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# -*- coding: utf-8 -*-
"""Medicine Recommendation System.ipynb
Automatically generated by Colab.
Original file is located at
https://colab.research.google.com/drive/14_xuicBiGfCSaq81L12iVQ2rMCUTxXHC
# Title: Personalized Medical Recommendation System with Machine Learning
# Description:
Welcome to our cutting-edge Personalized Medical Recommendation System, a powerful platform designed to assist users in understanding and managing their health. Leveraging the capabilities of machine learning, our system analyzes user-input symptoms to predict potential diseases accurately.
# load dataset & tools
"""
import pandas as pd
dataset = pd.read_csv('Training.csv')
dataset
# vals = dataset.values.flatten()
dataset.shape
"""# train test split"""
from sklearn.model_selection import train_test_split
from sklearn.preprocessing import LabelEncoder
X = dataset.drop('prognosis', axis=1)
y = dataset['prognosis']
# ecoding prognonsis
le = LabelEncoder()
le.fit(y)
Y = le.transform(y)
X_train, X_test, y_train, y_test = train_test_split(X, Y, test_size=0.3, random_state=20)
"""# Training top models"""
from sklearn.datasets import make_classification
from sklearn.model_selection import train_test_split
from sklearn.svm import SVC
from sklearn.ensemble import RandomForestClassifier, GradientBoostingClassifier
from sklearn.neighbors import KNeighborsClassifier
from sklearn.naive_bayes import MultinomialNB
from sklearn.metrics import accuracy_score, confusion_matrix
import numpy as np
# Create a dictionary to store models
models = {
'SVC': SVC(kernel='linear'),
'RandomForest': RandomForestClassifier(n_estimators=100, random_state=42),
'GradientBoosting': GradientBoostingClassifier(n_estimators=100, random_state=42),
'KNeighbors': KNeighborsClassifier(n_neighbors=5),
'MultinomialNB': MultinomialNB()
}
# Loop through the models, train, test, and print results
for model_name, model in models.items():
# Train the model
model.fit(X_train, y_train)
# Test the model
predictions = model.predict(X_test)
# Calculate accuracy
accuracy = accuracy_score(y_test, predictions)
print(f"{model_name} Accuracy: {accuracy}")
# Calculate confusion matrix
cm = confusion_matrix(y_test, predictions)
print(f"{model_name} Confusion Matrix:")
print(np.array2string(cm, separator=', '))
print("\n" + "="*40 + "\n")
"""# single prediction"""
# selecting svc
svc = SVC(kernel='linear')
svc.fit(X_train,y_train)
ypred = svc.predict(X_test)
accuracy_score(y_test,ypred)
# save svc
import pickle
pickle.dump(svc,open('svc.pkl','wb'))
# load model
svc = pickle.load(open('svc.pkl','rb'))
# test 1:
print("predicted disease :",svc.predict(X_test.iloc[0].values.reshape(1,-1)))
print("Actual Disease :", y_test[0])
# test 2:
print("predicted disease :",svc.predict(X_test.iloc[100].values.reshape(1,-1)))
print("Actual Disease :", y_test[100])
"""# Recommendation System and Prediction
# load database and use logic for recommendations
"""
sym_des = pd.read_csv("symtoms_df.csv")
precautions = pd.read_csv("precautions_df.csv")
workout = pd.read_csv("workout_df.csv")
description = pd.read_csv("description.csv")
medications = pd.read_csv('medications.csv')
diets = pd.read_csv("diets.csv")
#============================================================
# custome and helping functions
#==========================helper funtions================
def helper(dis):
desc = description[description['Disease'] == predicted_disease]['Description']
desc = " ".join([w for w in desc])
pre = precautions[precautions['Disease'] == dis][['Precaution_1', 'Precaution_2', 'Precaution_3', 'Precaution_4']]
pre = [col for col in pre.values]
med = medications[medications['Disease'] == dis]['Medication']
med = [med for med in med.values]
die = diets[diets['Disease'] == dis]['Diet']
die = [die for die in die.values]
wrkout = workout[workout['disease'] == dis] ['workout']
return desc,pre,med,die,wrkout
symptoms_dict = {'itching': 0, 'skin_rash': 1, 'nodal_skin_eruptions': 2, 'continuous_sneezing': 3, 'shivering': 4, 'chills': 5, 'joint_pain': 6, 'stomach_pain': 7, 'acidity': 8, 'ulcers_on_tongue': 9, 'muscle_wasting': 10, 'vomiting': 11, 'burning_micturition': 12, 'spotting_ urination': 13, 'fatigue': 14, 'weight_gain': 15, 'anxiety': 16, 'cold_hands_and_feets': 17, 'mood_swings': 18, 'weight_loss': 19, 'restlessness': 20, 'lethargy': 21, 'patches_in_throat': 22, 'irregular_sugar_level': 23, 'cough': 24, 'high_fever': 25, 'sunken_eyes': 26, 'breathlessness': 27, 'sweating': 28, 'dehydration': 29, 'indigestion': 30, 'headache': 31, 'yellowish_skin': 32, 'dark_urine': 33, 'nausea': 34, 'loss_of_appetite': 35, 'pain_behind_the_eyes': 36, 'back_pain': 37, 'constipation': 38, 'abdominal_pain': 39, 'diarrhoea': 40, 'mild_fever': 41, 'yellow_urine': 42, 'yellowing_of_eyes': 43, 'acute_liver_failure': 44, 'fluid_overload': 45, 'swelling_of_stomach': 46, 'swelled_lymph_nodes': 47, 'malaise': 48, 'blurred_and_distorted_vision': 49, 'phlegm': 50, 'throat_irritation': 51, 'redness_of_eyes': 52, 'sinus_pressure': 53, 'runny_nose': 54, 'congestion': 55, 'chest_pain': 56, 'weakness_in_limbs': 57, 'fast_heart_rate': 58, 'pain_during_bowel_movements': 59, 'pain_in_anal_region': 60, 'bloody_stool': 61, 'irritation_in_anus': 62, 'neck_pain': 63, 'dizziness': 64, 'cramps': 65, 'bruising': 66, 'obesity': 67, 'swollen_legs': 68, 'swollen_blood_vessels': 69, 'puffy_face_and_eyes': 70, 'enlarged_thyroid': 71, 'brittle_nails': 72, 'swollen_extremeties': 73, 'excessive_hunger': 74, 'extra_marital_contacts': 75, 'drying_and_tingling_lips': 76, 'slurred_speech': 77, 'knee_pain': 78, 'hip_joint_pain': 79, 'muscle_weakness': 80, 'stiff_neck': 81, 'swelling_joints': 82, 'movement_stiffness': 83, 'spinning_movements': 84, 'loss_of_balance': 85, 'unsteadiness': 86, 'weakness_of_one_body_side': 87, 'loss_of_smell': 88, 'bladder_discomfort': 89, 'foul_smell_of urine': 90, 'continuous_feel_of_urine': 91, 'passage_of_gases': 92, 'internal_itching': 93, 'toxic_look_(typhos)': 94, 'depression': 95, 'irritability': 96, 'muscle_pain': 97, 'altered_sensorium': 98, 'red_spots_over_body': 99, 'belly_pain': 100, 'abnormal_menstruation': 101, 'dischromic _patches': 102, 'watering_from_eyes': 103, 'increased_appetite': 104, 'polyuria': 105, 'family_history': 106, 'mucoid_sputum': 107, 'rusty_sputum': 108, 'lack_of_concentration': 109, 'visual_disturbances': 110, 'receiving_blood_transfusion': 111, 'receiving_unsterile_injections': 112, 'coma': 113, 'stomach_bleeding': 114, 'distention_of_abdomen': 115, 'history_of_alcohol_consumption': 116, 'fluid_overload.1': 117, 'blood_in_sputum': 118, 'prominent_veins_on_calf': 119, 'palpitations': 120, 'painful_walking': 121, 'pus_filled_pimples': 122, 'blackheads': 123, 'scurring': 124, 'skin_peeling': 125, 'silver_like_dusting': 126, 'small_dents_in_nails': 127, 'inflammatory_nails': 128, 'blister': 129, 'red_sore_around_nose': 130, 'yellow_crust_ooze': 131}
diseases_list = {15: 'Fungal infection', 4: 'Allergy', 16: 'GERD', 9: 'Chronic cholestasis', 14: 'Drug Reaction', 33: 'Peptic ulcer diseae', 1: 'AIDS', 12: 'Diabetes ', 17: 'Gastroenteritis', 6: 'Bronchial Asthma', 23: 'Hypertension ', 30: 'Migraine', 7: 'Cervical spondylosis', 32: 'Paralysis (brain hemorrhage)', 28: 'Jaundice', 29: 'Malaria', 8: 'Chicken pox', 11: 'Dengue', 37: 'Typhoid', 40: 'hepatitis A', 19: 'Hepatitis B', 20: 'Hepatitis C', 21: 'Hepatitis D', 22: 'Hepatitis E', 3: 'Alcoholic hepatitis', 36: 'Tuberculosis', 10: 'Common Cold', 34: 'Pneumonia', 13: 'Dimorphic hemmorhoids(piles)', 18: 'Heart attack', 39: 'Varicose veins', 26: 'Hypothyroidism', 24: 'Hyperthyroidism', 25: 'Hypoglycemia', 31: 'Osteoarthristis', 5: 'Arthritis', 0: '(vertigo) Paroymsal Positional Vertigo', 2: 'Acne', 38: 'Urinary tract infection', 35: 'Psoriasis', 27: 'Impetigo'}
# Model Prediction function
def get_predicted_value(patient_symptoms):
input_vector = np.zeros(len(symptoms_dict))
for item in patient_symptoms:
input_vector[symptoms_dict[item]] = 1
return diseases_list[svc.predict([input_vector])[0]]
# Test 1
# Split the user's input into a list of symptoms (assuming they are comma-separated) # itching,skin_rash,nodal_skin_eruptions
symptoms = input("Enter your symptoms.......")
user_symptoms = [s.strip() for s in symptoms.split(',')]
# Remove any extra characters, if any
user_symptoms = [symptom.strip("[]' ") for symptom in user_symptoms]
predicted_disease = get_predicted_value(user_symptoms)
desc, pre, med, die, wrkout = helper(predicted_disease)
print("=================predicted disease============")
print(predicted_disease)
print("=================description==================")
print(desc)
print("=================precautions==================")
i = 1
for p_i in pre[0]:
print(i, ": ", p_i)
i += 1
print("=================medications==================")
for m_i in med:
print(i, ": ", m_i)
i += 1
print("=================workout==================")
for w_i in wrkout:
print(i, ": ", w_i)
i += 1
print("=================diets==================")
for d_i in die:
print(i, ": ", d_i)
i += 1
# Test 1
# Split the user's input into a list of symptoms (assuming they are comma-separated) # yellow_crust_ooze,red_sore_around_nose,small_dents_in_nails,inflammatory_nails,blister
symptoms = input("Enter your symptoms.......")
user_symptoms = [s.strip() for s in symptoms.split(',')]
# Remove any extra characters, if any
user_symptoms = [symptom.strip("[]' ") for symptom in user_symptoms]
predicted_disease = get_predicted_value(user_symptoms)
desc, pre, med, die, wrkout = helper(predicted_disease)
print("=================predicted disease============")
print(predicted_disease)
print("=================description==================")
print(desc)
print("=================precautions==================")
i = 1
for p_i in pre[0]:
print(i, ": ", p_i)
i += 1
print("=================medications==================")
for m_i in med:
print(i, ": ", m_i)
i += 1
print("=================workout==================")
for w_i in wrkout:
print(i, ": ", w_i)
i += 1
print("=================diets==================")
for d_i in die:
print(i, ": ", d_i)
i += 1
# let's use pycharm flask app
# but install this version in pycharm
import sklearn
print(sklearn.__version__)