class AnnRunner:
def __init__(self, ideal_grid):
self.gridworld = GridWorld(ideal_grid.width, ideal_grid.height, ideal_grid.gridsize)
self.gridworld.set_ideal_grid(ideal_grid)
self.printer = VirtualPrinter(10, 10, 9, 1, pygame.color.Color("darkorange"), self.gridworld)
self.camera = VisualCamera(self.gridworld, self.printer, 3)
self.ideal_camera = Camera(self.gridworld.ideal_grid, self.printer, 3)
#gui stuff
pygame.init()
width = self.gridworld.width() * self.gridworld.gridsize()
height = self.gridworld.height() * self.gridworld.gridsize()
self.window = pygame.display.set_mode((width, height))
def run(self, n):
self.printer.position = Vector(270, 150)
while True:
self.printer.setPenDown()
actual = self.camera.camera.all_cell_values()
ideal = self.ideal_camera.all_cell_values()
pattern = [i - a for i,a in zip(actual, ideal)]
result = n.propagate(pattern)
result = [int(round(x)) for x in result]
result = ''.join(map(str, result))
self.printer.v = Vector(self.get_velocity(result[:2]), self.get_velocity(result[2:]))
self.printer.simulate(1)
self.redraw()
pygame.display.update()
def get_velocity(self, instruction):
if instruction == "10":
return -100
elif instruction == "01":
return 100
else:
return 0
def redraw(self):
self.gridworld.draw(self.window)
self.printer.draw(self.window)
self.camera.draw(self.window)
def __init__(self, ideal_grid):
self.gridworld = GridWorld(ideal_grid.width, ideal_grid.height, ideal_grid.gridsize)
self.gridworld.set_ideal_grid(ideal_grid)
self.printer = VirtualPrinter(10, 10, 9, 1, pygame.color.Color("darkorange"), self.gridworld)
self.camera = VisualCamera(self.gridworld, self.printer, 3)
self.ideal_camera = Camera(self.gridworld.ideal_grid, self.printer, 3)
#gui stuff
pygame.init()
width = self.gridworld.width() * self.gridworld.gridsize()
height = self.gridworld.height() * self.gridworld.gridsize()
self.window = pygame.display.set_mode((width, height))
def __init__(self):
""" Set pygame stuff up for running the simulation."""
pygame.init()
grid = GridWorld(20, 20, 30)
ideal_grid = Grid(20, 20, 30)
ideal_grid.grid = [[1 if x <= 10 else 0 for x in range(20)] for _ in range(20)]
grid.set_ideal_grid(ideal_grid)
width = grid.width() * grid.gridsize()
height = grid.height() * grid.gridsize()
self.grid = grid
self.window = pygame.display.set_mode((width, height))
self.printer = VirtualPrinter(10, 10, 9, 1, pygame.color.Color("darkorange"), grid)
self.camera = VisualCamera(self.grid, self.printer, 3)
self.grid.draw(self.window)
def __init__(self, ideal_grid=None, ideal_grid_path=None):
""" Set pygame stuff up for running the simulation."""
assert ideal_grid or ideal_grid_path, "must provide at least one ideal grid"
self.gridworld = GridWorld(ideal_grid.width, ideal_grid.height, ideal_grid.gridsize)
self.gridworld.set_ideal_grid(ideal_grid)
self.printer = VirtualPrinter(10, 10, 9, 1, pygame.color.Color("darkorange"), self.gridworld)
self.camera = VisualCamera(self.gridworld, self.printer, 3)
self.ideal_camera = Camera(self.gridworld.ideal_grid, self.printer, 3)
#gui stuff
pygame.init()
width = self.gridworld.width() * self.gridworld.gridsize()
height = self.gridworld.height() * self.gridworld.gridsize()
self.window = pygame.display.set_mode((width, height))
class Generator:
movement_constant = 3
aquire_data = True
def __init__(self, ideal_grid=None, ideal_grid_path=None):
""" Set pygame stuff up for running the simulation."""
assert ideal_grid or ideal_grid_path, "must provide at least one ideal grid"
self.gridworld = GridWorld(ideal_grid.width, ideal_grid.height, ideal_grid.gridsize)
self.gridworld.set_ideal_grid(ideal_grid)
self.printer = VirtualPrinter(10, 10, 9, 1, pygame.color.Color("darkorange"), self.gridworld)
self.camera = VisualCamera(self.gridworld, self.printer, 3)
self.ideal_camera = Camera(self.gridworld.ideal_grid, self.printer, 3)
#gui stuff
pygame.init()
width = self.gridworld.width() * self.gridworld.gridsize()
height = self.gridworld.height() * self.gridworld.gridsize()
self.window = pygame.display.set_mode((width, height))
def generate(self, outputfile):
inputs = []
outputs = []
self.printer.setPenDown()
self.printer.v = Vector(0, 0)
self.printer.position = Vector(270, 130)
while self.aquire_data:
actual = self.camera.camera.all_cell_values()
ideal = self.ideal_camera.all_cell_values()
inputs.append([i - a for a,i in zip(actual, ideal)])
outputs.append([self.printer.v.x, self.printer.v.y])
self.act_and_refresh()
outputs = [[self.encode(x) + self.encode(y)] for x,y in outputs]
self.aquire_data = True
with open(outputfile, 'w') as output:
writer = csv.writer(output)
writer.writerow(camera_headers + output_headers)
for inval, outval in zip(inputs, outputs):
writer.writerow(inval + outval)
def encode(self, velocity):
if velocity >= 100:
return "01"
elif velocity <= -100:
return "10"
else:
return "00"
def act_and_refresh(self):
self.act_on_key_input()
self.printer.simulate(1)
self.redraw()
pygame.display.update()
def act_on_key_input(self):
for event in pygame.event.get(pygame.KEYUP):
if event.key == pygame.K_p:
self.print_all_camera_values()
keys = pygame.key.get_pressed()
if keys[pygame.K_LEFT]:
self.printer.v = Vector(-100, 0)
if keys[pygame.K_RIGHT]:
self.printer.v = Vector(100, 0)
if keys[pygame.K_UP]:
self.printer.v = Vector(0, -100)
if keys[pygame.K_DOWN]:
self.printer.v = Vector(0, 100)
if keys[pygame.K_SPACE]:
self.printer.v = Vector(0, 0)
if keys[pygame.K_q]:
self.aquire_data = False
def redraw(self):
self.gridworld.draw(self.window)
self.printer.draw(self.window)
self.camera.draw(self.window)
class Runner:
"""Runner for printer test"""
movement_constant = 3
def __init__(self):
""" Set pygame stuff up for running the simulation."""
pygame.init()
grid = GridWorld(20, 20, 30)
ideal_grid = Grid(20, 20, 30)
ideal_grid.grid = [[1 if x <= 10 else 0 for x in range(20)] for _ in range(20)]
grid.set_ideal_grid(ideal_grid)
width = grid.width() * grid.gridsize()
height = grid.height() * grid.gridsize()
self.grid = grid
self.window = pygame.display.set_mode((width, height))
self.printer = VirtualPrinter(10, 10, 9, 1, pygame.color.Color("darkorange"), grid)
self.camera = VisualCamera(self.grid, self.printer, 3)
self.grid.draw(self.window)
def run(self):
self.printer.setPenDown()
self.printer.v = Vector(0, 0)
while (True):
self.act_on_key_input()
self.printer.simulate(1)
self.redraw()
pygame.display.update()
def run_auto(self):
printer = self.printer
printer.setPenDown()
printer.position = Vector(45, 45)
printer.v = Vector(500, 0)
while printer.position.x < ((self.grid.width() - 2) * self.grid.gridsize() - 15):
self.printer.simulate(1)
self.redraw()
pygame.display.update()
printer.v = Vector(0, 500)
while printer.position.y < ((self.grid.height() -2) * self.grid.gridsize() - 15):
self.printer.simulate(1)
self.redraw()
pygame.display.update()
printer.v = Vector(-500, 0)
while printer.position.x > ((2 * self.grid.gridsize()) + 15):
self.printer.simulate(1)
self.redraw()
pygame.display.update()
def act_on_key_input(self):
for event in pygame.event.get(pygame.KEYUP):
if event.key == pygame.K_p:
self.print_all_camera_values()
keys = pygame.key.get_pressed()
if keys[pygame.K_LEFT]:
self.printer.v.x += self.movement_constant * -1
if keys[pygame.K_RIGHT]:
self.printer.v.x += self.movement_constant
if keys[pygame.K_UP]:
self.printer.v.y += self.movement_constant * -1
if keys[pygame.K_DOWN]:
self.printer.v.y += self.movement_constant
if keys[pygame.K_SPACE]:
self.printer.v = Vector(0, 0)
def print_all_camera_values(self):
val_matrix = self.camera.camera.all_cell_values()
for row in val_matrix:
output = ''
for val in row:
output += str(val) + ' '
print output
print '*' * 10
def redraw(self):
self.grid.draw(self.window)
self.printer.draw(self.window)
self.camera.draw(self.window)