def exportAni():
global saved
FILE=open('animation8x8.py','w')
FILE.write('from sense_hat import SenseHat\n')
FILE.write('import time\n')
FILE.write('sh=SenseHat()\n')
FILE.write('FRAMES = [\n')
global leds
global frame_number
animation[frame_number] = copy.deepcopy(leds)
#print 'length of ani is ' + str(len(animation))
for playframe in range(1,(len(animation)+1)):
#print(playframe)
leds =[]
for x in range(0, 8):
for y in range(0, 8):
led = LED(radius=20,pos=(x, y))
leds.append(led)
for saved_led in animation[playframe]:
if saved_led.lit:
for led in leds:
if led.pos == saved_led.pos:
led.color = saved_led.color
led.lit = True
grid, png_grid = buildGrid()
FILE.write(str(grid))
FILE.write(',\n')
FILE.write(']\n')
FILE.write('for x in FRAMES:\n')
FILE.write('\t sh.set_pixels(x)\n')
FILE.write('\t time.sleep('+ str(1.0/fps) + ')\n')
FILE.close()
saved = True
def exportAni():
global saved
FILE=open('animation8x8.py','w')
FILE.write('from sense_emu import SenseHat\n')
FILE.write('import time\n')
FILE.write('sh=SenseHat()\n')
FILE.write('FRAMES = [\n')
global leds
global frame_number
animation[frame_number] = copy.deepcopy(leds)
#print 'length of ani is ' + str(len(animation))
for playframe in range(1,(len(animation)+1)):
#print(playframe)
leds =[]
for x in range(0, 8):
for y in range(0, 8):
led = LED(radius=20,pos=(x, y))
leds.append(led)
for saved_led in animation[playframe]:
if saved_led.lit:
for led in leds:
if led.pos == saved_led.pos:
led.color = saved_led.color
led.lit = True
grid, png_grid = buildGrid()
FILE.write(str(grid))
FILE.write(',\n')
FILE.write(']\n')
FILE.write('for x in FRAMES:\n')
FILE.write('\t sh.set_pixels(x)\n')
FILE.write('\t time.sleep('+ str(1.0/fps) + ')\n')
FILE.close()
saved = True
def exportAni():
global saved
FILE = open("animation8x8.py", "wb")
FILE.write("from astro_pi import AstroPi\n")
FILE.write("import time\n")
FILE.write("ap=AstroPi()\n")
FILE.write("FRAMES = [\n")
global leds
global frame_number
animation[frame_number] = copy.deepcopy(leds)
# print 'length of ani is ' + str(len(animation))
for playframe in range(1, (len(animation) + 1)):
# print(playframe)
leds = []
for x in range(0, 8):
for y in range(0, 8):
led = LED(pos=(x, y))
leds.append(led)
for saved_led in animation[playframe]:
if saved_led.lit:
for led in leds:
if led.pos == saved_led.pos:
led.color = saved_led.color
led.lit = True
grid, png_grid = buildGrid()
FILE.write(str(grid))
FILE.write(",\n")
FILE.write("]\n")
FILE.write("for x in FRAMES:\n")
FILE.write("\t ap.set_pixels(x)\n")
FILE.write("\t time.sleep(" + str(1.0 / fps) + ")\n")
FILE.close()
saved = True
def importAni():
global leds
global frame_number
with open('animation8x4.py') as ll:
line_count = sum(1 for _ in ll)
ll.close()
#animation = {}
frame_number = 1
file = open('animation8x4.py')
for r in range(4):
file.readline()
for frame in range(line_count-9):
buff = file.readline()
load_frame = buff.split('], [')
#print(load_frame)
counter = 1
uh_leds =[]
for f in load_frame:
if counter == 1:
f = f[3:]
elif counter == 64:
f = f[:-5]
elif counter%8 == 0 and counter != 64:
f = f[:-1]
elif (counter-1)%8 == 0:
f = f[1:]
y = int((counter-1)/8)
x = int((counter-1)%8)
#print(counter,x,y)
led = LED(radius=20,pos=(x, y))
#print(' x= ' + str(led.pos_x) + ' y= ' + str(led.pos_y))
#print(f)
if f == '0, 0, 0':
led.lit = False
else:
led.lit = True
f_colours = f.split(',')
#print(f_colours)
led.color = [int(f_colours[0]),int(f_colours[1]),int(f_colours[2])]
uh_leds.append(led)
counter+=1
leds = []
for pp in range(32):
leds.append(uh_leds[pp])
animation[frame_number] = copy.deepcopy(leds)
frame_number+=1
counter+=1
file.close()
def importAni():
global leds
global frame_number
with open('animation8x8.py') as ll:
line_count = sum(1 for _ in ll)
ll.close()
#animation = {}
frame_number = 1
file = open('animation8x8.py')
for r in range(3):
file.readline()
for frame in range(line_count - 8):
buff = file.readline()
load_frame = buff.split('], [')
#print load_frame
counter = 1
leds = []
for f in load_frame:
if counter == 1:
f = f[3:]
elif counter == 64:
f = f[:-5]
elif counter % 8 == 0 and counter != 64:
f = f[:-1]
elif (counter - 1) % 8 == 0:
f = f[1:]
y = int((counter - 1) / 8)
x = int((counter - 1) % 8)
#print(counter,x,y)
#print(str(counter) + ' ' + f + ' x= ' + str(x) + ' y= ' + str(y))
led = LED(radius=20, pos=(x, y))
if f == '0, 0, 0':
led.lit = False
else:
led.lit = True
f_colours = f.split(',')
#print(f_colours)
led.color = [
int(f_colours[0]),
int(f_colours[1]),
int(f_colours[2])
]
leds.append(led)
counter += 1
animation[frame_number] = copy.deepcopy(leds)
frame_number += 1
counter += 1
file.close()
def importAni():
global leds
global frame_number
with open('animation8x8.py') as ll:
line_count = sum(1 for _ in ll)
ll.close()
# start of actual good code
#animation = {}
frame_number = 1
file = open('animation8x8.py')
for r in range(line_count):
buff = file.readline()
if (buff[:2] == '[['):
load_frame = buff.split('], [')
counter = 1
leds =[]
for f in load_frame:
if counter == 1:
f = f[2:]
elif counter == 64:
f = f[:-4]
y = int((counter-1)/8)
x = int((counter-1)%8)
#print(str(counter) + ' ' + f + ' x= ' + str(x) + ' y= ' + str(y))
led = LED(radius=20,pos=(x, y))
if f == '0, 0, 0':
led.lit = False
else:
led.lit = True
f_colours = f.split(',')
#print(f_colours)
led.color = [int(f_colours[0]),int(f_colours[1]),int(f_colours[2])]
leds.append(led)
counter+=1
animation[frame_number] = copy.deepcopy(leds)
frame_number+=1
counter+=1
##### end of actual good code
file.close()
def importAni():
global leds
global frame_number
with open('animation8x8.py') as ll:
line_count = sum(1 for _ in ll)
ll.close()
#animation = {}
frame_number = 1
file = open('animation8x8.py')
for r in range(4):
file.readline()
for frame in range(line_count-8):
buff = file.readline()
load_frame = buff.split('], [')
counter = 1
leds =[]
for f in load_frame:
if counter == 1:
f = f[2:]
elif counter == 64:
f = f[:-4]
y = int((counter-1)/8)
x = int((counter-1)%8)
#print(str(counter) + ' ' + f + ' x= ' + str(x) + ' y= ' + str(y))
led = LED(radius=20,pos=(x, y))
if f == '0, 0, 0':
led.lit = False
else:
led.lit = True
f_colours = f.split(',')
#print(f_colours)
led.color = [int(f_colours[0]),int(f_colours[1]),int(f_colours[2])]
leds.append(led)
counter+=1
animation[frame_number] = copy.deepcopy(leds)
frame_number+=1
counter+=1
file.close()
def play(): global leds global frame_number animation[frame_number] = copy.deepcopy(leds) #print 'length of ani is ' + str(len(animation)) for playframe in range(1,(len(animation)+1)): #print(playframe) leds =[] for x in range(0, 8): for y in range(0, 8): led = LED(pos=(x, y)) leds.append(led) for saved_led in animation[playframe]: if saved_led.lit: for led in leds: if led.pos == saved_led.pos: led.color = saved_led.color led.lit = True piLoad() time.sleep(1.0/fps)
def play(): global leds global frame_number animation[frame_number] = copy.deepcopy(leds) #print 'length of ani is ' + str(len(animation)) for playframe in range(1,(len(animation)+1)): #print(playframe) leds =[] for x in range(0, 8): for y in range(0, 8): led = LED(radius=20,pos=(x, y)) leds.append(led) for saved_led in animation[playframe]: if saved_led.lit: for led in leds: if led.pos == saved_led.pos: led.color = saved_led.color led.lit = True piLoad() time.sleep(1.0/fps)
def start_animation():
global animation_process
global saved
FILE=open('/home/pi/RPi_8x8GridDraw/animation8x8.py','wb')
FILE.write('from sense_hat import AstroPi\n')
FILE.write('import time\n')
FILE.write('ap=AstroPi()\n')
FILE.write('FRAMES = [\n')
global leds
global frame_number
animation[frame_number] = copy.deepcopy(leds)
#print 'length of ani is ' + str(len(animation))
for playframe in range(1,(len(animation)+1)):
#print(playframe)
leds =[]
for x in range(0, 8):
for y in range(0, 8):
led = LED(pos=(x, y))
leds.append(led)
for saved_led in animation[playframe]:
if saved_led.lit:
for led in leds:
if led.pos == saved_led.pos:
led.color = saved_led.color
led.lit = True
grid, png_grid = buildGrid()
FILE.write(str(grid))
FILE.write(',\n')
FILE.write(']\n')
FILE.write('while True:\n')
FILE.write('\tfor x in FRAMES:\n')
FILE.write('\t\tap.set_pixels(x)\n')
FILE.write('\t\ttime.sleep('+ str(1.0/fps) + ')\n')
FILE.close()
saved = True
if animation_process is not None:
animation_process.terminate()
animation_process = subprocess.Popen(["python", "/home/pi/RPi_8x8GridDraw/animation8x8.py"])