Sampled Instrument Player with static and monolithic design. All instruments are built-in.
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3 years ago
from calfbox import cbox
from pprint import pprint
def cmd_dumper(cmd, fb, args):
print ("%s(%s)" % (cmd, ",".join(list(map(repr,args)))))
cbox.init_engine()
cbox.start_audio(cmd_dumper)
global Document
Document = cbox.Document
scene = Document.get_scene()
scene.clear()
instrument = scene.add_new_instrument_layer("test_sampler", "sampler").get_instrument()
pgm_no = instrument.engine.get_unused_program()
#A pseudo sfz file that features all kind of labels
sfzString = """
<region> region_label=Region-2a //This is put into implicitMaster0 and implicitGroup0
<global> //One global per file
global_label=Global1
//Prepare keyswitches to test labels later
sw_default=60
sw_lokey=60
sw_hikey=70
//<control> //is not part of the hierarchy. control has no label.
master_label=ImplicitMaster0 //Not parsed? -> Unlabeled
group_label=ImplicitGroup0 //Not parsed? -> Unlabeled
<region> region_label=Region-1a //This is put into implicitMaster0 and implicitGroup0
<group> group_label=Group0 //master_label=WrongLabel //This is a label in the wrong place. It will override the group_label
<region> region_label=Region0a
<master> master_label=Master1 Label
sw_last=60
sw_label=Keyswitch For Master 1
group_label=ImplicitGroup1 //Not parsed? -> Unlabeled
<group> group_label=Group1
<region> region_label=Region1a sw_down=68
<region> region_label=Region1b sw_last=67
<master> master_label=Master2
sw_last=61
sw_label=Keyswitch For Master 2
group_label=ImplicitGroup2 //Not parsed? -> Unlabeled
<group> group_label=Group2
<region> region_label=Region2a
<region> wrongOpcode=hello world foo bar region_label=Region2b //a wrong opcode. Will throw a warning on load but is nevertheless available in our python data
<group> group_label=Group3
<region> sample=*saw pitch_oncc1=40 label_cc1=Detune second oscillator
<region> key=72 label_key72=A very special key
"""
pgm = instrument.engine.load_patch_from_string(pgm_no, '.', sfzString, 'test_sampler_hierarchy')
print ("Program:", pgm, pgm.status()) # -> Program: SamplerProgram<a58c6888-19c5-4b0f-be03-c4ce83b6eeee>
print ("Control Inits:", pgm.get_control_inits()) #Empty . Is this <control> ? No.
globalHierarchy = pgm.get_global() # -> Single SamplerLayer. Literally sfz <global>. But not the global scope, e.g. no under any <tag>.
#If there is no <global> tag in the .sfz this will still create a root SamplerLayer
print ("Global:", globalHierarchy)
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print ("Groups:", pgm.get_keyswitch_groups())
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print("\nShow all SamplerLayer in their global/master/group/region hierarchy through indentations.\n" + "=" * 80)
def recurse(item, level = 0):
status = item.status()
print (" " * level + str(status))
for subitem in item.get_children():
recurse(subitem, level + 1)
recurse(globalHierarchy)
print("\nShow all non-engine-default sfz opcodes and values in a global/master/group/region hierarchy.\n" + "=" * 80)
def recurse2(item, level = 0):
status = item.status()
data = item.as_dict()
children = item.get_children()
if data or children:
print (" " * level + "<%s> %s" % (item.status().level, data))
for subitem in children:
recurse2(subitem, level + 1)
recurse2(globalHierarchy)
print("\nAs an example get all Keyswitch Labels and their keys.\n" + "=" * 80)
def findKeyswitches(program):
"""Returns a tuple: dict, sw_lokey, sw_highkey
dict with key=keystring e.g. c#4
and value=(opcode,label). label can be empty.
Only existing keyswitches are included, not every number from 0-127.
Two special keys "sw_lokey" and "sw_hikeys" are returned and show the total range of possible
keyswitches.
This is just a function to find the keyswitches in our example, not every advanced scenario
with sw_previous for context-sensitive-regions (which isn't really a keyswitch),
nor sw_lokey, sw_hikey and multiple parallel switches per key.
Specifically it just searches for sw_last, sw_down and sw_up and assumes that any level (master,
group, region) can only use one of the three.
sw_down and sw_up are implementation-dependent. We must assume that there are instruments that
use these opcodes without specifying sw_lokey and sw_hikey. sw_last requires the range.
For these reasons we cannot do sanity-checking here. We just report all single-key keyswitches.
Finally it assumes that there is one sw_lokey and one sw_hikey in the whole file, and it
must be in global. No actual keyswitches will be in global.
"""
def findKS(data, writeInResult):
if "sw_label" in data:
label = data["sw_label"]
else:
label = ""
if "sw_last" in data:
writeInResult[data["sw_last"]] = "sw_last", label
elif "sw_down" in data:
writeInResult[data["sw_down"]] = "sw_down", label
elif "sw_up" in data:
writeInResult[data["sw_up"]] = "sw_up", label
result = {} # int:tuple(string)
hierarchy = program.get_hierarchy()
for k,v in hierarchy.items(): #Global
globalData = k.as_dict()
swlokeyValue = globalData["sw_lokey"] if "sw_lokey" in globalData else ""
swhikeyValue = globalData["sw_hikey"] if "sw_hikey" in globalData else ""
for k1,v1 in v.items(): #Master
findKS(k1.as_dict(), result)
if v1:
for k2,v2 in v1.items(): #Group
findKS(k2.as_dict(), result)
if v2:
for k3,v3 in v2.items(): #Regions
findKS(k3.as_dict(), result)
return (result, swlokeyValue, swhikeyValue)
keyswitches = findKeyswitches(pgm)
pprint(keyswitches)
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instrument.engine.set_patch(1, pgm_no)
print ("Group 0 lastkey before keyswitch:", instrument.engine.get_keyswitch_state(1, 0))
scene.send_midi_event(0x90, 61 ,64) #Trigger Keyswitch c#4 . Default for this example is 60/c4
print ("Group 0 lastkey after keyswitch:", instrument.engine.get_keyswitch_state(1, 0))
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#The following were just stages during development, now handled by recurse and recurse2() above
"""
hierarchy = pgm.get_hierarchy() #starts with global and dicts down with get_children(). First single entry layer is get_global()
print ("Complete Hierarchy")
pprint(hierarchy)
for k,v in hierarchy.items(): #Global
print (k.as_string())
for k1,v1 in v.items(): #Master
print (k1.as_string())
if v1:
for k2,v2 in v1.items(): #Group
print (k2.as_string())
if v2:
for k3,v3 in v2.items(): #Regions
print (k3.as_string())
"""
print("Ready!")
while True:
cbox.call_on_idle(cmd_dumper)