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Java™ Platform Standard Ed. 6 |
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public interface MidiChannel
A MidiChannel
object represents a single MIDI channel.
Generally, each MidiChannel
method processes a like-named MIDI
"channel voice" or "channel mode" message as defined by the MIDI specification. However,
MidiChannel
adds some "get" methods that retrieve the value
most recently set by one of the standard MIDI channel messages. Similarly,
methods for per-channel solo and mute have been added.
A
object has a collection
of Synthesizer
MidiChannels
, usually one for each of the 16 channels
prescribed by the MIDI 1.0 specification. The Synthesizer
generates sound when its MidiChannels
receive
noteOn
messages.
See the MIDI 1.0 Specification for more information about the prescribed
behavior of the MIDI channel messages, which are not exhaustively
documented here. The specification is titled MIDI Reference:
The Complete MIDI 1.0 Detailed Specification
, and is published by
the MIDI Manufacturer's Association (
http://www.midi.org).
MIDI was originally a protocol for reporting the gestures of a keyboard
musician. This genesis is visible in the MidiChannel
API, which
preserves such MIDI concepts as key number, key velocity, and key pressure.
It should be understood that the MIDI data does not necessarily originate
with a keyboard player (the source could be a different kind of musician, or
software). Some devices might generate constant values for velocity
and pressure, regardless of how the note was performed.
Also, the MIDI specification often leaves it up to the
synthesizer to use the data in the way the implementor sees fit. For
example, velocity data need not always be mapped to volume and/or brightness.
Synthesizer.getChannels()
Method Summary | |
---|---|
void |
allNotesOff()
Turns off all notes that are currently sounding on this channel. |
void |
allSoundOff()
Immediately turns off all sounding notes on this channel, ignoring the state of the Hold Pedal and the internal decay rate of the current Instrument . |
void |
controlChange(int controller,
int value)
Reacts to a change in the specified controller's value. |
int |
getChannelPressure()
Obtains the channel's keyboard pressure. |
int |
getController(int controller)
Obtains the current value of the specified controller. |
boolean |
getMono()
Obtains the current mono/poly mode. |
boolean |
getMute()
Obtains the current mute state for this channel. |
boolean |
getOmni()
Obtains the current omni mode. |
int |
getPitchBend()
Obtains the upward or downward pitch offset for this channel. |
int |
getPolyPressure(int noteNumber)
Obtains the pressure with which the specified key is being depressed. |
int |
getProgram()
Obtains the current program number for this channel. |
boolean |
getSolo()
Obtains the current solo state for this channel. |
boolean |
localControl(boolean on)
Turns local control on or off. |
void |
noteOff(int noteNumber)
Turns the specified note off. |
void |
noteOff(int noteNumber,
int velocity)
Turns the specified note off. |
void |
noteOn(int noteNumber,
int velocity)
Starts the specified note sounding. |
void |
programChange(int program)
Changes a program (patch). |
void |
programChange(int bank,
int program)
Changes the program using bank and program (patch) numbers. |
void |
resetAllControllers()
Resets all the implemented controllers to their default values. |
void |
setChannelPressure(int pressure)
Reacts to a change in the keyboard pressure. |
void |
setMono(boolean on)
Turns mono mode on or off. |
void |
setMute(boolean mute)
Sets the mute state for this channel. |
void |
setOmni(boolean on)
Turns omni mode on or off. |
void |
setPitchBend(int bend)
Changes the pitch offset for all notes on this channel. |
void |
setPolyPressure(int noteNumber,
int pressure)
Reacts to a change in the specified note's key pressure. |
void |
setSolo(boolean soloState)
Sets the solo state for this channel. |
Method Detail |
---|
void noteOn(int noteNumber, int velocity)
velocity
is zero, this method instead acts like
noteOff(int)
, terminating the note.
noteNumber
- the MIDI note number, from 0 to 127 (60 = Middle C)velocity
- the speed with which the key was depressednoteOff(int, int)
void noteOff(int noteNumber, int velocity)
Instrument
.
If the Hold Pedal (a controller; see
controlChange
)
is down, the effect of this method is deferred until the pedal is
released.
noteNumber
- the MIDI note number, from 0 to 127 (60 = Middle C)velocity
- the speed with which the key was releasednoteOff(int)
,
noteOn(int, int)
,
allNotesOff()
,
allSoundOff()
void noteOff(int noteNumber)
noteNumber
- the MIDI note number, from 0 to 127 (60 = Middle C)noteOff(int, int)
void setPolyPressure(int noteNumber, int pressure)
setPolyPressure
was successful, use getPolyPressure
.
noteNumber
- the MIDI note number, from 0 to 127 (60 = Middle C)pressure
- value for the specified key, from 0 to 127 (127 =
maximum pressure)getPolyPressure(int)
int getPolyPressure(int noteNumber)
noteNumber
- the MIDI note number, from 0 to 127 (60 = Middle C)
If the device does not support setting poly pressure,
this method always returns 0. Calling
setPolyPressure
will have no effect then.
setPolyPressure(int, int)
void setChannelPressure(int pressure)
setPolyPressure
. More commonly, it is a measurement of
a single sensor on a device that doesn't implement polyphonic key
pressure. Pressure can be used to control various aspects of the sound,
as described under setPolyPressure
.
It is possible that the underlying synthesizer
does not support this MIDI message. In order
to verify that setChannelPressure
was successful, use getChannelPressure
.
pressure
- the pressure with which the keyboard is being depressed,
from 0 to 127 (127 = maximum pressure)setPolyPressure(int, int)
,
getChannelPressure()
int getChannelPressure()
setChannelPressure
will have no effect then.
setChannelPressure(int)
void controlChange(int controller, int value)
Instrument
reacts to a controller change may be
specific to the Instrument
.
The MIDI 1.0 Specification defines both 7-bit controllers and 14-bit controllers. Continuous controllers, such as wheels and sliders, typically have 14 bits (two MIDI bytes), while discrete controllers, such as switches, typically have 7 bits (one MIDI byte). Refer to the specification to see the expected resolution for each type of control.
Controllers 64 through 95 (0x40 - 0x5F) allow 7-bit precision.
The value of a 7-bit controller is set completely by the
value
argument. An additional set of controllers
provide 14-bit precision by using two controller numbers, one
for the most significant 7 bits and another for the least significant
7 bits. Controller numbers 0 through 31 (0x00 - 0x1F) control the
most significant 7 bits of 14-bit controllers; controller numbers
32 through 63 (0x20 - 0x3F) control the least significant 7 bits of
these controllers. For example, controller number 7 (0x07) controls
the upper 7 bits of the channel volume controller, and controller
number 39 (0x27) controls the lower 7 bits.
The value of a 14-bit controller is determined
by the interaction of the two halves. When the most significant 7 bits
of a controller are set (using controller numbers 0 through 31), the
lower 7 bits are automatically set to 0. The corresponding controller
number for the lower 7 bits may then be used to further modulate the
controller value.
It is possible that the underlying synthesizer
does not support a specific controller message. In order
to verify that a call to controlChange
was successful, use getController
.
controller
- the controller number (0 to 127; see the MIDI
1.0 Specification for the interpretation)value
- the value to which the specified controller is changed (0 to 127)getController(int)
int getController(int controller)
controlChange
will have no effect then.
controller
- the number of the controller whose value is desired.
The allowed range is 0-127; see the MIDI
1.0 Specification for the interpretation.
controlChange(int, int)
void programChange(int program)
The MIDI specification does not dictate whether notes that are already sounding should switch to the new instrument (timbre) or continue with their original timbre until terminated by a note-off.
The program number is zero-based (expressed from 0 to 127).
Note that MIDI hardware displays and literature about MIDI
typically use the range 1 to 128 instead.
It is possible that the underlying synthesizer
does not support a specific program. In order
to verify that a call to programChange
was successful, use getProgram
.
program
- the program number to switch to (0 to 127)programChange(int, int)
,
getProgram()
void programChange(int bank, int program)
programChange
was successful, use getProgram
and
getController
.
Since banks are changed by way of control changes,
you can verify the current bank with the following
statement:
int bank = (getController(0) * 128) + getController(32);
bank
- the bank number to switch to (0 to 16383)program
- the program (patch) to use in the specified bank (0 to 127)programChange(int)
,
getProgram()
int getProgram()
Patch.getProgram()
,
Synthesizer.loadInstrument(javax.sound.midi.Instrument)
,
programChange(int)
void setPitchBend(int bend)
The MIDI specification
stipulates that pitch bend be a 14-bit value, where zero
is maximum downward bend, 16383 is maximum upward bend, and
8192 is the center (no pitch bend). The actual
amount of pitch change is not specified; it can be changed by
a pitch-bend sensitivity setting. However, the General MIDI
specification says that the default range should be two semitones
up and down from center.
It is possible that the underlying synthesizer
does not support this MIDI message. In order
to verify that setPitchBend
was successful, use getPitchBend
.
bend
- the amount of pitch change, as a nonnegative 14-bit value
(8192 = no bend)getPitchBend()
int getPitchBend()
setPitchBend
will have no effect then.
setPitchBend(int)
void resetAllControllers()
controlChange(int, int)
void allNotesOff()
Instrument
.
If the Hold Pedal controller (see
controlChange
)
is down, the effect of this method is deferred until the pedal is
released.
allSoundOff()
,
noteOff(int)
void allSoundOff()
Instrument
.
allNotesOff()
boolean localControl(boolean on)
localControl
was successful, check the return value.
on
- true
to turn local control on, false
to turn local control off
void setMono(boolean on)
"Mono" is short for the word "monophonic," which in this context
is opposed to the word "polyphonic" and refers to a single synthesizer
voice per MIDI channel. It
has nothing to do with how many audio channels there might be
(as in "monophonic" versus "stereophonic" recordings).
It is possible that the underlying synthesizer
does not support mono mode. In order
to verify that a call to setMono
was successful, use getMono
.
on
- true
to turn mono mode on, false
to
turn it off (which means turning poly mode on).getMono()
,
VoiceStatus
boolean getMono()
setMono
.
true
if mono mode is on, otherwise
false
(meaning poly mode is on).setMono(boolean)
void setOmni(boolean on)
setOmni
was successful, use getOmni
.
on
- true
to turn omni mode on, false
to
turn it off.getOmni()
,
VoiceStatus
boolean getOmni()
setOmni
.
true
if omni mode is on, otherwise
false
(meaning omni mode is off).setOmni(boolean)
void setMute(boolean mute)
true
means the channel is to be muted, false
means the channel can sound (if other channels are not soloed).
Unlike allSoundOff()
, this method
applies to only a specific channel, not to all channels. Further, it
silences not only currently sounding notes, but also subsequently
received notes.
It is possible that the underlying synthesizer
does not support muting channels. In order
to verify that a call to setMute
was successful, use getMute
.
mute
- the new mute stategetMute()
,
setSolo(boolean)
boolean getMute()
false
.
true
the channel is muted,
or false
if notsetMute(boolean)
void setSolo(boolean soloState)
solo
is true
only this channel
and other soloed channels will sound. If solo
is false
then only other soloed channels will
sound, unless no channels are soloed, in which case all
unmuted channels will sound.
It is possible that the underlying synthesizer
does not support solo channels. In order
to verify that a call to setSolo
was successful, use getSolo
.
soloState
- new solo state for the channelgetSolo()
boolean getSolo()
false
.
true
the channel is solo,
or false
if notsetSolo(boolean)
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Java™ Platform Standard Ed. 6 |
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