LJ/clients/planetarium/lj3.py
2019-01-28 14:18:19 +01:00

316 lines
9.5 KiB
Python

# coding=UTF-8
'''
LJ v0.8.1 in python3
Some LJ functions useful for python clients (was framy.py)
OSC functions commented, waiting working on OSC in python3
Config(redisIP, client number)
PolyLineOneColor
rPolyLineOneColor
Text(word, color, PL, xpos, ypos, resize, rotx, roty, rotz) : Display a word
Send(adress,message) : remote control. See commands.py
WebStatus(message) : display message on webui
DrawPL(point list number) : once you stacked all wanted elements, like 2 polylines, send them to lasers.
LICENCE : CC
Sam Neurohack
'''
import math
import redis
#from OSC import OSCServer, OSCClient, OSCMessage
redisIP = '127.0.0.1'
r = redis.StrictRedis(host=redisIP, port=6379, db=0)
ClientNumber = 0
point_list = []
pl = [[],[],[],[]]
'''
LJIP = "127.0.0.1"
osclientlj = OSCClient()
oscmsg = OSCMessage()
osclientlj.connect((redisIP, 8002))
'''
'''
def Send(oscaddress,oscargs=''):
oscmsg = OSCMessage()
oscmsg.setAddress(oscaddress)
oscmsg.append(oscargs)
#print ("sending to bhorosc : ",oscmsg)
try:
osclientlj.sendto(oscmsg, (redisIP, 8002))
oscmsg.clearData()
except:
print ('Connection to LJ refused : died ?')
pass
#time.sleep(0.001
def WebStatus(message):
Send("/status",message)
'''
ASCII_GRAPHICS = [
#implementé
[(-50,30), (-30,-30), (30,-30), (10,30), (-50,30)], #0
[(-20,30), (0,-30), (-20,30)], #1
[(-30,-10), (0,-30), (30,-10), (30,0), (-30,30), (30,30)], #2
[(-30,-30), (0,-30), (30,-10), (0,0), (30,10), (0,30), (-30,30)], #3
[(30,10), (-30,10), (0,-30), (0,30)], #4
[(30,-30), (-30,-30), (-30,0), (0,0), (30,10), (0,30), (-30,30)], #5
[(30,-30), (0,-30), (-30,-10), (-30,30), (0,30), (30,10), (30,0), (-30,0)], #6
[(-30,-30), (30,-30), (-30,30)], #7
[(-30,30), (-30,-30), (30,-30), (30,30), (-30,30), (-30,0), (30,0)], #8
[(30,0), (-30,0), (-30,-10), (0,-30), (30,-30), (30,10), (0,30), (-30,30)], #9
# A implementer
[(-30,10), (30,-10), (30,10), (0,30), (-30,10), (-30,-10), (0,-30), (30,-10)], #:
[(-30,-10), (0,-30), (0,30)], [(-30,30), (30,30)], #;
[(-30,-10), (0,-30), (30,-10), (30,0), (-30,30), (30,30)], #<
[(-30,-30), (0,-30), (30,-10), (0,0), (30,10), (0,30), (-30,30)], #=
[(30,10), (-30,10), (0,-30), (0,30)], #>
[(30,-30), (-30,-30), (-30,0), (0,0), (30,10), (0,30), (-30,30)], #?
[(30,-30), (0,-30), (-30,-10), (-30,30), (0,30), (30,10), (30,0), (-30,0)], #@
# Implementé
[(-30,30), (-30,-30), (30,-30), (30,30), (30,0), (-30,0)], #A
[(-30,30), (-30,-30), (30,-30), (30,30), (30,0), (-30,0)], #A
[(-30,30), (-30,-30), (30,-30), (30,30), (-30,30), (-30,0), (30,0)], #B
[(30,30), (-30,30), (-30,-30), (30,-30)], #C
[(-30,30), (-30,-30), (30,-30), (30,30), (-30,30)], #D
[(30,30), (-30,30), (-30,-0), (30,0), (-30,0), (-30,-30), (30,-30)], #E
[(-30,30), (-30,-0), (30,0), (-30,0), (-30,-30), (30,-30)], #F
[(0,0), (30,0), (30,30), (-30,30), (-30,-30),(30,-30)], #G
[(-30,-30), (-30,30), (-30,0), (30,0), (30,30), (30,-30)], #H
[(0,30), (0,-30)], #I
[(-30,30), (0,-30), (0,-30), (-30,-30), (30,-30)], #J
[(-30,-30), (-30,30), (-30,0), (30,-30), (-30,0), (30,30)], #K
[(30,30), (-30,30), (-30,-30)], #L
[(-30,30), (-30,-30), (0,0), (30,-30), (30,30)], #M
[(-30,30), (-30,-30), (30,30), (30,-30)], #N
[(-30,30), (-30,-30), (30,-30), (30,30), (-30,30)], #O
[(-30,0), (30,0), (30,-30), (-30,-30), (-30,30)], #P
[(30,30), (30,-30), (-30,-30), (-30,30), (30,30),(35,35)], #Q
[(-30,30), (-30,-30), (30,-30), (30,0), (-30,0), (30,30)], #R
[(30,-30), (-30,-30), (-30,0), (30,0), (30,30), (-30,30)], #S
[(0,30), (0,-30), (-30,-30), (30,-30)], #T
[(-30,-30), (-30,30), (30,30), (30,-30)], #U
[(-30,-30), (0,30), (30,-30)], #V
[(-30,-30), (-30,30), (0,0), (30,30), (30,-30)], #W
[(-30,30), (30,-30)], [(-30,-30), (30,30)], #X
[(0,30), (0,0), (30,-30), (0,0), (-30,-30)], #Y
[(30,30), (-30,30), (30,-30), (-30,-30)], #Z
# A implementer
[(-30,-10), (0,-30), (0,30)], [(-30,30), (30,30)], #[
[(-30,-10), (0,-30), (30,-10), (30,0), (-30,30), (30,30)], #\
[(-30,-30), (0,-30), (30,-10), (0,0), (30,10), (0,30), (-30,30)], #]
[(30,10), (-30,10), (0,-30), (0,30)], #^
[(30,-30), (-30,-30), (-30,0), (0,0), (30,10), (0,30), (-30,30)], #_
[(30,-30), (0,-30), (-30,-10), (-30,30), (0,30), (30,10), (30,0), (-30,0)], #`
# Implementé
[(-20,20), (-20,-20), (20,-20), (20,20), (20,0), (-20,0)], #a
[(-20,20), (-20,-20), (20,-20), (20,20), (-20,20), (-20,0), (20,0)], #b
[(20,20), (-20,20), (-20,-20), (20,-20)], #c
[(-20,20), (-20,-20), (20,-20), (20,20), (-20,20)], #d
[(20,20), (-20,20), (-20,-0), (20,0), (-20,0), (-20,-20), (20,-20)], #e
[(-20,20), (-20,-0), (20,0), (-20,0), (-20,-20), (20,-20)], #f
[(0,0), (20,0), (20,20), (-20,20), (-20,-20),(20,-20)], #g
[(-20,-20), (-20,20), (-20,0), (20,0), (20,20), (20,-20)], #H
[(0,20), (0,-20)], #I
[(-20,20), (0,-20), (0,-20), (-20,-20), (20,-20)], #J
[(-20,-20), (-20,20), (-20,0), (20,-20), (-20,0), (20,20)], #K
[(20,20), (-20,20), (-20,-20)], #L
[(-20,20), (-20,-20), (0,0), (20,-20), (20,20)], #M
[(-20,20), (-20,-20), (20,20), (20,-20)], #N
[(-20,20), (-20,-20), (20,-20), (20,20), (-20,20)], #O
[(-20,0), (20,0), (20,-20), (-20,-20), (-20,20)], #P
[(20,20), (20,-20), (-20,-20), (-20,20), (20,20),(25,25)], #Q
[(-20,20), (-20,-20), (20,-20), (20,0), (-20,0), (20,20)], #R
[(20,-20), (-20,-20), (-20,0), (20,0), (20,20), (-20,20)], #S
[(0,20), (0,-20), (-20,-20), (20,-20)], #T
[(-20,-20), (-20,20), (20,20), (20,-20)], #U
[(-20,-20), (0,20), (20,-20)], #V
[(-20,-20), (-20,20), (0,0), (20,20), (20,-20)], #W
[(-20,20), (20,-20)], [(-20,-20), (20,20)], #X
[(0,20), (0,0), (20,-20), (0,0), (-20,-20)], #Y
[(20,20), (-20,20), (20,-20), (-20,-20)], #Z
[(-2,15), (2,15)] # Point a la place de {
]
def Config(redisIP,client):
global ClientNumber
r = redis.StrictRedis(host=redisIP, port=6379, db=0)
ClientNumber = client
def LineTo(xy, c, PL):
pl[PL].append((xy + (c,)))
def Line(xy1, xy2, c, PL):
LineTo(xy1, 0, PL)
LineTo(xy2, c , PL)
def PolyLineOneColor(xy_list, c, PL , closed ):
#print "--"
#print "c",c
#print "xy_list",xy_list
#print "--"
xy0 = None
for xy in xy_list:
if xy0 is None:
xy0 = xy
#print "xy0:",xy0
LineTo(xy0,0, PL)
LineTo(xy0,c, PL)
else:
#print "xy:",xy
LineTo(xy,c, PL)
if closed:
LineTo(xy0,c, PL)
# Computing points coordinates for rPolyline function from 3D and around 0,0 to pygame coordinates
def Pointransf(xy, xpos = 0, ypos =0, resize =1, rotx =0, roty =0 , rotz=0):
x = xy[0] * resize
y = xy[1] * resize
z = 0
rad = rotx * math.pi / 180
cosaX = math.cos(rad)
sinaX = math.sin(rad)
y2 = y
y = y2 * cosaX - z * sinaX
z = y2 * sinaX + z * cosaX
rad = roty * math.pi / 180
cosaY = math.cos(rad)
sinaY = math.sin(rad)
z2 = z
z = z2 * cosaY - x * sinaY
x = z2 * sinaY + x * cosaY
rad = rotz * math.pi / 180
cosZ = math.cos(rad)
sinZ = math.sin(rad)
x2 = x
x = x2 * cosZ - y * sinZ
y = x2 * sinZ + y * cosZ
#print xy, (x + xpos,y+ ypos)
return (x + xpos,y+ ypos)
'''
to understand why it get negative Y
# 3D to 2D projection
factor = 4 * gstt.cc[22] / ((gstt.cc[21] * 8) + z)
print xy, (x * factor + xpos, - y * factor + ypos )
return (x * factor + xpos, - y * factor + ypos )
'''
# Send 2D point list around 0,0 with 3D rotation resizing and reposition around xpos ypos
#def rPolyLineOneColor(self, xy_list, c, PL , closed, xpos = 0, ypos =0, resize =1, rotx =0, roty =0 , rotz=0):
def rPolyLineOneColor(xy_list, c, PL , closed, xpos = 0, ypos =0, resize =0.7, rotx =0, roty =0 , rotz=0):
xy0 = None
for xy in xy_list:
if xy0 is None:
xy0 = xy
LineTo(Pointransf(xy0, xpos, ypos, resize, rotx, roty, rotz),0, PL)
LineTo(Pointransf(xy0, xpos, ypos, resize, rotx, roty, rotz),c, PL)
else:
LineTo(Pointransf(xy, xpos, ypos, resize, rotx, roty, rotz),c, PL)
if closed:
LineTo(Pointransf(xy0, xpos, ypos, resize, rotx, roty, rotz),c, PL)
def LinesPL(PL):
print ("Stupido !! your code is to old : use DrawPL() instead of LinesPL()")
DrawPL(PL)
def DrawPL(PL):
#print '/pl/0/'+str(PL), str(pl[PL])
if r.set('/pl/'+str(ClientNumber)+'/'+str(PL), str(pl[PL])) == True:
pl[PL] = []
return True
else:
return False
def ResetPL(self, PL):
pl[PL] = []
def DigitsDots(number,color):
dots =[]
for dot in ASCII_GRAPHICS[number]:
#print dot
dots.append((gstt.xy_center[0]+dot[0],gstt.xy_center[1]+dot[1],color))
#self.point_list.append((xy + (c,)))
return dots
def CharDots(char,color):
dots =[]
for dot in ASCII_GRAPHICS[ord(char)-46]:
dots.append((dot[0],dot[1],color))
return dots
def Text(message,c, PL, xpos, ypos, resize, rotx, roty, rotz):
dots =[]
l = len(message)
i= 0
#print message
for ch in message:
#print ""
# texte centre en x automatiquement selon le nombre de lettres l
x_offset = 26 * (- (0.9*l) + 3*i)
#print i,x_offset
if ord(ch)<58:
char_pl_list = ASCII_GRAPHICS[ord(ch) - 48]
else:
char_pl_list = ASCII_GRAPHICS[ord(ch) - 46]
char_draw = []
#dots.append((char_pl_list[0][0] + x_offset,char_pl_list[0][1],0))
for xy in char_pl_list:
char_draw.append((xy[0] + x_offset,xy[1],c))
i +=1
#print ch,char_pl_list,char_draw
rPolyLineOneColor(char_draw, c, PL , False, xpos, ypos, resize, rotx, roty, rotz)
#dots.append(char_draw)