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generate_lang.py
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generate_lang.py
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import os
sonicpi = os.path.join("sub", "sonic-pi", "app", "server", "ruby", "lib", "sonicpi")
core = os.path.join(sonicpi, "lang", "core.rb")
sounds = os.path.join(sonicpi, "lang", "sound.rb")
synths = os.path.join(sonicpi, "synths", "synthinfo.rb")
from constant_def import *
from category_def import is_to_hide, is_fn
#opts_default_val, opts_types_conversion, args_types_conversion, \
# is_inline, is_buffer_fn, missing_intro_fn, missing_async_block, wrong_accepts_block, is_to_hide
from collections import defaultdict, Counter, OrderedDict
import re
import json
class OrderedCounter(Counter, OrderedDict):
pass
class ParseConst(object):
'''
def proc_arg_info(self):
def generic_slide_doc(k):
return "Amount of time (in beats) for the {0} value to change. A long {0}_slide value means that the {0} takes a long time to slide from the previous value to the new value. A {0}_slide of 0 means that the {0} instantly changes to the new value.".format(k)
def generic_slide_curve_doc(k):
return "Shape of the slide curve (only honoured if slide shape is 5). 0 means linear and positive and negative numbers curve the segment up and down respectively."
def generic_slide_shape_doc(k):
return "Shape of curve. 0: step, 1: linear, 3: sine, 4: welch, 5: custom (use *_slide_curve: opt e.g. amp_slide_curve:), 6: squared, 7: cubed. "
arg_dict = {}
lines = self.lines[self.l+1:]
doc = False
k = ""
for s in lines:
self.l += 1
if "end" in s: break
if doc == False and "=>" in s:
k = s.split("=>")[0].strip()
continue
elif "{" in s:
doc = True
continue
elif "}" in s:
doc = False
continue
elif ":doc =>" in s and doc:
d = s.split("=>")[1]
if "generic_slide_doc" in d:
d = generic_slide_doc(k)
elif "generic_slide_curve_doc" in d:
d = generic_slide_curve_doc(k)
if "generic_slide_shape_doc" in d:
d = generic_slide_shape_doc(k)
arg_dict[k] = d
continue
#print(arg_dict)
return arg_dict
'''
#line = ""
def __init__(self, lines):
self.lines = lines # all lines
self.l = 0 # cursor of current line
self.line = lines[self.l]
self.consts = {}
self.fx = {}
self.samples = {}
self.active = {}
self.func_doc = {}
self.opts_doc = {}
self.new_arg = {}
self.new_opt = {}
self.warn = defaultdict(list)
self._debug = False
def empty_skip(self):
while self.line == '\n':
self.next_line()
def next_line(self, times=1):
for i in range(times):
self.l = self.l + 1
self.line = self.lines[self.l]
if self.line.strip().startswith('#'):
self.next_line()
def skip_to(self, match):
while match not in self.line:
self.next_line()
def skip_ex(self, match):
while self.line != match:
self.next_line()
def goNext(self, times=1):
self.next_line(times)
self.empty_skip()
def eval_val(self, val):
try:
result = int(val)
return result
except ValueError:
try:
result = float(val)
return result
except ValueError:
result = str(val)
return result
def next_has(self, val, stop_line):
if self.line.startswith(stop_line) or self.line.strip().startswith(val):
return True
elif self.line.strip().startswith('#'):
self.next_line()
elif len(self.line.strip()):
# self.next_line()
return False
l = self.l+1
nextL = self.lines[l].strip('\"').strip()
while not len(nextL):
l += 1
nextL = self.lines[l].strip('\"').strip()
if nextL.startswith(val):
return True # exit the loop
else: return False
def parse_def(self):
self.empty_skip()
print()
print("******* ", (self.line.strip(), self.l))
end_class = " end\n"
func_simple_re = re.compile(r'\s*def (\w*[\?!]?).*')
func_with_arg_re = re.compile(r'\s*def (\w*[\?!]?)\((.*)\)')
func_simple = func_simple_re.match(self.line)
func_with_arg = func_with_arg_re.match(self.line)
if func_with_arg:
args = {}
f_name, argu = (func_with_arg.group(1), func_with_arg.group(2))
if f_name.endswith(('?', '!')): f_name = f_name[:-1]
argu_l = argu.split(', ')
for arg in argu_l:
if '=' in arg:
arg_name, arg_val = arg.split('=')
arg_name, arg_val = arg_name.strip(), arg_val.strip()
args[arg_name] = self.eval_val(arg_val.strip())
else:
arg_name = arg.strip()
args[arg_name] = None
self.skip_ex(end_class)
self.consts[f_name] = {'signature': args}
elif func_simple:
f_name = func_simple.group(1)
self.skip_ex(end_class)
self.consts[f_name] = {}
else:
raise Exception("bailout not a func", (self.line, self.l))
self.next_line()
if not len(self.line.strip()):
self.empty_skip()
return f_name
def parse_doc(self, f_name, stop_line, defaults_opts={}):
def nextLines():
start, end = (self.l+1,self.l)
re_key= re.compile(r'^\s*[\w^:]*:\s*.*')
re_end_line = re.compile(r'.*\n*\"[\n, ]*\],?\n*$')
while True:
end += 1
nextL = self.lines[end].strip()
if not len(nextL):
continue
elif nextL.startswith(key): break
elif nextL.startswith('def '): break
elif nextL == ']':
end += 1
break
elif re.match(re_end_line, nextL):
end += 1
break
elif re.match(re_key, nextL):
break
else:
continue
to_eval = self.lines[start: end]
self.l = end
self.line = self.lines[end]
return to_eval
def catch_multiline2(start_key='examples:'):
sl = catch_val1(start_key)
re_sl = re.compile('\[ *\"(.*)\"[\n, ]*\],?\n*$', re.DOTALL)
sl_m = re.match(re_sl, sl)
re_split = re.compile('\",(?:\n)? *\"')
if sl.strip(',') == '[]':
self.next_line()
return None
#elif (sl.endswith('\"]') or sl.endswith('\" ]') or sl.endswith('"],')):
elif sl_m:
jn = re.split(re_split, sl)
jn = '\n'.join(jn)
# jn = re.sub('\\\"', "'", jn)
#jn = jn.replace('\"', "'")
jn_m = re.match(re_sl, jn)
jn = jn_m.group(1)
self.next_line()
return jn
else:
nl = nextLines()
nl = [n for n in nl if len(n.strip())]
nl[0] = sl + nl[0]
if len(nl) > 1:
jn = '\n'.join(nl)
jn = re.split(re_split, jn)
jn = '\n'.join(jn)
else :
jn = '\n'.join(nl)
jn_m = re.match(re_sl, jn)
if jn_m:
jn = jn_m.group(1)
else:
jn = re.match('\[([^\]]*)\]$', jn, re.DOTALL).group(1)
return jn
def catch_multiline(key):
doc = []
c = 0
while True: # wtf so many special cases
l = self.line.strip()
#print(l)
if c < 1:
print(">>>>>", (key, self.line))
if 'examples:' in key:
val = self.line.split('[')[1].strip('][\"').strip()
elif 'args:' in key:
val = '['+self.line.split('[')[2].strip().strip(',')
elif 'opts:' in key:
val = self.line.split('{')[1].strip('{\"').strip()
else:
print("::::", l)
if l.endswith(','):
val = catch_val(key).strip('\" ,').strip()
else:
val = catch_val1(key).strip('\" ').strip()
if val: doc.append(val)
else:
print("=====", (key, self.line))
if key != 'args:': val = l.strip(',]')
else: val = l.strip(',')[:-1]
if val: doc.append(val)
nextL = ""#self.lines[self.l+1].strip()
c = self.l+1
while not len(nextL):
nextL = self.lines[c].strip()
c += 1
#print('@@@@ ', nextL)
if not len(l):
pass
if key == 'args:':
if l.endswith(']],'):
print('[[]] END args')
break
elif key == 'examples:':
if nextL == ']':
print('[[]] END ex ]')
self.l = c+1
self.line = self.lines[c+1]
break
#print('NNN] END:')
elif (l.endswith('\"]') or l.endswith('\" ]') or l.endswith('],')):
print('[[]] END ex')
self.l = c-1
self.line = self.lines[c-1]
break
elif l.endswith('},') and 'opts:' in key:
print('[[]] END opts')
break
elif 'args:' in nextL:
break
elif l.endswith('",'):
if 'opts:' in key:
print('&&&&:')
elif not nextL.startswith('\"'):
print('---- END:')
break
c += 1
self.next_line()
if key in ['opts:', 'args:']:
return doc
else:
return '\n'.join(doc)
def catch_key():
return re.match(r'^\s*(?:doc )?([^:]*):\s*.*', self.line).group(1)+':'
def catch_val(key):
return re.match(r'\s*'+key+'\s*(.*),.*', self.line).group(1)
def catch_val1(key):
return re.match(r'\s*'+key+'\s*(.*)$', self.line).group(1)
#return self.line.split(':')[1].strip().strip(',')
def catch_val2(key):
return re.match(r'\s*'+key+'\s*\[(.*)\],?.*', self.line).group(1)
self.func_doc[f_name] = {}
while not self.next_has('def ', stop_line):
# if f_name == "define":
# print("######## PROBE")
if not len(self.line.strip()):
self.empty_skip()
l = self.line.strip()
if l.startswith('def ') :
return True
elif l.startswith('#'):
self.next_line()
continue
elif l.startswith('private'):
break
print(self.l, " ####", l, end="")
key = catch_key()
if key == 'doc:':
doc = catch_multiline('doc:')
self.func_doc[f_name][key[:-1]] = doc.strip('\"')
self.next_line()
printDone()
continue
elif key == 'examples:':
examples = catch_multiline2('examples:')
if examples:
self.func_doc[f_name][key[:-1]] = examples
#self.next_line()
printDone()
continue
elif key == 'name:':
name = catch_val('doc name:')
self.consts[f_name][key[:-1]] = name[1:]
if name.endswith('!'): self.consts[f_name]['modifies_env'] = True
printDone()
elif key == 'summary:':
summary = catch_val(key).strip('\"')
self.consts[f_name][key[:-1]] = summary
self.func_doc[f_name][key[:-1]] = summary
printDone()
###############################
elif key in ['args:', 'alt_args:']:
def parse_arg(val):
arg_dict = []
args_type_iter = re.compile('\[(:\w*), (:\w*)\]')
for ar_match in args_type_iter.finditer(val):
arg_ref, arg_type = ar_match.group(1), ar_match.group(2)
arg_ref = arg_ref[1:] # remove initial :
arg_dict.append({arg_ref: arg_type})
if arg_type not in args_types_conversion:
self.warn["missing args_types %s" % arg_type].append(f_name)
self.new_arg[arg_type] = "__to_do__"
return arg_dict
line = catch_val(key)
if line == '[]':
print('empty')
self.next_line()
continue
elif line.endswith(']]'):
line = catch_val2(key)
elif line.endswith(']]]'):
line = line[1:-1]
#line = catch_val2(key)
else:
lines = catch_multiline(key)
line = '|'.join(lines)
#for line in lines:
args_d = parse_arg(line)
self.consts[f_name][key[:-1]] = args_d
printDone()
###############################
elif key == 'opts:':
opt_dict = catch_val(key)
if "nil" in opt_dict:
opt_dict = None
elif 'DEFAULT_PLAY_OPTS' in opt_dict:
opt_dict = defaults_opts
#if arg_type not in self.args_types:
elif '{}' in opt_dict:
opt_dict = {}
else:
opt_dict = {}
opt_lines = catch_multiline(key)
for o in opt_lines:
if o == '}': break
opt_with_arg_re = re.compile(r':?(\w*):? *(?:=>)? *\"(.*)\"}?')
opt_arg = opt_with_arg_re.match(o)
if opt_arg:
opt, doc = opt_arg.group(1), opt_arg.group(2)
self.opts_doc[opt] = doc
if opt in opts_default_val:
opt_dict[opt] = opts_default_val[opt]
# print(opt_dict)
else:
self.warn["no default value for opt %s" % opt].append(f_name)
self.new_opt[opt] = "__to_do__"
else:
raise Exception("no opt match in", (opt_dict, self.l))
if opt_dict is not None:
self.consts[f_name][key[:-1]] = opt_dict
printDone()
elif key == 'introduced:':
val = catch_val(key)
val = val.split('new')[1].strip("()")
self.consts[f_name][key[:-1]] = val
elif key in ['accepts_block:', 'requires_block:', 'modifies_env:', 'memoize:', 'intro_fn:', 'async_block:', 'advances_time:']:
val = catch_val(key)
val = True if val == "true" else False
self.consts[f_name][key[:-1]] = val
printDone()
elif key == 'hide:':
######## why RLPF is hidden?
if 'RLPF' in f_name.upper():
print("ecco")
val = catch_val1(key)
if val == "true":
print("here we go")
val = True if val == "true" else False
self.consts[f_name]['hidden'] = val
printDone()
elif key == 'returns:':
val = catch_val(key)
if "nil" in val:
val = None
if val and val not in args_types_conversion:
self.warn["missing returns %s" % val].append(f_name)
self.new_arg[val] = "__to_do__"
self.consts[f_name][key[:-1]] = val
#self.warn["return types %s"% val].append(f_name)
printDone()
#['amp:', 'hpf:', 'hpf_bypass:', 'kill_delay:', 'leak_dc_bypass:','limiter_bypass:', 'lpf:','lpf_bypass:', 'num_octaves:']
#elif key in ['kill_delay:'] : # handle special cases
else:
self.warn["no_catch %s"% key].append(f_name)
print("\n[ERROR]", (f_name, self.line))
return False # bailout gracefully ! WATCH OUT !
#print("[**] END")
self.next_line()
if not len(self.line.strip()):
self.empty_skip()
return True
def parse_play_opts(self):
arg_def = {}
self.skip_to("DEFAULT_PLAY_OPTS")
self.next_line()
while len(self.line.strip()) >0:
opt = self.line.split(":")[0].strip()
if opt:
arg_def[opt] = 1
doc = self.line.split('"')[1]
self.opts_doc[opt] = doc
self.next_line()
# Guess the defaults zero arg.... if someone knows tell me
for opt in ["pan", "slide", "pitch", "attack", "decay", "release"]:
arg_def[opt] = 0
return arg_def
def parse_class(self, stop_line):
print("> ", (self.line, self.l))
class_match = re.match(r'.* class (.*) < (.*)$', self.line)
try:
m = class_match.group(1)
except AttributeError:
print("bailout not a class", (self.line, self.l))
return False
c_name, c_parent = (class_match.group(1), class_match.group(2))
self.next_line()
synth_name = ""
synth_descr = ""
arg_def = {}
super_merge = None
while self.line != stop_line:
s = self.line
if "def name" in s:
self.next_line()
synth_descr = self.line.strip().strip('"')
self.goNext(2)
elif "def synth_name" in s:
self.next_line()
synth_name = self.line.strip().strip('"')
self.goNext(2)
elif "def arg_defaults" in s:
self.next_line()
if self.line.strip() == '{':
super_merge = False
self.next_line()
elif self.line.strip() == 'super.merge({':
super_merge = True
self.next_line()
elif '{' in self.line and len(self.line.strip()) > 1 :
super_merge = False
while "}" not in self.line:
l = self.line.strip().strip('{')
if not l:
self.next_line()
continue
arg = ""
v = ""
if('=>' in l):
arg, v = l.split('=>')
v = v.strip(',').strip()
arg = arg.strip()[1:]
elif ":" in l: # found also this variant prop: val in un case
arg, v = l.split(':')
v = v.strip(',').strip()
else:
raise Exception("bailout arg_defaults not found", (self.line, self.l))
if len(arg) > 0 and len(v) > 0:
arg_def[arg.strip()] = v
self.next_line()
for k, v in arg_def.items(): # fix value reference
if v[0] == ":":
v = v[1:]
ref = arg_def[v]
arg_def[k] = self.eval_val(ref)
else:
arg_def[k] = self.eval_val(v)
self.empty_skip()
else:
self.next_line()
baseClass = ["FXInfo", "SonicPiSynth", "Pitchless",
"BaseInfo", "StudioInfo", "BaseMixer"]
user_facing = baseClass[:3]
def inherit_super(parent, arg_def):
# start_arg = arg_def
while True:
if 'FX' in parent:
parent_synt = self.fx[parent]
else:
parent_synt = self.consts[parent]
tmp = parent_synt["arg_defaults"]
tmp.update(arg_def)
arg_def = tmp
parent = parent_synt['inherit_base']
if not parent or parent in baseClass[1:]:
break
elif parent_synt['inherit_arg']:
continue
else:
break
return arg_def
# parent_synt_name = self.tmp_dict[parent] # take the ref by class
if super_merge is None: super_merge = True
if super_merge and c_parent not in baseClass[1:]:
# arg_def = inherit_super(super_c, arg_def)
if 'FX' in c_parent:
parent_synt = self.fx[c_parent]
else:
parent_synt = self.consts[c_parent]
tmp = parent_synt["opts"].copy()
tmp.update(arg_def)
arg_def = tmp
synth = {
"opts": arg_def,
"inherit_base": c_parent,
"inherit_arg": super_merge,
}
if len(synth_name):
if 'FX' in c_name:
synth_name = synth_name.split('fx_')[1]
synth['name'] = ":"+synth_name
hidden = False
else: hidden = True
if len(synth_descr): synth['summary'] = synth_descr
if c_parent not in user_facing: hidden = True
synth['hidden'] = hidden
if 'FX' in c_name:
self.fx[c_name] = synth
else: self.consts[c_name] = synth
for opt in arg_def:
if not opt in opts_types_conversion:
self.warn["missing opts_types %s" % opt].append(c_name)
self.new_opt[opt] = "Float"
self.goNext()
return True
def parse_samples(self):
self.skip_to('@@grouped_samples')
self.next_line()
category = ''
while not '@@all_samples' in self.line:
l = self.line.strip()
if l == '{' or l == '}' or not len(l):
pass
elif 'desc' in l:
category = l.split(' => ')[1].strip().strip(',"')
self.samples[category] = []
elif 'samples' in l:
self.next_line()
while True:
l = self.line.strip()
s = l.strip(',]}')
self.samples[category].append(s)
self.next_line()
if ']}' in l: break
self.next_line()
self.skip_to('@@synth_infos')
self.next_line(2)
while not '}' in self.line:
l = self.line.strip()
if not len(l) or l.startswith('#'):
pass
else:
synth_name, c_name = l.split(' => ')
c_name = c_name.split('.')[0]
self.active[synth_name] = c_name
self.next_line()
####################### class end
def parseSynth():
with open(synths) as infile:
const_file = infile.readlines()
'''
ps.skip_to("class BaseInfo")
ps.skip_to("def default_arg_info")
arg_base = ps.proc_arg_info()
print(arg_base)
ps.consts['__BaseInfo__'] = {'arg_info':arg_base}
'''
stop_class_line = 'class BaseInfo'
end_class = " end\n"
ps = ParseConst(const_file)
ps.skip_to("class SynthInfo < BaseInfo")
while(stop_class_line not in ps.line):
#ps.empty_skip()
op = ps.parse_class(end_class)
if not op:
print("ops went WRONG")
break
ps.parse_samples()
########
## hide not active synth
for synth_name, val in ps.consts.items():
if synth_name not in ps.active.values():
if not val['hidden']:
val['hidden'] = True
ps.warn["hiding synth" ].append(synth_name)
for synth_name, val in ps.fx.items():
#if 'RLPF' in synth_name:
# ps.warn["RLPF fx"].append(synth_name)
if synth_name not in ps.active.values():
if not val['hidden']:
val['hidden'] = True
ps.warn["hiding fx" ].append(synth_name)
print("="*80)
print("TOT synths", len(ps.consts))
print("TOT fx", len(ps.fx))
print("TOT samples", sum(len(sam) for sam in ps.samples))
print("TOT funct_doc", len(ps.func_doc))
print("new opt ", ps.new_opt)
return ps
def parseSound():
with open(sounds) as infile:
const_file = infile.readlines()
stop_class_line = ' private'
ps = ParseConst(const_file)
defaults_opts = ps.parse_play_opts()
#dump_dict([{"opts_default_val":defaults_opts }],'lang_def.py', 'w', "" )
ps.skip_to("def use_timing_guarantees(v, &block)")
f_name = ""
while not ps.line.startswith(stop_class_line):
if ps.line.startswith(stop_class_line): break
elif ps.line.startswith(' def'):
f_name = ps.parse_def()
#print(ps.line)
else:
op = ps.parse_doc(f_name, stop_class_line, defaults_opts)
if not op:
print("ops went WRONG")
break
########
print("="*80)
print("TOT lang_sound", len(ps.consts))
print("TOT funct_doc", len(ps.func_doc))
return ps
def parseCore():
with open(core) as infile:
const_file = infile.readlines()
stop_class_line = ' def __on_thread_death'
ps = ParseConst(const_file)
ps.skip_to("def set(k, val)")
#ps.next_line(2)
f_name = ""
while not ps.line.startswith(stop_class_line):
if ps.line.startswith(stop_class_line): break
elif ps.line.startswith(' def'):
f_name = ps.parse_def()
else:
op = ps.parse_doc(f_name, stop_class_line)
if not op:
print("ops went WRONG")
break
########
print("="*80)
print("TOT lang_core", len(ps.consts))
print("TOT funct_doc", len(ps.func_doc))
return ps
def find_optional_args(consts):
print('+'*30)
print('find_optional_args')
for fn, v in consts.items():
if not 'alt_args' in v or not 'args' in v: continue
print('\n'+fn)
args = min(v['args'], v['alt_args'], key=len)
alt_args = max(v['args'], v['alt_args'], key=len)
print('args ', args)
print('alt_args ', alt_args)
v['args'] = args
v['alt_args'] = alt_args
def printDone():
print(' ==> OK')
def printWarning(ps):
# for k in ps.consts.keys():
# if k not in ps.funct_doc: print("no DOC", k)
if len(ps.warn):
print("---WARN---" * 16)
for k, v in sorted(ps.warn.items()):
print(k, v)
def dump_dict(dict_def, out_file_name, out_mode, helper_func):
def dict2var(dictionary):
text = []
for k, v in dictionary.items(): # sort_keys = True,
d = json.dumps(v, ensure_ascii = False, indent = 2)
text.append(k+" = " + d + "\n\n")
print("writing %s in %s" % (k,out_file_name))
return ('\n').join(text)
with open(out_file_name, out_mode) as outfile:
if out_mode == "w":
outfile.write('null = None; true = True; false = False;\n')
outfile.write("#\#/"*10+'\n\n')
for const in dict_def:
outfile.write(dict2var(const))
outfile.write(helper_func)
'''
with open('synths.json', 'w') as outfile:
json.dump(const, outfile, sort_keys = True, indent = 2) )
'''
def parse():
pC = parseCore()
pS = parseSound()
pSy = parseSynth()
find_optional_args(pC.consts)
addMetaData(pC.consts)
addMetaData(pS.consts)
## core
dump_dict([{"lang_core":pC.consts },
],'lang_def.py', 'w', "" )
# {"core_args_types_conversion": pC.new_arg},
# {"core_opts_types_conversion": pC.new_opt}
func_doc = pC.func_doc
opts_doc = pC.opts_doc
## sound
dump_dict([
{"lang_sound":pS.consts },
{"sound_args_types_conversion": pS.new_arg },
{"sound_opts_types_conversion": pS.new_opt}
],'lang_def.py', 'a', "" )
func_doc.update(pS.func_doc)
opts_doc.update(pS.opts_doc)
## synth
dump_dict([{"synths":pSy.consts },
{"synth_nodes": pSy.active},
{"fx": pSy.fx},
{"samples": pSy.samples},
{"synth_args_types_conversion": pSy.new_arg},
{"synth_opts_types_conversion": pSy.new_opt}
],'lang_def.py', 'a', "" )
synth_doc = pSy.func_doc
synth_opts_doc = pSy.opts_doc
## constant_def
synths_names = {fn: val for fn, val in pSy.active.items() if ':fx_' not in fn}
dump_dict([{"synths_names": synths_names}], "constant_gen.py", "w","")
## doc
dump_dict([
{"funct_doc": func_doc},
{"opts_doc": opts_doc},
{"synth_doc": synth_doc},
{"synth_opts_doc": synth_opts_doc}
],'lang_doc.py', 'w', "" )
printWarning(pC)
printWarning(pS)
printWarning(pSy)
print("DONE")
print(pS.new_opt)
'''
from gen_template import *
do_jinja(ps.consts)
'''
def addMetaData(consts):
print('+'*30)
print('add / fix metaData')
###################################
## these func can be sync based on the examples
missing_intro_fn = ['current_random_seed', 'synth']
## these func can be async based on the examples
missing_async_block = ['density', 'with_fx', 'sample', 'synth', 'play']
## these func has wrong accepts_block (based on the examples)
wrong_block = {
'play': {"accepts_block": True, "requires_block": False},
'sample': {"accepts_block": True, "requires_block": False},
'synth': {"accepts_block": True, "requires_block": False},
'on': {"accepts_block": True, "requires_block": True},
'time_shift': {"accepts_block": True, "requires_block": True},
'density': {"accepts_block": True, "requires_block": True},
'with_octave': {"accepts_block": True, "requires_block": True},
'with_timing_guarantees': {"accepts_block": True, "requires_block": True},
'with_tuning': {"accepts_block": True, "requires_block": True},
'with_merged_sample_defaults': {"accepts_block": True, "requires_block": True},
'with_sample_defaults': {"accepts_block": True, "requires_block": True},
'use_timing_guarantees': {"accepts_block": False, "requires_block": False},
}
#{'tick': 0}, {'shuffle': 0}, {'choose': 0}, {'stretch': 0}, {'stretch': 1}
arg_fixes = {
'use_synth': { # name is automatically generated
"args": [],
"alt_args": [{"synth_name": ":symbol"}
]},
'synth': { # name is automatically generated, note option is missing
"args": [],
"alt_args": [{"synth_name": ":symbol"}],
"opts": {
"note": ":e1",
"note_num": 77,
"cutoff": 0,
"wave": 0,
"phase": 0,
"amp": 1,
"amp_slide": 1,
"pan": 0,
"pan_slide": 1,
"attack": 0,
"decay": 0,
"sustain": 1,
"release": 0,
"attack_level": 1,
"decay_level": 1,
"sustain_level": 1,
"env_curve": 1,
"slide": 0,
"pitch": 0,
"on": 1
},
},
'live_loop': { # name is automatically generated
"args": [],
"alt_args": [{"name": ":symbol"}
]},
'pick': {
"args": [{"n": ":number_or_nil" }],
"alt_args":[{"list": ":array" }
]},
'tick': {
"args": [],
"alt_args": [{"list": ":array"},
{ "key": ":symbol"},
{ "value": ":number"}
]},
'look': {
"alt_args": [{"list": ":array"},
{ "key": ":symbol"}
]},
'shuffle': {
"args": [],
"alt_args": [{"list": ":array"}
]},
'choose': {
"args": [],
"alt_args": [{"list": ":array"}
]},
'stretch': {
"args": [{"count": ":int"}],
"alt_args": [{"list": ":array"}
]},
'assert': { # override
"args": [{"is_true": ":boolean"}],
"alt_args": []},
'stop': { # override
"args": [{"signal": ":boolean"}],
"alt_args": []},
'note': { # override
"args": [],
"alt_args": [{ "note": ":symbol"},],
"opts": {}},
'chord': { # override
"args": [],
"alt_args": [{"tonic": ":symbol" },
{"chord": ":symbol"}]},
'scale': { # override
"args": [],
"alt_args": [{"tonic": ":symbol"},
{"scale": ":symbol"}]},
'degree': { # override
"args": [],
"alt_args": [{"degree": ":symbol"},
{"tonic": ":symbol"},
{"scale": ":symbol"}]},
'chord_degree': { # override
"args": [{"number_of_notes": ":int"}],
"alt_args": [{"degree": ":symbol"},
{"tonic": ":symbol"},
{"scale": ":symbol"}]},
'sample': { # override
"args": [],
"alt_args": [{"name_or_path": ":symbol_or_string"}]},
'use_sample_bpm': { # override
"args": [],
"alt_args": [{"string_or_number": ":sample_name_or_duration"}]},
# 'sleep': { # override
# "args": [],
# "alt_args": [{"beats": ":number"}]},
'with_fx': { # override
"args": [],
"alt_args": [{"fx_name": ":symbol"}]},
'with_swing': { # override
"args": [{"shift": ":beats"}],
"alt_args": [{"pulse": ":number"},
{"tick": ":symbol"},
{"offset": ":number"}],
"opts": {} },
'knit': { # override
"args": [{"value": ":anything"}],