/[svn]/linuxsampler/trunk/src/engines/common/InstrumentScriptVMFunctions.cpp
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Annotation of /linuxsampler/trunk/src/engines/common/InstrumentScriptVMFunctions.cpp

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Revision 3691 - (hide annotations) (download)
Fri Jan 3 12:35:20 2020 UTC (4 years, 3 months ago) by schoenebeck
File size: 121306 byte(s) 
* NKSP: Implemented built-in script function "set_rpn()".

* NKSP: Implemented built-in script function "set_nrpn()".

* Bumped version (2.1.1.svn31).
1 schoenebeck 2596 /*
2 schoenebeck 3691 * Copyright (c) 2014-2020 Christian Schoenebeck
3 schoenebeck 2596 *
4     * http://www.linuxsampler.org
5     *
6     * This file is part of LinuxSampler and released under the same terms.
7     * See README file for details.
8     */
9    
10     #include "InstrumentScriptVMFunctions.h"
11     #include "InstrumentScriptVM.h"
12     #include "../AbstractEngineChannel.h"
13 schoenebeck 3561 #include "../../common/global_private.h"
14 schoenebeck 2596
15     namespace LinuxSampler {
16 schoenebeck 2931
17     // play_note() function
18 schoenebeck 2596
19     InstrumentScriptVMFunction_play_note::InstrumentScriptVMFunction_play_note(InstrumentScriptVM* parent)
20     : m_vm(parent)
21     {
22     }
23    
24 schoenebeck 3587 bool InstrumentScriptVMFunction_play_note::acceptsArgType(vmint iArg, ExprType_t type) const {
25     if (iArg == 2 || iArg == 3)
26     return type == INT_EXPR || type == REAL_EXPR;
27     else
28     return type == INT_EXPR;
29     }
30    
31     bool InstrumentScriptVMFunction_play_note::acceptsArgUnitType(vmint iArg, StdUnit_t type) const {
32     if (iArg == 2 || iArg == 3)
33     return type == VM_NO_UNIT || type == VM_SECOND;
34     else
35     return type == VM_NO_UNIT;
36     }
37    
38     bool InstrumentScriptVMFunction_play_note::acceptsArgUnitPrefix(vmint iArg, StdUnit_t type) const {
39     if (iArg == 2 || iArg == 3)
40     return type == VM_SECOND; // only allow metric prefix(es) if 'seconds' is used as unit type
41     else
42     return false;
43     }
44    
45 schoenebeck 3588 void InstrumentScriptVMFunction_play_note::checkArgs(VMFnArgs* args,
46     std::function<void(String)> err,
47     std::function<void(String)> wrn)
48     {
49     // super class checks
50     Super::checkArgs(args, err, wrn);
51    
52     // own checks ...
53     if (args->arg(0)->isConstExpr()) {
54     vmint note = args->arg(0)->asNumber()->evalCastInt();
55     if (note < 0 || note > 127) {
56     err("MIDI note number value for argument 1 must be between 0..127");
57     return;
58     }
59     }
60     if (args->argsCount() >= 2 && args->arg(1)->isConstExpr()) {
61     vmint velocity = args->arg(1)->asNumber()->evalCastInt();
62     if (velocity < 0 || velocity > 127) {
63     err("MIDI velocity value for argument 2 must be between 0..127");
64     return;
65     }
66     }
67     if (args->argsCount() >= 3 && args->arg(2)->isConstExpr()) {
68     VMNumberExpr* argSampleOffset = args->arg(2)->asNumber();
69     vmint sampleoffset =
70     (argSampleOffset->unitType()) ?
71     argSampleOffset->evalCastInt(VM_MICRO) :
72     argSampleOffset->evalCastInt();
73     if (sampleoffset < -1) {
74     err("Sample offset of argument 3 may not be less than -1");
75     return;
76     }
77     }
78     if (args->argsCount() >= 4 && args->arg(3)->isConstExpr()) {
79     VMNumberExpr* argDuration = args->arg(3)->asNumber();
80     vmint duration =
81     (argDuration->unitType()) ?
82     argDuration->evalCastInt(VM_MICRO) :
83     argDuration->evalCastInt();
84     if (duration < -2) {
85     err("Argument 4 must be a duration value of at least -2 or higher");
86     return;
87     }
88     }
89     }
90    
91 schoenebeck 2596 VMFnResult* InstrumentScriptVMFunction_play_note::exec(VMFnArgs* args) {
92 schoenebeck 3557 vmint note = args->arg(0)->asInt()->evalInt();
93     vmint velocity = (args->argsCount() >= 2) ? args->arg(1)->asInt()->evalInt() : 127;
94 schoenebeck 3587 VMNumberExpr* argDuration = (args->argsCount() >= 4) ? args->arg(3)->asNumber() : NULL;
95     vmint duration =
96     (argDuration) ?
97     (argDuration->unitType()) ?
98     argDuration->evalCastInt(VM_MICRO) :
99     argDuration->evalCastInt() : 0; //TODO: -1 might be a better default value instead of 0
100 schoenebeck 2596
101     if (note < 0 || note > 127) {
102     errMsg("play_note(): argument 1 is an invalid note number");
103 schoenebeck 2879 return errorResult(0);
104 schoenebeck 2596 }
105    
106     if (velocity < 0 || velocity > 127) {
107     errMsg("play_note(): argument 2 is an invalid velocity value");
108 schoenebeck 2879 return errorResult(0);
109 schoenebeck 2596 }
110    
111 schoenebeck 3253 if (duration < -2) {
112     errMsg("play_note(): argument 4 must be a duration value of at least -2 or higher");
113 schoenebeck 2879 return errorResult(0);
114 schoenebeck 2596 }
115    
116     AbstractEngineChannel* pEngineChannel =
117     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
118    
119 schoenebeck 2879 Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
120     e.Init(); // clear IDs
121 schoenebeck 2938 e.Type = Event::type_play_note;
122 schoenebeck 2596 e.Param.Note.Key = note;
123     e.Param.Note.Velocity = velocity;
124 schoenebeck 2879 // make this new note dependent to the life time of the original note
125     if (duration == -1) {
126     if (m_vm->currentVMEventHandler()->eventHandlerType() != VM_EVENT_HANDLER_NOTE) {
127     errMsg("play_note(): -1 for argument 4 may only be used for note event handlers");
128     return errorResult(0);
129     }
130     e.Param.Note.ParentNoteID = m_vm->m_event->cause.Param.Note.ID;
131 schoenebeck 3253 // check if that requested parent note is actually still alive
132     NoteBase* pParentNote =
133     pEngineChannel->pEngine->NoteByID( e.Param.Note.ParentNoteID );
134     // if parent note is already gone then this new note is not required anymore
135     if (!pParentNote)
136     return successResult(0);
137 schoenebeck 2879 }
138 schoenebeck 2596
139 schoenebeck 2879 const note_id_t id = pEngineChannel->ScheduleNoteMicroSec(&e, 0);
140 schoenebeck 2596
141 schoenebeck 3251 // if a sample offset is supplied, assign the offset as override
142     // to the previously created Note object
143     if (args->argsCount() >= 3) {
144 schoenebeck 3587 VMNumberExpr* argSampleOffset = args->arg(2)->asNumber();
145     vmint sampleoffset =
146     (argSampleOffset->unitType()) ?
147     argSampleOffset->evalCastInt(VM_MICRO) :
148     argSampleOffset->evalCastInt();
149 schoenebeck 3251 if (sampleoffset >= 0) {
150     NoteBase* pNote = pEngineChannel->pEngine->NoteByID(id);
151     if (pNote) {
152 schoenebeck 3557 pNote->Override.SampleOffset =
153     (decltype(pNote->Override.SampleOffset)) sampleoffset;
154 schoenebeck 3251 }
155     } else if (sampleoffset < -1) {
156     errMsg("play_note(): sample offset of argument 3 may not be less than -1");
157     }
158     }
159    
160 schoenebeck 2938 // if a duration is supplied (and play-note event was scheduled
161     // successfully above), then schedule a subsequent stop-note event
162 schoenebeck 2879 if (id && duration > 0) {
163 schoenebeck 2938 e.Type = Event::type_stop_note;
164     e.Param.Note.ID = id;
165 schoenebeck 2871 e.Param.Note.Velocity = 127;
166     pEngineChannel->ScheduleEventMicroSec(&e, duration);
167     }
168    
169 schoenebeck 2879 // even if id is null, don't return an errorResult() here, because that
170     // would abort the script, and under heavy load it may be considerable
171     // that ScheduleNoteMicroSec() fails above, so simply ignore that
172     return successResult( ScriptID::fromNoteID(id) );
173 schoenebeck 2598 }
174    
175 schoenebeck 2931 // set_controller() function
176    
177 schoenebeck 2600 InstrumentScriptVMFunction_set_controller::InstrumentScriptVMFunction_set_controller(InstrumentScriptVM* parent)
178     : m_vm(parent)
179     {
180     }
181    
182     VMFnResult* InstrumentScriptVMFunction_set_controller::exec(VMFnArgs* args) {
183 schoenebeck 3557 vmint controller = args->arg(0)->asInt()->evalInt();
184     vmint value = args->arg(1)->asInt()->evalInt();
185 schoenebeck 2600
186     AbstractEngineChannel* pEngineChannel =
187     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
188    
189 schoenebeck 2879 Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
190     e.Init(); // clear IDs
191 schoenebeck 2600 if (controller == CTRL_TABLE_IDX_AFTERTOUCH) {
192     e.Type = Event::type_channel_pressure;
193     e.Param.ChannelPressure.Value = value & 127;
194     } else if (controller == CTRL_TABLE_IDX_PITCHBEND) {
195     e.Type = Event::type_pitchbend;
196     e.Param.Pitch.Pitch = value;
197     } else if (controller >= 0 && controller <= 127) {
198     e.Type = Event::type_control_change;
199     e.Param.CC.Controller = controller;
200     e.Param.CC.Value = value;
201     } else {
202     errMsg("set_controller(): argument 1 is an invalid controller");
203     return errorResult();
204     }
205    
206 schoenebeck 2879 const event_id_t id = pEngineChannel->ScheduleEventMicroSec(&e, 0);
207 schoenebeck 2600
208 schoenebeck 2879 // even if id is null, don't return an errorResult() here, because that
209     // would abort the script, and under heavy load it may be considerable
210     // that ScheduleEventMicroSec() fails above, so simply ignore that
211     return successResult( ScriptID::fromEventID(id) );
212 schoenebeck 2931 }
213 schoenebeck 2600
214 schoenebeck 3691 // set_rpn() function
215    
216     InstrumentScriptVMFunction_set_rpn::InstrumentScriptVMFunction_set_rpn(InstrumentScriptVM* parent)
217     : m_vm(parent)
218     {
219     }
220    
221     VMFnResult* InstrumentScriptVMFunction_set_rpn::exec(VMFnArgs* args) {
222     vmint parameter = args->arg(0)->asInt()->evalInt();
223     vmint value = args->arg(1)->asInt()->evalInt();
224    
225     if (parameter < 0 || parameter > 16383) {
226     errMsg("set_rpn(): argument 1 exceeds RPN parameter number range");
227     return errorResult();
228     }
229     if (value < 0 || value > 16383) {
230     errMsg("set_rpn(): argument 2 exceeds RPN value range");
231     return errorResult();
232     }
233    
234     AbstractEngineChannel* pEngineChannel =
235     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
236    
237     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
238     e.Init(); // clear IDs
239     e.Type = Event::type_rpn;
240     e.Param.RPN.Parameter = parameter;
241     e.Param.RPN.Value = value;
242    
243     const event_id_t id = pEngineChannel->ScheduleEventMicroSec(&e, 0);
244    
245     // even if id is null, don't return an errorResult() here, because that
246     // would abort the script, and under heavy load it may be considerable
247     // that ScheduleEventMicroSec() fails above, so simply ignore that
248     return successResult( ScriptID::fromEventID(id) );
249     }
250    
251     // set_nrpn() function
252    
253     InstrumentScriptVMFunction_set_nrpn::InstrumentScriptVMFunction_set_nrpn(InstrumentScriptVM* parent)
254     : m_vm(parent)
255     {
256     }
257    
258     VMFnResult* InstrumentScriptVMFunction_set_nrpn::exec(VMFnArgs* args) {
259     vmint parameter = args->arg(0)->asInt()->evalInt();
260     vmint value = args->arg(1)->asInt()->evalInt();
261    
262     if (parameter < 0 || parameter > 16383) {
263     errMsg("set_nrpn(): argument 1 exceeds NRPN parameter number range");
264     return errorResult();
265     }
266     if (value < 0 || value > 16383) {
267     errMsg("set_nrpn(): argument 2 exceeds NRPN value range");
268     return errorResult();
269     }
270    
271     AbstractEngineChannel* pEngineChannel =
272     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
273    
274     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
275     e.Init(); // clear IDs
276     e.Type = Event::type_nrpn;
277     e.Param.NRPN.Parameter = parameter;
278     e.Param.NRPN.Value = value;
279    
280     const event_id_t id = pEngineChannel->ScheduleEventMicroSec(&e, 0);
281    
282     // even if id is null, don't return an errorResult() here, because that
283     // would abort the script, and under heavy load it may be considerable
284     // that ScheduleEventMicroSec() fails above, so simply ignore that
285     return successResult( ScriptID::fromEventID(id) );
286     }
287    
288 schoenebeck 2931 // ignore_event() function
289    
290 schoenebeck 2598 InstrumentScriptVMFunction_ignore_event::InstrumentScriptVMFunction_ignore_event(InstrumentScriptVM* parent)
291     : m_vm(parent)
292     {
293     }
294    
295 schoenebeck 3557 bool InstrumentScriptVMFunction_ignore_event::acceptsArgType(vmint iArg, ExprType_t type) const {
296 schoenebeck 2630 return type == INT_EXPR || type == INT_ARR_EXPR;
297     }
298    
299 schoenebeck 2598 VMFnResult* InstrumentScriptVMFunction_ignore_event::exec(VMFnArgs* args) {
300     AbstractEngineChannel* pEngineChannel =
301 schoenebeck 2630 static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
302 schoenebeck 2598
303 schoenebeck 3212 if (args->argsCount() == 0 || args->arg(0)->exprType() == INT_EXPR) {
304     const ScriptID id = (args->argsCount() >= 1) ? args->arg(0)->asInt()->evalInt() : m_vm->m_event->id;
305     if (!id && args->argsCount() >= 1) {
306 schoenebeck 2879 wrnMsg("ignore_event(): event ID argument may not be zero");
307     // not errorResult(), because that would abort the script, not intentional in this case
308 schoenebeck 2630 return successResult();
309     }
310 schoenebeck 2879 pEngineChannel->IgnoreEventByScriptID(id);
311 schoenebeck 2630 } else if (args->arg(0)->exprType() == INT_ARR_EXPR) {
312     VMIntArrayExpr* ids = args->arg(0)->asIntArray();
313     for (int i = 0; i < ids->arraySize(); ++i) {
314 schoenebeck 2879 const ScriptID id = ids->evalIntElement(i);
315     pEngineChannel->IgnoreEventByScriptID(id);
316 schoenebeck 2630 }
317     }
318 schoenebeck 2598
319 schoenebeck 2596 return successResult();
320     }
321    
322 schoenebeck 2931 // ignore_controller() function
323    
324 schoenebeck 2598 InstrumentScriptVMFunction_ignore_controller::InstrumentScriptVMFunction_ignore_controller(InstrumentScriptVM* parent)
325     : m_vm(parent)
326     {
327     }
328    
329     VMFnResult* InstrumentScriptVMFunction_ignore_controller::exec(VMFnArgs* args) {
330 schoenebeck 2879 const ScriptID id = (args->argsCount() >= 1) ? args->arg(0)->asInt()->evalInt() : m_vm->m_event->id;
331     if (!id && args->argsCount() >= 1) {
332     wrnMsg("ignore_controller(): event ID argument may not be zero");
333 schoenebeck 2598 return successResult();
334     }
335    
336     AbstractEngineChannel* pEngineChannel =
337     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
338    
339 schoenebeck 2879 pEngineChannel->IgnoreEventByScriptID(id);
340 schoenebeck 2598
341     return successResult();
342     }
343    
344 schoenebeck 2931 // note_off() function
345    
346 schoenebeck 2629 InstrumentScriptVMFunction_note_off::InstrumentScriptVMFunction_note_off(InstrumentScriptVM* parent)
347     : m_vm(parent)
348     {
349     }
350    
351 schoenebeck 3557 bool InstrumentScriptVMFunction_note_off::acceptsArgType(vmint iArg, ExprType_t type) const {
352 schoenebeck 2630 return type == INT_EXPR || type == INT_ARR_EXPR;
353     }
354    
355 schoenebeck 3588 void InstrumentScriptVMFunction_note_off::checkArgs(VMFnArgs* args,
356     std::function<void(String)> err,
357     std::function<void(String)> wrn)
358     {
359     // super class checks
360     Super::checkArgs(args, err, wrn);
361    
362     // own checks ...
363     if (args->argsCount() >= 2 && args->arg(1)->isConstExpr() && args->arg(1)->exprType() == INT_EXPR) {
364     vmint velocity = args->arg(1)->asInt()->evalInt();
365     if (velocity < 0 || velocity > 127) {
366     err("MIDI velocity value for argument 2 must be between 0..127");
367     return;
368     }
369     }
370     }
371    
372 schoenebeck 2629 VMFnResult* InstrumentScriptVMFunction_note_off::exec(VMFnArgs* args) {
373 schoenebeck 2630 AbstractEngineChannel* pEngineChannel =
374     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
375    
376 schoenebeck 3557 vmint velocity = (args->argsCount() >= 2) ? args->arg(1)->asInt()->evalInt() : 127;
377 schoenebeck 2630 if (velocity < 0 || velocity > 127) {
378     errMsg("note_off(): argument 2 is an invalid velocity value");
379     return errorResult();
380     }
381 schoenebeck 2629
382 schoenebeck 2630 if (args->arg(0)->exprType() == INT_EXPR) {
383 schoenebeck 2879 const ScriptID id = args->arg(0)->asInt()->evalInt();
384     if (!id) {
385     wrnMsg("note_off(): note ID for argument 1 may not be zero");
386 schoenebeck 2630 return successResult();
387     }
388 schoenebeck 2879 if (!id.isNoteID()) {
389     wrnMsg("note_off(): argument 1 is not a note ID");
390     return successResult();
391     }
392 schoenebeck 2630
393 schoenebeck 2879 NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
394     if (!pNote) return successResult();
395 schoenebeck 2630
396 schoenebeck 2879 Event e = pNote->cause;
397     e.Init(); // clear IDs
398     e.CopyTimeFrom(m_vm->m_event->cause); // set fragment time for "now"
399 schoenebeck 2938 e.Type = Event::type_stop_note;
400     e.Param.Note.ID = id.noteID();
401     e.Param.Note.Key = pNote->hostKey;
402 schoenebeck 2630 e.Param.Note.Velocity = velocity;
403    
404 schoenebeck 2879 pEngineChannel->ScheduleEventMicroSec(&e, 0);
405 schoenebeck 2630 } else if (args->arg(0)->exprType() == INT_ARR_EXPR) {
406     VMIntArrayExpr* ids = args->arg(0)->asIntArray();
407 schoenebeck 3557 for (vmint i = 0; i < ids->arraySize(); ++i) {
408 schoenebeck 2879 const ScriptID id = ids->evalIntElement(i);
409     if (!id || !id.isNoteID()) continue;
410 schoenebeck 2630
411 schoenebeck 2879 NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
412     if (!pNote) continue;
413 schoenebeck 2630
414 schoenebeck 2879 Event e = pNote->cause;
415     e.Init(); // clear IDs
416     e.CopyTimeFrom(m_vm->m_event->cause); // set fragment time for "now"
417 schoenebeck 2938 e.Type = Event::type_stop_note;
418     e.Param.Note.ID = id.noteID();
419     e.Param.Note.Key = pNote->hostKey;
420 schoenebeck 2630 e.Param.Note.Velocity = velocity;
421    
422 schoenebeck 2879 pEngineChannel->ScheduleEventMicroSec(&e, 0);
423 schoenebeck 2630 }
424 schoenebeck 2629 }
425    
426 schoenebeck 2630 return successResult();
427     }
428    
429 schoenebeck 2931 // set_event_mark() function
430    
431 schoenebeck 2630 InstrumentScriptVMFunction_set_event_mark::InstrumentScriptVMFunction_set_event_mark(InstrumentScriptVM* parent)
432     : m_vm(parent)
433     {
434     }
435    
436 schoenebeck 3588 void InstrumentScriptVMFunction_set_event_mark::checkArgs(VMFnArgs* args,
437     std::function<void(String)> err,
438     std::function<void(String)> wrn)
439     {
440     // super class checks
441     Super::checkArgs(args, err, wrn);
442    
443     // own checks ...
444     if (args->argsCount() >= 2 && args->arg(1)->isConstExpr()) {
445     const vmint groupID = args->arg(1)->asInt()->evalInt();
446     if (groupID < 0 || groupID >= INSTR_SCRIPT_EVENT_GROUPS) {
447     err("Argument 2 value is an invalid group id.");
448     return;
449     }
450     }
451     }
452    
453 schoenebeck 2630 VMFnResult* InstrumentScriptVMFunction_set_event_mark::exec(VMFnArgs* args) {
454 schoenebeck 2879 const ScriptID id = args->arg(0)->asInt()->evalInt();
455 schoenebeck 3557 const vmint groupID = args->arg(1)->asInt()->evalInt();
456 schoenebeck 2630
457     if (groupID < 0 || groupID >= INSTR_SCRIPT_EVENT_GROUPS) {
458     errMsg("set_event_mark(): argument 2 is an invalid group id");
459 schoenebeck 2629 return errorResult();
460     }
461    
462     AbstractEngineChannel* pEngineChannel =
463     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
464    
465 schoenebeck 2879 // check if the event/note still exists
466     switch (id.type()) {
467     case ScriptID::EVENT: {
468     RTList<Event>::Iterator itEvent = pEngineChannel->pEngine->EventByID( id.eventID() );
469     if (!itEvent) return successResult();
470     break;
471     }
472     case ScriptID::NOTE: {
473     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
474     if (!pNote) return successResult();
475     break;
476     }
477     }
478 schoenebeck 2629
479 schoenebeck 2879 pEngineChannel->pScript->eventGroups[groupID].insert(id);
480 schoenebeck 2629
481 schoenebeck 2630 return successResult();
482     }
483 schoenebeck 2629
484 schoenebeck 2931 // delete_event_mark() function
485    
486 schoenebeck 2630 InstrumentScriptVMFunction_delete_event_mark::InstrumentScriptVMFunction_delete_event_mark(InstrumentScriptVM* parent)
487     : m_vm(parent)
488     {
489     }
490    
491 schoenebeck 3588 void InstrumentScriptVMFunction_delete_event_mark::checkArgs(VMFnArgs* args,
492     std::function<void(String)> err,
493     std::function<void(String)> wrn)
494     {
495     // super class checks
496     Super::checkArgs(args, err, wrn);
497    
498     // own checks ...
499     if (args->argsCount() >= 2 && args->arg(1)->isConstExpr()) {
500     const vmint groupID = args->arg(1)->asInt()->evalInt();
501     if (groupID < 0 || groupID >= INSTR_SCRIPT_EVENT_GROUPS) {
502     err("Argument 2 value is an invalid group id.");
503     return;
504     }
505     }
506     }
507    
508 schoenebeck 2630 VMFnResult* InstrumentScriptVMFunction_delete_event_mark::exec(VMFnArgs* args) {
509 schoenebeck 2879 const ScriptID id = args->arg(0)->asInt()->evalInt();
510 schoenebeck 3557 const vmint groupID = args->arg(1)->asInt()->evalInt();
511 schoenebeck 2630
512     if (groupID < 0 || groupID >= INSTR_SCRIPT_EVENT_GROUPS) {
513     errMsg("delete_event_mark(): argument 2 is an invalid group id");
514     return errorResult();
515     }
516    
517     AbstractEngineChannel* pEngineChannel =
518     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
519    
520 schoenebeck 2879 pEngineChannel->pScript->eventGroups[groupID].erase(id);
521 schoenebeck 2630
522 schoenebeck 2629 return successResult();
523     }
524    
525 schoenebeck 2931 // by_marks() function
526    
527 schoenebeck 2630 InstrumentScriptVMFunction_by_marks::InstrumentScriptVMFunction_by_marks(InstrumentScriptVM* parent)
528     : m_vm(parent)
529     {
530     }
531    
532 schoenebeck 3557 vmint InstrumentScriptVMFunction_by_marks::Result::arraySize() const {
533 schoenebeck 2630 return eventGroup->size();
534     }
535    
536 schoenebeck 3557 vmint InstrumentScriptVMFunction_by_marks::Result::evalIntElement(vmuint i) {
537 schoenebeck 2630 return (*eventGroup)[i];
538     }
539    
540     VMFnResult* InstrumentScriptVMFunction_by_marks::errorResult() {
541     m_result.eventGroup = NULL;
542     m_result.flags = StmtFlags_t(STMT_ABORT_SIGNALLED | STMT_ERROR_OCCURRED);
543     return &m_result;
544     }
545    
546     VMFnResult* InstrumentScriptVMFunction_by_marks::successResult(EventGroup* eventGroup) {
547     m_result.eventGroup = eventGroup;
548     m_result.flags = STMT_SUCCESS;
549     return &m_result;
550     }
551    
552 schoenebeck 3588 void InstrumentScriptVMFunction_by_marks::checkArgs(VMFnArgs* args,
553     std::function<void(String)> err,
554     std::function<void(String)> wrn)
555     {
556     // super class checks
557     Super::checkArgs(args, err, wrn);
558    
559     // own checks ...
560     if (args->arg(0)->isConstExpr()) {
561     const vmint groupID = args->arg(0)->asInt()->evalInt();
562     if (groupID < 0 || groupID >= INSTR_SCRIPT_EVENT_GROUPS) {
563     err("Argument value is an invalid group id.");
564     return;
565     }
566     }
567     }
568    
569 schoenebeck 2630 VMFnResult* InstrumentScriptVMFunction_by_marks::exec(VMFnArgs* args) {
570 schoenebeck 3557 vmint groupID = args->arg(0)->asInt()->evalInt();
571 schoenebeck 2630
572     if (groupID < 0 || groupID >= INSTR_SCRIPT_EVENT_GROUPS) {
573     errMsg("by_marks(): argument is an invalid group id");
574     return errorResult();
575     }
576    
577     AbstractEngineChannel* pEngineChannel =
578     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
579    
580     return successResult( &pEngineChannel->pScript->eventGroups[groupID] );
581     }
582    
583 schoenebeck 2931 // change_vol() function
584    
585     InstrumentScriptVMFunction_change_vol::InstrumentScriptVMFunction_change_vol(InstrumentScriptVM* parent)
586     : m_vm(parent)
587     {
588     }
589    
590 schoenebeck 3557 bool InstrumentScriptVMFunction_change_vol::acceptsArgType(vmint iArg, ExprType_t type) const {
591 schoenebeck 2931 if (iArg == 0)
592     return type == INT_EXPR || type == INT_ARR_EXPR;
593 schoenebeck 3587 else if (iArg == 1)
594     return type == INT_EXPR || type == REAL_EXPR;
595 schoenebeck 2931 else
596 schoenebeck 3188 return type == INT_EXPR;
597 schoenebeck 2931 }
598    
599 schoenebeck 3561 bool InstrumentScriptVMFunction_change_vol::acceptsArgUnitType(vmint iArg, StdUnit_t type) const {
600     if (iArg == 1)
601     return type == VM_NO_UNIT || type == VM_BEL;
602     else
603     return type == VM_NO_UNIT;
604     }
605    
606 schoenebeck 3564 bool InstrumentScriptVMFunction_change_vol::acceptsArgUnitPrefix(vmint iArg, StdUnit_t type) const {
607 schoenebeck 3587 return iArg == 1 && type == VM_BEL; // only allow metric prefix(es) if 'Bel' is used as unit type
608 schoenebeck 3561 }
609    
610     bool InstrumentScriptVMFunction_change_vol::acceptsArgFinal(vmint iArg) const {
611     return iArg == 1;
612     }
613    
614 schoenebeck 2931 VMFnResult* InstrumentScriptVMFunction_change_vol::exec(VMFnArgs* args) {
615 schoenebeck 3587 StdUnit_t unit = args->arg(1)->asNumber()->unitType();
616     vmint volume =
617     (unit) ?
618     args->arg(1)->asNumber()->evalCastInt(VM_MILLI,VM_DECI) :
619     args->arg(1)->asNumber()->evalCastInt(); // volume change in milli dB
620     bool isFinal = args->arg(1)->asNumber()->isFinal();
621 schoenebeck 2931 bool relative = (args->argsCount() >= 3) ? (args->arg(2)->asInt()->evalInt() & 1) : false;
622 schoenebeck 2962 const float fVolumeLin = RTMath::DecibelToLinRatio(float(volume) / 1000.f);
623 schoenebeck 2931
624     AbstractEngineChannel* pEngineChannel =
625     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
626    
627     if (args->arg(0)->exprType() == INT_EXPR) {
628     const ScriptID id = args->arg(0)->asInt()->evalInt();
629     if (!id) {
630     wrnMsg("change_vol(): note ID for argument 1 may not be zero");
631     return successResult();
632     }
633     if (!id.isNoteID()) {
634     wrnMsg("change_vol(): argument 1 is not a note ID");
635     return successResult();
636     }
637    
638     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
639     if (!pNote) return successResult();
640    
641 schoenebeck 2962 // if change_vol() was called immediately after note was triggered
642 schoenebeck 3218 // then immediately apply the volume to note object, but only if
643     // change_vol_time() has not been called before
644     if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime &&
645     pNote->Override.VolumeTime <= DEFAULT_NOTE_VOLUME_TIME_S)
646     {
647 schoenebeck 2962 if (relative)
648 schoenebeck 3561 pNote->Override.Volume.Value *= fVolumeLin;
649 schoenebeck 2931 else
650 schoenebeck 3561 pNote->Override.Volume.Value = fVolumeLin;
651     pNote->Override.Volume.Final = isFinal;
652 schoenebeck 2962 } else { // otherwise schedule the volume change ...
653 schoenebeck 2931 Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
654     e.Init(); // clear IDs
655     e.Type = Event::type_note_synth_param;
656     e.Param.NoteSynthParam.NoteID = id.noteID();
657     e.Param.NoteSynthParam.Type = Event::synth_param_volume;
658     e.Param.NoteSynthParam.Delta = fVolumeLin;
659 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
660     isFinal, relative, unit
661     );
662 schoenebeck 2931 pEngineChannel->ScheduleEventMicroSec(&e, 0);
663     }
664 schoenebeck 2962 } else if (args->arg(0)->exprType() == INT_ARR_EXPR) {
665     VMIntArrayExpr* ids = args->arg(0)->asIntArray();
666 schoenebeck 3557 for (vmint i = 0; i < ids->arraySize(); ++i) {
667 schoenebeck 2962 const ScriptID id = ids->evalIntElement(i);
668     if (!id || !id.isNoteID()) continue;
669    
670     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
671     if (!pNote) continue;
672    
673     // if change_vol() was called immediately after note was triggered
674 schoenebeck 3218 // then immediately apply the volume to Note object, but only if
675     // change_vol_time() has not been called before
676     if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime &&
677     pNote->Override.VolumeTime <= DEFAULT_NOTE_VOLUME_TIME_S)
678     {
679 schoenebeck 2962 if (relative)
680 schoenebeck 3561 pNote->Override.Volume.Value *= fVolumeLin;
681 schoenebeck 2962 else
682 schoenebeck 3561 pNote->Override.Volume.Value = fVolumeLin;
683     pNote->Override.Volume.Final = isFinal;
684 schoenebeck 2962 } else { // otherwise schedule the volume change ...
685     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
686     e.Init(); // clear IDs
687     e.Type = Event::type_note_synth_param;
688     e.Param.NoteSynthParam.NoteID = id.noteID();
689     e.Param.NoteSynthParam.Type = Event::synth_param_volume;
690     e.Param.NoteSynthParam.Delta = fVolumeLin;
691 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
692     isFinal, relative, unit
693     );
694 schoenebeck 2962 pEngineChannel->ScheduleEventMicroSec(&e, 0);
695     }
696     }
697 schoenebeck 2931 }
698    
699     return successResult();
700     }
701    
702     // change_tune() function
703    
704     InstrumentScriptVMFunction_change_tune::InstrumentScriptVMFunction_change_tune(InstrumentScriptVM* parent)
705     : m_vm(parent)
706     {
707     }
708    
709 schoenebeck 3557 bool InstrumentScriptVMFunction_change_tune::acceptsArgType(vmint iArg, ExprType_t type) const {
710 schoenebeck 2931 if (iArg == 0)
711     return type == INT_EXPR || type == INT_ARR_EXPR;
712 schoenebeck 3587 else if (iArg == 1)
713     return type == INT_EXPR || type == REAL_EXPR;
714 schoenebeck 2931 else
715 schoenebeck 3188 return type == INT_EXPR;
716 schoenebeck 2931 }
717    
718 schoenebeck 3564 bool InstrumentScriptVMFunction_change_tune::acceptsArgUnitPrefix(vmint iArg, StdUnit_t type) const {
719 schoenebeck 3561 return iArg == 1;
720     }
721    
722     bool InstrumentScriptVMFunction_change_tune::acceptsArgFinal(vmint iArg) const {
723     return iArg == 1;
724     }
725    
726 schoenebeck 2931 VMFnResult* InstrumentScriptVMFunction_change_tune::exec(VMFnArgs* args) {
727 schoenebeck 3587 vmint tune =
728     (args->arg(1)->asNumber()->hasUnitFactorNow())
729     ? args->arg(1)->asNumber()->evalCastInt(VM_MILLI,VM_CENTI)
730     : args->arg(1)->asNumber()->evalCastInt(); // tuning change in milli cents
731     bool isFinal = args->arg(1)->asNumber()->isFinal();
732     StdUnit_t unit = args->arg(1)->asNumber()->unitType();
733 schoenebeck 2931 bool relative = (args->argsCount() >= 3) ? (args->arg(2)->asInt()->evalInt() & 1) : false;
734 schoenebeck 2962 const float fFreqRatio = RTMath::CentsToFreqRatioUnlimited(float(tune) / 1000.f);
735 schoenebeck 2931
736     AbstractEngineChannel* pEngineChannel =
737     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
738    
739     if (args->arg(0)->exprType() == INT_EXPR) {
740     const ScriptID id = args->arg(0)->asInt()->evalInt();
741     if (!id) {
742     wrnMsg("change_tune(): note ID for argument 1 may not be zero");
743     return successResult();
744     }
745     if (!id.isNoteID()) {
746     wrnMsg("change_tune(): argument 1 is not a note ID");
747     return successResult();
748     }
749    
750     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
751     if (!pNote) return successResult();
752    
753 schoenebeck 2962 // if change_tune() was called immediately after note was triggered
754 schoenebeck 3218 // then immediately apply the tuning to Note object, but only if
755     // change_tune_time() has not been called before
756     if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime &&
757     pNote->Override.PitchTime <= DEFAULT_NOTE_PITCH_TIME_S)
758     {
759 schoenebeck 2962 if (relative)
760 schoenebeck 3561 pNote->Override.Pitch.Value *= fFreqRatio;
761 schoenebeck 2931 else
762 schoenebeck 3561 pNote->Override.Pitch.Value = fFreqRatio;
763     pNote->Override.Pitch.Final = isFinal;
764 schoenebeck 2962 } else { // otherwise schedule tuning change ...
765 schoenebeck 2931 Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
766     e.Init(); // clear IDs
767     e.Type = Event::type_note_synth_param;
768     e.Param.NoteSynthParam.NoteID = id.noteID();
769     e.Param.NoteSynthParam.Type = Event::synth_param_pitch;
770     e.Param.NoteSynthParam.Delta = fFreqRatio;
771 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
772     isFinal, relative, unit
773     );
774 schoenebeck 2931 pEngineChannel->ScheduleEventMicroSec(&e, 0);
775     }
776 schoenebeck 2962 } else if (args->arg(0)->exprType() == INT_ARR_EXPR) {
777     VMIntArrayExpr* ids = args->arg(0)->asIntArray();
778 schoenebeck 3557 for (vmint i = 0; i < ids->arraySize(); ++i) {
779 schoenebeck 2962 const ScriptID id = ids->evalIntElement(i);
780     if (!id || !id.isNoteID()) continue;
781    
782     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
783     if (!pNote) continue;
784    
785     // if change_tune() was called immediately after note was triggered
786 schoenebeck 3218 // then immediately apply the tuning to Note object, but only if
787     // change_tune_time() has not been called before
788     if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime &&
789     pNote->Override.PitchTime <= DEFAULT_NOTE_PITCH_TIME_S)
790     {
791 schoenebeck 2962 if (relative)
792 schoenebeck 3561 pNote->Override.Pitch.Value *= fFreqRatio;
793 schoenebeck 2962 else
794 schoenebeck 3561 pNote->Override.Pitch.Value = fFreqRatio;
795     pNote->Override.Pitch.Final = isFinal;
796 schoenebeck 2962 } else { // otherwise schedule tuning change ...
797     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
798     e.Init(); // clear IDs
799     e.Type = Event::type_note_synth_param;
800     e.Param.NoteSynthParam.NoteID = id.noteID();
801     e.Param.NoteSynthParam.Type = Event::synth_param_pitch;
802     e.Param.NoteSynthParam.Delta = fFreqRatio;
803 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
804     isFinal, relative, unit
805     );
806 schoenebeck 2962 pEngineChannel->ScheduleEventMicroSec(&e, 0);
807     }
808     }
809 schoenebeck 2931 }
810    
811     return successResult();
812     }
813    
814     // change_pan() function
815    
816     InstrumentScriptVMFunction_change_pan::InstrumentScriptVMFunction_change_pan(InstrumentScriptVM* parent)
817     : m_vm(parent)
818     {
819     }
820    
821 schoenebeck 3557 bool InstrumentScriptVMFunction_change_pan::acceptsArgType(vmint iArg, ExprType_t type) const {
822 schoenebeck 2931 if (iArg == 0)
823     return type == INT_EXPR || type == INT_ARR_EXPR;
824     else
825 schoenebeck 3188 return type == INT_EXPR;
826 schoenebeck 2931 }
827    
828 schoenebeck 3561 bool InstrumentScriptVMFunction_change_pan::acceptsArgFinal(vmint iArg) const {
829     return iArg == 1;
830     }
831    
832 schoenebeck 2931 VMFnResult* InstrumentScriptVMFunction_change_pan::exec(VMFnArgs* args) {
833 schoenebeck 3561 vmint pan = args->arg(1)->asInt()->evalInt();
834     bool isFinal = args->arg(1)->asInt()->isFinal();
835 schoenebeck 2931 bool relative = (args->argsCount() >= 3) ? (args->arg(2)->asInt()->evalInt() & 1) : false;
836    
837     if (pan > 1000) {
838     wrnMsg("change_pan(): argument 2 may not be larger than 1000");
839     pan = 1000;
840     } else if (pan < -1000) {
841     wrnMsg("change_pan(): argument 2 may not be smaller than -1000");
842     pan = -1000;
843     }
844 schoenebeck 2962 const float fPan = float(pan) / 1000.f;
845 schoenebeck 2931
846     AbstractEngineChannel* pEngineChannel =
847     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
848    
849     if (args->arg(0)->exprType() == INT_EXPR) {
850     const ScriptID id = args->arg(0)->asInt()->evalInt();
851     if (!id) {
852     wrnMsg("change_pan(): note ID for argument 1 may not be zero");
853     return successResult();
854     }
855     if (!id.isNoteID()) {
856     wrnMsg("change_pan(): argument 1 is not a note ID");
857     return successResult();
858     }
859    
860     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
861     if (!pNote) return successResult();
862    
863 schoenebeck 2962 // if change_pan() was called immediately after note was triggered
864     // then immediately apply the panning to Note object
865 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
866 schoenebeck 2962 if (relative) {
867 schoenebeck 3561 pNote->Override.Pan.Value = RTMath::RelativeSummedAvg(pNote->Override.Pan.Value, fPan, ++pNote->Override.Pan.Sources);
868 schoenebeck 2931 } else {
869 schoenebeck 3561 pNote->Override.Pan.Value = fPan;
870     pNote->Override.Pan.Sources = 1; // only relevant on subsequent change_pan() calls on same note with 'relative' being set
871 schoenebeck 2962 }
872 schoenebeck 3561 pNote->Override.Pan.Final = isFinal;
873 schoenebeck 2962 } else { // otherwise schedule panning change ...
874 schoenebeck 2931 Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
875     e.Init(); // clear IDs
876     e.Type = Event::type_note_synth_param;
877     e.Param.NoteSynthParam.NoteID = id.noteID();
878     e.Param.NoteSynthParam.Type = Event::synth_param_pan;
879     e.Param.NoteSynthParam.Delta = fPan;
880 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
881     isFinal, relative, false
882     );
883 schoenebeck 2931 pEngineChannel->ScheduleEventMicroSec(&e, 0);
884     }
885 schoenebeck 2962 } else if (args->arg(0)->exprType() == INT_ARR_EXPR) {
886     VMIntArrayExpr* ids = args->arg(0)->asIntArray();
887 schoenebeck 3557 for (vmint i = 0; i < ids->arraySize(); ++i) {
888 schoenebeck 2962 const ScriptID id = ids->evalIntElement(i);
889     if (!id || !id.isNoteID()) continue;
890    
891     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
892     if (!pNote) continue;
893    
894     // if change_pan() was called immediately after note was triggered
895     // then immediately apply the panning to Note object
896 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
897 schoenebeck 2962 if (relative) {
898 schoenebeck 3561 pNote->Override.Pan.Value = RTMath::RelativeSummedAvg(pNote->Override.Pan.Value, fPan, ++pNote->Override.Pan.Sources);
899 schoenebeck 2962 } else {
900 schoenebeck 3561 pNote->Override.Pan.Value = fPan;
901     pNote->Override.Pan.Sources = 1; // only relevant on subsequent change_pan() calls on same note with 'relative' being set
902 schoenebeck 2962 }
903 schoenebeck 3561 pNote->Override.Pan.Final = isFinal;
904 schoenebeck 2962 } else { // otherwise schedule panning change ...
905     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
906     e.Init(); // clear IDs
907     e.Type = Event::type_note_synth_param;
908     e.Param.NoteSynthParam.NoteID = id.noteID();
909     e.Param.NoteSynthParam.Type = Event::synth_param_pan;
910     e.Param.NoteSynthParam.Delta = fPan;
911 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
912     isFinal, relative, false
913     );
914 schoenebeck 2962 pEngineChannel->ScheduleEventMicroSec(&e, 0);
915     }
916     }
917 schoenebeck 2931 }
918    
919     return successResult();
920     }
921    
922 schoenebeck 2935 #define VM_FILTER_PAR_MAX_VALUE 1000000
923 schoenebeck 3561 #define VM_FILTER_PAR_MAX_HZ 30000
924 schoenebeck 2953 #define VM_EG_PAR_MAX_VALUE 1000000
925 schoenebeck 2935
926     // change_cutoff() function
927    
928     InstrumentScriptVMFunction_change_cutoff::InstrumentScriptVMFunction_change_cutoff(InstrumentScriptVM* parent)
929     : m_vm(parent)
930     {
931     }
932    
933 schoenebeck 3557 bool InstrumentScriptVMFunction_change_cutoff::acceptsArgType(vmint iArg, ExprType_t type) const {
934 schoenebeck 2935 if (iArg == 0)
935     return type == INT_EXPR || type == INT_ARR_EXPR;
936 schoenebeck 3587 else if (iArg == 1)
937     return type == INT_EXPR || type == REAL_EXPR;
938 schoenebeck 2935 else
939 schoenebeck 3188 return type == INT_EXPR;
940 schoenebeck 2935 }
941    
942 schoenebeck 3561 bool InstrumentScriptVMFunction_change_cutoff::acceptsArgUnitType(vmint iArg, StdUnit_t type) const {
943     if (iArg == 1)
944     return type == VM_NO_UNIT || type == VM_HERTZ;
945     else
946     return type == VM_NO_UNIT;
947     }
948    
949 schoenebeck 3564 bool InstrumentScriptVMFunction_change_cutoff::acceptsArgUnitPrefix(vmint iArg, StdUnit_t type) const {
950 schoenebeck 3587 return iArg == 1 && type == VM_HERTZ; // only allow metric prefix(es) if 'Hz' is used as unit type
951 schoenebeck 3561 }
952    
953     bool InstrumentScriptVMFunction_change_cutoff::acceptsArgFinal(vmint iArg) const {
954     return iArg == 1;
955     }
956    
957 schoenebeck 3588 void InstrumentScriptVMFunction_change_cutoff::checkArgs(VMFnArgs* args,
958     std::function<void(String)> err,
959     std::function<void(String)> wrn)
960     {
961     // super class checks
962     Super::checkArgs(args, err, wrn);
963    
964     // own checks ...
965     if (args->argsCount() >= 2) {
966     VMNumberExpr* argCutoff = args->arg(1)->asNumber();
967     if (argCutoff->unitType() && !argCutoff->isFinal()) {
968     wrn("Argument 2 implies 'final' value when using Hz as unit for cutoff frequency.");
969     }
970     }
971     }
972    
973 schoenebeck 2935 VMFnResult* InstrumentScriptVMFunction_change_cutoff::exec(VMFnArgs* args) {
974 schoenebeck 3588 const StdUnit_t unit = args->arg(1)->asNumber()->unitType();
975 schoenebeck 3587 vmint cutoff =
976     (unit) ?
977     args->arg(1)->asNumber()->evalCastInt(VM_NO_PREFIX) :
978     args->arg(1)->asNumber()->evalCastInt();
979 schoenebeck 3588 const bool isFinal =
980     (unit) ?
981     true : // imply 'final' value if unit type is used
982     args->arg(1)->asNumber()->isFinal();
983 schoenebeck 3561 if (!unit && cutoff > VM_FILTER_PAR_MAX_VALUE) {
984     wrnMsg("change_cutoff(): argument 2 may not be larger than " strfy(VM_FILTER_PAR_MAX_VALUE));
985 schoenebeck 2935 cutoff = VM_FILTER_PAR_MAX_VALUE;
986 schoenebeck 3561 } else if (unit && cutoff > VM_FILTER_PAR_MAX_HZ) {
987     wrnMsg("change_cutoff(): argument 2 may not be larger than " strfy(VM_FILTER_PAR_MAX_HZ) " Hz");
988     cutoff = VM_FILTER_PAR_MAX_HZ;
989 schoenebeck 2935 } else if (cutoff < 0) {
990     wrnMsg("change_cutoff(): argument 2 may not be negative");
991     cutoff = 0;
992     }
993 schoenebeck 3561 const float fCutoff =
994     (unit) ? cutoff : float(cutoff) / float(VM_FILTER_PAR_MAX_VALUE);
995 schoenebeck 2935
996     AbstractEngineChannel* pEngineChannel =
997     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
998    
999     if (args->arg(0)->exprType() == INT_EXPR) {
1000     const ScriptID id = args->arg(0)->asInt()->evalInt();
1001     if (!id) {
1002     wrnMsg("change_cutoff(): note ID for argument 1 may not be zero");
1003     return successResult();
1004     }
1005     if (!id.isNoteID()) {
1006     wrnMsg("change_cutoff(): argument 1 is not a note ID");
1007     return successResult();
1008     }
1009    
1010     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
1011     if (!pNote) return successResult();
1012    
1013 schoenebeck 2962 // if change_cutoff() was called immediately after note was triggered
1014     // then immediately apply cutoff to Note object
1015 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
1016 schoenebeck 3561 pNote->Override.Cutoff.Value = fCutoff;
1017     pNote->Override.Cutoff.Scope = NoteBase::scopeBy_FinalUnit(isFinal, unit);
1018 schoenebeck 2962 } else { // otherwise schedule cutoff change ...
1019     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
1020     e.Init(); // clear IDs
1021     e.Type = Event::type_note_synth_param;
1022     e.Param.NoteSynthParam.NoteID = id.noteID();
1023     e.Param.NoteSynthParam.Type = Event::synth_param_cutoff;
1024     e.Param.NoteSynthParam.Delta = fCutoff;
1025 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
1026     isFinal, false, unit
1027     );
1028 schoenebeck 2962 pEngineChannel->ScheduleEventMicroSec(&e, 0);
1029     }
1030 schoenebeck 2935 } else if (args->arg(0)->exprType() == INT_ARR_EXPR) {
1031     VMIntArrayExpr* ids = args->arg(0)->asIntArray();
1032 schoenebeck 3557 for (vmint i = 0; i < ids->arraySize(); ++i) {
1033 schoenebeck 2935 const ScriptID id = ids->evalIntElement(i);
1034     if (!id || !id.isNoteID()) continue;
1035    
1036     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
1037     if (!pNote) continue;
1038    
1039 schoenebeck 2962 // if change_cutoff() was called immediately after note was triggered
1040     // then immediately apply cutoff to Note object
1041 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
1042 schoenebeck 3561 pNote->Override.Cutoff.Value = fCutoff;
1043     pNote->Override.Cutoff.Scope = NoteBase::scopeBy_FinalUnit(isFinal, unit);
1044 schoenebeck 2962 } else { // otherwise schedule cutoff change ...
1045     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
1046     e.Init(); // clear IDs
1047     e.Type = Event::type_note_synth_param;
1048     e.Param.NoteSynthParam.NoteID = id.noteID();
1049     e.Param.NoteSynthParam.Type = Event::synth_param_cutoff;
1050     e.Param.NoteSynthParam.Delta = fCutoff;
1051 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
1052     isFinal, false, unit
1053     );
1054 schoenebeck 2962 pEngineChannel->ScheduleEventMicroSec(&e, 0);
1055     }
1056 schoenebeck 2935 }
1057     }
1058    
1059     return successResult();
1060     }
1061    
1062     // change_reso() function
1063    
1064     InstrumentScriptVMFunction_change_reso::InstrumentScriptVMFunction_change_reso(InstrumentScriptVM* parent)
1065     : m_vm(parent)
1066     {
1067     }
1068    
1069 schoenebeck 3557 bool InstrumentScriptVMFunction_change_reso::acceptsArgType(vmint iArg, ExprType_t type) const {
1070 schoenebeck 2935 if (iArg == 0)
1071     return type == INT_EXPR || type == INT_ARR_EXPR;
1072     else
1073 schoenebeck 3188 return type == INT_EXPR;
1074 schoenebeck 2935 }
1075    
1076 schoenebeck 3561 bool InstrumentScriptVMFunction_change_reso::acceptsArgFinal(vmint iArg) const {
1077     return iArg == 1;
1078     }
1079    
1080 schoenebeck 2935 VMFnResult* InstrumentScriptVMFunction_change_reso::exec(VMFnArgs* args) {
1081 schoenebeck 3557 vmint resonance = args->arg(1)->asInt()->evalInt();
1082 schoenebeck 3561 bool isFinal = args->arg(1)->asInt()->isFinal();
1083 schoenebeck 2935 if (resonance > VM_FILTER_PAR_MAX_VALUE) {
1084     wrnMsg("change_reso(): argument 2 may not be larger than 1000000");
1085     resonance = VM_FILTER_PAR_MAX_VALUE;
1086     } else if (resonance < 0) {
1087     wrnMsg("change_reso(): argument 2 may not be negative");
1088     resonance = 0;
1089     }
1090 schoenebeck 2962 const float fResonance = float(resonance) / float(VM_FILTER_PAR_MAX_VALUE);
1091 schoenebeck 2935
1092     AbstractEngineChannel* pEngineChannel =
1093     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
1094    
1095     if (args->arg(0)->exprType() == INT_EXPR) {
1096     const ScriptID id = args->arg(0)->asInt()->evalInt();
1097     if (!id) {
1098     wrnMsg("change_reso(): note ID for argument 1 may not be zero");
1099     return successResult();
1100     }
1101     if (!id.isNoteID()) {
1102     wrnMsg("change_reso(): argument 1 is not a note ID");
1103     return successResult();
1104     }
1105    
1106     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
1107     if (!pNote) return successResult();
1108    
1109 schoenebeck 2962 // if change_reso() was called immediately after note was triggered
1110     // then immediately apply resonance to Note object
1111 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
1112 schoenebeck 3561 pNote->Override.Resonance.Value = fResonance;
1113     pNote->Override.Resonance.Final = isFinal;
1114 schoenebeck 2962 } else { // otherwise schedule resonance change ...
1115     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
1116     e.Init(); // clear IDs
1117     e.Type = Event::type_note_synth_param;
1118     e.Param.NoteSynthParam.NoteID = id.noteID();
1119     e.Param.NoteSynthParam.Type = Event::synth_param_resonance;
1120     e.Param.NoteSynthParam.Delta = fResonance;
1121 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
1122     isFinal, false, false
1123     );
1124 schoenebeck 2962 pEngineChannel->ScheduleEventMicroSec(&e, 0);
1125     }
1126 schoenebeck 2935 } else if (args->arg(0)->exprType() == INT_ARR_EXPR) {
1127     VMIntArrayExpr* ids = args->arg(0)->asIntArray();
1128 schoenebeck 3557 for (vmint i = 0; i < ids->arraySize(); ++i) {
1129 schoenebeck 2935 const ScriptID id = ids->evalIntElement(i);
1130     if (!id || !id.isNoteID()) continue;
1131    
1132     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
1133     if (!pNote) continue;
1134    
1135 schoenebeck 2962 // if change_reso() was called immediately after note was triggered
1136     // then immediately apply resonance to Note object
1137 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
1138 schoenebeck 3561 pNote->Override.Resonance.Value = fResonance;
1139     pNote->Override.Resonance.Final = isFinal;
1140 schoenebeck 2962 } else { // otherwise schedule resonance change ...
1141     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
1142     e.Init(); // clear IDs
1143     e.Type = Event::type_note_synth_param;
1144     e.Param.NoteSynthParam.NoteID = id.noteID();
1145     e.Param.NoteSynthParam.Type = Event::synth_param_resonance;
1146     e.Param.NoteSynthParam.Delta = fResonance;
1147 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
1148     isFinal, false, false
1149     );
1150 schoenebeck 2962 pEngineChannel->ScheduleEventMicroSec(&e, 0);
1151     }
1152 schoenebeck 2935 }
1153     }
1154    
1155     return successResult();
1156     }
1157 schoenebeck 2953
1158     // change_attack() function
1159 schoenebeck 2935
1160 schoenebeck 2953 InstrumentScriptVMFunction_change_attack::InstrumentScriptVMFunction_change_attack(InstrumentScriptVM* parent)
1161     : m_vm(parent)
1162     {
1163     }
1164    
1165 schoenebeck 3557 bool InstrumentScriptVMFunction_change_attack::acceptsArgType(vmint iArg, ExprType_t type) const {
1166 schoenebeck 2953 if (iArg == 0)
1167     return type == INT_EXPR || type == INT_ARR_EXPR;
1168     else
1169 schoenebeck 3587 return type == INT_EXPR || type == REAL_EXPR;
1170 schoenebeck 2953 }
1171    
1172 schoenebeck 3561 bool InstrumentScriptVMFunction_change_attack::acceptsArgUnitType(vmint iArg, StdUnit_t type) const {
1173     if (iArg == 1)
1174     return type == VM_NO_UNIT || type == VM_SECOND;
1175     else
1176     return type == VM_NO_UNIT;
1177     }
1178    
1179 schoenebeck 3564 bool InstrumentScriptVMFunction_change_attack::acceptsArgUnitPrefix(vmint iArg, StdUnit_t type) const {
1180 schoenebeck 3587 return iArg == 1 && type == VM_SECOND; // only allow metric prefix(es) if 'seconds' is used as unit type
1181 schoenebeck 3561 }
1182    
1183     bool InstrumentScriptVMFunction_change_attack::acceptsArgFinal(vmint iArg) const {
1184     return iArg == 1;
1185     }
1186    
1187 schoenebeck 3588 void InstrumentScriptVMFunction_change_attack::checkArgs(VMFnArgs* args,
1188     std::function<void(String)> err,
1189     std::function<void(String)> wrn)
1190     {
1191     // super class checks
1192     Super::checkArgs(args, err, wrn);
1193    
1194     // own checks ...
1195     if (args->argsCount() >= 2) {
1196     VMNumberExpr* argTime = args->arg(1)->asNumber();
1197     if (argTime->unitType() && !argTime->isFinal()) {
1198     wrn("Argument 2 implies 'final' value when using seconds as unit for attack time.");
1199     }
1200     }
1201     }
1202    
1203 schoenebeck 2953 VMFnResult* InstrumentScriptVMFunction_change_attack::exec(VMFnArgs* args) {
1204 schoenebeck 3588 const StdUnit_t unit = args->arg(1)->asNumber()->unitType();
1205 schoenebeck 3587 vmint attack =
1206     (unit) ?
1207     args->arg(1)->asNumber()->evalCastInt(VM_MICRO) :
1208     args->arg(1)->asNumber()->evalCastInt();
1209 schoenebeck 3588 const bool isFinal =
1210     (unit) ?
1211     true : // imply 'final' value if unit type is used
1212     args->arg(1)->asNumber()->isFinal();
1213 schoenebeck 3303 // note: intentionally not checking against a max. value here!
1214     // (to allow i.e. passing 2000000 for doubling the attack time)
1215     if (attack < 0) {
1216 schoenebeck 2953 wrnMsg("change_attack(): argument 2 may not be negative");
1217     attack = 0;
1218     }
1219 schoenebeck 3588 const float fAttack =
1220     (unit) ? attack : float(attack) / float(VM_EG_PAR_MAX_VALUE);
1221 schoenebeck 2953
1222     AbstractEngineChannel* pEngineChannel =
1223     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
1224    
1225     if (args->arg(0)->exprType() == INT_EXPR) {
1226     const ScriptID id = args->arg(0)->asInt()->evalInt();
1227     if (!id) {
1228     wrnMsg("change_attack(): note ID for argument 1 may not be zero");
1229     return successResult();
1230     }
1231     if (!id.isNoteID()) {
1232     wrnMsg("change_attack(): argument 1 is not a note ID");
1233     return successResult();
1234     }
1235    
1236     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
1237 schoenebeck 2962 if (!pNote) return successResult();
1238 schoenebeck 2953
1239 schoenebeck 2962 // if change_attack() was called immediately after note was triggered
1240     // then immediately apply attack to Note object
1241 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
1242 schoenebeck 3561 pNote->Override.Attack.Value = fAttack;
1243     pNote->Override.Attack.Scope = NoteBase::scopeBy_FinalUnit(isFinal, unit);
1244 schoenebeck 2962 } else { // otherwise schedule attack change ...
1245     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
1246     e.Init(); // clear IDs
1247     e.Type = Event::type_note_synth_param;
1248     e.Param.NoteSynthParam.NoteID = id.noteID();
1249     e.Param.NoteSynthParam.Type = Event::synth_param_attack;
1250     e.Param.NoteSynthParam.Delta = fAttack;
1251 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
1252     isFinal, false, unit
1253     );
1254 schoenebeck 2962 pEngineChannel->ScheduleEventMicroSec(&e, 0);
1255     }
1256 schoenebeck 2953 } else if (args->arg(0)->exprType() == INT_ARR_EXPR) {
1257     VMIntArrayExpr* ids = args->arg(0)->asIntArray();
1258 schoenebeck 3557 for (vmint i = 0; i < ids->arraySize(); ++i) {
1259 schoenebeck 2953 const ScriptID id = ids->evalIntElement(i);
1260     if (!id || !id.isNoteID()) continue;
1261    
1262     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
1263     if (!pNote) continue;
1264    
1265 schoenebeck 2962 // if change_attack() was called immediately after note was triggered
1266     // then immediately apply attack to Note object
1267 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
1268 schoenebeck 3561 pNote->Override.Attack.Value = fAttack;
1269     pNote->Override.Attack.Scope = NoteBase::scopeBy_FinalUnit(isFinal, unit);
1270 schoenebeck 2962 } else { // otherwise schedule attack change ...
1271     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
1272     e.Init(); // clear IDs
1273     e.Type = Event::type_note_synth_param;
1274     e.Param.NoteSynthParam.NoteID = id.noteID();
1275     e.Param.NoteSynthParam.Type = Event::synth_param_attack;
1276     e.Param.NoteSynthParam.Delta = fAttack;
1277 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
1278     isFinal, false, unit
1279     );
1280 schoenebeck 2962 pEngineChannel->ScheduleEventMicroSec(&e, 0);
1281     }
1282 schoenebeck 2953 }
1283     }
1284    
1285     return successResult();
1286     }
1287    
1288     // change_decay() function
1289    
1290     InstrumentScriptVMFunction_change_decay::InstrumentScriptVMFunction_change_decay(InstrumentScriptVM* parent)
1291     : m_vm(parent)
1292     {
1293     }
1294    
1295 schoenebeck 3557 bool InstrumentScriptVMFunction_change_decay::acceptsArgType(vmint iArg, ExprType_t type) const {
1296 schoenebeck 2953 if (iArg == 0)
1297     return type == INT_EXPR || type == INT_ARR_EXPR;
1298     else
1299 schoenebeck 3587 return type == INT_EXPR || type == REAL_EXPR;
1300 schoenebeck 2953 }
1301    
1302 schoenebeck 3561 bool InstrumentScriptVMFunction_change_decay::acceptsArgUnitType(vmint iArg, StdUnit_t type) const {
1303     if (iArg == 1)
1304     return type == VM_NO_UNIT || type == VM_SECOND;
1305     else
1306     return type == VM_NO_UNIT;
1307     }
1308    
1309 schoenebeck 3564 bool InstrumentScriptVMFunction_change_decay::acceptsArgUnitPrefix(vmint iArg, StdUnit_t type) const {
1310 schoenebeck 3587 return iArg == 1 && type == VM_SECOND; // only allow metric prefix(es) if 'seconds' is used as unit type
1311 schoenebeck 3561 }
1312    
1313     bool InstrumentScriptVMFunction_change_decay::acceptsArgFinal(vmint iArg) const {
1314     return iArg == 1;
1315     }
1316    
1317 schoenebeck 3588 void InstrumentScriptVMFunction_change_decay::checkArgs(VMFnArgs* args,
1318     std::function<void(String)> err,
1319     std::function<void(String)> wrn)
1320     {
1321     // super class checks
1322     Super::checkArgs(args, err, wrn);
1323    
1324     // own checks ...
1325     if (args->argsCount() >= 2) {
1326     VMNumberExpr* argTime = args->arg(1)->asNumber();
1327     if (argTime->unitType() && !argTime->isFinal()) {
1328     wrn("Argument 2 implies 'final' value when using seconds as unit for decay time.");
1329     }
1330     }
1331     }
1332    
1333 schoenebeck 2953 VMFnResult* InstrumentScriptVMFunction_change_decay::exec(VMFnArgs* args) {
1334 schoenebeck 3588 const StdUnit_t unit = args->arg(1)->asNumber()->unitType();
1335 schoenebeck 3587 vmint decay =
1336     (unit) ?
1337     args->arg(1)->asNumber()->evalCastInt(VM_MICRO) :
1338     args->arg(1)->asNumber()->evalCastInt();
1339 schoenebeck 3588 const bool isFinal =
1340     (unit) ?
1341     true : // imply 'final' value if unit type is used
1342     args->arg(1)->asNumber()->isFinal();
1343 schoenebeck 3303 // note: intentionally not checking against a max. value here!
1344     // (to allow i.e. passing 2000000 for doubling the decay time)
1345     if (decay < 0) {
1346 schoenebeck 2953 wrnMsg("change_decay(): argument 2 may not be negative");
1347     decay = 0;
1348     }
1349 schoenebeck 3588 const float fDecay =
1350     (unit) ? decay : float(decay) / float(VM_EG_PAR_MAX_VALUE);
1351 schoenebeck 2953
1352     AbstractEngineChannel* pEngineChannel =
1353     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
1354    
1355     if (args->arg(0)->exprType() == INT_EXPR) {
1356     const ScriptID id = args->arg(0)->asInt()->evalInt();
1357     if (!id) {
1358     wrnMsg("change_decay(): note ID for argument 1 may not be zero");
1359     return successResult();
1360     }
1361     if (!id.isNoteID()) {
1362     wrnMsg("change_decay(): argument 1 is not a note ID");
1363     return successResult();
1364     }
1365    
1366     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
1367 schoenebeck 2962 if (!pNote) return successResult();
1368 schoenebeck 2953
1369 schoenebeck 2962 // if change_decay() was called immediately after note was triggered
1370     // then immediately apply decay to Note object
1371 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
1372 schoenebeck 3561 pNote->Override.Decay.Value = fDecay;
1373     pNote->Override.Decay.Scope = NoteBase::scopeBy_FinalUnit(isFinal, unit);
1374 schoenebeck 2962 } else { // otherwise schedule decay change ...
1375     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
1376     e.Init(); // clear IDs
1377     e.Type = Event::type_note_synth_param;
1378     e.Param.NoteSynthParam.NoteID = id.noteID();
1379     e.Param.NoteSynthParam.Type = Event::synth_param_decay;
1380     e.Param.NoteSynthParam.Delta = fDecay;
1381 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
1382     isFinal, false, unit
1383     );
1384 schoenebeck 2962 pEngineChannel->ScheduleEventMicroSec(&e, 0);
1385     }
1386 schoenebeck 2953 } else if (args->arg(0)->exprType() == INT_ARR_EXPR) {
1387     VMIntArrayExpr* ids = args->arg(0)->asIntArray();
1388 schoenebeck 3557 for (vmint i = 0; i < ids->arraySize(); ++i) {
1389 schoenebeck 2953 const ScriptID id = ids->evalIntElement(i);
1390     if (!id || !id.isNoteID()) continue;
1391    
1392     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
1393     if (!pNote) continue;
1394    
1395 schoenebeck 2962 // if change_decay() was called immediately after note was triggered
1396     // then immediately apply decay to Note object
1397 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
1398 schoenebeck 3561 pNote->Override.Decay.Value = fDecay;
1399     pNote->Override.Decay.Scope = NoteBase::scopeBy_FinalUnit(isFinal, unit);
1400 schoenebeck 2962 } else { // otherwise schedule decay change ...
1401     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
1402     e.Init(); // clear IDs
1403     e.Type = Event::type_note_synth_param;
1404     e.Param.NoteSynthParam.NoteID = id.noteID();
1405     e.Param.NoteSynthParam.Type = Event::synth_param_decay;
1406     e.Param.NoteSynthParam.Delta = fDecay;
1407 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
1408     isFinal, false, unit
1409     );
1410 schoenebeck 2962 pEngineChannel->ScheduleEventMicroSec(&e, 0);
1411     }
1412 schoenebeck 2953 }
1413     }
1414    
1415     return successResult();
1416     }
1417    
1418     // change_release() function
1419    
1420     InstrumentScriptVMFunction_change_release::InstrumentScriptVMFunction_change_release(InstrumentScriptVM* parent)
1421     : m_vm(parent)
1422     {
1423     }
1424    
1425 schoenebeck 3557 bool InstrumentScriptVMFunction_change_release::acceptsArgType(vmint iArg, ExprType_t type) const {
1426 schoenebeck 2953 if (iArg == 0)
1427     return type == INT_EXPR || type == INT_ARR_EXPR;
1428     else
1429 schoenebeck 3587 return type == INT_EXPR || type == REAL_EXPR;
1430 schoenebeck 2953 }
1431    
1432 schoenebeck 3561 bool InstrumentScriptVMFunction_change_release::acceptsArgUnitType(vmint iArg, StdUnit_t type) const {
1433     if (iArg == 1)
1434     return type == VM_NO_UNIT || type == VM_SECOND;
1435     else
1436     return type == VM_NO_UNIT;
1437     }
1438    
1439 schoenebeck 3564 bool InstrumentScriptVMFunction_change_release::acceptsArgUnitPrefix(vmint iArg, StdUnit_t type) const {
1440 schoenebeck 3587 return iArg == 1 && type == VM_SECOND; // only allow metric prefix(es) if 'seconds' is used as unit type
1441 schoenebeck 3561 }
1442    
1443     bool InstrumentScriptVMFunction_change_release::acceptsArgFinal(vmint iArg) const {
1444     return iArg == 1;
1445     }
1446    
1447 schoenebeck 3588 void InstrumentScriptVMFunction_change_release::checkArgs(VMFnArgs* args,
1448     std::function<void(String)> err,
1449     std::function<void(String)> wrn)
1450     {
1451     // super class checks
1452     Super::checkArgs(args, err, wrn);
1453    
1454     // own checks ...
1455     if (args->argsCount() >= 2) {
1456     VMNumberExpr* argTime = args->arg(1)->asNumber();
1457     if (argTime->unitType() && !argTime->isFinal()) {
1458     wrn("Argument 2 implies 'final' value when using seconds as unit for release time.");
1459     }
1460     }
1461     }
1462    
1463 schoenebeck 2953 VMFnResult* InstrumentScriptVMFunction_change_release::exec(VMFnArgs* args) {
1464 schoenebeck 3588 const StdUnit_t unit = args->arg(1)->asNumber()->unitType();
1465 schoenebeck 3587 vmint release =
1466     (unit) ?
1467     args->arg(1)->asNumber()->evalCastInt(VM_MICRO) :
1468     args->arg(1)->asNumber()->evalCastInt();
1469 schoenebeck 3588 const bool isFinal =
1470     (unit) ?
1471     true : // imply 'final' value if unit type is used
1472     args->arg(1)->asNumber()->isFinal();
1473 schoenebeck 3303 // note: intentionally not checking against a max. value here!
1474     // (to allow i.e. passing 2000000 for doubling the release time)
1475     if (release < 0) {
1476 schoenebeck 2953 wrnMsg("change_release(): argument 2 may not be negative");
1477     release = 0;
1478     }
1479 schoenebeck 3588 const float fRelease =
1480     (unit) ? release : float(release) / float(VM_EG_PAR_MAX_VALUE);
1481 schoenebeck 2953
1482     AbstractEngineChannel* pEngineChannel =
1483     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
1484    
1485     if (args->arg(0)->exprType() == INT_EXPR) {
1486     const ScriptID id = args->arg(0)->asInt()->evalInt();
1487     if (!id) {
1488     wrnMsg("change_release(): note ID for argument 1 may not be zero");
1489     return successResult();
1490     }
1491     if (!id.isNoteID()) {
1492     wrnMsg("change_release(): argument 1 is not a note ID");
1493     return successResult();
1494     }
1495    
1496     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
1497 schoenebeck 2962 if (!pNote) return successResult();
1498 schoenebeck 2953
1499 schoenebeck 2962 // if change_release() was called immediately after note was triggered
1500     // then immediately apply relase to Note object
1501 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
1502 schoenebeck 3561 pNote->Override.Release.Value = fRelease;
1503     pNote->Override.Release.Scope = NoteBase::scopeBy_FinalUnit(isFinal, unit);
1504 schoenebeck 2962 } else { // otherwise schedule release change ...
1505     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
1506     e.Init(); // clear IDs
1507     e.Type = Event::type_note_synth_param;
1508     e.Param.NoteSynthParam.NoteID = id.noteID();
1509     e.Param.NoteSynthParam.Type = Event::synth_param_release;
1510     e.Param.NoteSynthParam.Delta = fRelease;
1511 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
1512     isFinal, false, unit
1513     );
1514 schoenebeck 2962 pEngineChannel->ScheduleEventMicroSec(&e, 0);
1515     }
1516 schoenebeck 2953 } else if (args->arg(0)->exprType() == INT_ARR_EXPR) {
1517     VMIntArrayExpr* ids = args->arg(0)->asIntArray();
1518 schoenebeck 3557 for (vmint i = 0; i < ids->arraySize(); ++i) {
1519 schoenebeck 2953 const ScriptID id = ids->evalIntElement(i);
1520     if (!id || !id.isNoteID()) continue;
1521    
1522     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
1523     if (!pNote) continue;
1524    
1525 schoenebeck 2962 // if change_release() was called immediately after note was triggered
1526     // then immediately apply relase to Note object
1527 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
1528 schoenebeck 3561 pNote->Override.Release.Value = fRelease;
1529     pNote->Override.Release.Scope = NoteBase::scopeBy_FinalUnit(isFinal, unit);
1530 schoenebeck 2962 } else { // otherwise schedule release change ...
1531     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
1532     e.Init(); // clear IDs
1533     e.Type = Event::type_note_synth_param;
1534     e.Param.NoteSynthParam.NoteID = id.noteID();
1535     e.Param.NoteSynthParam.Type = Event::synth_param_release;
1536     e.Param.NoteSynthParam.Delta = fRelease;
1537 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
1538     isFinal, false, unit
1539     );
1540 schoenebeck 2962 pEngineChannel->ScheduleEventMicroSec(&e, 0);
1541     }
1542 schoenebeck 2953 }
1543     }
1544    
1545     return successResult();
1546     }
1547    
1548 schoenebeck 3246 // template for change_*() functions
1549    
1550 schoenebeck 3557 bool VMChangeSynthParamFunction::acceptsArgType(vmint iArg, ExprType_t type) const {
1551 schoenebeck 3118 if (iArg == 0)
1552     return type == INT_EXPR || type == INT_ARR_EXPR;
1553     else
1554 schoenebeck 3587 return type == INT_EXPR || (m_acceptReal && type == REAL_EXPR);
1555 schoenebeck 3118 }
1556    
1557 schoenebeck 3561 bool VMChangeSynthParamFunction::acceptsArgUnitType(vmint iArg, StdUnit_t type) const {
1558     if (iArg == 1)
1559     return type == VM_NO_UNIT || type == m_unit;
1560     else
1561     return type == VM_NO_UNIT;
1562     }
1563    
1564 schoenebeck 3564 bool VMChangeSynthParamFunction::acceptsArgUnitPrefix(vmint iArg, StdUnit_t type) const {
1565 schoenebeck 3587 return m_acceptUnitPrefix && iArg == 1 && type == m_unit; // only allow metric prefix(es) if approprirate unit type is used (e.g. Hz)
1566 schoenebeck 3561 }
1567    
1568     bool VMChangeSynthParamFunction::acceptsArgFinal(vmint iArg) const {
1569     return (m_acceptFinal) ? (iArg == 1) : false;
1570     }
1571    
1572     inline static void setNoteParamScopeBy_FinalUnit(NoteBase::Param& param, const bool bFinal, const StdUnit_t unit) {
1573     param.Scope = NoteBase::scopeBy_FinalUnit(bFinal, unit);
1574     }
1575    
1576     inline static void setNoteParamScopeBy_FinalUnit(NoteBase::Norm& param, const bool bFinal, const StdUnit_t unit) {
1577     param.Final = bFinal;
1578     }
1579    
1580     inline static void setNoteParamScopeBy_FinalUnit(float& param, const bool bFinal, const StdUnit_t unit) {
1581     /* NOOP */
1582     }
1583    
1584     template<class T>
1585     inline static void setNoteParamValue(T& param, vmfloat value) {
1586     param.Value = value;
1587     }
1588    
1589     inline static void setNoteParamValue(float& param, vmfloat value) {
1590     param = value;
1591     }
1592    
1593 schoenebeck 3588 void VMChangeSynthParamFunction::checkArgs(VMFnArgs* args,
1594     std::function<void(String)> err,
1595     std::function<void(String)> wrn)
1596     {
1597     // super class checks
1598     Super::checkArgs(args, err, wrn);
1599    
1600     // own checks ...
1601     if (m_unit && m_unit != VM_BEL && args->argsCount() >= 2) {
1602     VMNumberExpr* arg = args->arg(1)->asNumber();
1603     if (arg && arg->unitType() && !arg->isFinal()) {
1604     wrn("Argument 2 implies 'final' value when unit type " +
1605     unitTypeStr(arg->unitType()) + " is used.");
1606     }
1607     }
1608     }
1609    
1610 schoenebeck 3193 // Arbitrarily chosen constant value symbolizing "no limit".
1611     #define NO_LIMIT 1315916909
1612    
1613 schoenebeck 3561 template<class T_NoteParamType, T_NoteParamType NoteBase::_Override::*T_noteParam,
1614     vmint T_synthParam,
1615     vmint T_minValueNorm, vmint T_maxValueNorm, bool T_normalizeNorm,
1616     vmint T_minValueUnit, vmint T_maxValueUnit,
1617     MetricPrefix_t T_unitPrefix0, MetricPrefix_t ... T_unitPrefixN>
1618     VMFnResult* VMChangeSynthParamFunction::execTemplate(VMFnArgs* args, const char* functionName)
1619     {
1620 schoenebeck 3587 const StdUnit_t unit = args->arg(1)->asNumber()->unitType();
1621 schoenebeck 3588 const bool isFinal =
1622     (m_unit && m_unit != VM_BEL && unit) ?
1623     true : // imply 'final' value if unit type is used (except of 'Bel' which may be relative)
1624     args->arg(1)->asNumber()->isFinal();
1625 schoenebeck 3561 vmint value =
1626 schoenebeck 3587 (m_acceptUnitPrefix && ((m_unit && unit) || (!m_unit && args->arg(1)->asNumber()->hasUnitFactorNow())))
1627     ? args->arg(1)->asNumber()->evalCastInt(T_unitPrefix0, T_unitPrefixN ...)
1628     : args->arg(1)->asNumber()->evalCastInt();
1629 schoenebeck 3561
1630     // check if passed value is in allowed range
1631     if (unit && m_unit) {
1632     if (T_maxValueUnit != NO_LIMIT && value > T_maxValueUnit) {
1633     wrnMsg(String(functionName) + "(): argument 2 may not be larger than " + ToString(T_maxValueUnit));
1634     value = T_maxValueUnit;
1635     } else if (T_minValueUnit != NO_LIMIT && value < T_minValueUnit) {
1636     if (T_minValueUnit == 0)
1637     wrnMsg(String(functionName) + "(): argument 2 may not be negative");
1638     else
1639     wrnMsg(String(functionName) + "(): argument 2 may not be smaller than " + ToString(T_minValueUnit));
1640     value = T_minValueUnit;
1641     }
1642     } else { // value was passed to this function without a unit ...
1643     if (T_maxValueNorm != NO_LIMIT && value > T_maxValueNorm) {
1644     wrnMsg(String(functionName) + "(): argument 2 may not be larger than " + ToString(T_maxValueNorm));
1645     value = T_maxValueNorm;
1646     } else if (T_minValueNorm != NO_LIMIT && value < T_minValueNorm) {
1647     if (T_minValueNorm == 0)
1648     wrnMsg(String(functionName) + "(): argument 2 may not be negative");
1649     else
1650     wrnMsg(String(functionName) + "(): argument 2 may not be smaller than " + ToString(T_minValueNorm));
1651     value = T_minValueNorm;
1652     }
1653     }
1654    
1655     // convert passed argument value to engine internal expected value range (i.e. 0.0 .. 1.0)
1656     const float fValue =
1657     (unit && m_unit) ?
1658     (unit == VM_BEL) ?
1659     RTMath::DecibelToLinRatio(float(value) * float(T_unitPrefix0) /*i.e. mdB -> dB*/) :
1660     float(value) * VMUnit::unitFactor(T_unitPrefix0, T_unitPrefixN ...) /*i.e. us -> s*/ :
1661     (T_normalizeNorm) ?
1662     float(value) / ((T_maxValueNorm != NO_LIMIT) ? float(T_maxValueNorm) : 1000000.f/* fallback: value range used for most */) :
1663     float(value) /* as is */;
1664    
1665 schoenebeck 3118 AbstractEngineChannel* pEngineChannel =
1666     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
1667    
1668     if (args->arg(0)->exprType() == INT_EXPR) {
1669     const ScriptID id = args->arg(0)->asInt()->evalInt();
1670     if (!id) {
1671     wrnMsg(String(functionName) + "(): note ID for argument 1 may not be zero");
1672     return successResult();
1673     }
1674     if (!id.isNoteID()) {
1675     wrnMsg(String(functionName) + "(): argument 1 is not a note ID");
1676     return successResult();
1677     }
1678    
1679     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
1680     if (!pNote) return successResult();
1681    
1682     // if this change_*() script function was called immediately after
1683     // note was triggered then immediately apply the synth parameter
1684     // change to Note object
1685 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
1686 schoenebeck 3561 setNoteParamValue(pNote->Override.*T_noteParam, fValue);
1687     setNoteParamScopeBy_FinalUnit(
1688     (pNote->Override.*T_noteParam),
1689     isFinal, unit
1690     );
1691 schoenebeck 3118 } else { // otherwise schedule this synth parameter change ...
1692     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
1693     e.Init(); // clear IDs
1694     e.Type = Event::type_note_synth_param;
1695     e.Param.NoteSynthParam.NoteID = id.noteID();
1696     e.Param.NoteSynthParam.Type = (Event::synth_param_t) T_synthParam;
1697     e.Param.NoteSynthParam.Delta = fValue;
1698 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
1699     isFinal, false, unit
1700     );
1701 schoenebeck 3118 pEngineChannel->ScheduleEventMicroSec(&e, 0);
1702     }
1703     } else if (args->arg(0)->exprType() == INT_ARR_EXPR) {
1704     VMIntArrayExpr* ids = args->arg(0)->asIntArray();
1705 schoenebeck 3557 for (vmint i = 0; i < ids->arraySize(); ++i) {
1706 schoenebeck 3118 const ScriptID id = ids->evalIntElement(i);
1707     if (!id || !id.isNoteID()) continue;
1708    
1709     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
1710     if (!pNote) continue;
1711    
1712     // if this change_*() script function was called immediately after
1713     // note was triggered then immediately apply the synth parameter
1714     // change to Note object
1715 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
1716 schoenebeck 3561 setNoteParamValue(pNote->Override.*T_noteParam, fValue);
1717     setNoteParamScopeBy_FinalUnit(
1718     (pNote->Override.*T_noteParam),
1719     isFinal, unit
1720     );
1721 schoenebeck 3118 } else { // otherwise schedule this synth parameter change ...
1722     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
1723     e.Init(); // clear IDs
1724     e.Type = Event::type_note_synth_param;
1725     e.Param.NoteSynthParam.NoteID = id.noteID();
1726     e.Param.NoteSynthParam.Type = (Event::synth_param_t) T_synthParam;
1727     e.Param.NoteSynthParam.Delta = fValue;
1728 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::scopeBy_FinalRelativeUnit(
1729     isFinal, false, unit
1730     );
1731 schoenebeck 3118 pEngineChannel->ScheduleEventMicroSec(&e, 0);
1732     }
1733     }
1734     }
1735    
1736     return successResult();
1737     }
1738    
1739 schoenebeck 3316 // change_sustain() function
1740    
1741     VMFnResult* InstrumentScriptVMFunction_change_sustain::exec(VMFnArgs* args) {
1742     return VMChangeSynthParamFunction::execTemplate<
1743 schoenebeck 3561 decltype(NoteBase::_Override::Sustain),
1744 schoenebeck 3360 &NoteBase::_Override::Sustain,
1745     Event::synth_param_sustain,
1746 schoenebeck 3561 /* if value passed without unit */
1747     0, NO_LIMIT, true,
1748     /* if value passed WITH 'Bel' unit */
1749     NO_LIMIT, NO_LIMIT, VM_MILLI, VM_DECI>( args, "change_sustain" );
1750 schoenebeck 3316 }
1751    
1752 schoenebeck 3360 // change_cutoff_attack() function
1753    
1754     VMFnResult* InstrumentScriptVMFunction_change_cutoff_attack::exec(VMFnArgs* args) {
1755     return VMChangeSynthParamFunction::execTemplate<
1756 schoenebeck 3561 decltype(NoteBase::_Override::CutoffAttack),
1757 schoenebeck 3360 &NoteBase::_Override::CutoffAttack,
1758     Event::synth_param_cutoff_attack,
1759 schoenebeck 3561 /* if value passed without unit */
1760     0, NO_LIMIT, true,
1761     /* if value passed with 'seconds' unit */
1762     0, NO_LIMIT, VM_MICRO>( args, "change_cutoff_attack" );
1763 schoenebeck 3360 }
1764    
1765     // change_cutoff_decay() function
1766    
1767     VMFnResult* InstrumentScriptVMFunction_change_cutoff_decay::exec(VMFnArgs* args) {
1768     return VMChangeSynthParamFunction::execTemplate<
1769 schoenebeck 3561 decltype(NoteBase::_Override::CutoffDecay),
1770 schoenebeck 3360 &NoteBase::_Override::CutoffDecay,
1771     Event::synth_param_cutoff_decay,
1772 schoenebeck 3561 /* if value passed without unit */
1773     0, NO_LIMIT, true,
1774     /* if value passed with 'seconds' unit */
1775     0, NO_LIMIT, VM_MICRO>( args, "change_cutoff_decay" );
1776 schoenebeck 3360 }
1777    
1778     // change_cutoff_sustain() function
1779    
1780     VMFnResult* InstrumentScriptVMFunction_change_cutoff_sustain::exec(VMFnArgs* args) {
1781     return VMChangeSynthParamFunction::execTemplate<
1782 schoenebeck 3561 decltype(NoteBase::_Override::CutoffSustain),
1783 schoenebeck 3360 &NoteBase::_Override::CutoffSustain,
1784     Event::synth_param_cutoff_sustain,
1785 schoenebeck 3561 /* if value passed without unit */
1786     0, NO_LIMIT, true,
1787     /* if value passed WITH 'Bel' unit */
1788     NO_LIMIT, NO_LIMIT, VM_MILLI, VM_DECI>( args, "change_cutoff_sustain" );
1789 schoenebeck 3360 }
1790    
1791     // change_cutoff_release() function
1792    
1793     VMFnResult* InstrumentScriptVMFunction_change_cutoff_release::exec(VMFnArgs* args) {
1794     return VMChangeSynthParamFunction::execTemplate<
1795 schoenebeck 3561 decltype(NoteBase::_Override::CutoffRelease),
1796 schoenebeck 3360 &NoteBase::_Override::CutoffRelease,
1797     Event::synth_param_cutoff_release,
1798 schoenebeck 3561 /* if value passed without unit */
1799     0, NO_LIMIT, true,
1800     /* if value passed with 'seconds' unit */
1801     0, NO_LIMIT, VM_MICRO>( args, "change_cutoff_release" );
1802 schoenebeck 3360 }
1803    
1804 schoenebeck 3118 // change_amp_lfo_depth() function
1805    
1806     VMFnResult* InstrumentScriptVMFunction_change_amp_lfo_depth::exec(VMFnArgs* args) {
1807 schoenebeck 3188 return VMChangeSynthParamFunction::execTemplate<
1808 schoenebeck 3561 decltype(NoteBase::_Override::AmpLFODepth),
1809 schoenebeck 3188 &NoteBase::_Override::AmpLFODepth,
1810 schoenebeck 3193 Event::synth_param_amp_lfo_depth,
1811 schoenebeck 3561 /* if value passed without unit */
1812     0, 1000000, true,
1813     /* not used (since this function does not accept unit) */
1814     NO_LIMIT, NO_LIMIT, VM_NO_PREFIX>( args, "change_amp_lfo_depth" );
1815 schoenebeck 3118 }
1816    
1817     // change_amp_lfo_freq() function
1818    
1819     VMFnResult* InstrumentScriptVMFunction_change_amp_lfo_freq::exec(VMFnArgs* args) {
1820 schoenebeck 3188 return VMChangeSynthParamFunction::execTemplate<
1821 schoenebeck 3561 decltype(NoteBase::_Override::AmpLFOFreq),
1822 schoenebeck 3188 &NoteBase::_Override::AmpLFOFreq,
1823 schoenebeck 3193 Event::synth_param_amp_lfo_freq,
1824 schoenebeck 3561 /* if value passed without unit */
1825     0, 1000000, true,
1826     /* if value passed with 'Hz' unit */
1827     0, 30000, VM_NO_PREFIX>( args, "change_amp_lfo_freq" );
1828 schoenebeck 3118 }
1829    
1830 schoenebeck 3360 // change_cutoff_lfo_depth() function
1831    
1832     VMFnResult* InstrumentScriptVMFunction_change_cutoff_lfo_depth::exec(VMFnArgs* args) {
1833     return VMChangeSynthParamFunction::execTemplate<
1834 schoenebeck 3561 decltype(NoteBase::_Override::CutoffLFODepth),
1835 schoenebeck 3360 &NoteBase::_Override::CutoffLFODepth,
1836     Event::synth_param_cutoff_lfo_depth,
1837 schoenebeck 3561 /* if value passed without unit */
1838     0, 1000000, true,
1839     /* not used (since this function does not accept unit) */
1840     NO_LIMIT, NO_LIMIT, VM_NO_PREFIX>( args, "change_cutoff_lfo_depth" );
1841 schoenebeck 3360 }
1842    
1843     // change_cutoff_lfo_freq() function
1844    
1845     VMFnResult* InstrumentScriptVMFunction_change_cutoff_lfo_freq::exec(VMFnArgs* args) {
1846     return VMChangeSynthParamFunction::execTemplate<
1847 schoenebeck 3561 decltype(NoteBase::_Override::CutoffLFOFreq),
1848 schoenebeck 3360 &NoteBase::_Override::CutoffLFOFreq,
1849     Event::synth_param_cutoff_lfo_freq,
1850 schoenebeck 3561 /* if value passed without unit */
1851     0, 1000000, true,
1852     /* if value passed with 'Hz' unit */
1853     0, 30000, VM_NO_PREFIX>( args, "change_cutoff_lfo_freq" );
1854 schoenebeck 3360 }
1855    
1856 schoenebeck 3118 // change_pitch_lfo_depth() function
1857    
1858     VMFnResult* InstrumentScriptVMFunction_change_pitch_lfo_depth::exec(VMFnArgs* args) {
1859 schoenebeck 3188 return VMChangeSynthParamFunction::execTemplate<
1860 schoenebeck 3561 decltype(NoteBase::_Override::PitchLFODepth),
1861 schoenebeck 3188 &NoteBase::_Override::PitchLFODepth,
1862 schoenebeck 3193 Event::synth_param_pitch_lfo_depth,
1863 schoenebeck 3561 /* if value passed without unit */
1864     0, 1000000, true,
1865     /* not used (since this function does not accept unit) */
1866     NO_LIMIT, NO_LIMIT, VM_NO_PREFIX>( args, "change_pitch_lfo_depth" );
1867 schoenebeck 3118 }
1868    
1869     // change_pitch_lfo_freq() function
1870    
1871     VMFnResult* InstrumentScriptVMFunction_change_pitch_lfo_freq::exec(VMFnArgs* args) {
1872 schoenebeck 3188 return VMChangeSynthParamFunction::execTemplate<
1873 schoenebeck 3561 decltype(NoteBase::_Override::PitchLFOFreq),
1874 schoenebeck 3188 &NoteBase::_Override::PitchLFOFreq,
1875 schoenebeck 3193 Event::synth_param_pitch_lfo_freq,
1876 schoenebeck 3561 /* if value passed without unit */
1877     0, 1000000, true,
1878     /* if value passed with 'Hz' unit */
1879     0, 30000, VM_NO_PREFIX>( args, "change_pitch_lfo_freq" );
1880 schoenebeck 3118 }
1881    
1882 schoenebeck 3188 // change_vol_time() function
1883    
1884     VMFnResult* InstrumentScriptVMFunction_change_vol_time::exec(VMFnArgs* args) {
1885     return VMChangeSynthParamFunction::execTemplate<
1886 schoenebeck 3561 decltype(NoteBase::_Override::VolumeTime),
1887 schoenebeck 3188 &NoteBase::_Override::VolumeTime,
1888 schoenebeck 3193 Event::synth_param_volume_time,
1889 schoenebeck 3561 /* if value passed without unit (implying 'us' unit) */
1890     0, NO_LIMIT, true,
1891     /* if value passed with 'seconds' unit */
1892     0, NO_LIMIT, VM_MICRO>( args, "change_vol_time" );
1893 schoenebeck 3188 }
1894    
1895     // change_tune_time() function
1896    
1897     VMFnResult* InstrumentScriptVMFunction_change_tune_time::exec(VMFnArgs* args) {
1898     return VMChangeSynthParamFunction::execTemplate<
1899 schoenebeck 3561 decltype(NoteBase::_Override::PitchTime),
1900 schoenebeck 3188 &NoteBase::_Override::PitchTime,
1901 schoenebeck 3193 Event::synth_param_pitch_time,
1902 schoenebeck 3561 /* if value passed without unit (implying 'us' unit) */
1903     0, NO_LIMIT, true,
1904     /* if value passed with 'seconds' unit */
1905     0, NO_LIMIT, VM_MICRO>( args, "change_tune_time" );
1906 schoenebeck 3188 }
1907    
1908 schoenebeck 3335 // change_pan_time() function
1909    
1910     VMFnResult* InstrumentScriptVMFunction_change_pan_time::exec(VMFnArgs* args) {
1911     return VMChangeSynthParamFunction::execTemplate<
1912 schoenebeck 3561 decltype(NoteBase::_Override::PanTime),
1913     &NoteBase::_Override::PanTime,
1914     Event::synth_param_pan_time,
1915     /* if value passed without unit (implying 'us' unit) */
1916     0, NO_LIMIT, true,
1917     /* if value passed with 'seconds' unit */
1918     0, NO_LIMIT, VM_MICRO>( args, "change_pan_time" );
1919 schoenebeck 3335 }
1920    
1921 schoenebeck 3246 // template for change_*_curve() functions
1922    
1923 schoenebeck 3557 bool VMChangeFadeCurveFunction::acceptsArgType(vmint iArg, ExprType_t type) const {
1924 schoenebeck 3246 if (iArg == 0)
1925     return type == INT_EXPR || type == INT_ARR_EXPR;
1926     else
1927     return type == INT_EXPR;
1928     }
1929    
1930 schoenebeck 3557 template<fade_curve_t NoteBase::_Override::*T_noteParam, vmint T_synthParam>
1931 schoenebeck 3246 VMFnResult* VMChangeFadeCurveFunction::execTemplate(VMFnArgs* args, const char* functionName) {
1932 schoenebeck 3557 vmint value = args->arg(1)->asInt()->evalInt();
1933 schoenebeck 3246 switch (value) {
1934     case FADE_CURVE_LINEAR:
1935     case FADE_CURVE_EASE_IN_EASE_OUT:
1936     break;
1937     default:
1938     wrnMsg(String(functionName) + "(): invalid curve type passed as argument 2");
1939     return successResult();
1940     }
1941    
1942     AbstractEngineChannel* pEngineChannel =
1943     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
1944    
1945     if (args->arg(0)->exprType() == INT_EXPR) {
1946     const ScriptID id = args->arg(0)->asInt()->evalInt();
1947     if (!id) {
1948     wrnMsg(String(functionName) + "(): note ID for argument 1 may not be zero");
1949     return successResult();
1950     }
1951     if (!id.isNoteID()) {
1952     wrnMsg(String(functionName) + "(): argument 1 is not a note ID");
1953     return successResult();
1954     }
1955    
1956     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
1957     if (!pNote) return successResult();
1958    
1959     // if this change_*_curve() script function was called immediately after
1960     // note was triggered then immediately apply the synth parameter
1961     // change to Note object
1962     if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
1963     pNote->Override.*T_noteParam = (fade_curve_t) value;
1964     } else { // otherwise schedule this synth parameter change ...
1965     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
1966     e.Init(); // clear IDs
1967     e.Type = Event::type_note_synth_param;
1968     e.Param.NoteSynthParam.NoteID = id.noteID();
1969     e.Param.NoteSynthParam.Type = (Event::synth_param_t) T_synthParam;
1970     e.Param.NoteSynthParam.Delta = value;
1971 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::ValueScope::RELATIVE; // actually ignored
1972 schoenebeck 3246
1973     pEngineChannel->ScheduleEventMicroSec(&e, 0);
1974     }
1975     } else if (args->arg(0)->exprType() == INT_ARR_EXPR) {
1976     VMIntArrayExpr* ids = args->arg(0)->asIntArray();
1977 schoenebeck 3557 for (vmint i = 0; i < ids->arraySize(); ++i) {
1978 schoenebeck 3246 const ScriptID id = ids->evalIntElement(i);
1979     if (!id || !id.isNoteID()) continue;
1980    
1981     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
1982     if (!pNote) continue;
1983    
1984     // if this change_*_curve() script function was called immediately after
1985     // note was triggered then immediately apply the synth parameter
1986     // change to Note object
1987     if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
1988     pNote->Override.*T_noteParam = (fade_curve_t) value;
1989     } else { // otherwise schedule this synth parameter change ...
1990     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
1991     e.Init(); // clear IDs
1992     e.Type = Event::type_note_synth_param;
1993     e.Param.NoteSynthParam.NoteID = id.noteID();
1994     e.Param.NoteSynthParam.Type = (Event::synth_param_t) T_synthParam;
1995     e.Param.NoteSynthParam.Delta = value;
1996 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::ValueScope::RELATIVE; // actually ignored
1997 schoenebeck 3246
1998     pEngineChannel->ScheduleEventMicroSec(&e, 0);
1999     }
2000     }
2001     }
2002    
2003     return successResult();
2004     }
2005    
2006     // change_vol_curve() function
2007    
2008     VMFnResult* InstrumentScriptVMFunction_change_vol_curve::exec(VMFnArgs* args) {
2009     return VMChangeFadeCurveFunction::execTemplate<
2010     &NoteBase::_Override::VolumeCurve,
2011     Event::synth_param_volume_curve>( args, "change_vol_curve" );
2012     }
2013    
2014     // change_tune_curve() function
2015    
2016     VMFnResult* InstrumentScriptVMFunction_change_tune_curve::exec(VMFnArgs* args) {
2017     return VMChangeFadeCurveFunction::execTemplate<
2018     &NoteBase::_Override::PitchCurve,
2019     Event::synth_param_pitch_curve>( args, "change_tune_curve" );
2020     }
2021    
2022 schoenebeck 3335 // change_pan_curve() function
2023    
2024     VMFnResult* InstrumentScriptVMFunction_change_pan_curve::exec(VMFnArgs* args) {
2025     return VMChangeFadeCurveFunction::execTemplate<
2026     &NoteBase::_Override::PanCurve,
2027     Event::synth_param_pan_curve>( args, "change_pan_curve" );
2028     }
2029    
2030 schoenebeck 3188 // fade_in() function
2031    
2032     InstrumentScriptVMFunction_fade_in::InstrumentScriptVMFunction_fade_in(InstrumentScriptVM* parent)
2033     : m_vm(parent)
2034     {
2035     }
2036    
2037 schoenebeck 3557 bool InstrumentScriptVMFunction_fade_in::acceptsArgType(vmint iArg, ExprType_t type) const {
2038 schoenebeck 3188 if (iArg == 0)
2039     return type == INT_EXPR || type == INT_ARR_EXPR;
2040     else
2041 schoenebeck 3587 return type == INT_EXPR || type == REAL_EXPR;
2042 schoenebeck 3188 }
2043    
2044 schoenebeck 3561 bool InstrumentScriptVMFunction_fade_in::acceptsArgUnitType(vmint iArg, StdUnit_t type) const {
2045     if (iArg == 1)
2046     return type == VM_NO_UNIT || type == VM_SECOND;
2047     else
2048     return type == VM_NO_UNIT;
2049     }
2050    
2051 schoenebeck 3564 bool InstrumentScriptVMFunction_fade_in::acceptsArgUnitPrefix(vmint iArg, StdUnit_t type) const {
2052 schoenebeck 3587 return iArg == 1 && type == VM_SECOND; // only allow metric prefix(es) if 'seconds' is used as unit type
2053 schoenebeck 3561 }
2054    
2055 schoenebeck 3188 VMFnResult* InstrumentScriptVMFunction_fade_in::exec(VMFnArgs* args) {
2056 schoenebeck 3587 StdUnit_t unit = args->arg(1)->asNumber()->unitType();
2057     vmint duration =
2058     (unit) ?
2059     args->arg(1)->asNumber()->evalCastInt(VM_MICRO) :
2060     args->arg(1)->asNumber()->evalCastInt();
2061 schoenebeck 3188 if (duration < 0) {
2062     wrnMsg("fade_in(): argument 2 may not be negative");
2063     duration = 0;
2064     }
2065     const float fDuration = float(duration) / 1000000.f; // convert microseconds to seconds
2066    
2067     AbstractEngineChannel* pEngineChannel =
2068     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
2069    
2070     if (args->arg(0)->exprType() == INT_EXPR) {
2071     const ScriptID id = args->arg(0)->asInt()->evalInt();
2072     if (!id) {
2073     wrnMsg("fade_in(): note ID for argument 1 may not be zero");
2074     return successResult();
2075     }
2076     if (!id.isNoteID()) {
2077     wrnMsg("fade_in(): argument 1 is not a note ID");
2078     return successResult();
2079     }
2080    
2081     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
2082     if (!pNote) return successResult();
2083    
2084     // if fade_in() was called immediately after note was triggered
2085     // then immediately apply a start volume of zero to Note object,
2086     // as well as the fade in duration
2087 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
2088 schoenebeck 3561 pNote->Override.Volume.Value = 0.f;
2089 schoenebeck 3188 pNote->Override.VolumeTime = fDuration;
2090     } else { // otherwise schedule a "volume time" change with the requested fade in duration ...
2091     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
2092     e.Init(); // clear IDs
2093     e.Type = Event::type_note_synth_param;
2094     e.Param.NoteSynthParam.NoteID = id.noteID();
2095     e.Param.NoteSynthParam.Type = Event::synth_param_volume_time;
2096     e.Param.NoteSynthParam.Delta = fDuration;
2097 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::ValueScope::RELATIVE; // actually ignored
2098 schoenebeck 3188
2099     pEngineChannel->ScheduleEventMicroSec(&e, 0);
2100     }
2101     // and finally schedule a "volume" change, simply one time slice
2102     // ahead, with the final fade in volume (1.0)
2103     {
2104     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
2105     e.Init(); // clear IDs
2106     e.Type = Event::type_note_synth_param;
2107     e.Param.NoteSynthParam.NoteID = id.noteID();
2108     e.Param.NoteSynthParam.Type = Event::synth_param_volume;
2109     e.Param.NoteSynthParam.Delta = 1.f;
2110 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::ValueScope::RELATIVE; // actually ignored
2111 schoenebeck 3188
2112     // scheduling with 0 delay would also work here, but +1 is more
2113     // safe regarding potential future implementation changes of the
2114     // scheduler (see API comments of RTAVLTree::insert())
2115     pEngineChannel->ScheduleEventMicroSec(&e, 1);
2116     }
2117     } else if (args->arg(0)->exprType() == INT_ARR_EXPR) {
2118     VMIntArrayExpr* ids = args->arg(0)->asIntArray();
2119 schoenebeck 3557 for (vmint i = 0; i < ids->arraySize(); ++i) {
2120 schoenebeck 3188 const ScriptID id = ids->evalIntElement(i);
2121     if (!id || !id.isNoteID()) continue;
2122    
2123     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
2124     if (!pNote) continue;
2125    
2126     // if fade_in() was called immediately after note was triggered
2127     // then immediately apply a start volume of zero to Note object,
2128     // as well as the fade in duration
2129 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
2130 schoenebeck 3561 pNote->Override.Volume.Value = 0.f;
2131 schoenebeck 3188 pNote->Override.VolumeTime = fDuration;
2132     } else { // otherwise schedule a "volume time" change with the requested fade in duration ...
2133     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
2134     e.Init(); // clear IDs
2135     e.Type = Event::type_note_synth_param;
2136     e.Param.NoteSynthParam.NoteID = id.noteID();
2137     e.Param.NoteSynthParam.Type = Event::synth_param_volume_time;
2138     e.Param.NoteSynthParam.Delta = fDuration;
2139 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::ValueScope::RELATIVE; // actually ignored
2140 schoenebeck 3188
2141     pEngineChannel->ScheduleEventMicroSec(&e, 0);
2142     }
2143     // and finally schedule a "volume" change, simply one time slice
2144     // ahead, with the final fade in volume (1.0)
2145     {
2146     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
2147     e.Init(); // clear IDs
2148     e.Type = Event::type_note_synth_param;
2149     e.Param.NoteSynthParam.NoteID = id.noteID();
2150     e.Param.NoteSynthParam.Type = Event::synth_param_volume;
2151     e.Param.NoteSynthParam.Delta = 1.f;
2152 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::ValueScope::RELATIVE; // actually ignored
2153 schoenebeck 3188
2154     // scheduling with 0 delay would also work here, but +1 is more
2155     // safe regarding potential future implementation changes of the
2156     // scheduler (see API comments of RTAVLTree::insert())
2157     pEngineChannel->ScheduleEventMicroSec(&e, 1);
2158     }
2159     }
2160     }
2161    
2162     return successResult();
2163     }
2164    
2165     // fade_out() function
2166    
2167     InstrumentScriptVMFunction_fade_out::InstrumentScriptVMFunction_fade_out(InstrumentScriptVM* parent)
2168     : m_vm(parent)
2169     {
2170     }
2171    
2172 schoenebeck 3557 bool InstrumentScriptVMFunction_fade_out::acceptsArgType(vmint iArg, ExprType_t type) const {
2173 schoenebeck 3188 if (iArg == 0)
2174     return type == INT_EXPR || type == INT_ARR_EXPR;
2175     else
2176 schoenebeck 3587 return type == INT_EXPR || type == REAL_EXPR;
2177 schoenebeck 3188 }
2178    
2179 schoenebeck 3561 bool InstrumentScriptVMFunction_fade_out::acceptsArgUnitType(vmint iArg, StdUnit_t type) const {
2180     if (iArg == 1)
2181     return type == VM_NO_UNIT || type == VM_SECOND;
2182     else
2183     return type == VM_NO_UNIT;
2184     }
2185    
2186 schoenebeck 3564 bool InstrumentScriptVMFunction_fade_out::acceptsArgUnitPrefix(vmint iArg, StdUnit_t type) const {
2187 schoenebeck 3587 return iArg == 1 && type == VM_SECOND; // only allow metric prefix(es) if 'seconds' is used as unit type
2188 schoenebeck 3561 }
2189    
2190 schoenebeck 3188 VMFnResult* InstrumentScriptVMFunction_fade_out::exec(VMFnArgs* args) {
2191 schoenebeck 3587 StdUnit_t unit = args->arg(1)->asNumber()->unitType();
2192     vmint duration =
2193     (unit) ?
2194     args->arg(1)->asNumber()->evalCastInt(VM_MICRO) :
2195     args->arg(1)->asNumber()->evalCastInt();
2196 schoenebeck 3188 if (duration < 0) {
2197     wrnMsg("fade_out(): argument 2 may not be negative");
2198     duration = 0;
2199     }
2200     const float fDuration = float(duration) / 1000000.f; // convert microseconds to seconds
2201    
2202     bool stop = (args->argsCount() >= 3) ? (args->arg(2)->asInt()->evalInt() & 1) : true;
2203    
2204     AbstractEngineChannel* pEngineChannel =
2205     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
2206    
2207     if (args->arg(0)->exprType() == INT_EXPR) {
2208     const ScriptID id = args->arg(0)->asInt()->evalInt();
2209     if (!id) {
2210     wrnMsg("fade_out(): note ID for argument 1 may not be zero");
2211     return successResult();
2212     }
2213     if (!id.isNoteID()) {
2214     wrnMsg("fade_out(): argument 1 is not a note ID");
2215     return successResult();
2216     }
2217    
2218     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
2219     if (!pNote) return successResult();
2220    
2221     // if fade_out() was called immediately after note was triggered
2222     // then immediately apply fade out duration to Note object
2223 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
2224 schoenebeck 3188 pNote->Override.VolumeTime = fDuration;
2225     } else { // otherwise schedule a "volume time" change with the requested fade out duration ...
2226     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
2227     e.Init(); // clear IDs
2228     e.Type = Event::type_note_synth_param;
2229     e.Param.NoteSynthParam.NoteID = id.noteID();
2230     e.Param.NoteSynthParam.Type = Event::synth_param_volume_time;
2231     e.Param.NoteSynthParam.Delta = fDuration;
2232 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::ValueScope::RELATIVE; // actually ignored
2233 schoenebeck 3188
2234     pEngineChannel->ScheduleEventMicroSec(&e, 0);
2235     }
2236     // now schedule a "volume" change, simply one time slice ahead, with
2237     // the final fade out volume (0.0)
2238     {
2239     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
2240     e.Init(); // clear IDs
2241     e.Type = Event::type_note_synth_param;
2242     e.Param.NoteSynthParam.NoteID = id.noteID();
2243     e.Param.NoteSynthParam.Type = Event::synth_param_volume;
2244     e.Param.NoteSynthParam.Delta = 0.f;
2245 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::ValueScope::RELATIVE; // actually ignored
2246 schoenebeck 3188
2247     // scheduling with 0 delay would also work here, but +1 is more
2248     // safe regarding potential future implementation changes of the
2249     // scheduler (see API comments of RTAVLTree::insert())
2250     pEngineChannel->ScheduleEventMicroSec(&e, 1);
2251     }
2252     // and finally if stopping the note was requested after the fade out
2253     // completed, then schedule to kill the voice after the requested
2254     // duration
2255     if (stop) {
2256     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
2257     e.Init(); // clear IDs
2258     e.Type = Event::type_kill_note;
2259     e.Param.Note.ID = id.noteID();
2260     e.Param.Note.Key = pNote->hostKey;
2261    
2262     pEngineChannel->ScheduleEventMicroSec(&e, duration + 1);
2263     }
2264     } else if (args->arg(0)->exprType() == INT_ARR_EXPR) {
2265     VMIntArrayExpr* ids = args->arg(0)->asIntArray();
2266 schoenebeck 3557 for (vmint i = 0; i < ids->arraySize(); ++i) {
2267 schoenebeck 3188 const ScriptID id = ids->evalIntElement(i);
2268     if (!id || !id.isNoteID()) continue;
2269    
2270     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
2271     if (!pNote) continue;
2272    
2273     // if fade_out() was called immediately after note was triggered
2274     // then immediately apply fade out duration to Note object
2275 schoenebeck 3205 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
2276 schoenebeck 3188 pNote->Override.VolumeTime = fDuration;
2277     } else { // otherwise schedule a "volume time" change with the requested fade out duration ...
2278     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
2279     e.Init(); // clear IDs
2280     e.Type = Event::type_note_synth_param;
2281     e.Param.NoteSynthParam.NoteID = id.noteID();
2282     e.Param.NoteSynthParam.Type = Event::synth_param_volume_time;
2283     e.Param.NoteSynthParam.Delta = fDuration;
2284 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::ValueScope::RELATIVE; // actually ignored
2285 schoenebeck 3188
2286     pEngineChannel->ScheduleEventMicroSec(&e, 0);
2287     }
2288     // now schedule a "volume" change, simply one time slice ahead, with
2289     // the final fade out volume (0.0)
2290     {
2291     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
2292     e.Init(); // clear IDs
2293     e.Type = Event::type_note_synth_param;
2294     e.Param.NoteSynthParam.NoteID = id.noteID();
2295     e.Param.NoteSynthParam.Type = Event::synth_param_volume;
2296     e.Param.NoteSynthParam.Delta = 0.f;
2297 schoenebeck 3561 e.Param.NoteSynthParam.Scope = Event::ValueScope::RELATIVE; // actually ignored
2298 schoenebeck 3188
2299     // scheduling with 0 delay would also work here, but +1 is more
2300     // safe regarding potential future implementation changes of the
2301     // scheduler (see API comments of RTAVLTree::insert())
2302     pEngineChannel->ScheduleEventMicroSec(&e, 1);
2303     }
2304     // and finally if stopping the note was requested after the fade out
2305     // completed, then schedule to kill the voice after the requested
2306     // duration
2307     if (stop) {
2308     Event e = m_vm->m_event->cause; // copy to get fragment time for "now"
2309     e.Init(); // clear IDs
2310     e.Type = Event::type_kill_note;
2311     e.Param.Note.ID = id.noteID();
2312     e.Param.Note.Key = pNote->hostKey;
2313    
2314     pEngineChannel->ScheduleEventMicroSec(&e, duration + 1);
2315     }
2316     }
2317     }
2318    
2319     return successResult();
2320     }
2321    
2322 schoenebeck 3193 // get_event_par() function
2323    
2324     InstrumentScriptVMFunction_get_event_par::InstrumentScriptVMFunction_get_event_par(InstrumentScriptVM* parent)
2325     : m_vm(parent)
2326     {
2327     }
2328    
2329     VMFnResult* InstrumentScriptVMFunction_get_event_par::exec(VMFnArgs* args) {
2330     AbstractEngineChannel* pEngineChannel =
2331     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
2332    
2333     const ScriptID id = args->arg(0)->asInt()->evalInt();
2334     if (!id) {
2335     wrnMsg("get_event_par(): note ID for argument 1 may not be zero");
2336     return successResult(0);
2337     }
2338     if (!id.isNoteID()) {
2339     wrnMsg("get_event_par(): argument 1 is not a note ID");
2340     return successResult(0);
2341     }
2342    
2343     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
2344     if (!pNote) {
2345     wrnMsg("get_event_par(): no note alive with that note ID of argument 1");
2346     return successResult(0);
2347     }
2348    
2349 schoenebeck 3557 const vmint parameter = args->arg(1)->asInt()->evalInt();
2350 schoenebeck 3193 switch (parameter) {
2351     case EVENT_PAR_NOTE:
2352     return successResult(pNote->cause.Param.Note.Key);
2353     case EVENT_PAR_VELOCITY:
2354     return successResult(pNote->cause.Param.Note.Velocity);
2355     case EVENT_PAR_VOLUME:
2356     return successResult(
2357 schoenebeck 3561 RTMath::LinRatioToDecibel(pNote->Override.Volume.Value) * 1000.f
2358 schoenebeck 3193 );
2359     case EVENT_PAR_TUNE:
2360     return successResult(
2361 schoenebeck 3561 RTMath::FreqRatioToCents(pNote->Override.Pitch.Value) * 1000.f
2362 schoenebeck 3193 );
2363     case EVENT_PAR_0:
2364     return successResult(pNote->userPar[0]);
2365     case EVENT_PAR_1:
2366     return successResult(pNote->userPar[1]);
2367     case EVENT_PAR_2:
2368     return successResult(pNote->userPar[2]);
2369     case EVENT_PAR_3:
2370     return successResult(pNote->userPar[3]);
2371     }
2372    
2373     wrnMsg("get_event_par(): argument 2 is an invalid event parameter");
2374     return successResult(0);
2375     }
2376    
2377     // set_event_par() function
2378    
2379     InstrumentScriptVMFunction_set_event_par::InstrumentScriptVMFunction_set_event_par(InstrumentScriptVM* parent)
2380     : m_vm(parent)
2381     {
2382     }
2383    
2384     VMFnResult* InstrumentScriptVMFunction_set_event_par::exec(VMFnArgs* args) {
2385     AbstractEngineChannel* pEngineChannel =
2386     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
2387    
2388     const ScriptID id = args->arg(0)->asInt()->evalInt();
2389     if (!id) {
2390     wrnMsg("set_event_par(): note ID for argument 1 may not be zero");
2391     return successResult();
2392     }
2393     if (!id.isNoteID()) {
2394     wrnMsg("set_event_par(): argument 1 is not a note ID");
2395     return successResult();
2396     }
2397    
2398     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
2399     if (!pNote) return successResult();
2400    
2401 schoenebeck 3557 const vmint parameter = args->arg(1)->asInt()->evalInt();
2402     const vmint value = args->arg(2)->asInt()->evalInt();
2403 schoenebeck 3193
2404     switch (parameter) {
2405     case EVENT_PAR_NOTE:
2406     if (value < 0 || value > 127) {
2407     wrnMsg("set_event_par(): note number of argument 3 is out of range");
2408     return successResult();
2409     }
2410 schoenebeck 3214 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
2411 schoenebeck 3193 pNote->cause.Param.Note.Key = value;
2412 schoenebeck 3214 m_vm->m_event->cause.Param.Note.Key = value;
2413     } else {
2414 schoenebeck 3193 wrnMsg("set_event_par(): note number can only be changed when note is new");
2415 schoenebeck 3214 }
2416 schoenebeck 3193 return successResult();
2417     case EVENT_PAR_VELOCITY:
2418     if (value < 0 || value > 127) {
2419     wrnMsg("set_event_par(): velocity of argument 3 is out of range");
2420     return successResult();
2421     }
2422 schoenebeck 3214 if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
2423 schoenebeck 3193 pNote->cause.Param.Note.Velocity = value;
2424 schoenebeck 3214 m_vm->m_event->cause.Param.Note.Velocity = value;
2425     } else {
2426 schoenebeck 3193 wrnMsg("set_event_par(): velocity can only be changed when note is new");
2427 schoenebeck 3214 }
2428 schoenebeck 3193 return successResult();
2429     case EVENT_PAR_VOLUME:
2430     wrnMsg("set_event_par(): changing volume by this function is currently not supported, use change_vol() instead");
2431     return successResult();
2432     case EVENT_PAR_TUNE:
2433     wrnMsg("set_event_par(): changing tune by this function is currently not supported, use change_tune() instead");
2434     return successResult();
2435     case EVENT_PAR_0:
2436     pNote->userPar[0] = value;
2437     return successResult();
2438     case EVENT_PAR_1:
2439     pNote->userPar[1] = value;
2440     return successResult();
2441     case EVENT_PAR_2:
2442     pNote->userPar[2] = value;
2443     return successResult();
2444     case EVENT_PAR_3:
2445     pNote->userPar[3] = value;
2446     return successResult();
2447     }
2448    
2449     wrnMsg("set_event_par(): argument 2 is an invalid event parameter");
2450     return successResult();
2451     }
2452    
2453 schoenebeck 3214 // change_note() function
2454    
2455     InstrumentScriptVMFunction_change_note::InstrumentScriptVMFunction_change_note(InstrumentScriptVM* parent)
2456     : m_vm(parent)
2457     {
2458     }
2459    
2460     VMFnResult* InstrumentScriptVMFunction_change_note::exec(VMFnArgs* args) {
2461     AbstractEngineChannel* pEngineChannel =
2462     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
2463    
2464     const ScriptID id = args->arg(0)->asInt()->evalInt();
2465     if (!id) {
2466     wrnMsg("change_note(): note ID for argument 1 may not be zero");
2467     return successResult();
2468     }
2469     if (!id.isNoteID()) {
2470     wrnMsg("change_note(): argument 1 is not a note ID");
2471     return successResult();
2472     }
2473    
2474     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
2475     if (!pNote) return successResult();
2476    
2477 schoenebeck 3557 const vmint value = args->arg(1)->asInt()->evalInt();
2478 schoenebeck 3214 if (value < 0 || value > 127) {
2479     wrnMsg("change_note(): note number of argument 2 is out of range");
2480     return successResult();
2481     }
2482    
2483     if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
2484     pNote->cause.Param.Note.Key = value;
2485     m_vm->m_event->cause.Param.Note.Key = value;
2486 schoenebeck 3216 } else {
2487 schoenebeck 3214 wrnMsg("change_note(): note number can only be changed when note is new");
2488     }
2489    
2490     return successResult();
2491     }
2492    
2493     // change_velo() function
2494    
2495     InstrumentScriptVMFunction_change_velo::InstrumentScriptVMFunction_change_velo(InstrumentScriptVM* parent)
2496     : m_vm(parent)
2497     {
2498     }
2499    
2500     VMFnResult* InstrumentScriptVMFunction_change_velo::exec(VMFnArgs* args) {
2501     AbstractEngineChannel* pEngineChannel =
2502     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
2503    
2504     const ScriptID id = args->arg(0)->asInt()->evalInt();
2505     if (!id) {
2506     wrnMsg("change_velo(): note ID for argument 1 may not be zero");
2507     return successResult();
2508     }
2509     if (!id.isNoteID()) {
2510     wrnMsg("change_velo(): argument 1 is not a note ID");
2511     return successResult();
2512     }
2513    
2514     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
2515     if (!pNote) return successResult();
2516    
2517 schoenebeck 3557 const vmint value = args->arg(1)->asInt()->evalInt();
2518 schoenebeck 3214 if (value < 0 || value > 127) {
2519     wrnMsg("change_velo(): velocity of argument 2 is out of range");
2520     return successResult();
2521     }
2522    
2523     if (m_vm->m_event->scheduleTime == pNote->triggerSchedTime) {
2524     pNote->cause.Param.Note.Velocity = value;
2525     m_vm->m_event->cause.Param.Note.Velocity = value;
2526 schoenebeck 3216 } else {
2527 schoenebeck 3214 wrnMsg("change_velo(): velocity can only be changed when note is new");
2528     }
2529    
2530     return successResult();
2531     }
2532    
2533 schoenebeck 3255 // change_play_pos() function
2534    
2535     InstrumentScriptVMFunction_change_play_pos::InstrumentScriptVMFunction_change_play_pos(InstrumentScriptVM* parent)
2536 schoenebeck 3587 : m_vm(parent)
2537 schoenebeck 3255 {
2538     }
2539    
2540 schoenebeck 3587 bool InstrumentScriptVMFunction_change_play_pos::acceptsArgType(vmint iArg, ExprType_t type) const {
2541     if (iArg == 0)
2542     return type == INT_EXPR;
2543     else
2544     return type == INT_EXPR || type == REAL_EXPR;
2545     }
2546    
2547 schoenebeck 3561 bool InstrumentScriptVMFunction_change_play_pos::acceptsArgUnitType(vmint iArg, StdUnit_t type) const {
2548     if (iArg == 1)
2549     return type == VM_NO_UNIT || type == VM_SECOND;
2550     else
2551     return type == VM_NO_UNIT;
2552     }
2553    
2554 schoenebeck 3564 bool InstrumentScriptVMFunction_change_play_pos::acceptsArgUnitPrefix(vmint iArg, StdUnit_t type) const {
2555 schoenebeck 3587 return iArg == 1 && type == VM_SECOND; // only allow metric prefix(es) if 'seconds' is used as unit type
2556 schoenebeck 3561 }
2557    
2558 schoenebeck 3255 VMFnResult* InstrumentScriptVMFunction_change_play_pos::exec(VMFnArgs* args) {
2559 schoenebeck 3564 const ScriptID id = args->arg(0)->asInt()->evalInt();
2560 schoenebeck 3255 if (!id) {
2561     wrnMsg("change_play_pos(): note ID for argument 1 may not be zero");
2562     return successResult();
2563     }
2564     if (!id.isNoteID()) {
2565     wrnMsg("change_play_pos(): argument 1 is not a note ID");
2566     return successResult();
2567     }
2568    
2569 schoenebeck 3587 StdUnit_t unit = args->arg(1)->asNumber()->unitType();
2570     const vmint pos =
2571     (unit) ?
2572     args->arg(1)->asNumber()->evalCastInt(VM_MICRO) :
2573     args->arg(1)->asNumber()->evalCastInt();
2574 schoenebeck 3255 if (pos < 0) {
2575     wrnMsg("change_play_pos(): playback position of argument 2 may not be negative");
2576     return successResult();
2577     }
2578    
2579     AbstractEngineChannel* pEngineChannel =
2580     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
2581    
2582     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
2583     if (!pNote) return successResult();
2584    
2585 schoenebeck 3557 pNote->Override.SampleOffset =
2586     (decltype(pNote->Override.SampleOffset)) pos;
2587 schoenebeck 3255
2588     return successResult();
2589     }
2590    
2591 schoenebeck 2935 // event_status() function
2592    
2593     InstrumentScriptVMFunction_event_status::InstrumentScriptVMFunction_event_status(InstrumentScriptVM* parent)
2594     : m_vm(parent)
2595     {
2596     }
2597    
2598     VMFnResult* InstrumentScriptVMFunction_event_status::exec(VMFnArgs* args) {
2599     AbstractEngineChannel* pEngineChannel =
2600     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
2601    
2602     const ScriptID id = args->arg(0)->asInt()->evalInt();
2603     if (!id) {
2604     wrnMsg("event_status(): note ID for argument 1 may not be zero");
2605     return successResult(EVENT_STATUS_INACTIVE);
2606     }
2607     if (!id.isNoteID()) {
2608     wrnMsg("event_status(): argument 1 is not a note ID");
2609     return successResult(EVENT_STATUS_INACTIVE);
2610     }
2611    
2612     NoteBase* pNote = pEngineChannel->pEngine->NoteByID( id.noteID() );
2613     return successResult(pNote ? EVENT_STATUS_NOTE_QUEUE : EVENT_STATUS_INACTIVE);
2614     }
2615    
2616 schoenebeck 3296 // callback_status() function
2617    
2618     InstrumentScriptVMFunction_callback_status::InstrumentScriptVMFunction_callback_status(InstrumentScriptVM* parent)
2619     : m_vm(parent)
2620     {
2621     }
2622    
2623     VMFnResult* InstrumentScriptVMFunction_callback_status::exec(VMFnArgs* args) {
2624     const script_callback_id_t id = args->arg(0)->asInt()->evalInt();
2625     if (!id) {
2626     wrnMsg("callback_status(): callback ID for argument 1 may not be zero");
2627     return successResult();
2628     }
2629    
2630     AbstractEngineChannel* pEngineChannel =
2631     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
2632    
2633     RTList<ScriptEvent>::Iterator itCallback = pEngineChannel->ScriptCallbackByID(id);
2634     if (!itCallback)
2635     return successResult(CALLBACK_STATUS_TERMINATED);
2636    
2637     return successResult(
2638     (m_vm->m_event->execCtx == itCallback->execCtx) ?
2639     CALLBACK_STATUS_RUNNING : CALLBACK_STATUS_QUEUE
2640     );
2641     }
2642    
2643 schoenebeck 2948 // wait() function (overrides core wait() implementation)
2644    
2645     InstrumentScriptVMFunction_wait::InstrumentScriptVMFunction_wait(InstrumentScriptVM* parent)
2646     : CoreVMFunction_wait(parent)
2647     {
2648     }
2649    
2650     VMFnResult* InstrumentScriptVMFunction_wait::exec(VMFnArgs* args) {
2651     InstrumentScriptVM* m_vm = (InstrumentScriptVM*) vm;
2652    
2653     // this might be set by passing 1 with the 2nd argument of built-in stop_wait() function
2654     if (m_vm->m_event->ignoreAllWaitCalls) return successResult();
2655    
2656     return CoreVMFunction_wait::exec(args);
2657     }
2658    
2659     // stop_wait() function
2660    
2661     InstrumentScriptVMFunction_stop_wait::InstrumentScriptVMFunction_stop_wait(InstrumentScriptVM* parent)
2662     : m_vm(parent)
2663     {
2664     }
2665    
2666     VMFnResult* InstrumentScriptVMFunction_stop_wait::exec(VMFnArgs* args) {
2667     AbstractEngineChannel* pEngineChannel =
2668     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
2669    
2670     const script_callback_id_t id = args->arg(0)->asInt()->evalInt();
2671     if (!id) {
2672     wrnMsg("stop_wait(): callback ID for argument 1 may not be zero");
2673     return successResult();
2674     }
2675    
2676     RTList<ScriptEvent>::Iterator itCallback = pEngineChannel->ScriptCallbackByID(id);
2677     if (!itCallback) return successResult(); // ignore if callback is i.e. not alive anymore
2678    
2679     const bool disableWaitForever =
2680     (args->argsCount() >= 2) ? (args->arg(1)->asInt()->evalInt() == 1) : false;
2681    
2682     pEngineChannel->ScheduleResumeOfScriptCallback(
2683 schoenebeck 3205 itCallback, m_vm->m_event->scheduleTime, disableWaitForever
2684 schoenebeck 2948 );
2685    
2686     return successResult();
2687     }
2688    
2689 schoenebeck 3277 // abort() function
2690    
2691     InstrumentScriptVMFunction_abort::InstrumentScriptVMFunction_abort(InstrumentScriptVM* parent)
2692 schoenebeck 3293 : m_vm(parent)
2693 schoenebeck 3277 {
2694     }
2695    
2696     VMFnResult* InstrumentScriptVMFunction_abort::exec(VMFnArgs* args) {
2697     const script_callback_id_t id = args->arg(0)->asInt()->evalInt();
2698     if (!id) {
2699     wrnMsg("abort(): callback ID for argument 1 may not be zero");
2700     return successResult();
2701     }
2702    
2703     AbstractEngineChannel* pEngineChannel =
2704     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
2705    
2706     RTList<ScriptEvent>::Iterator itCallback = pEngineChannel->ScriptCallbackByID(id);
2707     if (!itCallback) return successResult(); // ignore if callback is i.e. not alive anymore
2708    
2709     itCallback->execCtx->signalAbort();
2710    
2711     return successResult();
2712     }
2713    
2714 schoenebeck 3293 // fork() function
2715    
2716     InstrumentScriptVMFunction_fork::InstrumentScriptVMFunction_fork(InstrumentScriptVM* parent)
2717     : m_vm(parent)
2718     {
2719     }
2720    
2721     VMFnResult* InstrumentScriptVMFunction_fork::exec(VMFnArgs* args) {
2722     // check if this is actually the parent going to fork, or rather one of
2723     // the children which is already forked
2724     if (m_vm->m_event->forkIndex != 0) { // this is the entry point for a child ...
2725     int forkResult = m_vm->m_event->forkIndex;
2726     // reset so that this child may i.e. also call fork() later on
2727     m_vm->m_event->forkIndex = 0;
2728     return successResult(forkResult);
2729     }
2730    
2731     // if we are here, then this is the parent, so we must fork this parent
2732    
2733 schoenebeck 3557 const vmint n =
2734 schoenebeck 3293 (args->argsCount() >= 1) ? args->arg(0)->asInt()->evalInt() : 1;
2735     const bool bAutoAbort =
2736     (args->argsCount() >= 2) ? args->arg(1)->asInt()->evalInt() : true;
2737    
2738     if (m_vm->m_event->countChildHandlers() + n > MAX_FORK_PER_SCRIPT_HANDLER) {
2739     wrnMsg("fork(): requested amount would exceed allowed limit per event handler");
2740     return successResult(-1);
2741     }
2742    
2743     AbstractEngineChannel* pEngineChannel =
2744     static_cast<AbstractEngineChannel*>(m_vm->m_event->cause.pEngineChannel);
2745    
2746     if (!pEngineChannel->hasFreeScriptCallbacks(n)) {
2747     wrnMsg("fork(): global limit of event handlers exceeded");
2748     return successResult(-1);
2749     }
2750    
2751     for (int iChild = 0; iChild < n; ++iChild) {
2752     RTList<ScriptEvent>::Iterator itChild =
2753     pEngineChannel->forkScriptCallback(m_vm->m_event, bAutoAbort);
2754     if (!itChild) { // should never happen, otherwise its a bug ...
2755     errMsg("fork(): internal error while allocating child");
2756     return errorResult(-1); // terminate script
2757     }
2758     // since both parent, as well all child script execution instances
2759 schoenebeck 3557 // all land in this exec() method, the following is (more or less)
2760 schoenebeck 3293 // the only feature that lets us distinguish the parent and
2761 schoenebeck 3557 // respective children from each other in this exec() method
2762 schoenebeck 3293 itChild->forkIndex = iChild + 1;
2763     }
2764    
2765     return successResult(0);
2766     }
2767    
2768 schoenebeck 2596 } // namespace LinuxSampler
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