 2x2". The devices are enumerated in device
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ID order, so the lowest device ID that matches the pattern becomes
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the default device. Finally, if the comma-space (", ") separator
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between interface and name parts of the preference is not found,
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the entire preference string is interpreted as a name, and the
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interface part is the empty string, which matches anything.
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On the MAC, preferences are stored in
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/Users/$NAME/Library/Preferences/com.apple.java.util.prefs.plist
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which is a binary file. In addition to the pmdefaults program,
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there are utilities that can read and edit this preference file.
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On the PC,
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On Linux,
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*/
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PMEXPORT PmDeviceID Pm_GetDefaultInputDeviceID( void );
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/** see PmDeviceID Pm_GetDefaultInputDeviceID() */
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PMEXPORT PmDeviceID Pm_GetDefaultOutputDeviceID( void );
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/**
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PmTimestamp is used to represent a millisecond clock with arbitrary
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start time. The type is used for all MIDI timestampes and clocks.
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*/
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typedef int32_t PmTimestamp;
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typedef PmTimestamp (*PmTimeProcPtr)(void *time_info);
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/** TRUE if t1 before t2 */
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#define PmBefore(t1,t2) ((t1-t2) < 0)
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/**
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\defgroup grp_device Input/Output Devices Handling
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@{
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*/
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/**
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Pm_GetDeviceInfo() returns a pointer to a PmDeviceInfo structure
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referring to the device specified by id.
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If id is out of range the function returns NULL.
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The returned structure is owned by the PortMidi implementation and must
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not be manipulated or freed. The pointer is guaranteed to be valid
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between calls to Pm_Initialize() and Pm_Terminate().
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*/
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PMEXPORT const PmDeviceInfo* Pm_GetDeviceInfo( PmDeviceID id );
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/**
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Pm_OpenInput() and Pm_OpenOutput() open devices.
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stream is the address of a PortMidiStream pointer which will receive
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a pointer to the newly opened stream.
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inputDevice is the id of the device used for input (see PmDeviceID above).
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inputDriverInfo is a pointer to an optional driver specific data structure
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containing additional information for device setup or handle processing.
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inputDriverInfo is never required for correct operation. If not used
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inputDriverInfo should be NULL.
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outputDevice is the id of the device used for output (see PmDeviceID above.)
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outputDriverInfo is a pointer to an optional driver specific data structure
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containing additional information for device setup or handle processing.
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outputDriverInfo is never required for correct operation. If not used
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outputDriverInfo should be NULL.
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For input, the buffersize specifies the number of input events to be
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buffered waiting to be read using Pm_Read(). For output, buffersize
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specifies the number of output events to be buffered waiting for output.
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(In some cases -- see below -- PortMidi does not buffer output at all
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and merely passes data to a lower-level API, in which case buffersize
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is ignored.)
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latency is the delay in milliseconds applied to timestamps to determine
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when the output should actually occur. (If latency is < 0, 0 is assumed.)
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If latency is zero, timestamps are ignored and all output is delivered
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immediately. If latency is greater than zero, output is delayed until the
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message timestamp plus the latency. (NOTE: the time is measured relative
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to the time source indicated by time_proc. Timestamps are absolute,
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not relative delays or offsets.) In some cases, PortMidi can obtain
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better timing than your application by passing timestamps along to the
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device driver or hardware. Latency may also help you to synchronize midi
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data to audio data by matching midi latency to the audio buffer latency.
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time_proc is a pointer to a procedure that returns time in milliseconds. It
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may be NULL, in which case a default millisecond timebase (PortTime) is
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used. If the application wants to use PortTime, it should start the timer
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(call Pt_Start) before calling Pm_OpenInput or Pm_OpenOutput. If the
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application tries to start the timer *after* Pm_OpenInput or Pm_OpenOutput,
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it may get a ptAlreadyStarted error from Pt_Start, and the application's
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preferred time resolution and callback function will be ignored.
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time_proc result values are appended to incoming MIDI data, and time_proc
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times are used to schedule outgoing MIDI data (when latency is non-zero).
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time_info is a pointer passed to time_proc.
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Example: If I provide a timestamp of 5000, latency is 1, and time_proc
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returns 4990, then the desired output time will be when time_proc returns
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timestamp+latency = 5001. This will be 5001-4990 = 11ms from now.
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return value:
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Upon success Pm_Open() returns PmNoError and places a pointer to a
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valid PortMidiStream in the stream argument.
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If a call to Pm_Open() fails a nonzero error code is returned (see
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PMError above) and the value of port is invalid.
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Any stream that is successfully opened should eventually be closed
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by calling Pm_Close().
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*/
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PMEXPORT PmError Pm_OpenInput( PortMidiStream** stream,
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PmDeviceID inputDevice,
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void *inputDriverInfo,
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int32_t bufferSize,
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PmTimeProcPtr time_proc,
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void *time_info );
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PMEXPORT PmError Pm_OpenOutput( PortMidiStream** stream,
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PmDeviceID outputDevice,
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void *outputDriverInfo,
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int32_t bufferSize,
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PmTimeProcPtr time_proc,
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void *time_info,
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int32_t latency );
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/** @} */
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/**
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\defgroup grp_events_filters Events and Filters Handling
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@{
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*/
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/* \function PmError Pm_SetFilter( PortMidiStream* stream, int32_t filters )
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Pm_SetFilter() sets filters on an open input stream to drop selected
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input types. By default, only active sensing messages are filtered.
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To prohibit, say, active sensing and sysex messages, call
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Pm_SetFilter(stream, PM_FILT_ACTIVE | PM_FILT_SYSEX);
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Filtering is useful when midi routing or midi thru functionality is being
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provided by the user application.
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For example, you may want to exclude timing messages (clock, MTC, start/stop/continue),
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while allowing note-related messages to pass.
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Or you may be using a sequencer or drum-machine for MIDI clock information but want to
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exclude any notes it may play.
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*/
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/* Filter bit-mask definitions */
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/** filter active sensing messages (0xFE): */
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#define PM_FILT_ACTIVE (1 << 0x0E)
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/** filter system exclusive messages (0xF0): */
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#define PM_FILT_SYSEX (1 << 0x00)
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/** filter MIDI clock message (0xF8) */
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#define PM_FILT_CLOCK (1 << 0x08)
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/** filter play messages (start 0xFA, stop 0xFC, continue 0xFB) */
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#define PM_FILT_PLAY ((1 << 0x0A) | (1 << 0x0C) | (1 << 0x0B))
|
||
|
/** filter tick messages (0xF9) */
|
||
|
#define PM_FILT_TICK (1 << 0x09)
|
||
|
/** filter undefined FD messages */
|
||
|
#define PM_FILT_FD (1 << 0x0D)
|
||
|
/** filter undefined real-time messages */
|
||
|
#define PM_FILT_UNDEFINED PM_FILT_FD
|
||
|
/** filter reset messages (0xFF) */
|
||
|
#define PM_FILT_RESET (1 << 0x0F)
|
||
|
/** filter all real-time messages */
|
||
|
#define PM_FILT_REALTIME (PM_FILT_ACTIVE | PM_FILT_SYSEX | PM_FILT_CLOCK | \
|
||
|
PM_FILT_PLAY | PM_FILT_UNDEFINED | PM_FILT_RESET | PM_FILT_TICK)
|
||
|
/** filter note-on and note-off (0x90-0x9F and 0x80-0x8F */
|
||
|
#define PM_FILT_NOTE ((1 << 0x19) | (1 << 0x18))
|
||
|
/** filter channel aftertouch (most midi controllers use this) (0xD0-0xDF)*/
|
||
|
#define PM_FILT_CHANNEL_AFTERTOUCH (1 << 0x1D)
|
||
|
/** per-note aftertouch (0xA0-0xAF) */
|
||
|
#define PM_FILT_POLY_AFTERTOUCH (1 << 0x1A)
|
||
|
/** filter both channel and poly aftertouch */
|
||
|
#define PM_FILT_AFTERTOUCH (PM_FILT_CHANNEL_AFTERTOUCH | PM_FILT_POLY_AFTERTOUCH)
|
||
|
/** Program changes (0xC0-0xCF) */
|
||
|
#define PM_FILT_PROGRAM (1 << 0x1C)
|
||
|
/** Control Changes (CC's) (0xB0-0xBF)*/
|
||
|
#define PM_FILT_CONTROL (1 << 0x1B)
|
||
|
/** Pitch Bender (0xE0-0xEF*/
|
||
|
#define PM_FILT_PITCHBEND (1 << 0x1E)
|
||
|
/** MIDI Time Code (0xF1)*/
|
||
|
#define PM_FILT_MTC (1 << 0x01)
|
||
|
/** Song Position (0xF2) */
|
||
|
#define PM_FILT_SONG_POSITION (1 << 0x02)
|
||
|
/** Song Select (0xF3)*/
|
||
|
#define PM_FILT_SONG_SELECT (1 << 0x03)
|
||
|
/** Tuning request (0xF6)*/
|
||
|
#define PM_FILT_TUNE (1 << 0x06)
|
||
|
/** All System Common messages (mtc, song position, song select, tune request) */
|
||
|
#define PM_FILT_SYSTEMCOMMON (PM_FILT_MTC | PM_FILT_SONG_POSITION | PM_FILT_SONG_SELECT | PM_FILT_TUNE)
|
||
|
|
||
|
|
||
|
PMEXPORT PmError Pm_SetFilter( PortMidiStream* stream, int32_t filters );
|
||
|
|
||
|
#define Pm_Channel(channel) (1<<(channel))
|
||
|
/**
|
||
|
Pm_SetChannelMask() filters incoming messages based on channel.
|
||
|
The mask is a 16-bit bitfield corresponding to appropriate channels.
|
||
|
The Pm_Channel macro can assist in calling this function.
|
||
|
i.e. to set receive only input on channel 1, call with
|
||
|
Pm_SetChannelMask(Pm_Channel(1));
|
||
|
Multiple channels should be OR'd together, like
|
||
|
Pm_SetChannelMask(Pm_Channel(10) | Pm_Channel(11))
|
||
|
|
||
|
Note that channels are numbered 0 to 15 (not 1 to 16). Most
|
||
|
synthesizer and interfaces number channels starting at 1, but
|
||
|
PortMidi numbers channels starting at 0.
|
||
|
|
||
|
All channels are allowed by default
|
||
|
*/
|
||
|
PMEXPORT PmError Pm_SetChannelMask(PortMidiStream *stream, int mask);
|
||
|
|
||
|
/**
|
||
|
Pm_Abort() terminates outgoing messages immediately
|
||
|
The caller should immediately close the output port;
|
||
|
this call may result in transmission of a partial midi message.
|
||
|
There is no abort for Midi input because the user can simply
|
||
|
ignore messages in the buffer and close an input device at
|
||
|
any time.
|
||
|
*/
|
||
|
PMEXPORT PmError Pm_Abort( PortMidiStream* stream );
|
||
|
|
||
|
/**
|
||
|
Pm_Close() closes a midi stream, flushing any pending buffers.
|
||
|
(PortMidi attempts to close open streams when the application
|
||
|
exits -- this is particularly difficult under Windows.)
|
||
|
*/
|
||
|
PMEXPORT PmError Pm_Close( PortMidiStream* stream );
|
||
|
|
||
|
/**
|
||
|
Pm_Synchronize() instructs PortMidi to (re)synchronize to the
|
||
|
time_proc passed when the stream was opened. Typically, this
|
||
|
is used when the stream must be opened before the time_proc
|
||
|
reference is actually advancing. In this case, message timing
|
||
|
may be erratic, but since timestamps of zero mean
|
||
|
"send immediately," initialization messages with zero timestamps
|
||
|
can be written without a functioning time reference and without
|
||
|
problems. Before the first MIDI message with a non-zero
|
||
|
timestamp is written to the stream, the time reference must
|
||
|
begin to advance (for example, if the time_proc computes time
|
||
|
based on audio samples, time might begin to advance when an
|
||
|
audio stream becomes active). After time_proc return values
|
||
|
become valid, and BEFORE writing the first non-zero timestamped
|
||
|
MIDI message, call Pm_Synchronize() so that PortMidi can observe
|
||
|
the difference between the current time_proc value and its
|
||
|
MIDI stream time.
|
||
|
|
||
|
In the more normal case where time_proc
|
||
|
values advance continuously, there is no need to call
|
||
|
Pm_Synchronize. PortMidi will always synchronize at the
|
||
|
first output message and periodically thereafter.
|
||
|
*/
|
||
|
PmError Pm_Synchronize( PortMidiStream* stream );
|
||
|
|
||
|
|
||
|
/**
|
||
|
Pm_Message() encodes a short Midi message into a 32-bit word. If data1
|
||
|
and/or data2 are not present, use zero.
|
||
|
|
||
|
Pm_MessageStatus(), Pm_MessageData1(), and
|
||
|
Pm_MessageData2() extract fields from a 32-bit midi message.
|
||
|
*/
|
||
|
#define Pm_Message(status, data1, data2) \
|
||
|
((((data2) << 16) & 0xFF0000) | \
|
||
|
(((data1) << 8) & 0xFF00) | \
|
||
|
((status) & 0xFF))
|
||
|
#define Pm_MessageStatus(msg) ((msg) & 0xFF)
|
||
|
#define Pm_MessageData1(msg) (((msg) >> 8) & 0xFF)
|
||
|
#define Pm_MessageData2(msg) (((msg) >> 16) & 0xFF)
|
||
|
|
||
|
typedef int32_t PmMessage; /**< see PmEvent */
|
||
|
/**
|
||
|
All midi data comes in the form of PmEvent structures. A sysex
|
||
|
message is encoded as a sequence of PmEvent structures, with each
|
||
|
structure carrying 4 bytes of the message, i.e. only the first
|
||
|
PmEvent carries the status byte.
|
||
|
|
||
|
Note that MIDI allows nested messages: the so-called "real-time" MIDI
|
||
|
messages can be inserted into the MIDI byte stream at any location,
|
||
|
including within a sysex message. MIDI real-time messages are one-byte
|
||
|
messages used mainly for timing (see the MIDI spec). PortMidi retains
|
||
|
the order of non-real-time MIDI messages on both input and output, but
|
||
|
it does not specify exactly how real-time messages are processed. This
|
||
|
is particulary problematic for MIDI input, because the input parser
|
||
|
must either prepare to buffer an unlimited number of sysex message
|
||
|
bytes or to buffer an unlimited number of real-time messages that
|
||
|
arrive embedded in a long sysex message. To simplify things, the input
|
||
|
parser is allowed to pass real-time MIDI messages embedded within a
|
||
|
sysex message, and it is up to the client to detect, process, and
|
||
|
remove these messages as they arrive.
|
||
|
|
||
|
When receiving sysex messages, the sysex message is terminated
|
||
|
by either an EOX status byte (anywhere in the 4 byte messages) or
|
||
|
by a non-real-time status byte in the low order byte of the message.
|
||
|
If you get a non-real-time status byte but there was no EOX byte, it
|
||
|
means the sysex message was somehow truncated. This is not
|
||
|
considered an error; e.g., a missing EOX can result from the user
|
||
|
disconnecting a MIDI cable during sysex transmission.
|
||
|
|
||
|
A real-time message can occur within a sysex message. A real-time
|
||
|
message will always occupy a full PmEvent with the status byte in
|
||
|
the low-order byte of the PmEvent message field. (This implies that
|
||
|
the byte-order of sysex bytes and real-time message bytes may not
|
||
|
be preserved -- for example, if a real-time message arrives after
|
||
|
3 bytes of a sysex message, the real-time message will be delivered
|
||
|
first. The first word of the sysex message will be delivered only
|
||
|
after the 4th byte arrives, filling the 4-byte PmEvent message field.
|
||
|
|
||
|
The timestamp field is observed when the output port is opened with
|
||
|
a non-zero latency. A timestamp of zero means "use the current time",
|
||
|
which in turn means to deliver the message with a delay of
|
||
|
latency (the latency parameter used when opening the output port.)
|
||
|
Do not expect PortMidi to sort data according to timestamps --
|
||
|
messages should be sent in the correct order, and timestamps MUST
|
||
|
be non-decreasing. See also "Example" for Pm_OpenOutput() above.
|
||
|
|
||
|
A sysex message will generally fill many PmEvent structures. On
|
||
|
output to a PortMidiStream with non-zero latency, the first timestamp
|
||
|
on sysex message data will determine the time to begin sending the
|
||
|
message. PortMidi implementations may ignore timestamps for the
|
||
|
remainder of the sysex message.
|
||
|
|
||
|
On input, the timestamp ideally denotes the arrival time of the
|
||
|
status byte of the message. The first timestamp on sysex message
|
||
|
data will be valid. Subsequent timestamps may denote
|
||
|
when message bytes were actually received, or they may be simply
|
||
|
copies of the first timestamp.
|
||
|
|
||
|
Timestamps for nested messages: If a real-time message arrives in
|
||
|
the middle of some other message, it is enqueued immediately with
|
||
|
the timestamp corresponding to its arrival time. The interrupted
|
||
|
non-real-time message or 4-byte packet of sysex data will be enqueued
|
||
|
later. The timestamp of interrupted data will be equal to that of
|
||
|
the interrupting real-time message to insure that timestamps are
|
||
|
non-decreasing.
|
||
|
*/
|
||
|
typedef struct {
|
||
|
PmMessage message;
|
||
|
PmTimestamp timestamp;
|
||
|
} PmEvent;
|
||
|
|
||
|
/**
|
||
|
@}
|
||
|
*/
|
||
|
/** \defgroup grp_io Reading and Writing Midi Messages
|
||
|
@{
|
||
|
*/
|
||
|
/**
|
||
|
Pm_Read() retrieves midi data into a buffer, and returns the number
|
||
|
of events read. Result is a non-negative number unless an error occurs,
|
||
|
in which case a PmError value will be returned.
|
||
|
|
||
|
Buffer Overflow
|
||
|
|
||
|
The problem: if an input overflow occurs, data will be lost, ultimately
|
||
|
because there is no flow control all the way back to the data source.
|
||
|
When data is lost, the receiver should be notified and some sort of
|
||
|
graceful recovery should take place, e.g. you shouldn't resume receiving
|
||
|
in the middle of a long sysex message.
|
||
|
|
||
|
With a lock-free fifo, which is pretty much what we're stuck with to
|
||
|
enable portability to the Mac, it's tricky for the producer and consumer
|
||
|
to synchronously reset the buffer and resume normal operation.
|
||
|
|
||
|
Solution: the buffer managed by PortMidi will be flushed when an overflow
|
||
|
occurs. The consumer (Pm_Read()) gets an error message (pmBufferOverflow)
|
||
|
and ordinary processing resumes as soon as a new message arrives. The
|
||
|
remainder of a partial sysex message is not considered to be a "new
|
||
|
message" and will be flushed as well.
|
||
|
|
||
|
*/
|
||
|
PMEXPORT int Pm_Read( PortMidiStream *stream, PmEvent *buffer, int32_t length );
|
||
|
|
||
|
/**
|
||
|
Pm_Poll() tests whether input is available,
|
||
|
returning TRUE, FALSE, or an error value.
|
||
|
*/
|
||
|
PMEXPORT PmError Pm_Poll( PortMidiStream *stream);
|
||
|
|
||
|
/**
|
||
|
Pm_Write() writes midi data from a buffer. This may contain:
|
||
|
- short messages
|
||
|
or
|
||
|
- sysex messages that are converted into a sequence of PmEvent
|
||
|
structures, e.g. sending data from a file or forwarding them
|
||
|
from midi input.
|
||
|
|
||
|
Use Pm_WriteSysEx() to write a sysex message stored as a contiguous
|
||
|
array of bytes.
|
||
|
|
||
|
Sysex data may contain embedded real-time messages.
|
||
|
*/
|
||
|
PMEXPORT PmError Pm_Write( PortMidiStream *stream, PmEvent *buffer, int32_t length );
|
||
|
|
||
|
/**
|
||
|
Pm_WriteShort() writes a timestamped non-system-exclusive midi message.
|
||
|
Messages are delivered in order as received, and timestamps must be
|
||
|
non-decreasing. (But timestamps are ignored if the stream was opened
|
||
|
with latency = 0.)
|
||
|
*/
|
||
|
PMEXPORT PmError Pm_WriteShort( PortMidiStream *stream, PmTimestamp when, int32_t msg);
|
||
|
|
||
|
/**
|
||
|
Pm_WriteSysEx() writes a timestamped system-exclusive midi message.
|
||
|
*/
|
||
|
PMEXPORT PmError Pm_WriteSysEx( PortMidiStream *stream, PmTimestamp when, unsigned char *msg);
|
||
|
|
||
|
/** @} */
|
||
|
|
||
|
#ifdef __cplusplus
|
||
|
}
|
||
|
#endif /* __cplusplus */
|
||
|
#endif /* PORT_MIDI_H */
|