uke1.py

@@ -1,110 +0,0 @@
-# Task 1
-def task1():
-    name = input("Enter your name here:")
-    print(f"What's up {name}!")
-
-# Task 2
-def putinframe(text):
-    l = len(text)
-    print("-"*(l+6))
-    print("‖"+" "*(l+4) + "‖")
-    print("‖"+ "  " + text + "  "+ "‖")
-    print("‖"+" "*(l+4) + "‖")
-    print("-"*(l+6))
-
-def task2():
-    name = input("Type your name:")
-    putinframe(f"Have a lovely day {name}!")
-
-
-# Task 3
-def square_table(c1, c2, c3):
-    t = "{:^10}|{:^10}|{:^10}|\n".format(c1[0],c2[0],c3[0])
-    t += ("-"*len(t)+"\n")
-    for n in range(1, len(c1)):
-        t += ("{:^10}|{:^10}|{:^10}|\n".format(c1[n],c2[n],c3[n]))
-    return(t)
-
-def task3():
-    n_list = ["x"]
-    sq_list = ["x²"]
-    cube_list = ["x³"]
-    for n in range(11):
-        n_list.append(n)
-        sq_list.append(n**2)
-        cube_list.append(n**3)
-    print(square_table(n_list, sq_list, cube_list))
-
-# task 4
-def district_table(data, head):
-    # Formats the data into a nice table in a string
-    t = "{:^25}|{:^10}|\n".format(head[0],head[1])
-    t += ("-"*len(t)+"\n")
-    for n,p in data.items():
-        t += ("{:^25}|{:^10}|\n".format(n, p))
-    return(t)
-
-def task4():
-    with open('norway_municipalities_2017.csv') as f:
-        # we will make a dict where the the kei is the district and the value the population
-        d = {}
-        # assume the csv file always has a header
-        l_iter = iter(f)
-        l_iter.__next__()
-        for l in l_iter:
-            # we get a list where 0 is the kommune name, 1 is what fylke it is in and 2 is the population
-            ll = l.strip("\n").split(',')
-            name = ll[1]
-            if name in d.keys():
-                d.update({name: d.get(name) + int(ll[2])})
-            else:
-                d.update({name: int(ll[2])})
-        
-        head = ["District", "Population"]
-        res = {key: val for key, val in sorted(d.items(), key = lambda ele: ele[1], reverse=True)}
-        print(district_table(res, head))
-
-# Task 5
-
-import matplotlib.pyplot as plt
-import numpy as np
-
-def task5():
-    with open('norway_municipalities_2017.csv') as f:
-        # we will make a dict where the the kei is the district and the value the population
-        d = {}
-        # assume the csv file always has a header
-        l_iter = iter(f)
-        l_iter.__next__()
-        for l in l_iter:
-            # we get a list where 0 is the kommune name, 1 is what fylke it is in and 2 is the population
-            ll = l.strip("\n").split(',')
-            name = ll[1]
-            if name in d.keys():
-                d.update({name: d.get(name) + int(ll[2])})
-            else:
-                d.update({name: int(ll[2])})
-        
-        head = ["District", "Population"]
-        res = {key: val for key, val in sorted(d.items(), key = lambda ele: ele[1], reverse=True)}
-        
-        n = len(res.keys())
-        x = 0.5 + np.arange(n)
-        y = res.values()
-        fig, ax = plt.subplots()
-        ax.bar(res.keys(), y, edgecolor="white", linewidth=0.7)
-        ax.set(xlabel=head[0], ylabel=head[1])
-        plt.xticks(rotation = 90)
-        plt.show()
-
-if __name__ == "__main__":
-    print("Task 1:")
-    task1()
-    print("\nTask 2:")
-    task2()
-    print("\nTask 3:")
-    task3()
-    print("\nTask 4:")
-    task4()
-    print("\nTask 5:")
-    task5()

uke1/1:io.py

@@ -0,0 +1,2 @@
+name = input("Enter your name here:")
+print(f"What's up {name}!")

uke1/2:pp.py

@@ -0,0 +1,15 @@
+def putinframe(text):
+    l = len(text)
+    print(l)
+    print("෴"*(l+6))
+    print("‖"+" "*(l+4) + "‖")
+    print("‖"+ "  " + text + "  "+ "‖")
+    print("‖"+" "*(l+4) + "‖")
+    print("෴"*(l+6))
+
+def main():
+    name = input("Type yo name:")
+    putinframe(f"What's up {name}!")
+
+if __name__ == "__main__":
+    main()

uke1/3:sq_table.py

@@ -0,0 +1,18 @@
+def table(c1, c2, c3):
+    t = "{:^10}|{:^10}|{:^10}|\n".format(c1[0],c2[0],c3[0])
+    t += ("-"*len(t)+"\n")
+    for n in range(1, len(c1)):
+        t += ("{:^10}|{:^10}|{:^10}|\n".format(c1[n],c2[n],c3[n]))
+    return(t)
+def main():
+    n_list = ["x"]
+    sq_list = ["x²"]
+    cube_list = ["x³"]
+    for n in range(11):
+        n_list.append(n)
+        sq_list.append(n**2)
+        cube_list.append(n**3)
+    print(table(n_list, sq_list, cube_list))
+
+if __name__ == "__main__":
+    main() 

uke1/4:population.py

@@ -0,0 +1,30 @@
+def table(data, head):
+    # Formats the data into a nice table in a string
+    t = "{:^25}|{:^10}|\n".format(head[0],head[1])
+    t += ("-"*len(t)+"\n")
+    for n,p in data.items():
+        t += ("{:^25}|{:^10}|\n".format(n, p))
+    return(t)
+
+def main():
+    with open('norway_municipalities_2017.csv') as f:
+        # we will make a dict where the the kei is the district and the value the population
+        d = {}
+        # assume the csv file always has a header
+        l_iter = iter(f)
+        l_iter.__next__()
+        for l in l_iter:
+            # we get a list where 0 is the kommune name, 1 is what fylke it is in and 2 is the population
+            ll = l.strip("\n").split(',')
+            name = ll[1]
+            if name in d.keys():
+                d.update({name: d.get(name) + int(ll[2])})
+            else:
+                d.update({name: int(ll[2])})
+        
+        head = ["District", "Population"]
+        res = {key: val for key, val in sorted(d.items(), key = lambda ele: ele[1], reverse=True)}
+        print(table(res, head))
+
+if __name__ == "__main__":
+    main()

uke1/5:diagram.py

@@ -0,0 +1,33 @@
+import matplotlib.pyplot as plt
+import numpy as np
+
+def main():
+    with open('norway_municipalities_2017.csv') as f:
+        # we will make a dict where the the kei is the district and the value the population
+        d = {}
+        # assume the csv file always has a header
+        l_iter = iter(f)
+        l_iter.__next__()
+        for l in l_iter:
+            # we get a list where 0 is the kommune name, 1 is what fylke it is in and 2 is the population
+            ll = l.strip("\n").split(',')
+            name = ll[1]
+            if name in d.keys():
+                d.update({name: d.get(name) + int(ll[2])})
+            else:
+                d.update({name: int(ll[2])})
+        
+        head = ["District", "Population"]
+        res = {key: val for key, val in sorted(d.items(), key = lambda ele: ele[1], reverse=True)}
+        
+        n = len(res.keys())
+        x = 0.5 + np.arange(n)
+        y = res.values()
+        fig, ax = plt.subplots()
+        ax.bar(res.keys(), y, edgecolor="white", linewidth=0.7)
+        ax.set(xlabel=head[0], ylabel=head[1])
+        plt.xticks(rotation = 90)
+        plt.show()
+
+if __name__ == "__main__":
+    main()