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Changed structure

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Dlr Rpi
2025-11-06 16:20:44 +01:00
parent 7bd18d09ac
commit aeeb78bf98
5 changed files with 31 additions and 145 deletions
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12
board.py Normal file
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@@ -0,0 +1,12 @@
from adafruit_servokit import ServoKit
class Board:
def __init__(self, channels=16, frequency=50):
self.channels = channels
self.frequency = frequency
self.kit = ServoKit(channels=channels, frequency=frequency)
for i in range(CHANNELS):
kit.servo[i].set_pulse_width_range(MIN, MAX)
kit.servo[i].actuation_range = RANGE
kit.servo[i].angle = INIT

30
motor.py
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@@ -1,11 +1,5 @@
"""Helpers for building moving mirrors.""" """Helpers for building moving mirrors."""
from adafruit_servokit import ServoKit
class Board:
def __init__(self, channels=16, frequency=50):
self.kit = ServoKit(channels=channels, frequency=frequency)
class Motor: class Motor:
"""Model a type of servo motor.""" """Model a type of servo motor."""
@@ -13,42 +7,40 @@ class Motor:
MAX_PULSE = 2500 MAX_PULSE = 2500
MIN_PULSE = 500 MIN_PULSE = 500
COVERAGE = 180 # Total degree of freedom in degrees COVERAGE = 180 # Total degree of freedom in degrees
AREA = MAX_PULSE - MIN_PULSE OFFSET = 0 # In degrees a constant to be added
OFFSET = 2 # In degrees a constant to be added
SCALE = 1 # Scaling SCALE = 1 # Scaling
# Used for ids # Used for ids
count = 0 count = 0
def __init__(self, pi, pin, angle=0): def __init__(self, board, angle=0):
self.board = board
self.id = Motor.count; Motor.count += 1 self.id = Motor.count; Motor.count += 1
self.pi = pi # Local pi instance
self.pin = pin
self.angle = angle self.angle = angle
self.offset = Motor.OFFSET # Fine grained controls over every motor self.offset = Motor.OFFSET # Fine grained controls over every motor
self.coverage = Motor.COVERAGE
self.scale = Motor.SCALE self.scale = Motor.SCALE
# Initialization # Initialization
self.set() self.set()
def angle_to_pulse(self, angle):
return min(max(Motor.MIN_PULSE, (Motor.MIN_PULSE + Motor.AREA * angle/Motor.COVERAGE + self.offset) * self.scale), Motor.MAX_PULSE)
# Update the motor position on hardware # Update the motor position on hardware
def set(self): def set(self):
self.pi.set_servo_pulsewidth(self.pin, self.angle_to_pulse(self.angle)) self.board.kit.servo[self.id].angle = self.angle * self.scale + self.offset
def safe_set_angle(angle=0, sleep=0.01, offset=1):
kit.servo[NUM].angle = angle + offset
time.sleep(sleep)
kit.servo[NUM].angle = angle
def set_angle(self, angle): def set_angle(self, angle):
self.angle = angle self.angle = min(self.coverage, max(0, angle)) # Double check bad
self.set() self.set()
def __str__(self): def __str__(self):
return f"Motor {self.id} is set at {self.angle} degrees." return f"Motor {self.id} is set at {self.angle} degrees."
def __del__(self):
self.pi.set_servo_pulsewidth(self.pin, 0)
def inc(self, inc): def inc(self, inc):
self.angle += inc self.angle += inc
self.angle = min(max(self.angle, 0), Motor.COVERAGE) # Clip self.angle = min(max(self.angle, 0), Motor.COVERAGE) # Clip

72
simulation.py
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@@ -1,29 +1,17 @@
import pigpio
import RPi.GPIO as GPIO
import time import time
# Solar module for simulation of world # Solar module for simulation of world
import solar # Modeling of the world import solar # Modeling of the world
from motor import Motor # Small helper functions and constants from motor import Motor # Small helper functions and constants
from motor import Board
# Constants
SERVO1_PIN = 18
SERVO2_PIN = 19
INIT_PULSE = 0
STEP = 10 STEP = 10
LOOP_DELAY = 0.01 # In seconds LOOP_DELAY = 0.01 # In seconds
pi = pigpio.pi()
if not pi.connected:
print("Cannot connect to pigpio daemon!")
exit()
angle1 = init_motor(SERVO1_PIN)
angle2 = init_motor(SERVO2_PIN)
# Testing embedding the mirrors in the world # Testing embedding the mirrors in the world
world = solar.World(tilt_deg=15) # The world is tilted 15 degrees around y-axis board = Board()
world = solar.World(board, tilt_deg=15) # The world is tilted 15 degrees around y-axis
HEIGHT = 30 HEIGHT = 30
@@ -42,30 +30,6 @@ for i, mirror in enumerate(world.mirrors):
pitch, yaw = mirror.get_angles() pitch, yaw = mirror.get_angles()
print(f"Mirror {i} ({mirror.cluster_x}, {mirror.cluster_y}) angles -> pitch: {pitch:.2f}°, yaw: {yaw:.2f}°") print(f"Mirror {i} ({mirror.cluster_x}, {mirror.cluster_y}) angles -> pitch: {pitch:.2f}°, yaw: {yaw:.2f}°")
def sm1(a): # Set motor 1
pi.set_servo_pulsewidth(SERVO1_PIN, angle_to_pulse(a))
time.sleep(2)
angle = 150
time.sleep(10)
sm1(150)
sm1(90)
sm1(0)
sm1(180)
sm1(30)
sm1(120)
sm1(60)
sm1(30)
sm1(180)
sm1(120)
sm1(30)
sm1(150)
sm1(3)
# Main # Main
try: try:
while True: while True:
@@ -73,35 +37,7 @@ try:
if GPIO.input(SHUTDOWN_BTN) == GPIO.HIGH: if GPIO.input(SHUTDOWN_BTN) == GPIO.HIGH:
os.system("sudo shutdown now") os.system("sudo shutdown now")
pulse1 = angle_to_pulse(angle)
time.sleep(3)
angle += 10
# Motor 1
target1 = pulse1
if GPIO.input(BUTTON1_FWD):
target1 = min(MAX_PULSE, pulse1 + STEP)
elif GPIO.input(BUTTON1_BWD):
target1 = max(MIN_PULSE, pulse1 - STEP)
pulse1 = move_servo(pulse1, target1)
pi.set_servo_pulsewidth(SERVO1_PIN, pulse1)
# Motor 2
target2 = pulse2
if GPIO.input(BUTTON2_FWD):
target2 = min(MAX_PULSE, pulse2 + STEP)
elif GPIO.input(BUTTON2_BWD):
target2 = max(MIN_PULSE, pulse2 - STEP)
pulse2 = move_servo(pulse2, target2)
pi.set_servo_pulsewidth(SERVO2_PIN, pulse2)
time.sleep(LOOP_DELAY) time.sleep(LOOP_DELAY)
except KeyboardInterrupt: except KeyboardInterrupt:
pass pass
finally:
pi.set_servo_pulsewidth(SERVO1_PIN, 0)
pi.set_servo_pulsewidth(SERVO2_PIN, 0)
pi.stop()
GPIO.cleanup()

8
solar.py
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@@ -31,8 +31,8 @@ class Mirror:
self.cluster_y = cluster_y self.cluster_y = cluster_y
# Store the motors # Store the motors
self.yaw = motor.Motor(self.world.pi, yaw_pin) self.yaw = motor.Motor(self.world.board)
self.pitch = motor.Motor(self.world.pi, pitch_pin) self.pitch = motor.Motor(self.world.board)
# Position in un-tilted coordinate system # Position in un-tilted coordinate system
self.pos = (cluster_x * self.world.grid_size, cluster_y * self.world.grid_size, 0.0) self.pos = (cluster_x * self.world.grid_size, cluster_y * self.world.grid_size, 0.0)
@@ -81,8 +81,8 @@ class Mirror:
return self.yaw.angle, self.pitch.angle return self.yaw.angle, self.pitch.angle
class World: class World:
def __init__(self, pi, tilt_deg=0.0): def __init__(self, board, tilt_deg=0.0):
self.pi = pi self.board = board
self.grid_size = 10 # In cm self.grid_size = 10 # In cm
self.tilt_deg = tilt_deg # Tilt of the grid system around y-axis self.tilt_deg = tilt_deg # Tilt of the grid system around y-axis

54
test.py
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@@ -1,54 +0,0 @@
import time
from adafruit_servokit import ServoKit
# This is set to zero for the max range
OFFSET = -10
MIN = 500 + OFFSET
MAX = 2500 - OFFSET
CHANNELS = 16
RANGE = 180
INIT = 0
FREQUENCY = 50
# Setup the kit
kit = ServoKit(channels=CHANNELS, frequency=FREQUENCY)
for i in range(CHANNELS):
kit.servo[i].set_pulse_width_range(MIN, MAX)
kit.servo[i].actuation_range = RANGE
kit.servo[i].angle = INIT
time.sleep(2)
# Testing the accuracy of the lib
NUM = 8
OFFSET = 5
# Set the angle
def sa(angle=0, sleep=1.5):
print(f"Set angle of pin {NUM+1} to {angle}.")
kit.servo[NUM].angle = angle + OFFSET
time.sleep(0.01)
kit.servo[NUM].angle = angle
kit.servo[NUM].angle = angle - OFFSET
time.sleep(0.01)
kit.servo[NUM].angle = angle
time.sleep(sleep)
sa(80)
exit()
#for i in range(180):
#sa(i, 0)
#time.sleep(0.1)
# Run the actual testing
sa(10)
sa(90)
sa(30)
sa(170)
sa(60)
sa(150)
sa(90, 0)