led-bar/test/sine_brightness.py

#!/usr/bin/env python3
"""
Test script for sine brightness pattern
Run with: mpremote run test/sine_brightness.py
"""

import patterns
import utime
from settings import Settings
from machine import WDT

def run_test_case(p, test_name, duration_ms=5000):
    """Run a test case for specified duration"""
    print(f"\n--- {test_name} ---")
    print(f"Parameters: n1={p.n1} min brightness, brightness={p.brightness} max brightness, delay={p.delay}ms wavelength")
    print(f"Color: {p.colors[0]}")
    print(f"Running for {duration_ms//1000} seconds...")
    
    # Initialize watchdog timer
    wdt = WDT(timeout=10000)
    wdt.feed()
    
    # Start pattern
    p.select("sb")
    
    # Run for specified duration
    start_time = utime.ticks_ms()
    while utime.ticks_diff(utime.ticks_ms(), start_time) < duration_ms:
        wdt.feed()
        utime.sleep_ms(100)
    
    # Stop pattern
    p.run = False
    print(f"{test_name} completed")
    
    # Brief pause between tests
    utime.sleep_ms(500)

def test_sine_brightness():
    print("Testing sine brightness pattern with multiple configurations...")
    
    # Load settings
    settings = Settings()
    
    # Initialize patterns using settings
    p = patterns.Patterns(
        pin=settings["led_pin"], 
        num_leds=settings["num_leds"], 
        brightness=255,  # Full brightness
        delay=1000  # Base wavelength
    )
    
    print(f"LED Pin: {settings['led_pin']}")
    print(f"LEDs: {settings['num_leds']}")
    print(f"Base Brightness: {p.brightness}")
    
    # Test Case 1: Slow breathing
    p.n1 = 50           # Min brightness 50
    p.brightness = 255  # Max brightness 255
    p.delay = 3000      # 3 second cycle
    p.colors = [(255, 0, 0)]  # Red
    run_test_case(p, "Test 1: Slow breathing (50-255 brightness)", 12000)
    
    # Test Case 2: Fast pulsing
    p.n1 = 100          # Min brightness 100
    p.brightness = 255  # Max brightness 255
    p.delay = 500       # 0.5 second cycle
    p.colors = [(0, 255, 0)]  # Green
    run_test_case(p, "Test 2: Fast pulsing (100-255 brightness)", 8000)
    
    # Test Case 3: Medium breathing
    p.n1 = 80           # Min brightness 80
    p.brightness = 255  # Max brightness 255
    p.delay = 1500      # 1.5 second cycle
    p.colors = [(0, 0, 255)]  # Blue
    run_test_case(p, "Test 3: Medium breathing (80-255 brightness)", 10000)
    
    # Test Case 4: Very slow breathing
    p.n1 = 150          # Min brightness 150
    p.brightness = 255  # Max brightness 255
    p.delay = 5000      # 5 second cycle
    p.colors = [(255, 255, 0)]  # Yellow
    run_test_case(p, "Test 4: Very slow breathing (150-255 brightness)", 15000)
    
    # Test Case 5: Very fast pulsing
    p.n1 = 50           # Min brightness 50
    p.brightness = 255  # Max brightness 255
    p.delay = 200       # 0.2 second cycle
    p.colors = [(255, 0, 255)]  # Magenta
    run_test_case(p, "Test 5: Very fast pulsing (50-255 brightness)", 6000)
    
    # Test Case 6: Low range, slow cycle
    p.n1 = 200          # Min brightness 200
    p.brightness = 255  # Max brightness 255
    p.delay = 4000      # 4 second cycle
    p.colors = [(0, 255, 255)]  # Cyan
    run_test_case(p, "Test 6: Low range, slow cycle (200-255 brightness)", 12000)
    
    # Test Case 7: High range, medium cycle
    p.n1 = 100          # Min brightness 100
    p.brightness = 255  # Max brightness 255
    p.delay = 1000      # 1 second cycle
    p.colors = [(255, 128, 0)]  # Orange
    run_test_case(p, "Test 7: High range, medium cycle (100-255 brightness)", 8000)
    
    # Test Case 8: Ultra fast strobe
    p.n1 = 100          # Min brightness 100
    p.brightness = 255  # Max brightness 255
    p.delay = 100       # 0.1 second cycle
    p.colors = [(128, 0, 255)]  # Purple
    run_test_case(p, "Test 8: Ultra fast strobe (100-255 brightness)", 4000)
    
    print("\n=== All tests completed ===")
    
    # Turn off LEDs
    p.off()
    print("LEDs turned off")

if __name__ == "__main__":
    test_sine_brightness()