Learning Exercise
In C#, the null literal is used to denote the absence of a value. A nullable type is a type that allows for null values.
Prior to C# 8.0, reference types were always nullable and value types were not. A value type can be made nullable though by appending it with a question mark (?).
string nullableReferenceType = "hello";
nullableReferenceType = null; // Valid as type is nullable
int nonNullableValueType = 5;
nonNullableValueType = null; // Compile error as type is not nullable
int? nullableValueType = 5; // Define nullable value type
nullableValueType = null; // Valid as type is nullable
Accessing a member of a variable which value is null will compile fine, but result in a NullReferenceException being thrown at runtime:
string sentence = null;
// Throws NullReferenceException at runtime
sentence.Length;
To counter this common type of mistake, C# 8 allows one to opt-into a feature that makes reference types non-nullable by default:
string nonNullableReferenceType = "book";
nonNullableReferenceType = null; // Compile warning (no error!)
string? nullableReferenceType = "movie";
nullableReferenceType = null; // Valid as type is nullable
To safely work with nullable values, one should check if they are null before working with them:
string NormalizedName(string? name)
{
if (name == null)
{
return "UNKNOWN";
}
else
{
// Value is not null at this point, so no compile warning
// and no runtime NullReferenceException being thrown
return name.ToUpper();
}
}
NormalizedName(null); // => "UNKNOWN"
NormalizedName("Elisabeth"); // => "ELISABETH"
The ?? operator allows one to return a default value when the value is null:
string? name1 = "John";
name1 ?? "Paul"; // => "John"
string? name2 = null;
name2 ?? "George"; // => "George"
The ?. operator allows one to call members safely on a possibly null value:
string? fruit = "apple";
fruit?.Length; // => 5
string? vegetable = null;
vegetable?.Length; // => null
In this exercise you'll be writing code to print name badges for factory employees.
Employees have an ID, name and department name. Employee badge labels are formatted as follows: "[id] - name - DEPARTMENT". Implement the (static) Badge.Print() method to return an employee's badge label:
Badge.Print(734, "Ernest Johnny Payne", "Strategic Communication");
// => "[734] - Ernest Johnny Payne - STRATEGIC COMMUNICATION"
Note that the department should be uppercased on the label.
Due to a quirk in the computer system, new employees occasionally don't yet have an ID when they start working at the factory. As badges are required, they will receive a temporary badge without the ID prefix. Modify the (static) Badge.Print() method to support new employees that don't yet have an ID:
Badge.Print(id: null, "Jane Johnson", "Procurement");
// => "Jane Johnson - PROCUREMENT"
Even the factory's owner has to wear a badge at all times. However, an owner does not have a department. In this case, the label should print "OWNER" instead of the department name. Modify the (static) Badge.Print() method to print a label for the owner:
Badge.Print(254, "Charlotte Hale", department: null);
// => "[254] - Charlotte Hale - OWNER"
Note that it is possible for the owner to also be a new employee:
Badge.Print(id: null, "Charlotte Hale", department: null);
// => "Charlotte Hale - OWNER"
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