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#!/usr/bin/env python
# -*- coding: utf-8 -*-
# *
# Application gammique évolutive
# Opération = Envol système
# ProgamV2epyco
#
from tkinter import *
from tkinter.font import Font
import winsound
import wave, math, binascii
class Gammique(Tk):
""" Ramification Gammique """
def __init__(self):
Tk.__init__(self)
"Tableau de bord"
# Titre principal
self.title('Entité Gammique :')
# Fenêtre écran_résultat
self.can=Canvas(self,bg='white', height=550,width=800)
self.can.pack(side=RIGHT)
# Fenêtre des utilités
self.cad=Frame(self, width=30,height=80)
self.cad.pack(side=LEFT)
# Bouton gamme_radio
tab_do=tab_re=tab_mi=tab_fa=tab_so=tab_la=tab_si=0
##self.tablenotes = les positions du cours self.gama
self.tablenotes=[tab_do,tab_re,tab_mi,tab_fa,tab_so,tab_la,tab_si]
self.tbdegre=[0] # Contient le mode tonique en cours
self.btrad=Button(self.cad,text ='Radio',width=15,bg='light blue',
command=self.radio)
self.btrad.pack()
# Bouton gamme_audio
##self.fichnom = les noms des fichiers audio_notes (communs)
self.presaudio = 0 # Utile au bouton accord/sans le résultat "winsound"
self.gamula = ['C','D','E','F','G','A','B']
self.framno = ['','','','','','','']
self.fichnom = ['a1.wav','a2.wav','a3.wav','a4.wav','a5.wav','a6.wav','a7.wav']
self.btaud=Button(self.cad,text ='Audio',width=15,bg='light blue',
command=self.audio)
self.btaud.pack()
# Bouton choix chromatique
self.btchr=Button(self.cad,text ='Chrome_inactif',width=15,bg='light blue')
self.btchr.pack()
# Bouton tableaux instruments
self.bttab=Button(self.cad,text ='Tabla_inactif',width=15,bg='light blue')
self.bttab.pack()
# Bouton accords
##self.fichacc = les noms des fichiers audio_accords (communs)
self.fichacc = ['acc1.wav','acc2.wav','acc3.wav','acc4.wav','acc5.wav','acc6.wav','acc7.wav']
self.btacc=Button(self.cad,text ='Accords',width=15,bg='light blue',
command=self.accord)
self.btacc.pack()
# Bouton quitter
self.btquit=Button(self.cad, text='Quitter',bg='light grey',width=15,
command=self.destroy)
self.btquit.pack(side=BOTTOM)
# Mémoire fantomatique
self.entfan= Entry(self)
self.entfan.pack()
self.entfan.pack_forget() # Pantomime
self.entfan.delete(0,END)
self.entfan.insert(END,"IOI")
# Groupe Octave RADIO
etiqs=["Octave -1","Octave 0","Octave +1"]
valse=["YOI","IOI","IOY"]
self.variable=StringVar()
self.rad=[
Radiobutton(
self.cad,
variable=variable,
text=text,
value=value,
command=command,
)for (variable, text, value,command) in (
(self.variable,etiqs[2],valse[2],self.yoiioiioy),
(self.variable,etiqs[1],valse[1],self.yoiioiioy),
(self.variable,etiqs[0],valse[0],self.yoiioiioy),
)
]
for i in self.rad: i.pack()
self.rad[1].select()
# Les notes cursives scalpha : Graduations gérées.
self.sca=[
Scale(
self,
length=300,
orient=HORIZONTAL,
label=label,
troughcolor=color,
sliderlength=20,
showvalue=1,
from_=f,
to=t,
tickinterval=1,
command=command,
) for (label, color, f, t, command) in (
("C", "black", 0, 5, self.scanote1),
("D", "green", -1, 4, self.scanote2),
("E", "blue", -2, 3, self.scanote3),
("F", "grey", -2, 3, self.scanote4),
("G", "red", -3, 2, self.scanote5),
("A", "orange", -4, 1, self.scanote6),
("B", "yellow", -5, 0, self.scanote7),
("CDEFGAB", "ivory", -12, 12, self.scanote8),
)
]
for x in self.sca: x.pack()
# Bouton gamme_naturelle
self.btzer=Button(self,text ='Zéro',width=25,command=self.zero)
self.btzer.pack()
# Bouton gamme_calculée
self.declare = {} # Base (degrés - altérations - notes)
self.decore = []
self.btgama=Button(self,text='gamme',width=25,command=self.gama)
self.btgama.pack()
self.btgama.pack_forget() # Pantomime
# __init__()
def wavacc(self,w):
nbOctet = nbCanal = 1
fech = 44100
niveau = float(1/2)
duree = float(1/2)
nbEch = int(duree*fech)
waplo = self.fichacc[w]
monac = wave.open(waplo,'wb')
param = (nbCanal,nbOctet,fech,nbEch,'NONE','not compressed')
monac.setparams(param)
amp = 127.5*niveau
vacc = [0,0,0,0]
ww = w
for vv in range(4):
if ww == 7:
ww = 0
vacc[vv] = self.framno[ww]*2
elif ww == 8:
ww = 1
vacc[vv] = self.framno[ww]*2
else: vacc[vv] = self.framno[ww]
print(vv,'vv',vacc[vv],ww)
ww +=2
freq1 = vacc[0]*2
freq2 = vacc[1]*2
freq3 = vacc[2]*2
freq4 = vacc[3]*2
for i in range(0,nbEch):
val1 = wave.struct.pack('B',int(128.0 + amp*math.sin(2.0*math.pi*freq1*i/fech)))
val2 = wave.struct.pack('B',int(128.0 + amp*math.sin(2.0*math.pi*freq2*i/fech)))
val3 = wave.struct.pack('B',int(128.0 + amp*math.sin(2.0*math.pi*freq3*i/fech)))
val4 = wave.struct.pack('B',int(128.0 + amp*math.sin(2.0*math.pi*freq4*i/fech)))
monac.writeframes(val1+val2+val3+val4)
monac.close()
accwav = self.fichacc[w]
winsound.PlaySound(accwav,winsound.SND_FILENAME)
# L'harmonie des accords
def accord(self):
acc = Toplevel(self)
acc.title('Entité Gammique : Harmonie')
if self.presaudio == 0:
self.presaudio = 1
self.btaud.invoke()
self.presaudio = 0
# Fenêtrage des widgets
fra = Frame(acc,width=100,height=50)
fra.pack(side=BOTTOM)
fraleft = Frame(acc,width=30,height=30)
fraleft.pack(side=LEFT)
fraright = Frame(acc,width=30,height=30)
fraright.pack(side=RIGHT)
# Les accords 1357 de la gamme en cours (partie gauche(left))
bt1357 = Button(fra,text ='Actualiser',width=20)
bt1357.pack(side=LEFT)
lableft = Label(fraleft, text ='Accords 1357', fg = 'red').pack()
btaccleft = ['','','','','','','']
for i in range(7):
btaccleft[i] = Button(fraleft,text='',bg='light blue',width=10,
command = lambda w=i: self.wavacc (w))
btaccleft[i].pack()
# Les autres accords de la gamme en cours (partie droite(right))
btautr = Button(fra,text ='Fermer',width=20,bg ='light grey', command = acc.destroy)
btautr.pack(side=RIGHT)
labrigh = Label(fraright, text ='Autre accord', fg = 'blue').pack()
btautq = Button(fraright,text ='inactif',bg='light blue',width=10).pack()
fraacc = Frame(acc,bg='ivory', height=300,width=500)
fraacc.pack()
# Types d'accords 1357 : chr(248) = ( ø )
# Majeur_7ème(maj7). Mineur_7ème(7). Demi-diminué_7ème(ø7). Diminué_7ème(°7)
# Tableaux des accords et des altérations
accdiese = ['','+','x','^','+^','x^','^^']
accbemol = ['','**','°*','-*','*','°','-']
accmaj7 = [0,0,0,0] ; acc7 = [0,0,0,-1]
accdd7 = [0,-1,-1,-1] ; accd7 = [0,-1,-1,-2]
tbacc7 = [] # Tableau de l'accord forme(str)
tbsign = [] # Tableau de l'accord forme(int)
tbfine = [] # Tableau des accords forme fine
tbgene = [] # Tableau des accords forme écriture
tblect = [] # Tableau des accords forme lecture
# self.decore[] = altération et note tonique de l'accord
for decdegre in range(7):
accnote = self.decore[decdegre][1:]
accsign = self.decore[decdegre][:1]
# self.declare[] = altérations "3.5.7" en rang
decnote = 1
t_fin = 0
while decnote < 8: # Définition de l'accord modal(str)
decalt = self.declare[(decdegre,decnote)]
tbacc7.append(decalt)
decnote += 2
# Transcodage de l'accord de type original(str)
for a_ in range(4):
z_ = -1
a_acc = tbacc7[a_]
for b_ in range(7): # Lecture et transformation
if a_acc == '':
b_alt = 0
tbsign.append(b_alt)
break
if a_acc == accdiese[b_]:
b_alt = b_
tbsign.append(b_alt)
break
if a_acc == accbemol[z_]:
b_alt = z_
tbsign.append(b_alt)
break
z_ += -1
# Définition des accords de 7ème
if tbsign[3] == 0:
# L'accord est majeur 7(maj7)
typacc = 'maj7'
finacc = tbsign
for t_ in range(4):
if accmaj7[t_] == tbsign[t_]:
t_fin = 0
else:
t_fin = tbsign[t_]-accmaj7[t_]
tbfine.append(t_fin)
btaccleft[decdegre].configure(text = 'maj7')
if (tbsign[3] == -1):
if (tbsign[1] or tbsign[2] >= 0) or ((tbsign[1] or tbsign[2]) < 0):
if tbsign[1] and tbsign[2] < 0: pass
else :
# L'accord est demi-diminué 7(7)
typacc = '7'
finacc = tbsign
for t_ in range(4):
if acc7[t_] == tbsign[t_]:
t_fin = 0
else:
t_fin = tbsign[t_]-acc7[t_]
tbfine.append(t_fin)
btaccleft[decdegre].configure(text = '7')
if (tbsign[3] == -1) and (tbsign[1] and tbsign[2] < 0):
# L'accord est demi-diminué 7(ø7)
typacc = 'ø7'
finacc = tbsign
for t_ in range(4):
if accdd7[t_] == tbsign[t_]:
t_fin = 0
else:
t_fin = tbsign[t_]-accdd7[t_]
tbfine.append(t_fin)
btaccleft[decdegre].configure(text = 'ø7')
if tbsign[3] < -1:
# L'accord est diminué 7(°7)
typacc = '°7'
finacc = tbsign
for t_ in range(4):
if accd7[t_] == tbsign[t_]:
t_fin = 0
else:
t_fin = tbsign[t_]-accd7[t_]
tbfine.append(t_fin)
btaccleft[decdegre].configure(text = '°7')
tblect.append(tbsign[:4])
tbgene.append(tbfine[:4])
del(tbsign[:]) # Remise à zéro de l'accord(int)
del(tbacc7[:]) # Remise à zéro de l'accord(str)
del(tbfine[:]) # Remise à zéro de l'accord écriture
del(tblect[:]) # Remise à zéro forme lecture
del(tbgene[:]) # Remise à zéro forme écriture
# Premiers pixels acoustiques
def radio(self):
ay = '0'
ayay = self.tbdegre[0]
for n in range(7):
freqhtz=self.tablenotes[ayay]
if ay == '0': pass
else: freqhtz += 120
ayay += 1
if ayay > 6:
ayay = 0
ay = '1'
duration=240
winsound.Beep(freqhtz, duration)
# Premières notes acoustiques
def audio(self):
LA440 = 440 ; la2 = LA440/2 ; ula = 220/12
fabula = ['A','_','B','C','_','D','_','E','F','_','G','_','A']
# FC # Fréquences cursives (pixels)
notula = [] ; modula = []
for az in range(7): # Construction tableau FC
notula.append(self.tablenotes[az])
mula = notula[az]/10-25 # Transition vers l'indice
modula.append(mula) # Indice du tableau "sequla[]"
# TM # Tableau majeur
tabula = []
for ai in range(13): # Construction tableau TM
paula=ai*ula+la2 # Calcul fréquence
tabula.append(paula) # Tableau en écriture TM
# TF # Table des fréquences (1/12)
sequla = [] ; nomula = []
for ay in range(40): # Construction tableau TF
if ay < 12: # Niveau -1: Octave basse
yula = tabula[ay]/2 # yula: TM/2
nula = fabula[ay] # nula: Notes naturelles
elif 11 < ay < 24: # Niveau 0: Octave naturelle
yula = tabula[ay-12] # yula: Déviation de l'indice(ay)
nula = fabula[ay-12]
elif 23 < ay < 37: # Niveau 1: Octave haute
yula = tabula[ay-24]*2 # yula: Déviation de l'indice(ay)+TM*2
nula = fabula[ay-24]
elif 36 < ay < 41: # Niveau 2: Octave relative
yula = tabula[ay-36]*4 # yula: Déviation de l'indice(ay)+TM*4
nula = fabula[ay-36]
sequla.append(yula) # Tableau en écriture TF
nomula.append(nula) # Tableau en écriture TF
# TR # Tableau des résultats (fréquences cursives)
freula = []
for ax in range(7): # Construction tableau TR
xula = int(modula[ax]) # xula: Lecture indice-entier FC
qula = sequla[xula] # qula: Lecture de fréquence TF
freula.append(qula) # Tableau en écriture TR
aw2 = self.tbdegre[0]
diato = [] ; opoto = []
ax = '0'
for aw in range(7): # Construction tableau TR-tonique
freqhtz = freula[aw2]
if ax == '0': diato.append(freqhtz)
else: diato.append(freqhtz*2)
opoto.append(self.gamula[aw2])
aw2 += 1
if aw2 > 6:
aw2 = 0
ax = '1'
# Partie échantillonnage
nbOctet = nbCanal = 1
fech = 44100
niveau = float(1/2)
duree = float(1/6)
nbEch = int(duree*fech)
for fy in range(7):
toplo = self.fichnom[fy]
manote = wave.open(toplo,'wb')
param = (nbCanal,nbOctet,fech,nbEch,'NONE','not compressed')
manote.setparams(param)
freq = diato[fy]
self.framno[fy] = freq
amp = 127.5*niveau
for i in range(0,nbEch):
val = wave.struct.pack('B',int(128.0 + amp*math.sin(2.0*math.pi*freq*i/fech)))
manote.writeframes(val)
manote.close()
if self.presaudio == 0:
self.presaudio = 1
for fu in self.fichnom:
winsound.PlaySound(fu,winsound.SND_FILENAME)
# audio()
# Les octaves du groupe RADIO
def yoiioiioy(self):
xradfan=self.entfan.get()
xrad=self.variable.get()
mqdo=self.sca[0].get()
mqsi=self.sca[6].get()
yo=yoc=yod=yoe=yof=yog=yoa=yob=0
fyoc=fyod=fyoe=fyof=fyog=fyoa=fyob=0
tyoc=tyod=tyoe=tyof=tyog=tyoa=tyob=0
topgam=[yoc,yod,yoe,yof,yog,yoa,yob]
topform=[fyoc,fyod,fyoe,fyof,fyog,fyoa,fyob]
topto=[tyoc,tyod,tyoe,tyof,tyog,tyoa,tyob]
while yo < 7:
yioiy=yotop=topf=topt=0
yotop=topgam[yo]=self.sca[yo].get()
topf=topform[yo]=self.sca[yo].cget("from")
topt=topto[yo]=self.sca[yo].cget("to")
if xradfan == "IOI":
if xrad == "YOI":
if (mqdo>-1)and(mqsi<1): yioiy=yotop
else:
yioiy=yotop+12
topf=topf+12
topt=topt+12
elif xrad == "IOY":
if (mqdo>-1)and(mqsi<1): yioiy= yotop
else :
yioiy=yotop-12
topf=topf-12
topt=topt-12
else : yioiy = yotop
elif xradfan == "YOI":
if xrad == "IOI":
if (mqdo>-1)and(mqsi<1): yioiy= yotop
else :
yioiy=yotop-12
topf=topf-12
topt=topt-12
elif xrad == "IOY":
if (mqdo>-1)and(mqsi<1): yioiy= yotop
else :
yioiy=yotop-24
topf=topf-24
topt=topt-24
else : yioiy=yotop
else :
if xrad == "YOI":
if (mqdo>-1)and(mqsi<1): yioiy= yotop
else :
yioiy=yotop+24
topf=topf+24
topt=topt+24
elif xrad == "IOI":
if (mqdo>-1)and(mqsi<1): yioiy= yotop
else :
yioiy=yotop+12
topf=topf+12
topt=topt+12
else : yioiy=yotop
if yo == 0: mqdo1 = yioiy
if yo == 6: mqsi1 = yioiy
self.sca[yo].configure(from_ = topf, to = topt)
self.sca[yo].set(yioiy)
yo+=1
# while yo
if xrad == "YOI": self.sca[7].configure(from_ = 0-mqdo1, to = 24-mqsi1)
elif xrad == "IOI": self.sca[7].configure(from_ = -12-mqdo1, to = 12-mqsi1)
elif xrad == "IOY": self.sca[7].configure(from_ = -24-mqdo1, to = 0-mqsi1)
xradfan=xrad
self.entfan.delete(0,END)
self.entfan.insert(END,xradfan)
self.btgama.invoke()
# print ('*')
# yoiioiioy()
# Moment self.gama
def momentgama(self,event):
self.btgama.invoke()
# Définition des curseurs
def scanote1(self,xc):
do=int(xc)
xsi=self.sca[6].get()
xre=self.sca[1].get()
if do<xsi:self.sca[6].set(do)
if do>xre+1 :self.sca[1].set(do-1)
# Initialise sca[7](from_)
xxrad=self.variable.get()
if xxrad == "YOI": self.sca[7].configure(from_ = 0-do, to = 24-xsi)
elif xxrad == "IOI": self.sca[7].configure(from_ = -12-do, to = 12-xsi)
elif xxrad == "IOY": self.sca[7].configure(from_ = -24-do, to = 0-xsi)
self.bind('<ButtonRelease-1>',self.momentgama)
# scanote1()
def scanote2(self,xd):
re=int(xd)
xdo=self.sca[0].get()
xmi=self.sca[2].get()
if re<xdo-1:self.sca[0].set(re+1)
if re>xmi+1 :self.sca[2].set(re-1)
# scanote2()
def scanote3(self,xe):
mi=int(xe)
xre=self.sca[1].get()
xfa=self.sca[3].get()
if mi<xre-1:self.sca[1].set(mi+1)
if mi>xfa:self.sca[3].set(mi)
# scanote3()
def scanote4(self,xf):
fa=int(xf)
xmi=self.sca[2].get()
xsol=self.sca[4].get()
if fa<xmi:self.sca[2].set(fa)
if fa>xsol+1:self.sca[4].set(fa-1)
# scanote4()
def scanote5(self,xg):
sol=int(xg)
xfa=self.sca[3].get()
xla=self.sca[5].get()
if sol<xfa-1:self.sca[3].set(sol+1)
if sol>xla+1:self.sca[5].set(sol-1)
# scanote5()
def scanote6(self,xa):
la=int(xa)
xsol=self.sca[4].get()
xsi=self.sca[6].get()
if la<xsol-1:self.sca[4].set(la+1)
if la>xsi+1:self.sca[6].set(la-1)
# scanote6()
def scanote7(self,xb):
si=int(xb)
xla=self.sca[5].get()
xdo=self.sca[0].get()
if si<xla-1:self.sca[5].set(si+1)
if si>xdo:self.sca[0].set(si)
# Initialise sca[7](from_)
xxxrad=self.variable.get()
if xxxrad == "YOI": self.sca[7].configure(from_ = 0-xdo, to = 24-si)
elif xxxrad == "IOI": self.sca[7].configure(from_ = -12-xdo, to = 12-si)
elif xxxrad == "IOY": self.sca[7].configure(from_ = -24-xdo, to = 0-si)
# scanote7()
def scanote8(self,xh):
sch=int(xh)
f_t=0
xsi=self.sca[6].get()
tosi=t_si=self.sca[6].cget("to")
if (xsi+sch > t_si):f_t=-1
xdo=self.sca[0].get()
fromdo=f_do=self.sca[0].cget("from")
todo=t_do=self.sca[0].cget("to")
if (xdo+sch<f_do)or(f_t==-1):
fromdo = f_do+sch
todo = t_do+sch
f_t = -1
xre=self.sca[1].get()
fromre=f_re=self.sca[1].cget("from")
tore=t_re=self.sca[1].cget("to")
if f_t==-1:
fromre = f_re+sch
tore = t_re+sch
xmi=self.sca[2].get()
frommi=f_mi=self.sca[2].cget("from")
tomi=t_mi=self.sca[2].cget("to")
if f_t==-1:
frommi = f_mi+sch
tomi = t_mi+sch
xfa=self.sca[3].get()
fromfa=f_fa=self.sca[3].cget("from")
tofa=t_fa=self.sca[3].cget("to")
if f_t==-1:
fromfa = f_fa+sch
tofa = t_fa+sch
xsol=self.sca[4].get()
fromsol=f_sol=self.sca[4].cget("from")
tosol=t_sol=self.sca[4].cget("to")
if f_t==-1:
fromsol = f_sol+sch
tosol = t_sol+sch
xla=self.sca[5].get()
fromla=f_la=self.sca[5].cget("from")
tola=t_la=self.sca[5].cget("to")
if f_t==-1:
fromla = f_la+sch
tola = t_la+sch
xsi=self.sca[6].get()
fromsi=f_si=self.sca[6].cget("from")
tosi=t_si=self.sca[6].cget("to")
if (xsi+sch > t_si)or(f_t==-1):
fromsi = f_si+sch
tosi = t_si+sch
f_t=-1
self.sca[0].configure(from_ = fromdo, to = todo)
self.sca[0].set(xdo+sch)
self.sca[1].configure(from_ = fromre, to = tore)
self.sca[1].set(xre+sch)
self.sca[2].configure(from_ = frommi, to = tomi)
self.sca[2].set(xmi+sch)
self.sca[3].configure(from_ = fromfa, to = tofa)
self.sca[3].set(xfa+sch)
self.sca[4].configure(from_ = fromsol, to = tosol)
self.sca[4].set(xsol+sch)
self.sca[5].configure(from_ = fromla, to = tola)
self.sca[5].set(xla+sch)
self.sca[6].configure(from_ = fromsi, to = tosi)
self.sca[6].set(xsi+sch)
self.btgama.invoke()
# scanote8()
def zero(self):
fnotes=[0,-1,-2,-2,-3,-4,-5]
tnotes=[+5,+4,+3,+3,+2,+1,0]
for z in range(7):
self.sca[z].configure(from_ = fnotes[z], to = tnotes[z])
self.sca[z].set(0)
self.sca[7].configure(from_ = -12, to = 12)
self.sca[7].set(0)
self.rad[1].invoke() # Remise à l'octave zéro ou "ioi"
self.btgama.invoke()
# zero()
def gama(self):
del(self.decore[:]) # Remise au zéro tonique des accords
self.can.delete(ALL)
# Tracé d'encadrement
# Données de l'encadré : Axes(x,y)=365(x),220(y)
self.can.create_line(10, 450, 740, 450, fill ='blue')
self.can.create_line(460, 450, 460, 110, fill ='green')
self.can.create_line(390, 220, 520, 220, fill ='green')
self.can.create_line(270, 340, 400, 340, fill ='green')
self.can.create_line(510, 100, 640, 100, fill ='green')
# De la table gammique aux tables diatoniques surnommées
gammes =[[1,1,0,1,1,1,0],[0,2,0,1,1,1,0],[2,0,0,1,1,1,0],[4,0,0,0,0,1,0],[1,0,1,1,1,1,0],[0,1,1,1,1,1,0],
[1,0,3,0,0,1,0],[1,2,1,0,0,1,0],[2,2,0,0,0,1,0],[0,0,1,2,1,1,0],[1,3,0,0,0,1,0],[0,0,2,1,1,1,0],
[1,2,2,0,0,0,0],[0,0,4,0,0,1,0],[1,4,0,0,0,0,0],[1,0,0,2,1,1,0],[0,1,0,2,1,1,0],[1,1,3,0,0,0,0],
[0,0,0,3,1,1,0],[1,1,0,0,2,1,0],[0,2,0,0,2,1,0],[0,2,0,2,0,1,0],[2,0,0,0,2,1,0],[1,0,1,0,2,1,0],
[1,0,1,2,0,1,0],[1,1,1,2,0,0,0],[2,0,0,3,0,0,0],[0,0,2,0,2,1,0],[1,2,0,2,0,0,0],[1,0,0,3,0,1,0],
[1,0,0,1,2,1,0],[1,1,0,3,0,0,0],[1,1,2,1,0,0,0],[0,1,0,0,3,1,0],[0,0,1,0,3,1,0],[0,0,0,1,3,1,0],
[0,0,0,2,2,1,0],[1,0,0,0,3,1,0],[0,0,2,2,0,1,0],[0,0,0,0,4,1,0],[0,0,2,3,0,0,0],[1,0,0,4,0,0,0],
[0,0,0,5,0,0,0],[1,1,0,1,0,2,0],[1,1,0,1,2,0,0],[0,2,0,1,0,2,0],[0,2,0,1,2,0,0],[2,0,0,1,0,2,0],
[2,0,0,1,2,0,0],[1,0,1,1,0,2,0],[1,0,1,1,2,0,0],[1,1,0,0,1,2,0],[1,1,0,0,3,0,0],[1,1,0,2,1,0,0],
[1,1,2,0,1,0,0],[0,2,0,0,0,3,0],[1,0,0,2,2,0,0],[1,0,0,1,0,3,0],[1,3,0,0,1,0,0],[1,0,0,0,1,3,0],
[0,0,0,3,0,2,0],[0,0,2,1,2,0,0],[1,0,0,0,0,4,0],[0,0,0,3,2,0,0],[1,1,0,0,0,3,0],[3,0,0,0,0,2,0]]
gamnoms =['0','-2','+2','^2','-3','-23','-34x','+34','+23x','-34','x3','°3','+34x','°34x','^3',
'-4','-24','^4','°4','-5','-25','-25+','+25-','-35','-35+','+45x','+25x','°35-','+35x',
'-45+','-45','x5','x45+','-25°','-35°','-45°','°45-','°5','°35+','*5','°35x','-45x',
'°45x','-6','+6','-26','-26+','+26-','+26','-36','-36+','-56','-56+','+56','x46+',
'-26°','-46+','-46°','x36+','-56°','°46-','°36+','*6','°46+','°6','x26-']
# Récupération des notes cursives
xxx=0
xxrad0=self.variable.get()
if xxrad0 == "YOI": xxx=+120
elif xxrad0 == "IOI": xxx=0
elif xxrad0 == "IOY": xxx=-120
ydo=self.sca[0].get()
xcpos_=400-xxx
ycpos_=220+xxx
xc_=xcpos_+(ydo*10)
yc_=ycpos_-(ydo*10)
rc_=5
self.tablenotes[0]=xc_
self.can.create_line(xc_, 350, xc_, 40, fill ='black')
self.can.create_oval(xc_-rc_,yc_-rc_,xc_+rc_,yc_+rc_,fill='black')
yre=self.sca[1].get()
xcpos_=420-xxx
ycpos_=220+xxx
xd_=xcpos_+(yre*10)
yd_=ycpos_-(yre*10)
rd_=5
self.tablenotes[1]=xd_
self.can.create_line(xd_, 360, xd_, 50, fill ='green')
self.can.create_oval(xd_-rd_,yd_-rd_,xd_+rd_,yd_+rd_,fill='green')
ymi=self.sca[2].get()
xcpos_=440-xxx
ycpos_=220+xxx
xe_=xcpos_+(ymi*10)
ye_=ycpos_-(ymi*10)
re_=5
self.tablenotes[2]=xe_
self.can.create_line(xe_, 370, xe_, 60, fill ='blue')
self.can.create_oval(xe_-re_,ye_-re_,xe_+re_,ye_+re_,fill='blue')
yfa=self.sca[3].get()
xcpos_=450-xxx
ycpos_=220+xxx
xf_=xcpos_+(yfa*10)
yf_=ycpos_-(yfa*10)
rf_=5
self.tablenotes[3]=xf_
self.can.create_line(xf_, 370, xf_, 60, fill ='grey')
self.can.create_oval(xf_-rf_,yf_-rf_,xf_+rf_,yf_+rf_,fill='grey')
ysol=self.sca[4].get()
xcpos_=470-xxx
ycpos_=220+xxx
xg_=xcpos_+(ysol*10)
yg_=ycpos_-(ysol*10)
rg_=5
self.tablenotes[4]=xg_
self.can.create_line(xg_, 380, xg_, 70, fill ='red')
self.can.create_oval(xg_-rg_,yg_-rg_,xg_+rg_,yg_+rg_,fill='red')
yla=self.sca[5].get()
xcpos_=490-xxx
ycpos_=220+xxx
xa_=xcpos_+(yla*10)
ya_=ycpos_-(yla*10)
ra_=5
self.tablenotes[5]=xa_
self.can.create_line(xa_, 390, xa_, 80, fill ='orange')
self.can.create_oval(xa_-ra_,ya_-ra_,xa_+ra_,ya_+ra_,fill='orange')
ysi=self.sca[6].get()
xcpos_=510-xxx
ycpos_=220+xxx
xb_=xcpos_+(ysi*10)
yb_=ycpos_-(ysi*10)
rb_=5
self.tablenotes[6]=xb_
self.can.create_line(xb_, 400, xb_, 90, fill ='yellow')
self.can.create_oval(xb_-rb_,yb_-rb_,xb_+rb_,yb_+rb_,fill='yellow')
# Mesure de l'intervalle tempéré
c1=(yre+1)-ydo
d2=(ymi+1)-yre
e3=yfa-ymi
f4=(ysol+1)-yfa
g5=(yla+1)-ysol
a6=(ysi+1)-yla
b7=i=cum_diat=ok=x=0
diata=[c1,d2,e3,f4,g5,a6,b7]
while i < 6:
cum_diat += diata[i]
i+=1
# while i
diata[i]=5-cum_diat
# Recherche diatonique par l'itération
cc1=dd2=ee3=ff4=gg5=aa6=bb7=0
diata2=[cc1,dd2,ee3,ff4,gg5,aa6,bb7]
while x < 7:
m=x
y=0
while y < 7:
diata2[y]=diata[m]
y+=1
m+=1
if m > 6: m=0
# while
myx=myx2=0
for my in gammes:
if diata2 == my:
degre=x
myx2=myx
x=7
# if diata2
myx+=1
# for my
x+=1
# while x
# Ici : diata(original cursif).degre(tonique).my(gamme)
# Définition diatonique
# GMAJ= gammes[0]
gmaj = [1,1,0,1,1,1,0] # Forme majeure simplifiée
# GNAT= Ordre cursif comme diata[]
gnat = ['C','D','E','F','G','A','B'] # Forme alphabétique
cnat = ['','','','','','','']
# Niveaux d'altérations
nordiese = ['','+','x','^','+^','x^','^^','+^^','x^^','^^^','+^^^','x^^^','^^^^','13(#)','14(#)','15(#)',
'16(#)','17(#)','18(#)','19(#)','20(#)','21(#)','22(#)','23(#)','24(#)',
'25(#)','26(#)','27(#)','28(#)','29(#)','30(#)','31(#)','32(#)']
subemol = ['','32(b)','31(b)','30(b)','29(b)','28(b)','27(b)','26(b)','25(b)','24(b)','23(b)','22(b)',
'21(b)','20(b)','19(b)','18(b)','17(b)','16(b)','15(b)','14(b)','13(b)',
'****','°***','-***','***','°**','-**','**','°*','-*','*','°','-']
# Configuration modale
gdeg = ['I','II','III','IV','V','VI','VII']
# Définition de l'écriture
font = Font(family='Liberation Serif', size=9)
# Définition des notes cursives
cursifs=[ydo,yre,ymi,yfa,ysol,yla,ysi]
ynat=ymod=0
for ycurs in cursifs:
if ycurs > 0 :
ymod=nordiese[ycurs]
if ycurs < 0 :
ymod=subemol[ycurs]
if ycurs == 0 :
ymod=subemol[ycurs]
cnat[ynat]=ymod
ynat+=1
# for ycurs
# Une tournée produit une tonalité modale de 7 notes
nat2=degre
deg = nom = 0
ynote = xgdeg = 30
ytone = 50
while deg < 7 :
nat = deg # Degré tonal en question
cri = gimj = gmod = maj = 0
xdeg = 80
text0 = gdeg[deg]
self.can.create_text(xgdeg+25,ynote+10,text=text0,
font='bold',fill='black')
while maj < 7 : # Tonalité modale du degré
gmj = gmaj[maj] # Forme majeure (1101110)
imaj = diata2[nat] # Forme modale (DIATA[DEGRE])
ynt = cnat[nat2] # Forme altérative des notes
gnt = gnat[nat2] # Forme tonale (CDEFGAB)
ideg = gdeg[deg]
cri = cri + gimj # Tonalité cumulée
gimj = imaj - gmj # Calcul tonal PAS/PAS
cmod = gmod = cri
if maj == 0:
yntgnt = ynt,gnt
self.decore.append(yntgnt)
if gmod > 0 : # Forme altérative des tonalités
imod = nordiese[cmod]
if gmod < 0 :
imod = subemol[cmod]
if gmod == 0 :
imod = subemol[cmod]
gmod = gmod + cri # Transition tonale
# Construction du nom de la gamme
if nom == 0 :
ynom = ynt
gnom = gnt
tnom=gnom,gamnoms[myx2]
self.can.create_text(28,10,text=ynom,font=font,fill='red')
self.can.create_text(28,25,text=tnom,font='bold',fill='black')
# if nom
nat+=1
nat2+=1
if nat > 6 :
nat = 0
if nat2 > 6 :
nat2 = 0
maj = maj + 1
text1= gnt
text2=[imod,maj]
self.can.create_text(xdeg,ynote-12,text=ynt,font=font,fill='red')
self.can.create_text(xdeg,ynote,text=text1)
self.can.create_text(xdeg,ytone,text=text2,fill='blue')
xdeg+=30
nom=1
self.declare[(deg,maj)] = imod
#maj = maj + 1
# while maj
ynote+=60
ytone+=60
nat2+=1
if nat2 > 6 :
nat2 = 0
deg = deg + 1
# while deg
self.tbdegre[0]=degre
# gamma()
# class Gammique
Gammique().mainloop() |
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