2881. Create a New Column
Problem Description
A company has a DataFrame employees
that holds two columns: name
and salary
. The name
column is of object type and contains the names of the employees, while the salary
column is of integer type and contains each employee's salary. The task is to write a piece of code that adds a new column to the employees
DataFrame. This new column, named bonus
, is supposed to contain the doubled values of the salary
column for each employee. It is essentially a bonus calculation where each employee's bonus is twice their current salary.
Intuition
The intuition behind the solution is to take advantage of the functionality provided by the pandas library in Python to manipulate DataFrame objects. Pandas allows us to perform vectorized operations on columns, which means operations can be applied to each element of a column without the need for explicit iteration over rows.
Given that the objective is to double the salary for each employee, we can simply select the salary
column of the DataFrame and multiply its values by 2. The resulting Series (a one-dimensional array in pandas) can then be assigned to a new column called bonus
within the same DataFrame.
This is a straightforward operation, and it involves the following steps:
- Multiply the
salary
column by 2 using the*
(multiplication) operator. This operation is inherently element-wise when using pandas Series. - Assign the result of this multiplication to a new column in the DataFrame named
bonus
. This is done by settingemployees['bonus']
—which creates the new column—to the result of the multiplication.
The solution is efficient because it does not involve any explicit loops and makes full use of the features of pandas for vectorized operations on DataFrames.
Solution Approach
The solution approach for this problem is quite straightforward, thanks to Python's pandas library. Given the goal is to generate a new column named bonus
derived from the existing salary
column, we follow these steps:
- Select the
salary
column from theemployees
DataFrame. This can be done withemployees['salary']
. - Multiply the selected column by 2 to calculate the bonus. In pandas, this operation will automatically apply to each element (i.e., each salary) in the column, resulting in a new Series where each value is double the original.
- Assign this new Series to a new column in the
employees
DataFrame namedbonus
. This column is created on the fly with the assignment operation:employees['bonus'] = new_series
.
Here's an explanation of the elements and concepts used in the implementation:
-
DataFrame: A pandas DataFrame is a two-dimensional, size-mutable, and potentially heterogeneous tabular data structure with labeled axes (rows and columns). In this case,
employees
is a DataFrame representing a table of employees with columns forname
andsalary
. -
Series: A Series is a one-dimensional array capable of holding any data type. When we select a single column from a DataFrame (like
employees['salary']
), we're working with a Series. -
Element-wise Multiplication: When multiplying the
salary
Series by 2 (employees['salary'] * 2
), pandas applies the multiplication to each element of the Series, doubling every individual salary. This is an efficient vectorized operation that avoids the need for explicit looping. -
Column Assignment: By setting
employees['bonus']
equal to the doubled salaries Series, we're assigning the results of our calculation to a new column in the DataFrame calledbonus
.
In summary, the implementation uses basic pandas operations to create and calculate a new column in an existing DataFrame, demonstrating simple and effective manipulation of tabular data.
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Let's say we have the following employees
DataFrame:
name | salary |
---|---|
Alice | 70000 |
Bob | 60000 |
Charlie | 50000 |
We want to add a bonus
column where each employee's bonus equals twice their salary. Here's how we apply our solution approach:
-
We select the
salary
column from theemployees
DataFrame usingemployees['salary']
. -
We calculate the bonus by multiplying every salary by 2. For our example, this would be:
- Alice's bonus: 70000 * 2 = 140000
- Bob's bonus: 60000 * 2 = 120000
- Charlie's bonus: 50000 * 2 = 100000
This step is performed using
employees['salary'] * 2
, resulting in a Series that looks like:Series Index Value (bonus) Alice 140000 Bob 120000 Charlie 100000 -
We assign this Series to the new
bonus
column in theemployees
DataFrame. This assignment operation isemployees['bonus'] = employees['salary'] * 2
.
After executing these steps, our employees
DataFrame will be updated to include the new bonus
column, resulting in:
name | salary | bonus |
---|---|---|
Alice | 70000 | 140000 |
Bob | 60000 | 120000 |
Charlie | 50000 | 100000 |
The bonus
column reflects the doubled salary for each employee, effectively showing the desired calculation. Each step of this process leverages the power of pandas to efficiently handle and compute data in a vectorized manner without the need for explicit looping constructs.
Solution Implementation
1import pandas as pd
2
3def create_bonus_column(employees_df: pd.DataFrame) -> pd.DataFrame:
4 # Create a new column 'bonus' in the dataframe
5 # The 'bonus' is calculated as double the employee's salary
6 employees_df['bonus'] = employees_df['salary'] * 2
7
8 # Return the modified dataframe with the new 'bonus' column
9 return employees_df
10
1import java.util.List;
2import java.util.stream.Collectors;
3
4// Assuming Employee is a predefined class with at least two fields: name and salary.
5class Employee {
6 private String name;
7 private double salary;
8 private double bonus;
9
10 // Getter and setter methods for name, salary, and bonus
11 public String getName() {
12 return name;
13 }
14
15 public void setName(String name) {
16 this.name = name;
17 }
18
19 public double getSalary() {
20 return salary;
21 }
22
23 public void setSalary(double salary) {
24 this.salary = salary;
25 }
26
27 public double getBonus() {
28 return bonus;
29 }
30
31 public void setBonus(double bonus) {
32 this.bonus = bonus;
33 }
34
35 // Constructor
36 public Employee(String name, double salary) {
37 this.name = name;
38 this.salary = salary;
39 this.bonus = 0; // bonus initialized to 0
40 }
41}
42
43public class EmployeeBonusCalculator {
44
45 /**
46 * Creates a bonus field for each employee and sets it to double their salary.
47 *
48 * @param employees List of Employee objects
49 * @return The list with updated Employee objects including the bonus
50 */
51 public List<Employee> createBonusColumn(List<Employee> employees) {
52 // Loop through each employee in the list and calculate their bonus
53 List<Employee> updatedEmployees = employees.stream().map(employee -> {
54 // Calculate the bonus as double the employee's salary
55 double bonus = employee.getSalary() * 2;
56
57 // Set the bonus to the employee's record
58 employee.setBonus(bonus);
59 return employee;
60 }).collect(Collectors.toList());
61
62 // Return the list with updated employees
63 return updatedEmployees;
64 }
65}
66
1#include <iostream>
2#include <vector>
3#include <map>
4#include <string>
5
6typedef std::map<std::string, std::string> EmployeeRow;
7typedef std::vector<EmployeeRow> DataFrame;
8
9DataFrame CreateBonusColumn(DataFrame employees_df) {
10 // Iterate through each employee entry in the dataframe
11 for (auto& employee : employees_df) {
12 // Assume 'salary' is stored as a string, convert it to a double to perform the calculation
13 double salary = std::stod(employee["salary"]);
14
15 // Double the salary to determine the bonus
16 double bonus = salary * 2;
17
18 // Store the bonus back in the row, converting it to a string
19 employee["bonus"] = std::to_string(bonus);
20 }
21
22 // Return the modified dataframe with the new 'bonus' column
23 return employees_df;
24}
25
26int main() {
27 // Example usage:
28 // Create a sample dataframe with employee salaries
29 DataFrame employees_df = {
30 {{"name", "Alice"}, {"salary", "50000"}},
31 {{"name", "Bob"}, {"salary", "60000"}},
32 {{"name", "Charlie"}, {"salary", "55000"}}
33 };
34
35 // Add bonus column to the dataframe
36 employees_df = CreateBonusColumn(employees_df);
37
38 // Print the result to check the 'bonus' column
39 for (const auto& employee : employees_df) {
40 std::cout << "Name: " << employee.at("name")
41 << ", Salary: " << employee.at("salary")
42 << ", Bonus: " << employee.at("bonus") << std::endl;
43 }
44
45 return 0;
46}
47
1// Define an interface to represent the structure of an employee object
2interface Employee {
3 salary: number;
4 // Additional properties can be defined here if they exist
5 // For example, name, id, department, etc.
6 // ...
7 bonus?: number; // The bonus property is optional because it will be added later
8}
9
10// Function to create a bonus property for each employee
11function createBonusColumn(employees: Employee[]): Employee[] {
12 // Iterate over the array of employee objects
13 employees.forEach(employee => {
14 // Calculate the bonus as double the employee's salary and assign it to the 'bonus' property
15 employee.bonus = employee.salary * 2;
16 });
17
18 // Return the modified array of employee objects with the new 'bonus' property added
19 return employees;
20}
21
22// Example usage:
23// const employees: Employee[] = [{ salary: 30000 }, { salary: 40000 }];
24// const updatedEmployees = createBonusColumn(employees);
25// console.log(updatedEmployees);
26
Time and Space Complexity
The time complexity of the function is O(n)
, where n
is the number of rows in the employees
DataFrame. This is because the operation employees['salary'] * 2
is applied to each row to calculate the bonus.
The space complexity of the function is O(n)
, assuming that the creation of an additional column represents new memory allocation proportional to the number of rows in the DataFrame. If the bonus values are stored as a separate array before being assigned to the DataFrame, this would still entail O(n)
additional space.
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