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Project: Customer Analytics: Preparing Data for Modeling
A common problem when creating models to generate business value from data is that the datasets can be so large that it can take days for the model to generate predictions. Ensuring that your dataset is stored as efficiently as possible is crucial for allowing these models to run on a more reasonable timescale without having to reduce the size of the dataset.
You've been hired by a major online data science training provider called Training Data Ltd. to clean up one of their largest customer datasets. This dataset will eventually be used to predict whether their students are looking for a new job or not, information that they will then use to direct them to prospective recruiters.
You've been given access to customer_train.csv, which is a subset of their entire customer dataset, so you can create a proof-of-concept of a much more efficient storage solution. The dataset contains anonymized student information, and whether they were looking for a new job or not during training:
| Column | Description |
|---|---|
student_id | A unique ID for each student. |
city | A code for the city the student lives in. |
city_development_index | A scaled development index for the city. |
gender | The student's gender. |
relevant_experience | An indicator of the student's work relevant experience. |
enrolled_university | The type of university course enrolled in (if any). |
education_level | The student's education level. |
major_discipline | The educational discipline of the student. |
experience | The student's total work experience (in years). |
company_size | The number of employees at the student's current employer. |
company_type | The type of company employing the student. |
last_new_job | The number of years between the student's current and previous jobs. |
training_hours | The number of hours of training completed. |
job_change | An indicator of whether the student is looking for a new job (1) or not (0). |
# Import necessary libraries
import pandas as pd
import numpy as np
from pandas.api.types import CategoricalDtype
# Load the dataset
ds_jobs = pd.read_csv("customer_train.csv")
# View the dataset
ds_jobs.head()
# Create a copy of ds_jobs for transforming
ds_jobs_transformed = ds_jobs.copy()
#Ordering by year as string
experience_order = [str(i) for i in range(1, 21)] + [">21"]
experience_dtype = CategoricalDtype(categories=experience_order, ordered=True)
#Ordering by company size
company_size_order = [
'<10', '10/49', '50-99', '100-500', '500-999',
'1000-4999', '5000-9999', '10000+'
]
company_size_dtype = CategoricalDtype(categories=company_size_order, ordered=True)
#Ordering by enrolled university
enrolled_uni_order = ['no_enrollment', 'Part time course', 'Full time course']
enrolled_uni_dtype = CategoricalDtype(categories=enrolled_uni_order, ordered=True)
#Ordering the education level
education_level_order = ['Primary School', 'High School', 'Graduate', 'Masters', 'PhD']
education_level_dtype = CategoricalDtype(categories=education_level_order, ordered=True)
#Ordering the last new job
last_new_job_order = ['never', '1', '2', '3', '4', '>4']
last_new_job_dtype = CategoricalDtype(categories=last_new_job_order, ordered=True)
#FILTERING THE DATASET
#Defining the reqyured experience and company size condition
valid_experience = [str(i) for i in range(10, 21)] + ['>20']
large_companies = ['1000-4999', '5000-9999', '10000+']
#filtering out the dataset based on the conditions
ds_jobs_transformed = ds_jobs_transformed[(ds_jobs_transformed["experience"].isin(valid_experience)) & ds_jobs_transformed["company_size"].isin(large_companies)]
#COvERTING THE DATA TYPES
#Boolean data types
ds_jobs_transformed['gender'] = ds_jobs_transformed['gender'].map({'Male': True, 'Female': False})
ds_jobs_transformed['relevant_experience'] = ds_jobs_transformed['relevant_experience'].map({
'Has relevent experience': True,
'No relevent experience': False
}).astype("bool")
ds_jobs_transformed['job_change'] = ds_jobs_transformed['job_change'].astype(bool)
#Integers to int32
ds_jobs_transformed['training_hours'] = ds_jobs_transformed['training_hours'].astype(np.int32)
ds_jobs_transformed['student_id'] = ds_jobs_transformed['student_id'].astype(np.int32)
ds_jobs_transformed['city_development_index'] = ds_jobs_transformed['city_development_index'].astype(np.float16)
#Converting to Norminal category
nominal_cols = ['city', 'company_type', 'major_discipline', 'gender']
for col in nominal_cols:
ds_jobs_transformed[col] = ds_jobs_transformed[col].astype('category')
#CONVERTING THE CATEGORICAL COLUMNS
ds_jobs_transformed['experience'] = ds_jobs_transformed['experience'].astype(experience_dtype)
ds_jobs_transformed['company_size'] = ds_jobs_transformed['company_size'].astype(company_size_dtype)
ds_jobs_transformed['enrolled_university'] = ds_jobs_transformed['enrolled_university'].astype(enrolled_uni_dtype)
ds_jobs_transformed['education_level'] = ds_jobs_transformed['education_level'].astype(education_level_dtype)
ds_jobs_transformed['last_new_job'] = ds_jobs_transformed['last_new_job'].astype(last_new_job_dtype)
ds_jobs_transformed.info()