├── .gitignore
├── HelpSource
    └── Classes
    │   ├── OSCMapper.schelp
    │   ├── OSCMapperAccXYZ.schelp
    │   ├── OSCMapperArray.schelp
    │   ├── OSCMapperElement.schelp
    │   ├── OSCMapperFader.schelp
    │   ├── OSCMapperKeyValue.schelp
    │   ├── OSCMapperPush.schelp
    │   └── OSCMapperXY.schelp
├── LICENSE
├── OSCMapper.quark
├── OSCMapper
    └── OSCMapper.sc
├── README.md
└── logo.png


/.gitignore:
--------------------------------------------------------------------------------
 1 | # General
 2 | .DS_Store
 3 | .AppleDouble
 4 | .LSOverride
 5 | 
 6 | # Icon must end with two \r
 7 | Icon

 8 | 
 9 | # Thumbnails
10 | ._*
11 | 
12 | # Files that might appear in the root of a volume
13 | .DocumentRevisions-V100
14 | .fseventsd
15 | .Spotlight-V100
16 | .TemporaryItems
17 | .Trashes
18 | .VolumeIcon.icns
19 | .com.apple.timemachine.donotpresent
20 | 
21 | # Directories potentially created on remote AFP share
22 | .AppleDB
23 | .AppleDesktop
24 | Network Trash Folder
25 | Temporary Items
26 | .apdisk
27 | 


--------------------------------------------------------------------------------
/HelpSource/Classes/OSCMapper.schelp:
--------------------------------------------------------------------------------
  1 | TITLE:: OSCMapper
  2 | summary:: An abstraction layer for OSC controllers
  3 | categories:: OSCMapper
  4 | related:: Classes/OSCMapperElement, Classes/OSCMapperFader, Classes/OSCMapperPush, Classes/OSCMapperXY, Classes/OSCMapperAccXYZ, Classes/Bus, Classes/OSCdef, Classes/Ndef, Classes/Pdefn
  5 | 
  6 | DESCRIPTION::
  7 | 
  8 | OSCMapper is a Quark which intents to simplify the process of controlling SuperCollider with external OSC controllers such as TouchOSC.
  9 | 
 10 | STRONG::Learn OSC controls::
 11 | 
 12 | With OSCMapper it is possible to automatically create an OSCMapper layout according to the data it received which is often refered to as learning of controllers.
 13 | Simply turn OSCMapper into learning mode
 14 | 
 15 | code::
 16 | OSCMapper.learn;
 17 | ::
 18 | 
 19 | move the controllers (which should send its messages to the sclang standard port 57120, see link::Classes/NetAddr#*langPort::) and once finished stop the learning process which will output a new controller
 20 | 
 21 | code::
 22 | OSCMapper.finishLearn(\controller);
 23 | ::
 24 | 
 25 | The detected mapping will be shown at the post video.
 26 | There are
 27 | 
 28 | LIST::
 29 | ## link::Classes/OSCMapperFader:: for faders with floating point range
 30 | ## link::Classes/OSCMapperPush:: for binary buttons
 31 | ## link::Classes/OSCMapperXY:: for 2 dimensional faders
 32 | ## link::Classes/OSCMapperAccXYZ:: for sensory data
 33 | ## link::Classes/OSCMapperArray:: for array data (not supported via learning)
 34 | ## link::Classes/OSCMapperKeyValue:: for array data in format code::[key1, value1, key2, value2, ...]:: (not supported via learning)
 35 | ::
 36 | 
 37 | which all use link::Classes/OSCMapperElement:: as foundation.
 38 | 
 39 | 
 40 | STRONG::How to use the OSC values::
 41 | 
 42 | Assuming you have a OSC controller which is sending on address code::/1/fader:: and you have set up OSCMapper for this address you can access the value
 43 | 
 44 | LIST::
 45 | ## as a link::Classes/Ndef::
 46 | 
 47 | code::
 48 | // the osc mapper we created earlier
 49 | // can be accessed in Ndef style
 50 | o = OSCMapper(\controller);
 51 | 
 52 | Ndef(\mySine, {SinOsc.ar!2 * o['/1/fader1'].asNdef}).play;
 53 | 
 54 | Ndef(\mySine).clear(2);
 55 | ::
 56 | 
 57 | ## as a link::Classes/Bus::
 58 | code::
 59 | // use the default synth
 60 | s = Synth(\default);
 61 | s.map(\amp, o['/1/fader1'].asBus);
 62 | s.free;
 63 | ::
 64 | 
 65 | ## as a link::Classes/Pdefn::
 66 | code::
 67 | (
 68 | p = Pbind(
 69 | 	\instrument, \default,
 70 | 	\dur, 0.5,
 71 | 	\degree, Pxrand((0..10), inf),
 72 | 	\amp, o['/1/fader1'].asPdefn,
 73 | ).play;
 74 | )
 75 | 
 76 | p.stop;
 77 | ::
 78 | 
 79 | ## as a raw value
 80 | 
 81 | code::
 82 | o['/1/fader1'].value;
 83 | ::
 84 | 
 85 | ## via a callback on change
 86 | 
 87 | code::
 88 | o['/1/fader1'].callback = {|v| "value is now %".format(v).postln};
 89 | // and free the callback
 90 | o['/1/fader1'].callback = {};
 91 | ::
 92 | ::
 93 | 
 94 | STRONG::Creating a layout manually::
 95 | 
 96 | In case you do not want to learn OscMapper everytime you boot up SuperCollider
 97 | you can also define the layout manually like
 98 | 
 99 | code::
100 | (
101 | o = OSCMapper(name: \controller, layout: (
102 |     '/1/fader1': OSCMapperFader(
103 |         altName: \fader1,
104 |         defaultValue: 0.5,
105 |         transformer: linlin(_, 0.0, 1.0, 0.5, 10.0),
106 |         callback: {|v| ["received a value", v].postln;},
107 |         lag: 0.5,
108 |     ),
109 |     '/1/xy1': OSCMapperXY(
110 |         altName: \touchPanel
111 |     ),
112 | ));
113 | )
114 | ::
115 | 
116 | By providing an code::altName:: you can access the value also via this name on the mapper, e.g.
117 | 
118 | code::
119 | o[\fader1].value;
120 | ::
121 | 
122 | See EMPHASIS::How to use the OSC values:: above for further infos.
123 | 
124 | STRONG::Using a preset::
125 | 
126 | The presets from TouchOSC are already provided and can be simply loaded via
127 | 
128 | code::
129 | o = OSCMapper.mix2(name: \controller);
130 | 
131 | o['/1/fader1'].value;
132 | ::
133 | 
134 | See EMPHASIS::How to use the OSC values:: above for further infos.
135 | 
136 | STRONG::Using def style access::
137 | 
138 | Each OSCMapper needs to have a unique name.
139 | This is for internal reasons (as each link::Classes/Ndef:: also needs a unique address) but also to make the access to the OSCMapper easier.
140 | 
141 | code::
142 | o = OSCMapper(\my, layout: ('/1/fader1': OSCMapperFader()));
143 | 
144 | // access it via variable
145 | o['/1/fader1'].value;
146 | 
147 | // access it via def style
148 | OSCMapper(\my)['/1/fader1'].value;
149 | ::
150 | 
151 | STRONG::Updating a layout::
152 | 
153 | Lets say you want to change or modify an existing layout.
154 | 
155 | code::
156 | o = OSCMapper(\my, layout: ('/1/fader1': OSCMapperFader()));
157 | ::
158 | 
159 | Then we can add another address on the fly by modifying the existing layout
160 | 
161 | code::
162 | o.layout['/1/fader2'] = OSCMapperFader();
163 | ::
164 | 
165 | And also modify the existing layout by adding a transformer or a callback.
166 | 
167 | code::
168 | o['/1/fader2'].callback = {|v| "Got called: %".format(v).postln};
169 | 
170 | o['/1/fader2'].transformer = linlin(_, 0.0, 1.0, 20.0, 400.0);
171 | ::
172 | 
173 | and also remove an existing element
174 | 
175 | code::
176 | o.layout['/1/fader2'] = nil;
177 | ::
178 | 
179 | CLASSMETHODS::
180 | 
181 | METHOD:: new
182 | Will create a new OSCMapper.
183 | Will also add a link::Classes/Main#-addOSCRecvFunc:: which allows us to search trough all OSC messages.
184 | argument:: name
185 | Should be unique as we also allow to access the instances in an link::Classes/Ndef:: manner.
186 | argument:: layout
187 | An link::Classes/Event:: where key is the OSC address and the value is a link::Classes/OSCMapperElement:: which accepts the value.
188 | argument:: port
189 | Defaults to nil which will listen to all ports entered in link::Classes/Main#-openPorts:: (which can be seen via code::thisProcess.openPorts:: which defaults to link::Classes/NetAddr#*langPort:: which defaults to 57120).
190 | If a port is set we will tell sclang to listen on this port as well and we restrict the created OSCMapper to the stated port number.
191 | This allows you to use multiple devices with the same layout by using different ports.
192 | 
193 | METHOD:: learn
194 | Puts OSCMapper in capture mode.
195 | Should be followed by link::Classes/OSCMapper#*finishLearn::
196 | 
197 | METHOD:: finishLearn
198 | Will create a OSCMapper according to the messages that were received since link::Classes/OSCMapper#*learn:: was called.
199 | argument::name
200 | See link::Classes/OSCMapper#*new::.
201 | 
202 | METHOD:: mix2
203 | Constructor with layout for TouchOSC preset Mix 2.
204 | For other args see link::Classes/OSCMapper#*new::.
205 | argument:: name
206 | argument:: port
207 | 
208 | 
209 | METHOD:: mix2iPad
210 | Constructor with layout for TouchOSC preset Mix 2 iPad.
211 | For other args see link::Classes/OSCMapper#*new::.
212 | argument:: name
213 | argument:: port
214 | 
215 | METHOD:: all
216 | Will return an link::Classes/Event:: with all registered OSCMappers where the key is the name.
217 | 
218 | METHOD:: clearAll
219 | Removes all instances of OSCMapper.
220 | 
221 | METHOD:: echo
222 | Allows to output the currently received OSC messages, like link::Classes/OSCFunc#*trace::.
223 | This is useful to identify the touched controls.
224 | argument:: echoBool
225 | if code::true:: it will print the received values to the Post window. When set to code::false:: it will stop posting.
226 | 
227 | PRIVATE:: initClass
228 | 
229 | PRIVATE:: prCreateOscListener
230 | 
231 | PRIVATE:: isLearning
232 | 
233 | PRIVATE:: initListener
234 | 
235 | PRIVATE:: learnCapture
236 | 
237 | PRIVATE:: listenOnOSC
238 | 
239 | 
240 | INSTANCEMETHODS::
241 | 
242 | PRIVATE:: init
243 | 
244 | METHOD:: at
245 | Allows to access the addresses via e.g. code::o['/1/fader1']::
246 | argument:: address
247 | The address or altname given.
248 | 
249 | METHOD:: layout
250 | Allows to access and update the given layout.
251 | See EMPHASIS::Updating a layout:: above on how to use it.
252 | 
253 | METHOD:: clear
254 | 
255 | Removes any server resources and also any callbacks in the language.
256 | 
257 | 
258 | EXAMPLES::
259 | 
260 | STRONG::Multitoggles as step sequencer::
261 | 
262 | The layout link::Classes/OSCMapper#*mix2iPad:: includes a code::5x5:: matrix which we can use as a 25 step sequencer.
263 | The OSC address for these is code::/1/multitoggleK/i/j:: where K is the K-th multitoggle, i the column and j the row (so maybe a bit unintuitive but thats how it is in the interface).
264 | 
265 | code::
266 | (
267 | o = OSCMapper.mix2iPad;
268 | 
269 | // create an array of [o['.../1/1'].asPdefn, o['.../1/2'].asPdefn, ...]
270 | t = (1..5).collect({|i|
271 | 	(1..5).collect({|j|
272 | 		o["/1/multitoggle1/%/%".format(j, i).asSymbol].asPdefn
273 | 	})
274 | }).flatten;
275 | 
276 | Pdef(\myPattern, Pbind(
277 | 	\instrument, \default,
278 | 	\dur, 0.125,
279 | 	\degree, Pseq((0..5), inf),
280 | 	// use the button values of 1/0 as amp values
281 | 	\amp, Pseq(t, inf),
282 | )).play;
283 | )
284 | 
285 | Pdef(\myPattern).stop;
286 | 
287 | // modify the array creation to e.g. 1..4 to get a 16 step sequencer
288 | ::
289 | 
290 | STRONG::Activate a ProxyChain::
291 | 
292 | code::
293 | // create a synthdef
294 | (
295 | SynthDef(\percSaw, {|out|
296 | 	var sig = Saw.ar(\freq.kr(200.0));
297 | 	var env = EnvGen.kr(Env.perc(
298 | 		attackTime: \attackTime.kr(0.01),
299 | 		releaseTime: \releaseTime.kr(0.1),
300 | 	), doneAction: Done.freeSelf);
301 | 	sig = Pan2.ar(sig*env, pos: \pos.kr(0.0)) * \amp.kr(0.2);
302 | 	Out.ar(out, sig);
303 | }).add;
304 | 
305 | // create a proxychain source
306 | ProxyChain.add3(
307 | 	srcName: \delay,
308 | 	source: \filter -> {|in| DelayC.ar(
309 | 		in: (in*\preAmp.kr(1.0)).tanh,
310 | 		maxdelaytime: 0.2,
311 | 		delaytime: 0.2 * [1.0, \delayOffset.kr(0.9)];
312 | 	).sum},
313 | 	level: 1.0,
314 | );
315 | )
316 | 
317 | // create the actual proxy chain
318 | ProxyChain(\p, [\delay], numChannels: 2).play.gui;
319 | 
320 | // play a pattern through the proxy chain
321 | (
322 | Pdef(\myPattern, Pbind(
323 | 	\instrument, \percSaw,
324 | 	\dur, 0.125,
325 | 	\degree, Pseq((0..5), inf),
326 | 	\amp, 0.5,
327 | 	\out, ProxyChain(\p).proxy.index,
328 | )).play;
329 | )
330 | 
331 | // create our OSC mapper
332 | o = OSCMapper.mix2;
333 | 
334 | // create a callbacks on our push
335 | (
336 | o['/1/toggle1'].onPress = {ProxyChain(\p).add(\delay, 0.5)};
337 | o['/1/toggle1'].onRelease = {ProxyChain(\p).remove(\delay)};
338 | )
339 | 
340 | // modify a ProxyChain parameter via osc parameter
341 | o['/1/fader1'].callback = {|v| ProxyChain(\p).set(\delayOffset, v)};
342 | 
343 | 
344 | // clean up
345 | Pdef(\myPattern).clear;
346 | ::
347 | 
348 | STRONG::Play/Stop patterns::
349 | 
350 | code::
351 | (
352 | Pdef(\myPattern, Pbind(
353 | 	\instrument, \default,
354 | 	\degree, Pxrand((0..5), inf),
355 | 	\dur, 0.25,
356 | ));
357 | )
358 | 
359 | (
360 | o['/1/toggle1'].onPress = {Pdef(\myPattern).play};
361 | o['/1/toggle1'].onRelease = {Pdef(\myPattern).stop};
362 | )
363 | ::
364 | 


--------------------------------------------------------------------------------
/HelpSource/Classes/OSCMapperAccXYZ.schelp:
--------------------------------------------------------------------------------
 1 | TITLE:: OSCMapperAccXYZ
 2 | summary:: Receives tree dimensional sensor float values on OSC address
 3 | categories:: OSCMapper
 4 | related:: Classes/OSCMapperFader, Classes/OSCMapper, Classes/OSCMapperElement
 5 | 
 6 | DESCRIPTION::
 7 | 
 8 | Makes the 3 dimensions from e.g. an accelerator sensor available as OSC receiver for an link::Class/OSCMapper::.
 9 | 
10 | code::
11 | o = OSCMapper(\controller, (
12 | 	'/accxyz': OSCMapperXY(),
13 | ));
14 | 
15 | // access x via
16 | o['/accxyz'].x.value;
17 | // and y via
18 | o['/accxyz'].y.value;
19 | // and z via
20 | o['/accxyz'].z.value;
21 | ::
22 | 
23 | See link::Classes/OSCMapper:: and link::Classes/OSCMapperElement:: for more information.
24 | 
25 | CLASSMETHODS::
26 | 
27 | METHOD:: new
28 | argument:: altName
29 | argument:: defaultValueX
30 | argument:: defaultValueY
31 | argument:: defaultValueZ
32 | argument:: transformerX
33 | argument:: transformerY
34 | argument:: transformerZ
35 | argument:: callbackX
36 | argument:: callbackY
37 | argument:: callbackZ
38 | argument:: lagX
39 | argument:: lagY
40 | argument:: lagZ
41 | 
42 | 
43 | INSTANCEMETHODS::
44 | 
45 | PRIVATE:: update
46 | 
47 | PRIVATE:: address
48 | 
49 | PRIVATE:: initAccXYZ
50 | 
51 | METHOD:: x
52 | 
53 | METHOD:: y
54 | 
55 | METHOD:: z
56 | 
57 | PRIVATE:: printOn
58 | 
59 | PRIVATE:: altName
60 | 
61 | 
62 | EXAMPLES::
63 | 
64 | See link::Classes/OSCMapper#Examples::.
65 | 


--------------------------------------------------------------------------------
/HelpSource/Classes/OSCMapperArray.schelp:
--------------------------------------------------------------------------------
 1 | TITLE:: OSCMapperArray
 2 | summary:: Receives an array of float values on a OSC address
 3 | categories:: OSCMapper
 4 | related:: Classes/OSCMapper, Classes/OSCMapperElement, Classes/OSCMapperKeyValue
 5 | 
 6 | DESCRIPTION::
 7 | 
 8 | Allows to receive an array of OSC values and access them in array style, therefore
 9 | 
10 | code::
11 | (
12 | o = OSCMapper(\myLayout, layout: (
13 | 	'/my': OSCMapperArray(),
14 | ));
15 | )
16 | 
17 | // send a message to ourselves
18 | NetAddr("localhost", NetAddr.langPort).sendMsg("/my", 4, 3, 2, 1, 0);
19 | 
20 | // now access the elements via their index - .asNdef etc also works
21 | o['/my'][0].value
22 | 
23 | // Please note that if the dimension of the received array changes we will rebuild everything internal,
24 | // so things like callbacks are not persistent
25 | 
26 | o['/my'][0].callback = {|v| "received %".format(v).postln}
27 | 
28 | NetAddr("localhost", NetAddr.langPort).sendMsg("/my", 4, 3, 2, 1, 0);
29 | 
30 | // now change dimensions
31 | 
32 | NetAddr("localhost", NetAddr.langPort).sendMsg("/my", 3, 2, 1, 0);
33 | 
34 | // no callback b/c we initiated new OSCMapperFader for each array element
35 | ::
36 | 
37 | See link::Classes/OSCMapper:: and link::Classes/OSCMapperElement:: for further information.
38 | 
39 | 
40 | CLASSMETHODS::
41 | 
42 | 
43 | INSTANCEMETHODS::
44 | 
45 | METHOD:: at
46 | argument:: index
47 | 
48 | PRIVATE:: update
49 | 
50 | EXAMPLES::
51 | 
52 | 
53 | See link::Classes/OSCMapper#Examples::.
54 | 


--------------------------------------------------------------------------------
/HelpSource/Classes/OSCMapperElement.schelp:
--------------------------------------------------------------------------------
 1 | TITLE:: OSCMapperElement
 2 | summary:: Base element for OSCMapper receivers
 3 | categories:: OSCMapper
 4 | related:: Classes/OSCMapper, Classes/OSCMapperFader, Classes/OSCMapperPush, Classes/OSCMapperXY, Classes/OSCMapperAccXYZ
 5 | 
 6 | DESCRIPTION::
 7 | Base element for receivers of OSC messages from link::Classes/OSCMapper::.
 8 | Handles registration and transformation of the values.
 9 | This should be handeled as an abstract class and the following classes should be used instead
10 | 
11 | list::
12 | ## link::Classes/OSCMapperFader:: For floating values
13 | ## link::Classes/OSCMapperPush:: For binary values
14 | ## link::Classes/OSCMapperXY:: For 2 dimensional link::Classes/OSCMapperFader::
15 | ## link::Classes/OSCMapperAccXYZ:: For 3 dimensional sensor data
16 | ::
17 | 
18 | CLASSMETHODS::
19 | 
20 | METHOD:: new
21 | argument:: altName
22 | Alternatev name under which the element can also be accessed from via the link::Classes/OSCMapper::
23 | argument:: defaultValue
24 | The default value which will be put out as long as no message was received.
25 | argument:: transformer
26 | An optional function which will transform the received values.
27 | code::
28 | // add +20 to all values
29 | {|v| v+20}
30 | 
31 | // use linlin to map [0, 1] to [20, 200]
32 | linlin(_, 0.0, 1.0, 20.0, 200.0);
33 | ::
34 | argument:: callback
35 | A function which will be called.
36 | First argument is the received value.
37 | code::
38 | {|v| "received %".format(v).postln}
39 | ::
40 | argument:: lag
41 | Will be used as a smoothing on the Ndef.
42 | 
43 | 
44 | INSTANCEMETHODS::
45 | 
46 | PRIVATE:: update
47 | 
48 | METHOD:: asNdef
49 | 
50 | Returns the values as link::Classes/Ndef::, see link::Classes/OSCMapper#Examples:: for usage.
51 | 
52 | METHOD:: asBus
53 | 
54 | Returns the values in a link::Classes/Bus::, see link::Classes/OSCMapper#Examples:: for usage.
55 | 
56 | METHOD:: asPdefn
57 | 
58 | Returns the values as link::Classes/Pdefn::, see link::Classes/OSCMapper#Examples:: for usage.
59 | 
60 | 
61 | METHOD:: value
62 | 
63 | Returns latest received value.
64 | 
65 | METHOD:: transformer
66 | 
67 | See link::Classes/OSCMapperElement#*new::
68 | 
69 | PRIVATE:: initTouchElement
70 | 
71 | METHOD:: callback
72 | 
73 | See link::Classes/OSCMapperElement#*new::
74 | 
75 | PRIVATE:: altName
76 | 
77 | PRIVATE:: ndef
78 | 
79 | PRIVATE:: defaultValue
80 | 
81 | PRIVATE:: name
82 | 
83 | PRIVATE:: lag
84 | 
85 | PRIVATE:: pdefn
86 | 
87 | PRIVATE:: address
88 | 
89 | PRIVATE:: bus
90 | 
91 | 
92 | EXAMPLES::
93 | 
94 | See link::Classes/OSCMapper#Examples::.
95 | 


--------------------------------------------------------------------------------
/HelpSource/Classes/OSCMapperFader.schelp:
--------------------------------------------------------------------------------
 1 | TITLE:: OSCMapperFader
 2 | summary:: Receives float values on OSC address
 3 | categories:: OSCMapper
 4 | related:: Classes/OSCMapper, Classes/OSCMapperElement
 5 | 
 6 | DESCRIPTION::
 7 | 
 8 | See link::Classes/OSCMapper:: and link::Classes/OSCMapperElement::.
 9 | 
10 | CLASSMETHODS::
11 | 
12 | 
13 | INSTANCEMETHODS::
14 | 
15 | PRIVATE:: printOn
16 | 
17 | 
18 | EXAMPLES::
19 | 
20 | See link::Classes/OSCMapper#Examples::.
21 | 


--------------------------------------------------------------------------------
/HelpSource/Classes/OSCMapperKeyValue.schelp:
--------------------------------------------------------------------------------
 1 | TITLE:: OSCMapperKeyValue
 2 | summary:: Receives a pair of key, value in array format on an OSC address
 3 | categories:: OSCMapper
 4 | related:: Classes/OSCMapper, Classes/OSCMapperElement, Classes/OSCMapperArray
 5 | 
 6 | DESCRIPTION::
 7 | 
 8 | Allows to receive an array of format code::[k1, v1, k2, v2, ...]:: in OSC values and access them in link::Classes/Event:: style, therefore
 9 | 
10 | code::
11 | (
12 | o = OSCMapper(\myLayout, layout: (
13 | 	'/my': OSCMapperKeyValue(),
14 | ));
15 | )
16 | 
17 | // send a message to ourselves
18 | NetAddr("localhost", NetAddr.langPort).sendMsg("/my", "foo", 42, "bar", 2);
19 | 
20 | // now access the elements via their key - .asNdef etc also works
21 | o['/my']['foo'].value;
22 | 
23 | o['/my']['bar'].value;
24 | ::
25 | 
26 | See link::Classes/OSCMapper:: and link::Classes/OSCMapperElement:: for further information.
27 | 
28 | 
29 | CLASSMETHODS::
30 | 
31 | 
32 | INSTANCEMETHODS::
33 | 
34 | METHOD:: at
35 | argument:: key
36 | 
37 | PRIVATE:: update
38 | 
39 | EXAMPLES::
40 | 
41 | See link::Classes/OSCMapper#Examples::.
42 | 


--------------------------------------------------------------------------------
/HelpSource/Classes/OSCMapperPush.schelp:
--------------------------------------------------------------------------------
 1 | TITLE:: OSCMapperPush
 2 | summary:: Receives binary values on OSC address
 3 | categories:: OSCMapper
 4 | related:: Classes/OSCMapper, Classes/OSCMapperElement
 5 | 
 6 | DESCRIPTION::
 7 | 
 8 | This is an link::Classes/OSCMapperElement:: which is designed for binary values such as buttons, which either are active (1) or inactive (0).
 9 | See link::Classes/OSCMapper:: and link::Classes/OSCMapperElement:: for more information.
10 | 
11 | 
12 | CLASSMETHODS::
13 | 
14 | METHOD:: new
15 | argument:: altName
16 | See link::Classes/OSCMapper#*new::
17 | argument:: onPress
18 | A function which will be called when the button is pressed down (from 0->1)
19 | argument:: onRelease
20 | A function which will be called when the button is released (from 1->0)
21 | argument:: onPush
22 | A function which will be called on press and release. The first argument is the current value of the button, so 1 or 0.
23 | 
24 | 
25 | INSTANCEMETHODS::
26 | 
27 | PRIVATE:: initPush
28 | 
29 | METHOD:: onPress
30 | 
31 | Set this to a function that will be called on press.
32 | 
33 | METHOD:: onRelease
34 | 
35 | Set this to a function that will be called on release.
36 | 
37 | PRIVATE:: printOn
38 | 
39 | METHOD:: onPush
40 | 
41 | Set this to a function that will be called on push.
42 | 
43 | PRIVATE:: checkPushCallbacks
44 | 
45 | 
46 | EXAMPLES::
47 | 
48 | See link::Classes/OSCMapper#Examples::.
49 | 


--------------------------------------------------------------------------------
/HelpSource/Classes/OSCMapperXY.schelp:
--------------------------------------------------------------------------------
 1 | TITLE:: OSCMapperXY
 2 | summary:: Receives two dimensional float values on OSC address
 3 | categories:: OSCMapper
 4 | related:: Classes/OSCMapperFader, Classes/OSCMapper, Classes/OSCMapperElement
 5 | 
 6 | DESCRIPTION::
 7 | 
 8 | Makes the two dimensions of the OSC address accessible via an link::Classes/Event:: with the keys code::x:: and code::y::.
 9 | 
10 | code::
11 | o = OSCMapper(\controller, (
12 | 	'/3/xy1': OSCMapperXY(),
13 | ));
14 | 
15 | // access x via
16 | o['/3/xy1'].x.value;
17 | // and y via
18 | o['/3/xy1'].y.value;
19 | ::
20 | 
21 | See link::Classes/OSCMapper:: and link::Classes/OSCMapperElement:: for more information.
22 | 
23 | CLASSMETHODS::
24 | 
25 | METHOD:: new
26 | See See link::Classes/OSCMapper#*new::
27 | argument:: altName
28 | argument:: defaultValueX
29 | argument:: defaultValueY
30 | argument:: transformerX
31 | argument:: transformerY
32 | argument:: callbackX
33 | argument:: callbackY
34 | argument:: lagX
35 | argument:: lagY
36 | 
37 | 
38 | INSTANCEMETHODS::
39 | 
40 | METHOD:: x
41 | 
42 | First dimension
43 | 
44 | PRIVATE:: initXY
45 | 
46 | PRIVATE:: update
47 | 
48 | METHOD:: y
49 | 
50 | Second dimension
51 | 
52 | PRIVATE:: printOn
53 | 
54 | PRIVATE:: address
55 | 
56 | PRIVATE:: altName
57 | 
58 | 
59 | EXAMPLES::
60 | 
61 | See link::Classes/OSCMapper#Examples::.
62 | 


--------------------------------------------------------------------------------
/LICENSE:
--------------------------------------------------------------------------------
  1 | 		    GNU GENERAL PUBLIC LICENSE
  2 | 		       Version 2, June 1991
  3 | 
  4 |  Copyright (C) 1989, 1991 Free Software Foundation, Inc.,
  5 |  51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
  6 |  Everyone is permitted to copy and distribute verbatim copies
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  8 | 
  9 | 			    Preamble
 10 | 
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 12 | freedom to share and change it.  By contrast, the GNU General Public
 13 | License is intended to guarantee your freedom to share and change free
 14 | software--to make sure the software is free for all its users.  This
 15 | General Public License applies to most of the Free Software
 16 | Foundation's software and to any other program whose authors commit to
 17 | using it.  (Some other Free Software Foundation software is covered by
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 19 | your programs, too.
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 60 |    TERMS AND CONDITIONS FOR COPYING, DISTRIBUTION AND MODIFICATION
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312 | If the program is interactive, make it output a short notice like this
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315 |     Gnomovision version 69, Copyright (C) year name of author
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318 |     under certain conditions; type `show c' for details.
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320 | The hypothetical commands `show w' and `show c' should show the appropriate
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323 | mouse-clicks or menu items--whatever suits your program.
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328 | 
329 |   Yoyodyne, Inc., hereby disclaims all copyright interest in the program
330 |   `Gnomovision' (which makes passes at compilers) written by James Hacker.
331 | 
332 |   <signature of Ty Coon>, 1 April 1989
333 |   Ty Coon, President of Vice
334 | 
335 | This General Public License does not permit incorporating your program into
336 | proprietary programs.  If your program is a subroutine library, you may
337 | consider it more useful to permit linking proprietary applications with the
338 | library.  If this is what you want to do, use the GNU Lesser General
339 | Public License instead of this License.
340 | 


--------------------------------------------------------------------------------
/OSCMapper.quark:
--------------------------------------------------------------------------------
 1 | (
 2 |   name: "OSCMapper",
 3 |   summary: "Abstraction layer for OSC controllers.",
 4 |   version: "0.1.0",
 5 |   schelp: "OSCMapper",
 6 |   url: "https://github.com/capital-G/OSCMapper",
 7 |   license: "GPL-2.0",
 8 |   copyright: "Dennis Scheiba, 2022",
 9 |   organization: "Robert Schumann Hochschule Düsseldorf"
10 | )
11 | 


--------------------------------------------------------------------------------
/OSCMapper/OSCMapper.sc:
--------------------------------------------------------------------------------
  1 | OSCMapperElement {
  2 | 	var <altName;
  3 | 	var <>defaultValue;
  4 | 	var <>transformer;
  5 | 	var <>callback;
  6 | 	var <lag;
  7 | 
  8 | 	// private stuff
  9 | 	var <name;
 10 | 	var address;
 11 | 	var <ndef;
 12 | 	var <bus;
 13 | 	var <pdefn;
 14 | 	var <value;
 15 | 	var prCallbacks;
 16 | 
 17 | 	*new { |altName, defaultValue=0.0, transformer, callback, lag=0.2|
 18 | 		^super.newCopyArgs(
 19 | 			altName,
 20 | 			defaultValue,
 21 | 			transformer,
 22 | 			callback,
 23 | 			lag,
 24 | 		).initTouchElement;
 25 | 	}
 26 | 
 27 | 	initTouchElement {
 28 | 		// TODO typecheck on callbacks
 29 | 		callback = callback ? {};
 30 | 		prCallbacks = [];
 31 | 		transformer = transformer ? {|i| i};
 32 | 		value = defaultValue;
 33 | 	}
 34 | 
 35 | 	address_ { |newAddress|
 36 | 		address = newAddress;
 37 | 		name = "OSCMapper_%".format(address);
 38 | 	}
 39 | 
 40 | 	lag_ { |newLag|
 41 | 		lag = newLag;
 42 | 		if(ndef.notNil, {
 43 | 			ndef.set(\lag, lag);
 44 | 		});
 45 | 	}
 46 | 
 47 | 	asNdef {
 48 | 		ndef = ndef ? Ndef(name.asSymbol, {
 49 | 			\val.kr(value, lag: \lag.kr(lag))
 50 | 		});
 51 | 		^ndef;
 52 | 	}
 53 | 
 54 | 	asBus {
 55 | 		bus = bus ? Bus.control(
 56 | 			server: Server.default,
 57 | 			numChannels: 1
 58 | 		);
 59 | 		bus.set(value);
 60 | 		^bus;
 61 | 	}
 62 | 
 63 | 	asPdefn {
 64 | 		pdefn = pdefn ? Pdefn(name.asSymbol, value);
 65 | 		^pdefn;
 66 | 	}
 67 | 
 68 | 	update {|...newValues|
 69 | 		value = transformer.(newValues[0]);
 70 | 
 71 | 		if(bus.notNil, {
 72 | 			bus.set(value);
 73 | 		});
 74 | 
 75 | 		if(ndef.notNil, {
 76 | 			ndef.set(\val, value);
 77 | 		});
 78 | 
 79 | 		if(pdefn.notNil, {
 80 | 			Pdefn(name.asSymbol, value);
 81 | 		});
 82 | 
 83 | 		(prCallbacks ++ [callback]).do({|cb|
 84 | 			cb.value(value);
 85 | 		});
 86 | 	}
 87 | }
 88 | 
 89 | OSCMapperFader : OSCMapperElement {
 90 | 	printOn { | stream |
 91 | 		stream << "OSCMapperFader(altName: " << altName << ", defaultValue: " << defaultValue << ")";
 92 | 	}
 93 | 
 94 | }
 95 | 
 96 | OSCMapperPush : OSCMapperElement {
 97 | 	var <>onPress;
 98 | 	var <>onRelease;
 99 | 	var <>onPush;
100 | 
101 | 	*new { |altName, onPress, onRelease, onPush|
102 | 		^super.newCopyArgs().initPush(
103 | 			onPress,
104 | 			onRelease,
105 | 			onPush,
106 | 		);
107 | 	}
108 | 
109 | 	initPush {|pressCallback_, releaseCallback_, pushCallback_|
110 | 		this.initTouchElement();
111 | 
112 | 		onPress = pressCallback_ ? {};
113 | 		onRelease = releaseCallback_ ? {};
114 | 		onPush = pushCallback_ ? {};
115 | 		prCallbacks = prCallbacks ++ [{|v| this.checkPushCallbacks(v)}];
116 | 	}
117 | 
118 | 	checkPushCallbacks {|value|
119 | 		if(value == 1.0, {this.onPress.value(value)});
120 | 		if(value == 0.0, {this.onRelease.value(value)});
121 | 		this.onPush.value(value);
122 | 	}
123 | 
124 | 	printOn { | stream |
125 | 		stream << "OSCMapperPush(altName: " << altName << ")";
126 | 	}
127 | }
128 | 
129 | OSCMapperXY {
130 | 	var <altName;
131 | 	var defaultValueX;
132 | 	var defaultValueY;
133 | 	var transformerX;
134 | 	var transformerY;
135 | 	var callbackX;
136 | 	var callbackY;
137 | 	var lagX;
138 | 	var lagY;
139 | 
140 | 	var <x;
141 | 	var <y;
142 | 	var <address;
143 | 
144 | 	*new { |altName, defaultValueX=0.0, defaultValueY=0.0 transformerX, transformerY, callbackX, callbackY, lagX=0.2, lagY=0.2|
145 | 		^super.newCopyArgs(
146 | 			altName,
147 | 			defaultValueX,
148 | 			defaultValueY,
149 | 			transformerX,
150 | 			transformerY,
151 | 			callbackX,
152 | 			callbackY,
153 | 			lagX,
154 | 			lagY,
155 | 		).initXY;
156 | 	}
157 | 
158 | 	initXY {
159 | 		x = OSCMapperFader(
160 | 			altName: altName.isNil.if({nil}, {"%_x".format(altName).asSymbol}),
161 | 			defaultValue: defaultValueX,
162 | 			transformer: transformerX,
163 | 			callback: callbackX,
164 | 			lag: lagX,
165 | 		);
166 | 		y = OSCMapperFader(
167 | 			altName: altName.isNil.if({nil}, {"%_y".format(altName).asSymbol}),
168 | 			defaultValue: defaultValueY,
169 | 			transformer: transformerY,
170 | 			callback: callbackY,
171 | 			lag: lagY,
172 | 		);
173 | 	}
174 | 
175 | 	update {|...newValues|
176 | 		x.update(newValues[0]);
177 | 		y.update(newValues[1]);
178 | 	}
179 | 
180 | 	address_ { |newAddress|
181 | 		address = newAddress;
182 | 		x.address = "%_x".format(address).asSymbol;
183 | 		y.address = "%_y".format(address).asSymbol;
184 | 	}
185 | 
186 | 	printOn { | stream |
187 | 		stream << "OSCMapperXY(altName: " << altName << ")";
188 | 	}
189 | }
190 | 
191 | OSCMapperAccXYZ {
192 | 	var <altName;
193 | 	var defaultValueX;
194 | 	var defaultValueY;
195 | 	var defaultValueZ;
196 | 	var transformerX;
197 | 	var transformerY;
198 | 	var transformerZ;
199 | 	var callbackX;
200 | 	var callbackY;
201 | 	var callbackZ;
202 | 	var lagX;
203 | 	var lagY;
204 | 	var lagZ;
205 | 
206 | 	var <x;
207 | 	var <y;
208 | 	var <z;
209 | 	var <address;
210 | 
211 | 	*new { |
212 | 		altName,
213 | 		defaultValueX,
214 | 		defaultValueY,
215 | 		defaultValueZ,
216 | 		transformerX,
217 | 		transformerY,
218 | 		transformerZ,
219 | 		callbackX,
220 | 		callbackY,
221 | 		callbackZ,
222 | 		lagX=0.2,
223 | 		lagY=0.2,
224 | 		lagZ=0.2
225 | 		|
226 | 		^super.newCopyArgs(
227 | 			altName,
228 | 			defaultValueX,
229 | 			defaultValueY,
230 | 			defaultValueZ,
231 | 			transformerX,
232 | 			transformerY,
233 | 			transformerZ,
234 | 			callbackX,
235 | 			callbackY,
236 | 			callbackZ,
237 | 			lagX,
238 | 			lagY,
239 | 			lagZ,
240 | 		).initAccXYZ;
241 | 	}
242 | 
243 | 	initAccXYZ {
244 | 		x = OSCMapperFader(
245 | 			altName: altName.isNil.if({nil}, {"%_x".format(altName).asSymbol}),
246 | 			defaultValue: defaultValueX,
247 | 			transformer: transformerX,
248 | 			callback: callbackX,
249 | 			lag: lagX,
250 | 		);
251 | 
252 | 		y = OSCMapperFader(
253 | 			altName: altName.isNil.if({nil}, {"%_y".format(altName).asSymbol}),
254 | 			defaultValue: defaultValueY,
255 | 			transformer: transformerY,
256 | 			callback: callbackY,
257 | 			lag: lagY,
258 | 		);
259 | 
260 | 		z = OSCMapperFader(
261 | 			altName: altName.isNil.if({nil}, {"%_z".format(altName).asSymbol}),
262 | 			defaultValue: defaultValueZ,
263 | 			transformer: transformerZ,
264 | 			callback: callbackZ,
265 | 			lag: lagZ,
266 | 		);
267 | 	}
268 | 
269 | 	update { |...newValues|
270 | 		x.update(newValues[0]);
271 | 		y.update(newValues[1]);
272 | 		z.update(newValues[2]);
273 | 	}
274 | 
275 | 	address_ { |newAddress|
276 | 		address = newAddress;
277 | 		x.address = "%_x".format(address).asSymbol;
278 | 		y.address = "%_y".format(address).asSymbol;
279 | 		z.address = "%_z".format(address).asSymbol;
280 | 	}
281 | 
282 | 	printOn { | stream |
283 | 		stream << "OSCMapperAccXYZ(altName: " << altName << ")";
284 | 	}
285 | }
286 | 
287 | OSCMapperKeyValue : OSCMapperElement {
288 | 	var d;
289 | 
290 | 	at { |key|
291 | 		^d[key.asSymbol];
292 | 	}
293 | 
294 | 	update { |...newValues|
295 | 		d = d ? ();
296 | 		newValues.pairsDo({|key, value|
297 | 			var element = d[key.asSymbol];
298 | 			if(element.isNil, {
299 | 				element = OSCMapperFader();
300 | 				element.address = "%_%".format(address, key).asSymbol;
301 | 				d[key.asSymbol] = element;
302 | 				// necessary to update the proper element?
303 | 				element = d[key.asSymbol];
304 | 			});
305 | 			element.update(value);
306 | 		});
307 | 	}
308 | 
309 | 	printOn { | stream |
310 | 		stream << "OSCMapperKeyValue(altName: " << altName << ")";
311 | 	}
312 | }
313 | 
314 | OSCMapperArray : OSCMapperElement {
315 | 	var a;
316 | 
317 | 	at { |index|
318 | 		^a[index];
319 | 	}
320 | 
321 | 	update { |...newValues|
322 | 		a = a ? [];
323 | 		if(a.size != newValues.size, {
324 | 			a = newValues.size.collect({|i|
325 | 				var element = OSCMapperFader();
326 | 				element.address = "%_%".format(address, i).asSymbol;
327 | 				element;
328 | 			});
329 | 		});
330 | 		newValues.do({|value, i|
331 | 			a[i].update(value);
332 | 		});
333 | 	}
334 | 
335 | 	printOn { | stream |
336 | 		stream << "OSCMapperArray(altName: " << altName << ")";
337 | 	}
338 | }
339 | 
340 | OSCMapper {
341 | 	var name;
342 | 	var initLayout;
343 | 	var <port;
344 | 
345 | 	var <layout;
346 | 
347 | 	classvar listenerActive;
348 | 	classvar printAddress;
349 | 	classvar <>isLearning;
350 | 	classvar <>learnCapture;
351 | 	classvar <all;
352 | 
353 | 	*new { |name, layout, port|
354 | 		var res = all[name.asSymbol];
355 | 		if(res.notNil, {
356 | 			if(layout.notNil, {
357 | 				res.layout = layout;
358 | 			});
359 | 		}, {
360 | 			if(port.notNil, {thisProcess.openUDPPort(port)});
361 | 			res = super.newCopyArgs(
362 | 				name,
363 | 				layout,
364 | 				port,
365 | 			).init;
366 | 			all[name.asSymbol] = res;
367 | 		});
368 | 
369 | 		^res;
370 | 	}
371 | 
372 | 	*initClass {
373 | 		printAddress = false;
374 | 		listenerActive = false;
375 | 		isLearning = false;
376 | 		learnCapture = ();
377 | 		all = ();
378 | 	}
379 | 
380 | 	*initListener {
381 | 		if(listenerActive.not, {
382 | 			"Init OSC listener for OSCMapper".postln;
383 | 			thisProcess.addOSCRecvFunc({|msg, time, replyAddr, recvPort|
384 | 				OSCMapper.listenOnOSC(msg, time, replyAddr, recvPort);
385 | 			});
386 | 			listenerActive = true;
387 | 		});
388 | 	}
389 | 
390 | 	*mix2 {|name = \mix2, port|
391 | 		var l = ();
392 | 		(1..3).do({|i| l["/1/fader%".format(i).asSymbol] = OSCMapperFader()});
393 | 		(1..4).do({|i| l["/1/push%".format(i).asSymbol] = OSCMapperPush()});
394 | 		(1..6).do({|i| l["/1/rotary%".format(i).asSymbol] = OSCMapperFader()});
395 | 		(1..4).do({|i| l["/1/toggle%".format(i).asSymbol] = OSCMapperPush()});
396 | 		(1..2).do({|i| (1..16).do({|j| l["/2/multifader%/%".format(i, j).asSymbol] = OSCMapperFader()})});
397 | 		(1..2).do({|i| l["/3/xy%".format(i).asSymbol] = OSCMapperXY()});
398 | 		l['/accxyz'] = OSCMapperAccXYZ();
399 | 		^OSCMapper(name: name.asSymbol, layout: l, port: port);
400 | 	}
401 | 
402 | 	*mix2iPad {|name=\mix2iPad, port|
403 | 		var l = ();
404 | 		(1..12).do({|i| l["/1/rotary%".format(i).asSymbol] = OSCMapperFader()});
405 | 		(1..5).do({|i| l["/1/fader%".format(i).asSymbol] = OSCMapperFader()});
406 | 		(1..16).do({|i| l["/1/toggle%".format(i).asSymbol] = OSCMapperPush()});
407 | 		(1..12).do({|i| l["/1/push%".format(i).asSymbol] = OSCMapperPush()});
408 | 		(1..2).do({|i| l["/1/xy%".format(i).asSymbol] = OSCMapperXY()});
409 | 		(1..2).do({|i| (1..5).do({|j| (1..5).do({|k| l["/1/multitoggle%/%/%".format(i, j, k).asSymbol] = OSCMapperPush() }) })});
410 | 		(1..2).do({|i| (1..3).do({|j| l["/1/multitoggle3/%/%".format(i, j).asSymbol] = OSCMapperPush() }) });
411 | 		(1..2).do({|i| (1..16).do({|j| l["/2/multifader%/%".format(i, j).asSymbol] = OSCMapperFader()})});
412 | 		(1..8).do({|i| l["/3/xy%".format(i).asSymbol] = OSCMapperXY()});
413 | 		l['/accxyz'] = OSCMapperAccXYZ();
414 | 		^OSCMapper(name: name.asSymbol, layout: l, port: port);
415 | 	}
416 | 
417 | 	init {
418 | 		OSCMapper.initListener;
419 | 		layout = layout ? ();
420 | 		this.layout_(initLayout);
421 | 	}
422 | 
423 | 	at {|address|
424 | 		var res;
425 | 		address = address.asSymbol;
426 | 
427 | 		res = layout[address];
428 | 		// maybe the address is an alternative name?
429 | 		if(res.isNil, {
430 | 			layout.pairsDo({|addr, element|
431 | 				if(address == element.altName.asSymbol, {
432 | 					res = element;
433 | 				});
434 | 			});
435 | 		});
436 | 		^res;
437 | 	}
438 | 
439 | 	layout_ { |newLayout|
440 | 		newLayout.pairsDo({|address, t|
441 | 			address = address.asSymbol;
442 | 			// set the address within the mapper element
443 | 			// as this is necessary to generate
444 | 			// an unique name for e.g. an ndef
445 | 			t.address = address;
446 | 		});
447 | 		layout = newLayout;
448 | 	}
449 | 
450 | 
451 | 	*listenOnOSC {|msg, time, replyAddr, recvPort|
452 | 		var address = msg[0].asSymbol;
453 | 
454 | 		var addressesToIgnore = [
455 | 			"/localhost",
456 | 			"/status",
457 | 			"/n_",
458 | 			"/synced",
459 | 			"/d_",
460 | 			"/done",
461 | 			"g_queryTree",
462 | 		];
463 | 		if(addressesToIgnore.any({|a|
464 | 			address.asString.beginsWith(a)
465 | 		}), {
466 | 			^this;
467 | 		});
468 | 
469 | 		if(printAddress, {
470 | 			"Received on address \"%\" (values %)".format(msg[0], msg[1..]).postln;
471 | 		});
472 | 
473 | 		// capture knob movements if isLearning
474 | 		if(isLearning, {
475 | 			var values = learnCapture[msg[0].asSymbol] ? [];
476 | 			learnCapture[msg[0].asSymbol] = values.asSet.add(msg[1..]);
477 | 		});
478 | 
479 | 		// run callbacks for address
480 | 		all.pairsDo({|name, mapper|
481 | 			var portMatch = if(mapper.port.isNil, {
482 | 				true;
483 | 			}, {
484 | 				recvPort == mapper.port;
485 | 			});
486 | 			if(portMatch, {
487 | 				mapper.layout.pairsDo({|address, element|
488 | 					if(msg[0].asSymbol == address.asSymbol, {
489 | 						element.update(*msg[1..]);
490 | 					});
491 | 				});
492 | 			});
493 | 		});
494 | 	}
495 | 
496 | 	*echo {|echoBool=true|
497 | 		OSCMapper.initListener;
498 | 		printAddress = echoBool;
499 | 	}
500 | 
501 | 	*learn {
502 | 		if(isLearning, {
503 | 			"You are already learning, use \"OSCMapper.finishLearn\" to stop current running learning process".postln;
504 | 			^this;
505 | 		});
506 | 		this.initListener();
507 | 		learnCapture = ();
508 | 		isLearning = true;
509 | 	}
510 | 
511 | 	*finishLearn {|name|
512 | 		var r = ();
513 | 		if(isLearning.not, {
514 | 			"Run \"OSCMapper.learn\" first to start learning".postln;
515 | 			^this;
516 | 		});
517 | 		isLearning = false;
518 | 
519 | 		// sort this so the print is nicer
520 | 		learnCapture.asSortedArray.do({|captures|
521 | 			var address = captures[0];
522 | 			var rawValues = captures[1];
523 | 			var values = rawValues.asArray.flatten(1).asSet;
524 | 			var t = case
525 | 			{ values == Set[] } { \page }
526 | 			{ address.asSymbol == '/accxyz' } { OSCMapperAccXYZ() }
527 | 			{ values == Set[0.0, 1.0]} {
528 | 				if(address.asString.contains("toggle"), {
529 | 					// this is a toggle which is 1 or 0
530 | 					OSCMapperPush()
531 | 				}, {
532 | 					// jumps to 1 on push and back on release
533 | 					OSCMapperPush();
534 | 				});
535 | 			}
536 | 			{ (values == Set[1.0]).or(values == Set[0.0]) } { OSCMapperPush()}
537 | 			{ rawValues.asArray[0].size > 1 } { OSCMapperXY() }
538 | 			{ values.asArray.size > 1 } { OSCMapperFader() }
539 | 			{ true } { \unknown };
540 | 
541 | 			if(t.class == Symbol, {
542 | 				// unsupported
543 | 			}, {
544 | 				r[address.asSymbol] = t;
545 | 			});
546 | 			"'%': %,".format(address, t).postln;
547 | 		});
548 | 		learnCapture = ();
549 | 		^this.new(name, r);
550 | 	}
551 | 
552 | 	clear {
553 | 		/*
554 | 		l.pairsDo({|address, element|
555 | 			oscListener[address.asSymbol] = nil;
556 | 		});
557 | 		*/
558 | 		all[name.asSymbol] = nil;
559 | 		layout = ();
560 | 	}
561 | 
562 | 	*clearAll {
563 | 		all.pairsDo({|name, mapper|
564 | 			mapper.clear;
565 | 		});
566 | 	}
567 | 
568 | 	*prCreateOscListener {
569 | 		thisProcess.addOSCRecvFunc(OSCMapper.oscListener);
570 | 	}
571 | }
572 | 


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/README.md:
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  1 | # OSC Mapper
  2 | 
  3 | ![OSC Mapper logo](logo.png)
  4 | 
  5 | A high level library to interact with SuperCollider via an OSC controller.
  6 | Allows to use an OSC layout which is
  7 | 
  8 | * pre-defined as preset (e.g. Mix 2 from TouchOSC)
  9 | * custom defined as code
 10 | * learned by modifying the controllers
 11 | 
 12 | and use the values of the controller as
 13 | 
 14 | * within a Synth as a `Bus` or a `Ndef`
 15 | * within the language via `.value` or via a callback to controll e.g. effects
 16 | * within a Pattern via `Pdefn`
 17 | 
 18 | ## Installation
 19 | 
 20 | ```supercollider
 21 | // install the quark
 22 | Quarks.install("https://github.com/capital-G/OSCMapper.git");
 23 | // restart the interpreter so the new classes are available
 24 | thisProcess.recompile;
 25 | // open documention
 26 | HelpBrowser.openHelpFor("Classes/OSCMapper");
 27 | ```
 28 | 
 29 | ## Quickstart
 30 | 
 31 | ### Creating a layout
 32 | 
 33 | You can either define the layout manually
 34 | 
 35 | ```supercollider
 36 | (
 37 | o = OSCMapper(\myLayout, (
 38 |     '/1/fader1': OSCMapperFader(
 39 |         altName: \fader1,
 40 |         defaultValue: 0.5,
 41 |         transformer: linlin(_, 0.0, 1.0, 0.5, 10.0),
 42 |         callback: {|v| ["received a value", v].postln;},
 43 |         lag: 0.5,
 44 |     ),
 45 |     '/1/xy1': OSCMapperXY(
 46 |         altName: \touchPanel
 47 |     ),
 48 | ));
 49 | ```
 50 | 
 51 | or use a preset like `Mix 2` from TouchOSC like
 52 | 
 53 | ```supercollider
 54 | o = OSCMapper.mix2(\myLayout);
 55 | ```
 56 | 
 57 | or learn a custom controller on the fly
 58 | 
 59 | ```supercollider
 60 | OSCMapper.learn;
 61 | // move controls
 62 | o = OSCMapper.finishLearn(\myLayout);
 63 | ```
 64 | 
 65 | ### Using the controller within SuperCollider
 66 | 
 67 | #### As Ndef
 68 | 
 69 | ```supercollider
 70 | // the osc mapper we created earlier can also be accessed in def style
 71 | o = OSCMapper(\myLayout);
 72 | 
 73 | Ndef(\mySine, {SinOsc.ar!2 * o['/1/fader1'].asNdef}).play;
 74 | 
 75 | Ndef(\mySine).clear(2);
 76 | ```
 77 | 
 78 | #### As bus
 79 | 
 80 | ```supercollider
 81 | // use the default synth
 82 | s = Synth(\default);
 83 | s.map(\amp, o['/1/fader1'].asBus);
 84 | s.free;
 85 | ```
 86 | 
 87 | #### In a pattern via Pdefn
 88 | 
 89 | ```supercollider
 90 | (
 91 | p = Pbind(
 92 |     \instrument, \default,
 93 |     \dur, 0.5,
 94 |     \degree, Pxrand((0..10), inf),
 95 |     \amp, o['/1/fader1'].asPdefn,
 96 | ).play;
 97 | )
 98 | 
 99 | p.stop;
100 | ```
101 | 
102 | #### As raw value access
103 | 
104 | ```supercollider
105 | o['/1/fader1'].value;
106 | ```
107 | 
108 | #### Add a callback on change
109 | 
110 | ```supercollider
111 | o['/1/fader1'].callback = {|v| "value is now %".format(v).postln};
112 | // and free the callback
113 | o['/1/fader1'].callback = {};
114 | ```
115 | 
116 | ## License
117 | 
118 | GPL-2.0
119 | 


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/logo.png:
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https://raw.githubusercontent.com/capital-G/OSCMapper/750ae323a4a5d5ecf55644833c2fd703d69c2c7a/logo.png


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