Python for Engineers

Daily Habit Forecasting Using Time-Series

import pandas as pd

import matplotlib.pyplot as plt

from statsmodels.tsa.holtwinters import ExponentialSmoothing

# --------------------------------------------------

# Load & Prepare Data

# --------------------------------------------------

def load_habit_data(csv_path, habit_name):

df = pd.read_csv(csv_path)

df["date"] = pd.to_datetime(df["date"])

habit_df = df[df["habit"] == habit_name]

habit_df = habit_df.sort_values("date")

habit_df.set_index("date", inplace=True)

ts = habit_df["completed"]

return ts

# --------------------------------------------------

# Forecast Habit Completion

# --------------------------------------------------

def forecast_habit(ts, days=7):

model = ExponentialSmoothing(

ts,

trend="add",

seasonal=None,

initialization_method="estimated"

)

fitted_model = model.fit()

forecast = fitted_model.forecast(days)

return fitted_model, forecast

# --------------------------------------------------

# Risk Analysis

# --------------------------------------------------

def habit_risk_score(forecast):

avg_completion = forecast.mean()

if avg_completion < 0.4:

return "🚨 High Risk (likely to break)"

elif avg_completion < 0.7:

return "⚠️ Medium Risk"

else:

return "✅ Low Risk (stable habit)"

# --------------------------------------------------

# Visualization

# --------------------------------------------------

def plot_forecast(ts, forecast, habit_name):

plt.figure(figsize=(10, 5))

plt.plot(ts.index, ts.values, label="Past Completion", marker="o")

plt.plot(forecast.index, forecast.values, label="Forecast", linestyle="--", marker="x")

plt.ylim(-0.1, 1.1)

plt.ylabel("Habit Completed (1=yes, 0=no)")

plt.title(f"Habit Forecast: {habit_name}")

plt.legend()

plt.grid(True)

plt.show()

# --------------------------------------------------

# MAIN

# --------------------------------------------------

if __name__ == "__main__":

csv_file = input("Enter CSV file path: ").strip()

habit = input("Enter habit name (case-sensitive): ").strip()

ts = load_habit_data(csv_file, habit)

model, forecast = forecast_habit(ts, days=7)

risk = habit_risk_score(forecast)

print("\n📊 HABIT FORECAST REPORT")

print("------------------------")

print(f"Habit: {habit}")

print(f"Next 7-day average completion: {forecast.mean():.2f}")

print(f"Risk Level: {risk}")

plot_forecast(ts, forecast, habit)

Local Password Strength Analyzer

import tkinter as tk

from tkinter import ttk

import math

import re

# ---------------------------

# Heuristics & helpers

# ---------------------------

COMMON_PASSWORDS = {

"password", "123456", "123456789", "qwerty", "abc123",

"letmein", "welcome", "admin", "iloveyou", "monkey"

}

SEQUENCES = [

"abcdefghijklmnopqrstuvwxyz",

"ABCDEFGHIJKLMNOPQRSTUVWXYZ",

"0123456789",

"qwertyuiop", "asdfghjkl", "zxcvbnm"

]

def shannon_entropy(password: str) -> float:

"""Approximate entropy based on character sets used."""

pool = 0

if re.search(r"[a-z]", password): pool += 26

if re.search(r"[A-Z]", password): pool += 26

if re.search(r"\d", password): pool += 10

if re.search(r"[^\w\s]", password): pool += 32 # symbols

if pool == 0:

return 0.0

return len(password) * math.log2(pool)

def has_repeats(password: str) -> bool:

return bool(re.search(r"(.)\1{2,}", password)) # aaa, 111

def has_sequence(password: str) -> bool:

p = password

for seq in SEQUENCES:

for i in range(len(seq) - 3):

if seq[i:i+4] in p:

return True

return False

def keyboard_walk(password: str) -> bool:

walks = ["qwerty", "asdf", "zxcv", "poiuy", "lkjhg", "mnbv"]

p = password.lower()

return any(w in p for w in walks)

def analyze_password(password: str):

issues = []

score = 0

# Length

if len(password) < 8:

issues.append("Too short (minimum 8 characters).")

else:

score += min(20, (len(password) - 7) * 3)

# Character classes

classes = 0

classes += bool(re.search(r"[a-z]", password))

classes += bool(re.search(r"[A-Z]", password))

classes += bool(re.search(r"\d", password))

classes += bool(re.search(r"[^\w\s]", password))

score += classes * 10

if classes < 3:

issues.append("Use at least 3 character types (upper/lower/digits/symbols).")

# Entropy

ent = shannon_entropy(password)

score += min(30, int(ent / 3)) # cap contribution

if ent < 40:

issues.append("Low entropy. Add length and variety.")

# Patterns

if password.lower() in COMMON_PASSWORDS:

issues.append("Common password detected.")

score -= 30

if has_repeats(password):

issues.append("Repeated characters detected (e.g., 'aaa').")

score -= 10

if has_sequence(password):

issues.append("Sequential pattern detected (e.g., 'abcd', '1234').")

score -= 10

if keyboard_walk(password):

issues.append("Keyboard pattern detected (e.g., 'qwerty').")

score -= 10

score = max(0, min(100, score))

if score >= 80:

verdict = "Strong"

elif score >= 60:

verdict = "Good"

elif score >= 40:

verdict = "Weak"

else:

verdict = "Very Weak"

return {

"score": score,

"verdict": verdict,

"entropy": round(ent, 1),

"issues": issues

}

# ---------------------------

# GUI

# ---------------------------

class App(tk.Tk):

def __init__(self):

super().__init__()

self.title("Local Password Strength Analyzer")

self.geometry("520x420")

self.resizable(False, False)

ttk.Label(self, text="Enter Password:", font=("Arial", 12)).pack(pady=10)

self.pw = ttk.Entry(self, show="*", width=40)

self.pw.pack()

self.show_var = tk.BooleanVar(value=False)

ttk.Checkbutton(self, text="Show password", variable=self.show_var,

command=self.toggle_show).pack(pady=5)

ttk.Button(self, text="Analyze", command=self.run).pack(pady=10)

self.score_lbl = ttk.Label(self, text="Score: —", font=("Arial", 12, "bold"))

self.score_lbl.pack()

self.ent_lbl = ttk.Label(self, text="Entropy: — bits")

self.ent_lbl.pack(pady=5)

self.verdict_lbl = ttk.Label(self, text="Verdict: —", font=("Arial", 12))

self.verdict_lbl.pack(pady=5)

ttk.Label(self, text="Feedback:", font=("Arial", 11, "bold")).pack(pady=8)

self.feedback = tk.Text(self, height=8, width=60, wrap="word")

self.feedback.pack(padx=10)

def toggle_show(self):

self.pw.config(show="" if self.show_var.get() else "*")

def run(self):

pwd = self.pw.get()

res = analyze_password(pwd)

self.score_lbl.config(text=f"Score: {res['score']}/100")

self.ent_lbl.config(text=f"Entropy: {res['entropy']} bits")

self.verdict_lbl.config(text=f"Verdict: {res['verdict']}")

self.feedback.delete("1.0", "end")

if res["issues"]:

for i in res["issues"]:

self.feedback.insert("end", f"• {i}\n")

else:

self.feedback.insert("end", "No issues found. Great password!")

if __name__ == "__main__":

App().mainloop()

Image Duplicate Finder (Hash-Based)

import os

import tkinter as tk

from tkinter import filedialog, ttk, messagebox

from PIL import Image, ImageTk

import imagehash

class ImageDuplicateFinder:

def __init__(self, root):

self.root = root

self.root.title("Image Duplicate Finder (Hash-Based)")

self.root.geometry("900x600")

self.image_hash_map = {}

self.duplicates = []

self.setup_ui()

# ---------------------------------------------------------

def setup_ui(self):

top_frame = tk.Frame(self.root)

top_frame.pack(fill=tk.X, pady=10)

tk.Button(top_frame, text="Select Folder", command=self.select_folder).pack(side=tk.LEFT, padx=10)

tk.Button(top_frame, text="Scan for Duplicates", command=self.scan_duplicates).pack(side=tk.LEFT, padx=10)

self.result_tree = ttk.Treeview(self.root, columns=("img1", "img2"), show="headings")

self.result_tree.heading("img1", text="Image 1")

self.result_tree.heading("img2", text="Duplicate Image")

self.result_tree.pack(fill="both", expand=True, pady=10)

self.result_tree.bind("<Double-1>", self.show_preview)

# ---------------------------------------------------------

def select_folder(self):

self.folder_path = filedialog.askdirectory()

if self.folder_path:

messagebox.showinfo("Selected Folder", self.folder_path)

# ---------------------------------------------------------

def scan_duplicates(self):

if not hasattr(self, "folder_path"):

messagebox.showerror("Error", "Please select a folder first!")

return

self.image_hash_map = {}

self.duplicates = []

self.result_tree.delete(*self.result_tree.get_children())

supported_ext = (".jpg", ".jpeg", ".png", ".bmp")

for filename in os.listdir(self.folder_path):

if filename.lower().endswith(supported_ext):

full_path = os.path.join(self.folder_path, filename)

try:

img = Image.open(full_path)

img_hash = imagehash.average_hash(img)

if img_hash in self.image_hash_map:

self.duplicates.append((self.image_hash_map[img_hash], full_path))

else:

self.image_hash_map[img_hash] = full_path

except Exception as e:

print("Error loading:", filename, e)

# Show results in table

for dup in self.duplicates:

self.result_tree.insert("", tk.END, values=dup)

if not self.duplicates:

messagebox.showinfo("Result", "No duplicates found!")

else:

messagebox.showinfo("Result", f"Found {len(self.duplicates)} duplicate pairs.")

# ---------------------------------------------------------

def show_preview(self, event):

selected = self.result_tree.focus()

if not selected:

return

img1_path, img2_path = self.result_tree.item(selected, "values")

self.preview_window(img1_path, img2_path)

# ---------------------------------------------------------

def preview_window(self, img1_path, img2_path):

win = tk.Toplevel(self.root)

win.title("Duplicate Image Preview")

win.geometry("850x450")

tk.Label(win, text=f"Image 1: {os.path.basename(img1_path)}", font=("Arial", 10)).pack(pady=5)

tk.Label(win, text=f"Image 2: {os.path.basename(img2_path)}", font=("Arial", 10)).pack(pady=5)

frame = tk.Frame(win)

frame.pack(expand=True)

# Load images

img1 = Image.open(img1_path).resize((350, 350))

img2 = Image.open(img2_path).resize((350, 350))

img1_tk = ImageTk.PhotoImage(img1)

img2_tk = ImageTk.PhotoImage(img2)

left_label = tk.Label(frame, image=img1_tk)

left_label.image = img1_tk

left_label.pack(side=tk.LEFT, padx=10)

right_label = tk.Label(frame, image=img2_tk)

right_label.image = img2_tk

right_label.pack(side=tk.RIGHT, padx=10)

# ---------------------------------------------------------

# RUN APP

# ---------------------------------------------------------

root = tk.Tk()

app = ImageDuplicateFinder(root)

root.mainloop()

Smart PDF Page Extractor

import fitz # PyMuPDF

import tkinter as tk

from tkinter import filedialog, messagebox, ttk

from PIL import Image, ImageTk

class PDFExtractorApp:

def __init__(self, root):

self.root = root

self.root.title("Smart PDF Page Extractor")

self.root.geometry("900x600")

self.pdf_doc = None

self.page_images = []

self.selected_pages = []

self.create_ui()

# -------------------------------------------------------------

# UI SETUP

# -------------------------------------------------------------

def create_ui(self):

top_frame = tk.Frame(self.root)

top_frame.pack(fill=tk.X, pady=10)

tk.Button(top_frame, text="Open PDF", command=self.open_pdf).pack(side=tk.LEFT, padx=10)

tk.Button(top_frame, text="Extract Selected", command=self.extract_pages).pack(side=tk.LEFT, padx=10)

tk.Button(top_frame, text="Save New PDF", command=self.save_new_pdf).pack(side=tk.LEFT, padx=10)

self.canvas = tk.Canvas(self.root, bg="white")

self.scroll_y = tk.Scrollbar(self.root, orient="vertical", command=self.canvas.yview)

self.canvas.configure(yscrollcommand=self.scroll_y.set)

self.frame = tk.Frame(self.canvas)

self.canvas.create_window((0, 0), window=self.frame, anchor="nw")

self.canvas.pack(side=tk.LEFT, fill="both", expand=True)

self.scroll_y.pack(side=tk.RIGHT, fill="y")

self.frame.bind("<Configure>", lambda e: self.canvas.configure(scrollregion=self.canvas.bbox("all")))

# -------------------------------------------------------------

# OPEN PDF

# -------------------------------------------------------------

def open_pdf(self):

filepath = filedialog.askopenfilename(

filetypes=[("PDF Files", "*.pdf")],

title="Choose a PDF"

)

if not filepath:

return

try:

self.pdf_doc = fitz.open(filepath)

self.load_pages()

except Exception as e:

messagebox.showerror("Error", f"Failed to open PDF:\n{e}")

# -------------------------------------------------------------

# LOAD AND DISPLAY PAGE THUMBNAILS

# -------------------------------------------------------------

def load_pages(self):

for widget in self.frame.winfo_children():

widget.destroy()

self.selected_pages = []

self.page_images = []

for page_num in range(len(self.pdf_doc)):

page = self.pdf_doc.load_page(page_num)

pix = page.get_pixmap(matrix=fitz.Matrix(0.3, 0.3)) # thumbnail scale

image = Image.frombytes("RGB", [pix.width, pix.height], pix.samples)

img_tk = ImageTk.PhotoImage(image)

self.page_images.append(img_tk)

page_frame = tk.Frame(self.frame, bd=2, relief="groove")

page_frame.pack(padx=10, pady=10, anchor="w")

label = tk.Label(page_frame, image=img_tk)

label.pack()

tk.Label(page_frame, text=f"Page {page_num + 1}", font=("Arial", 12, "bold")).pack()

btn = tk.Button(

page_frame,

text="Select",

command=lambda n=page_num: self.toggle_page(n)

)

btn.pack(pady=5)

# -------------------------------------------------------------

# SELECT / UNSELECT PAGE

# -------------------------------------------------------------

def toggle_page(self, page_num):

if page_num in self.selected_pages:

self.selected_pages.remove(page_num)

messagebox.showinfo("Page Unselected", f"Page {page_num + 1} removed.")

else:

self.selected_pages.append(page_num)

messagebox.showinfo("Page Selected", f"Page {page_num + 1} selected.")

# -------------------------------------------------------------

# EXTRACT SELECTED PAGES

# -------------------------------------------------------------

def extract_pages(self):

if not self.selected_pages:

messagebox.showerror("Error", "No pages selected!")

return

self.selected_pages.sort()

messagebox.showinfo("Selected Pages", f"Extracting pages: {[p+1 for p in self.selected_pages]}")

# -------------------------------------------------------------

# SAVE NEW PDF WITH SELECTED PAGES

# -------------------------------------------------------------

def save_new_pdf(self):

if not self.selected_pages:

messagebox.showerror("Error", "Select pages before saving!")

return

output_path = filedialog.asksaveasfilename(

defaultextension=".pdf",

filetypes=[("PDF Files", "*.pdf")],

title="Save Extracted PDF"

)

if not output_path:

return

try:

new_pdf = fitz.open()

for page_num in self.selected_pages:

new_pdf.insert_pdf(self.pdf_doc, from_page=page_num, to_page=page_num)

new_pdf.save(output_path)

new_pdf.close()

messagebox.showinfo("Success", "New PDF saved successfully!")

except Exception as e:

messagebox.showerror("Error", f"Failed to save PDF:\n{e}")

# -------------------------------------------------------------

# RUN APP

# -------------------------------------------------------------

root = tk.Tk()

app = PDFExtractorApp(root)

root.mainloop()

Offline Travel Expense Splitter App

import tkinter as tk

from tkinter import ttk, messagebox

import sqlite3

from fpdf import FPDF

# ---------------------------------------------------

# DATABASE SETUP

# ---------------------------------------------------

conn = sqlite3.connect("travel_expenses.db")

cursor = conn.cursor()

cursor.execute("""

CREATE TABLE IF NOT EXISTS members (

id INTEGER PRIMARY KEY AUTOINCREMENT,

name TEXT NOT NULL

)

""")

cursor.execute("""

CREATE TABLE IF NOT EXISTS expenses (

id INTEGER PRIMARY KEY AUTOINCREMENT,

member_id INTEGER,

description TEXT,

amount REAL,

FOREIGN KEY(member_id) REFERENCES members(id)

)

""")

conn.commit()

# ---------------------------------------------------

# MAIN APPLICATION

# ---------------------------------------------------

class TravelExpenseApp:

def __init__(self, root):

self.root = root

self.root.title("Travel Expense Splitter")

self.root.geometry("600x500")

self.create_ui()

# ------------------------ UI ------------------------

def create_ui(self):

tab_control = ttk.Notebook(self.root)

self.tab_members = ttk.Frame(tab_control)

self.tab_expenses = ttk.Frame(tab_control)

self.tab_summary = ttk.Frame(tab_control)

tab_control.add(self.tab_members, text="Members")

tab_control.add(self.tab_expenses, text="Expenses")

tab_control.add(self.tab_summary, text="Summary")

tab_control.pack(expand=1, fill="both")

self.setup_members_tab()

self.setup_expenses_tab()

self.setup_summary_tab()

# ------------------------ MEMBERS TAB ------------------------

def setup_members_tab(self):

tk.Label(self.tab_members, text="Add Member", font=("Arial", 14)).pack(pady=10)

self.member_entry = tk.Entry(self.tab_members, font=("Arial", 12))

self.member_entry.pack(pady=5)

tk.Button(self.tab_members, text="Add Member", command=self.add_member).pack(pady=10)

self.members_list = tk.Listbox(self.tab_members, width=40, height=10)

self.members_list.pack(pady=10)

self.load_members()

def add_member(self):

name = self.member_entry.get()

if not name:

messagebox.showerror("Error", "Please enter a name!")

return

cursor.execute("INSERT INTO members (name) VALUES (?)", (name,))

conn.commit()

self.member_entry.delete(0, tk.END)

self.load_members()

def load_members(self):

self.members_list.delete(0, tk.END)

cursor.execute("SELECT name FROM members")

for row in cursor.fetchall():

self.members_list.insert(tk.END, row[0])

# ------------------------ EXPENSE TAB ------------------------

def setup_expenses_tab(self):

tk.Label(self.tab_expenses, text="Add Expense", font=("Arial", 14)).pack(pady=10)

tk.Label(self.tab_expenses, text="Select Member:").pack()

self.member_dropdown = ttk.Combobox(self.tab_expenses, state="readonly")

self.member_dropdown.pack(pady=5)

self.load_member_dropdown()

tk.Label(self.tab_expenses, text="Description:").pack()

self.desc_entry = tk.Entry(self.tab_expenses, font=("Arial", 12))

self.desc_entry.pack(pady=5)

tk.Label(self.tab_expenses, text="Amount:").pack()

self.amount_entry = tk.Entry(self.tab_expenses, font=("Arial", 12))

self.amount_entry.pack(pady=5)

tk.Button(self.tab_expenses, text="Add Expense", command=self.add_expense).pack(pady=10)

self.expense_tree = ttk.Treeview(self.tab_expenses, columns=("member", "desc", "amount"), show="headings")

self.expense_tree.heading("member", text="Member")

self.expense_tree.heading("desc", text="Description")

self.expense_tree.heading("amount", text="Amount")

self.expense_tree.pack(fill="both", expand=True)

self.load_expenses()

def load_member_dropdown(self):

cursor.execute("SELECT name FROM members")

members = [row[0] for row in cursor.fetchall()]

self.member_dropdown["values"] = members

def add_expense(self):

member = self.member_dropdown.get()

desc = self.desc_entry.get()

amount = self.amount_entry.get()

if not member or not desc or not amount:

messagebox.showerror("Error", "All fields are required!")

return

try:

amount = float(amount)

except:

messagebox.showerror("Error", "Amount must be a number!")

return

cursor.execute("SELECT id FROM members WHERE name=?", (member,))

member_id = cursor.fetchone()[0]

cursor.execute("INSERT INTO expenses (member_id, description, amount) VALUES (?, ?, ?)",

(member_id, desc, amount))

conn.commit()

self.desc_entry.delete(0, tk.END)

self.amount_entry.delete(0, tk.END)

self.load_expenses()

def load_expenses(self):

for i in self.expense_tree.get_children():

self.expense_tree.delete(i)

cursor.execute("""

SELECT members.name, expenses.description, expenses.amount

FROM expenses

JOIN members ON expenses.member_id = members.id

""")

for row in cursor.fetchall():

self.expense_tree.insert("", tk.END, values=row)

# ------------------------ SUMMARY TAB ------------------------

def setup_summary_tab(self):

tk.Label(self.tab_summary, text="Expense Summary", font=("Arial", 14)).pack(pady=10)

tk.Button(self.tab_summary, text="Calculate Summary", command=self.calculate_summary).pack(pady=10)

tk.Button(self.tab_summary, text="Export PDF", command=self.export_pdf).pack(pady=10)

self.summary_box = tk.Text(self.tab_summary, height=20, width=70)

self.summary_box.pack()

def calculate_summary(self):

cursor.execute("SELECT COUNT(*) FROM members")

num_members = cursor.fetchone()[0]

cursor.execute("SELECT SUM(amount) FROM expenses")

total_expense = cursor.fetchone()[0] or 0

split_amount = total_expense / num_members if num_members > 0 else 0

self.summary_box.delete(1.0, tk.END)

self.summary_box.insert(tk.END, f"Total Expense: ₹{total_expense:.2f}\n")

self.summary_box.insert(tk.END, f"Each Person Should Pay: ₹{split_amount:.2f}\n\n")

cursor.execute("""

SELECT members.name, SUM(expenses.amount)

FROM members

LEFT JOIN expenses ON members.id = expenses.member_id

GROUP BY members.name

""")

for name, paid in cursor.fetchall():

paid = paid or 0

diff = paid - split_amount

status = "owes" if diff < 0 else "gets back"

self.summary_box.insert(tk.END, f"{name}: Paid ₹{paid:.2f} → {status} ₹{abs(diff):.2f}\n")

# ------------------------ PDF EXPORT ------------------------

def export_pdf(self):

pdf = FPDF()

pdf.add_page()

pdf.set_font("Arial", size=12)

pdf.cell(200, 10, "Travel Expense Summary", ln=True, align="C")

pdf.ln(10)

summary_text = self.summary_box.get(1.0, tk.END).split("\n")

for line in summary_text:

pdf.cell(0, 10, txt=line, ln=True)

pdf.output("Travel_Expense_Summary.pdf")

messagebox.showinfo("Success", "PDF Exported Successfully!")

# ------------------------ RUN APP ------------------------

root = tk.Tk()

app = TravelExpenseApp(root)

root.mainloop()

Blog Pages

Daily Habit Forecasting Using Time-Series

Local Password Strength Analyzer

Image Duplicate Finder (Hash-Based)

Smart PDF Page Extractor

Offline Travel Expense Splitter App