Linter issues.

micropython/examples/gfx_pack/carbon_intensity.py

@@ -1,9 +1,9 @@
 '''
 carbon_intensity.py
 This example is for the Pico W with GFX Pack.
-Displays near realtime information about the different types of electricity 
-generation for a given UK postcode area.  Uses the backlight and a bar graph 
-to show the current mix of generation sources, and updates itself periodically 
+Displays near realtime information about the different types of electricity
+generation for a given UK postcode area.  Uses the backlight and a bar graph
+to show the current mix of generation sources, and updates itself periodically
 or when button E is pressed.
 Find out more about the Carbon Intensity API here:
 https://carbon-intensity.github.io/api-definitions/#carbon-intensity-api-v2-0-0
@@ -13,7 +13,6 @@ from gfx_pack import GfxPack, SWITCH_E
 from network_manager import NetworkManager
 
 import WIFI_CONFIG
-import json
 import time
 import uasyncio
 import urequests
@@ -24,17 +23,19 @@ display = gp.display
 # Replace S9 below with the first part of your postcode e.g. OX1, NG7, LS12
 CARBON_INTENSITY_URL = "https://api.carbonintensity.org.uk/regional/postcode/S9"
 # Time in seconds between automatic updates...
-CARBON_INTENSITY_UPDATE_FREQUENCY = 60       
+CARBON_INTENSITY_UPDATE_FREQUENCY = 60
 
 DISPLAY_WIDTH, DISPLAY_HEIGHT = display.get_bounds()
 sys_status = "STATUS"
 
+
 # Utility function to clear the screen.
 def clear_screen():
     display.set_pen(0)
     display.clear()
     display.set_pen(15)
-    
+
+
 # Utility function to clear a rectangular area of the screen.
 # Used to update the progress bar.
 def clear_rect(start_x, start_y, end_x, end_y, height):
@@ -42,11 +43,13 @@ def clear_rect(start_x, start_y, end_x, end_y, height):
     display.line(start_x, start_y, end_x, end_y, height)
     display.set_pen(15)
     display.update()
-    
+
+
 # Utility function to set the backlight to a given rgbw colour.
 def set_backlight(r, g, b, w):
     gp.set_backlight(r, g, b, w)
-    
+
+
 # Utility function to display text centred on the screen.
 def display_centered(text_to_display, y_pos, scale):
     width = display.measure_text(text_to_display, scale)
@@ -54,33 +57,34 @@ def display_centered(text_to_display, y_pos, scale):
     display.text(text_to_display, x_pos, y_pos, DISPLAY_WIDTH, scale)
     return x_pos
 
+
 # Read values from the API and update the display.
 def refresh_intensity_display():
     BAR_MIN_X = 50
     BAR_MAX_X = 120
     BAR_HEIGHT = 4
-    
+
     clear_screen()
     set_backlight(0, 0, 0, 80)
     display_centered("UPDATING...", 25, 2)
     display.update()
-    
+
     response_doc = urequests.get(CARBON_INTENSITY_URL).json()
-    
+
     # Get the region name
     region_name = response_doc["data"][0]["shortname"]
-    
+
     # Get the intensity index (very low, low, moderate, high, very high)
     intensity_index = response_doc["data"][0]["data"][0]["intensity"]["index"]
 
     # Pick out values from the generation mix data...
     # We want solar, wind, gas, nuclear, then other is 100% minus the total of those.
-    
+
     solar_pct = 0
     wind_pct = 0
     nuclear_pct = 0
     gas_pct = 0
-    
+
     for g in response_doc["data"][0]["data"][0]["generationmix"]:
         if g["fuel"] == "solar":
             solar_pct = g["perc"]
@@ -90,10 +94,10 @@ def refresh_intensity_display():
             gas_pct = g["perc"]
         elif g["fuel"] == "nuclear":
             nuclear_pct = g["perc"]
-            
+
     # Forms of generation that are not solar, wind, gas, nuclear...
     others_pct = 100 - solar_pct - wind_pct - nuclear_pct - gas_pct
-    
+
     # Figure out the bar lengths.
     one_percent_length = (BAR_MAX_X - BAR_MIN_X) / 100
     solar_width = round(one_percent_length * solar_pct)
@@ -101,7 +105,7 @@ def refresh_intensity_display():
     nuclear_width = round(one_percent_length * nuclear_pct)
     gas_width = round(one_percent_length * gas_pct)
     others_width = round(one_percent_length * others_pct)
-    
+
     # Sort so that the longest bar is first.
     sorted_generators = sorted([
         (solar_width, "SOLAR"),
@@ -109,8 +113,8 @@ def refresh_intensity_display():
         (nuclear_width, "NUCLEAR"),
         (gas_width, "GAS"),
         (others_width, "OTHERS")
-    ], reverse = True)
-            
+    ], reverse=True)
+
     clear_screen()
 
     # Set backlight according to carbon intensity...
@@ -132,10 +136,11 @@ def refresh_intensity_display():
         display.text(g[1], 5, v_pos, DISPLAY_WIDTH, 1)
         display.line(BAR_MIN_X, v_pos + 3, BAR_MIN_X + g[0], v_pos + 3, BAR_HEIGHT)
         v_pos += 10
-        
-    display.text("E: Update", 80, 50, DISPLAY_WIDTH, 1)   
+
+    display.text("E: Update", 80, 50, DISPLAY_WIDTH, 1)
     display.update()
 
+
 # Utility function used when connecting to wifi.
 def display_status():
     global sys_status
@@ -145,6 +150,7 @@ def display_status():
     display.text(sys_status, 0, 0, DISPLAY_WIDTH, 1)
     display.update()
 
+
 # Utility function used when connecting to wifi.
 def status_handler(mode, status, ip):
     global sys_status
@@ -159,12 +165,13 @@ def status_handler(mode, status, ip):
         else:
             print('Wifi connection failed!')
 
+
 try:
     # Attempt to connect to the wifi.
     network_manager = NetworkManager(WIFI_CONFIG.COUNTRY, status_handler=status_handler)
     uasyncio.get_event_loop().run_until_complete(network_manager.client(WIFI_CONFIG.SSID, WIFI_CONFIG.PSK))
 
-    # Update the display, then count down to the next update drawing a 
+    # Update the display, then count down to the next update drawing a
     # countdown bar periodically.  Update immediately if button E pressed.
     refresh_intensity_display()
 
@@ -175,25 +182,25 @@ try:
     
     while True:
         time.sleep(0.01)
-        
+
         if gp.switch_pressed(SWITCH_E):
             # Update immediately.
             refresh_intensity_display()
             last_updated = time.ticks_ms()
             bar_width = DISPLAY_WIDTH
-            
+
         ticks_now = time.ticks_ms()
         
         if time.ticks_diff(ticks_now, ticks_before) > BAR_UPDATE_FREQUENCY:
             bar_width = bar_width - (DISPLAY_WIDTH // CARBON_INTENSITY_UPDATE_FREQUENCY)
             ticks_before = time.ticks_ms()
-            
+
         if time.ticks_diff(ticks_now, last_updated) > CARBON_INTENSITY_UPDATE_FREQUENCY * 1000:
             # It is time for a scheduled update.
             refresh_intensity_display()
             last_updated = time.ticks_ms()
             bar_width = DISPLAY_WIDTH
-            
+
         # Update the countdown to next update bar at the bottom
         # of the screen.
         clear_rect(0, 61, DISPLAY_WIDTH, 61, 2)
@@ -202,5 +209,4 @@ try:
 
 except Exception as e:
     # Failed to connect to wifi - check credentials in WIFI_CONFIG.py
-    print(f'Wifi connection failed! {e}')
-
+    print(f'Wifi connection failed! {e}')