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fcc-medical-data-visualizer

Assignment
In this project, you will visualize and make calculations from medical examination data using matplotlib, seaborn, and pandas. The dataset values were collected during medical examinations.

Data description
The rows in the dataset represent patients and the columns represent information like body measurements, results from various blood tests, and lifestyle choices. You will use the dataset to explore the relationship between cardiac disease, body measurements, blood markers, and lifestyle choices.

File name: medical_examination.csv

Feature Variable Type Variable Value Type
Age Objective Feature age int (days)
Height Objective Feature height int (cm)
Weight Objective Feature weight float (kg)
Gender Objective Feature gender categorical code
Systolic blood pressure Examination Feature ap_hi int
Diastolic blood pressure Examination Feature ap_lo int
Cholesterol Examination Feature cholesterol 1: normal, 2: above normal, 3: well above normal
Glucose Examination Feature gluc 1: normal, 2: above normal, 3: well above normal
Smoking Subjective Feature smoke binary
Alcohol intake Subjective Feature alco binary
Physical activity Subjective Feature active binary
Presence or absence of cardiovascular disease Target Variable cardio binary
Tasks
Create a chart similar to examples/Figure_1.png, where we show the counts of good and bad outcomes for the cholesterol, gluc, alco, active, and smoke variables for patients with cardio=1 and cardio=0 in different panels.

Use the data to complete the following tasks in medical_data_visualizer.py:

Add an overweight column to the data. To determine if a person is overweight, first calculate their BMI by dividing their weight in kilograms by the square of their height in meters. If that value is > 25 then the person is overweight. Use the value 0 for NOT overweight and the value 1 for overweight.
Normalize the data by making 0 always good and 1 always bad. If the value of cholesterol or gluc is 1, make the value 0. If the value is more than 1, make the value 1.
Convert the data into long format and create a chart that shows the value counts of the categorical features using seaborn's catplot(). The dataset should be split by 'Cardio' so there is one chart for each cardio value. The chart should look like examples/Figure_1.png.
Clean the data. Filter out the following patient segments that represent incorrect data:
diastolic pressure is higher than systolic (Keep the correct data with (df['ap_lo'] <= df['ap_hi']))
height is less than the 2.5th percentile (Keep the correct data with (df['height'] >= df['height'].quantile(0.025)))
height is more than the 97.5th percentile
weight is less than the 2.5th percentile
weight is more than the 97.5th percentile
Create a correlation matrix using the dataset. Plot the correlation matrix using seaborn's heatmap(). Mask the upper triangle. The chart should look like examples/Figure_2.png.
Any time a variable is set to None, make sure to set it to the correct code.

Unit tests are written for you under test_module.py.

Development
For development, you can use main.py to test your functions. Click the "run" button and main.py will run.

!pip install jovian --upgrade --quiet
import jovian
# Execute this to save new versions of the notebook
jovian.commit(project="fcc-medical-data-visualizer")
[jovian] Attempting to save notebook.. [jovian] Updating notebook "anishrkulkarni282/fcc-medical-data-visualizer" on https://jovian.ai [jovian] Uploading notebook.. [jovian] Uploading additional files... [jovian] Committed successfully! https://jovian.ai/anishrkulkarni282/fcc-medical-data-visualizer