Palmer-Turley-SC

src/cityreader/cityreader.py

@@ -1,6 +1,15 @@
 # Create a class to hold a city location. Call the class "City". It should have
 # fields for name, lat and lon (representing latitude and longitude).
 
+class City():
+  def __init__(self, name, lat, lon):
+    self.name = name
+    self.lat = lat
+    self.lon = lon
+
+  def __repr__(self):
+    return f'<City: {self.name}, {self.lat}, {self.lon}>'
+
 
 # We have a collection of US cities with population over 750,000 stored in the
 # file "cities.csv". (CSV stands for "comma-separated values".)
@@ -14,21 +23,27 @@
 #
 # Note that the first line of the CSV is header that describes the fields--this
 # should not be loaded into a City object.
+
 cities = []
 
+
 def cityreader(cities=[]):
-  # TODO Implement the functionality to read from the 'cities.csv' file
-  # Ensure that the lat and lon valuse are all floats
-  # For each city record, create a new City instance and add it to the 
-  # `cities` list
-
-    return cities
+  import csv
+  fields = [] 
+  rows = []
+  with open('src\cityreader\cities.csv', newline='') as csvfile:
+    cityfile = csv.reader(csvfile)
+    fields = next(cityfile) 
+    for row in cityfile:
+      cities.append(City(row[0], float(row[3]), float(row[4])))
+  return cities
 
 cityreader(cities)
 
 # Print the list of cities (name, lat, lon), 1 record per line.
 for c in cities:
-    print(c)
+  print(c)
+
 
 # STRETCH GOAL!
 #

src/comp/comp.py

@@ -24,48 +24,48 @@ def __repr__(self):
 # Write a list comprehension that creates a list of names of everyone
 # whose name starts with 'D':
 print("Starts with D:")
-a = []
+a = [person.name for person in humans if person.name[0] == 'D']
 print(a)
 
 # Write a list comprehension that creates a list of names of everyone
 # whose name ends in "e".
 print("Ends with e:")
-b = []
+b = [person.name for person in humans if person.name[-1] == 'e']
 print(b)
 
 # Write a list comprehension that creates a list of names of everyone
 # whose name starts with any letter between 'C' and 'G' inclusive.
 print("Starts between C and G, inclusive:")
-c = []
+c = [person.name for person in humans if person.name[0] in ['C','D','E','F','G']]
 print(c)
 
 # Write a list comprehension that creates a list of all the ages plus 10.
 print("Ages plus 10:")
-d = []
+d = [person.age + 10 for person in humans]
 print(d)
 
 # Write a list comprehension that creates a list of strings which are the name
 # joined to the age with a hyphen, for example "David-31", for all humans.
 print("Name hyphen age:")
-e = []
+e = [person.name + '-' + str(person.age) for person in humans]
 print(e)
 
 # Write a list comprehension that creates a list of tuples containing name and
 # age, for example ("David", 31), for everyone between the ages of 27 and 32,
 # inclusive.
 print("Names and ages between 27 and 32:")
-f = []
+f = [(person.name, person.age) for person in humans if 27 <= person.age <= 32]
 print(f)
 
 # Write a list comprehension that creates a list of new Humans like the old
 # list, except with all the names uppercase and the ages with 5 added to them.
 # The "humans" list should be unmodified.
 print("All names uppercase:")
-g = []
+g = [Human(person.name.upper(), person.age + 5) for person in humans]
 print(g)
 
 # Write a list comprehension that contains the square root of all the ages.
 print("Square root of ages:")
 import math
-h = []
+h = [math.sqrt(person.age) for person in humans]
 print(h)

src/oop/oop1.py

@@ -17,3 +17,28 @@
 #     pass
 #
 # Put a comment noting which class is the base class
+
+# base class
+class Vehicle():
+    pass
+
+# classes that inherit from vehicle
+class GroundVehicle(Vehicle):
+    pass
+
+class FlightVehicle(Vehicle):
+    pass
+
+# classes that inherit from GroundVehicle
+class Car(GroundVehicle):
+    pass
+
+class Motorcycle(GroundVehicle):
+    pass
+
+# classes that inherit from FlightVehicle
+class Airplane(FlightVehicle):
+    pass
+
+class Starship(FlightVehicle):
+    pass

src/oop/oop2.py

@@ -4,10 +4,11 @@
 # object is constructed.
 
 class GroundVehicle():
-    def __init__(self, num_wheels):
+    def __init__(self, num_wheels=4):
         self.num_wheels = num_wheels
 
-    # TODO
+    def drive(self):
+        return 'vroooom'
 
 
 # Subclass Motorcycle from GroundVehicle.
@@ -17,7 +18,12 @@ def __init__(self, num_wheels):
 #
 # Override the drive() method in Motorcycle so that it returns "BRAAAP!!"
 
-# TODO
+class Motorcycle(GroundVehicle):
+    def __init__(self):
+        super().__init__(2)
+
+    def drive(self):
+        return 'BRAAAP!!'
 
 vehicles = [
     GroundVehicle(),
@@ -29,4 +35,5 @@ def __init__(self, num_wheels):
 
 # Go through the vehicles list and print the result of calling drive() on each.
 
-# TODO
+for vehicle in vehicles:
+    print(vehicle.drive())