Python for Engineers

PDF Watermark Adder

import os

from pathlib import Path

from pypdf import PdfReader, PdfWriter

from reportlab.pdfgen import canvas

from reportlab.lib.pagesizes import letter, A4

from reportlab.lib.colors import Color

import io

# ============================================================

# STEP 1: Create Text Watermark as PDF (in memory)

# ============================================================

def create_text_watermark(text, page_width, page_height,

font_size=50, opacity=0.15,

rotation=45, color=(0.5, 0.5, 0.5)):

"""

Generate a transparent diagonal text watermark

and return it as a PDF bytes object.

"""

packet = io.BytesIO()

c = canvas.Canvas(packet, pagesize=(page_width, page_height))

# Set transparency

c.setFillColor(Color(color[0], color[1], color[2], alpha=opacity))

c.setFont("Helvetica-Bold", font_size)

# Move to center of page and rotate

c.translate(page_width / 2, page_height / 2)

c.rotate(rotation)

# Draw watermark text centered

c.drawCentredString(0, 0, text)

c.save()

packet.seek(0)

return packet

# ============================================================

# STEP 2: Create Image Watermark as PDF (in memory)

# ============================================================

def create_image_watermark(image_path, page_width, page_height,

opacity=0.2, scale=0.4):

"""

Place an image watermark centered on the page.

"""

packet = io.BytesIO()

c = canvas.Canvas(packet, pagesize=(page_width, page_height))

img_width = page_width * scale

img_height = page_height * scale

x = (page_width - img_width) / 2

y = (page_height - img_height) / 2

c.setFillAlpha(opacity)

c.drawImage(image_path, x, y, width=img_width, height=img_height,

mask='auto', preserveAspectRatio=True)

c.save()

packet.seek(0)

return packet

# ============================================================

# STEP 3: Apply Watermark to Each Page

# ============================================================

def apply_watermark(input_pdf, output_pdf, watermark_packet_func,

page_range=None):

"""

Merge watermark onto each page of the input PDF.

page_range: tuple (start, end) 1-indexed inclusive, or None for all pages

"""

reader = PdfReader(input_pdf)

writer = PdfWriter()

total_pages = len(reader.pages)

print(f"\n Total pages in PDF: {total_pages}")

# Determine page range

if page_range:

start = max(0, page_range[0] - 1)

end = min(total_pages, page_range[1])

else:

start = 0

end = total_pages

for i, page in enumerate(reader.pages):

if start <= i < end:

# Get actual page dimensions

media_box = page.mediabox

page_w = float(media_box.width)

page_h = float(media_box.height)

# Create fresh watermark for this page size

wm_packet = watermark_packet_func(page_w, page_h)

wm_reader = PdfReader(wm_packet)

watermark_page = wm_reader.pages[0]

# Merge watermark onto page

page.merge_page(watermark_page)

writer.add_page(page)

with open(output_pdf, "wb") as f:

writer.write(f)

print(f" Watermarked PDF saved: {output_pdf}")

# ============================================================

# STEP 4: Batch Watermark Multiple PDFs

# ============================================================

def batch_watermark(folder_path, watermark_func, suffix="_watermarked"):

folder = Path(folder_path)

pdf_files = list(folder.glob("*.pdf"))

if not pdf_files:

print(" No PDF files found in folder.")

return

print(f"\n Found {len(pdf_files)} PDF(s) — processing...")

for pdf in pdf_files:

output_name = pdf.stem + suffix + ".pdf"

output_path = pdf.parent / output_name

try:

apply_watermark(str(pdf), str(output_path), watermark_func)

except Exception as e:

print(f" ⚠ Error processing {pdf.name}: {e}")

# ============================================================

# HELPER: Get Page Range Input

# ============================================================

def get_page_range(total_hint="all"):

choice = input(f"\nApply watermark to all pages or specific range? (all/range) [{total_hint}]: ").strip().lower()

if choice == "range":

start = int(input(" Start page (1-indexed): ").strip())

end = int(input(" End page: ").strip())

return (start, end)

return None

# ============================================================

# MAIN MENU

# ============================================================

def main():

print("\n" + "="*55)

print(" PDF WATERMARK ADDER")

print("="*55)

print("\nMode:")

print(" 1. Add TEXT watermark to single PDF")

print(" 2. Add IMAGE watermark to single PDF")

print(" 3. Batch TEXT watermark (entire folder)")

mode = input("\nEnter choice (1/2/3): ").strip()

# ---- Single PDF Modes ----

if mode in ["1", "2"]:

input_pdf = input("\nEnter input PDF path: ").strip()

if not os.path.isfile(input_pdf):

print(" Invalid file path!")

return

default_out = Path(input_pdf).stem + "_watermarked.pdf"

output_pdf = input(f"Output PDF name [{default_out}]: ").strip() or default_out

page_range = get_page_range()

if mode == "1":

# --- Text Watermark Settings ---

text = input("\nWatermark text (e.g. CONFIDENTIAL): ").strip() or "CONFIDENTIAL"

font_size = int(input("Font size (default 50): ").strip() or 50)

opacity = float(input("Opacity 0.0-1.0 (default 0.15): ").strip() or 0.15)

rotation = float(input("Rotation angle (default 45): ").strip() or 45)

print("\nColor options: 1=Gray 2=Red 3=Blue 4=Black")

color_choice = input("Choose color (default 1): ").strip() or "1"

colors = {

"1": (0.5, 0.5, 0.5),

"2": (0.8, 0.1, 0.1),

"3": (0.1, 0.1, 0.8),

"4": (0.0, 0.0, 0.0)

}

color = colors.get(color_choice, (0.5, 0.5, 0.5))

def watermark_func(w, h):

return create_text_watermark(

text, w, h,

font_size=font_size,

opacity=opacity,

rotation=rotation,

color=color

)

else:

# --- Image Watermark Settings ---

image_path = input("\nEnter image path (.png/.jpg): ").strip()

if not os.path.isfile(image_path):

print(" Invalid image path!")

return

opacity = float(input("Opacity 0.0-1.0 (default 0.2): ").strip() or 0.2)

scale = float(input("Image scale 0.1-1.0 (default 0.4): ").strip() or 0.4)

def watermark_func(w, h):

return create_image_watermark(

image_path, w, h,

opacity=opacity,

scale=scale

)

apply_watermark(input_pdf, output_pdf, watermark_func, page_range)

# ---- Batch Mode ----

elif mode == "3":

folder = input("\nEnter folder path containing PDFs: ").strip()

if not os.path.isdir(folder):

print(" Invalid folder!")

return

text = input("Watermark text (e.g. DRAFT): ").strip() or "DRAFT"

font_size = int(input("Font size (default 60): ").strip() or 60)

opacity = float(input("Opacity 0.0-1.0 (default 0.15): ").strip() or 0.15)

rotation = float(input("Rotation angle (default 45): ").strip() or 45)

def watermark_func(w, h):

return create_text_watermark(text, w, h,

font_size=font_size,

opacity=opacity,

rotation=rotation)

batch_watermark(folder, watermark_func)

else:

print(" Invalid choice.")

return

print("\n" + "="*55)

print(" All done! Your watermarked PDF(s) are ready.")

print("="*55 + "\n")

# ============================================================

# RUN

# ============================================================

if __name__ == "__main__":

main()

Bulk File Renamer

import os

import re

import shutil

from pathlib import Path

from datetime import datetime

# ============================================================

# UTILITY: List Files in Folder

# ============================================================

def list_files(folder, extension_filter=None):

files = []

for f in sorted(Path(folder).iterdir()):

if f.is_file():

if extension_filter:

if f.suffix.lower() == extension_filter.lower():

files.append(f)

else:

files.append(f)

return files

# ============================================================

# MODE 1: Add Prefix / Suffix

# ============================================================

def rename_prefix_suffix(files, prefix="", suffix=""):

renamed = []

for f in files:

stem = f.stem # filename without extension

ext = f.suffix # .jpg, .txt etc.

new_name = f"{prefix}{stem}{suffix}{ext}"

new_path = f.parent / new_name

renamed.append((f, new_path))

return renamed

# ============================================================

# MODE 2: Sequential Numbering

# ============================================================

def rename_sequential(files, base_name="file", start=1, padding=3):

renamed = []

for i, f in enumerate(files, start=start):

ext = f.suffix

number = str(i).zfill(padding)

new_name = f"{base_name}_{number}{ext}"

new_path = f.parent / new_name

renamed.append((f, new_path))

return renamed

# ============================================================

# MODE 3: Find & Replace in Filename

# ============================================================

def rename_find_replace(files, find_text, replace_text):

renamed = []

for f in files:

new_name = f.name.replace(find_text, replace_text)

new_path = f.parent / new_name

renamed.append((f, new_path))

return renamed

# ============================================================

# MODE 4: Regex-Based Rename

# ============================================================

def rename_regex(files, pattern, replacement):

renamed = []

for f in files:

try:

new_name = re.sub(pattern, replacement, f.name)

new_path = f.parent / new_name

renamed.append((f, new_path))

except re.error as e:

print(f" ⚠ Regex error for {f.name}: {e}")

return renamed

# ============================================================

# MODE 5: Add Date Stamp

# ============================================================

def rename_add_date(files, position="prefix"):

today = datetime.today().strftime("%Y%m%d")

renamed = []

for f in files:

stem = f.stem

ext = f.suffix

if position == "prefix":

new_name = f"{today}_{stem}{ext}"

else:

new_name = f"{stem}_{today}{ext}"

new_path = f.parent / new_name

renamed.append((f, new_path))

return renamed

# ============================================================

# PREVIEW & CONFIRM

# ============================================================

def preview_changes(renamed):

print("\n" + "-"*60)

print(f"{'ORIGINAL':<30} {'NEW NAME':<30}")

print("-"*60)

for old, new in renamed:

print(f"{old.name:<30} {new.name:<30}")

print("-"*60)

def apply_rename(renamed, dry_run=False):

success = 0

skipped = 0

for old, new in renamed:

if old == new:

skipped += 1

continue

if new.exists():

print(f" ⚠ Skipped (already exists): {new.name}")

skipped += 1

continue

if not dry_run:

old.rename(new)

success += 1

if dry_run:

print(f"\n Dry Run Complete: {success} files would be renamed, {skipped} skipped.")

else:

print(f"\n Done! {success} files renamed, {skipped} skipped.")

# ============================================================

# BACKUP (Optional)

# ============================================================

def backup_folder(folder):

backup_path = str(folder) + "_backup_" + datetime.today().strftime("%Y%m%d_%H%M%S")

shutil.copytree(folder, backup_path)

print(f" Backup created: {backup_path}")

# ============================================================

# MAIN MENU

# ============================================================

def main():

print("\n" + "="*55)

print(" BULK FILE RENAMER")

print("="*55)

# --- Folder Path ---

folder = input("\nEnter folder path: ").strip()

if not os.path.isdir(folder):

print(" Invalid folder path!")

return

# --- Optional Extension Filter ---

ext_filter = input("Filter by extension? (e.g. .jpg) or press Enter for all: ").strip()

if not ext_filter:

ext_filter = None

files = list_files(folder, ext_filter)

if not files:

print(" No files found!")

return

print(f"\n Found {len(files)} file(s) in '{folder}'")

# --- Optional Backup ---

backup = input("\nCreate backup before renaming? (y/n): ").strip().lower()

if backup == "y":

backup_folder(folder)

# --- Choose Mode ---

print("\nChoose Rename Mode:")

print(" 1. Add Prefix / Suffix")

print(" 2. Sequential Numbering")

print(" 3. Find & Replace")

print(" 4. Regex Pattern")

print(" 5. Add Date Stamp")

choice = input("\nEnter choice (1-5): ").strip()

renamed = []

if choice == "1":

prefix = input("Enter prefix (or leave blank): ").strip()

suffix = input("Enter suffix (or leave blank): ").strip()

renamed = rename_prefix_suffix(files, prefix, suffix)

elif choice == "2":

base = input("Enter base name (e.g. photo): ").strip()

start = int(input("Start number (default 1): ").strip() or 1)

padding = int(input("Number padding digits (default 3): ").strip() or 3)

renamed = rename_sequential(files, base, start, padding)

elif choice == "3":

find = input("Find text: ").strip()

replace = input("Replace with: ").strip()

renamed = rename_find_replace(files, find, replace)

elif choice == "4":

print(" Example pattern: (\\d+) → matches numbers")

pattern = input("Regex pattern: ").strip()

replacement = input("Replacement: ").strip()

renamed = rename_regex(files, pattern, replacement)

elif choice == "5":

pos = input("Add date as prefix or suffix? (prefix/suffix): ").strip().lower()

if pos not in ["prefix", "suffix"]:

pos = "prefix"

renamed = rename_add_date(files, pos)

else:

print(" Invalid choice.")

return

if not renamed:

print(" No files to rename.")

return

# --- Preview ---

preview_changes(renamed)

# --- Dry Run or Apply ---

mode = input("\nChoose action:\n 1. Apply rename\n 2. Dry run (preview only)\nChoice: ").strip()

if mode == "1":

apply_rename(renamed, dry_run=False)

else:

apply_rename(renamed, dry_run=True)

# ============================================================

# RUN

# ============================================================

if __name__ == "__main__":

main()

AI Study Planner Generator

import pandas as pd

from datetime import datetime, timedelta

import math

# ============================================================

# STEP 1: Input Syllabus Topics

# ============================================================

def get_syllabus():

print("\n" + "="*55)

print("AI STUDY PLANNER GENERATOR")

print("="*55)

print("\nEnter your syllabus topics.")

print("Format: topic name, difficulty (1=Easy, 2=Medium, 3=Hard)")

print("Type 'done' when finished.\n")

topics = []

while True:

entry = input("Topic (name, difficulty): ").strip()

if entry.lower() == "done":

break

parts = entry.split(",")

if len(parts) != 2:

print(" Please enter: topic name, difficulty (1/2/3)")

continue

name = parts[0].strip()

try:

difficulty = int(parts[1].strip())

if difficulty not in [1, 2, 3]:

raise ValueError

except ValueError:

print(" Difficulty must be 1, 2, or 3")

continue

topics.append({"topic": name, "difficulty": difficulty})

return topics

# ============================================================

# STEP 2: Get Deadline

# ============================================================

def get_deadline():

while True:

date_str = input("\nEnter exam/deadline date (DD-MM-YYYY): ").strip()

try:

deadline = datetime.strptime(date_str, "%d-%m-%Y")

if deadline.date() <= datetime.today().date():

print(" Deadline must be a future date!")

continue

return deadline

except ValueError:

print(" Invalid date format. Use DD-MM-YYYY")

# ============================================================

# STEP 3: Get Daily Study Hours

# ============================================================

def get_study_hours():

while True:

try:

hours = float(input("How many hours can you study per day? "))

if hours <= 0 or hours > 16:

print(" Please enter a realistic value (0 - 16 hours)")

continue

return hours

except ValueError:

print(" Enter a valid number")

# ============================================================

# STEP 4: Calculate Time Allocation Per Topic

# ============================================================

def allocate_hours(topics, total_available_hours):

"""

Allocate hours proportionally based on difficulty.

Easy = 1x, Medium = 2x, Hard = 3x weight

"""

total_weight = sum(t["difficulty"] for t in topics)

for topic in topics:

share = topic["difficulty"] / total_weight

allocated = round(share * total_available_hours, 1)

topic["allocated_hours"] = max(allocated, 0.5) # minimum 30 min per topic

return topics

# ============================================================

# STEP 5: Generate Day-by-Day Schedule

# ============================================================

def generate_schedule(topics, start_date, deadline, daily_hours):

schedule = []

current_date = start_date

topic_queue = topics.copy()

# Buffer: keep last day free for revision

available_days = (deadline.date() - start_date.date()).days

if available_days < 1:

print("\n⚠ Not enough days! Please revise your deadline.")

return pd.DataFrame()

study_days = available_days - 1 # last day = revision

# Recalculate total available hours

total_hours = study_days * daily_hours

topic_queue = allocate_hours(topic_queue, total_hours)

for topic in topic_queue:

hours_remaining = topic["allocated_hours"]

sessions = []

while hours_remaining > 0:

if current_date.date() >= deadline.date():

break

session_hours = min(hours_remaining, daily_hours)

sessions.append({

"Date": current_date.strftime("%d-%m-%Y (%A)"),

"Topic": topic["topic"],

"Difficulty": ["", "Easy 🟢", "Medium 🟡", "Hard 🔴"][topic["difficulty"]],

"Study Hours": session_hours,

"Status": "⬜ Pending"

})

hours_remaining -= session_hours

hours_remaining = round(hours_remaining, 1)

current_date += timedelta(days=1)

schedule.extend(sessions)

# Add Revision Day

if current_date.date() <= deadline.date():

schedule.append({

"Date": deadline.strftime("%d-%m-%Y (%A)"),

"Topic": "FULL REVISION",

"Difficulty": "All Topics",

"Study Hours": daily_hours,

"Status": "Pending"

})

return pd.DataFrame(schedule)

# ============================================================

# STEP 6: Display & Export

# ============================================================

def display_plan(df, topics, deadline, daily_hours):

print("\n" + "="*55)

print(" YOUR OPTIMIZED STUDY PLAN")

print("="*55)

print(f"\nExam Date : {deadline.strftime('%d-%m-%Y')}")

print(f"Daily Hours : {daily_hours} hrs/day")

print(f" Total Topics: {len(topics)}")

print(f" Total Days : {len(df['Date'].unique())}\n")

pd.set_option("display.max_rows", None)

pd.set_option("display.max_colwidth", 35)

pd.set_option("display.width", 100)

print(df.to_string(index=False))

# Summary Table

print("\n" + "="*55)

print(" TOPIC SUMMARY")

print("="*55)

summary = pd.DataFrame(topics)[["topic", "difficulty", "allocated_hours"]]

summary.columns = ["Topic", "Difficulty (1-3)", "Hours Allocated"]

print(summary.to_string(index=False))

# Save to CSV

save = input("\n Save study plan to CSV? (y/n): ").strip().lower()

if save == "y":

filename = f"study_plan_{deadline.strftime('%d%m%Y')}.csv"

df.to_csv(filename, index=False)

print(f" Saved as: {filename}")

# ============================================================

# STEP 7: Smart Suggestions

# ============================================================

def give_tips(topics, available_days):

hard_topics = [t["topic"] for t in topics if t["difficulty"] == 3]

print("\n" + "="*55)

print(" SMART STUDY TIPS")

print("="*55)

if hard_topics:

print(f"\n⚠ Hard topics detected: {', '.join(hard_topics)}")

print(" → Schedule these in the MORNING when focus is highest.")

if available_days < len(topics):

print(f"\n⚠ You have {available_days} days for {len(topics)} topics.")

print(" → Consider grouping related topics together.")

print("\n General Tips:")

print(" • Use Pomodoro: 25 min study + 5 min break")

print(" • Review notes at the end of each session")

print(" • Mark completed topics in your saved CSV")

print(" • Keep last day for full revision only\n")

# ============================================================

# MAIN

# ============================================================

if __name__ == "__main__":

# Get inputs

topics = get_syllabus()

if not topics:

print("\n No topics entered. Exiting.")

exit()

deadline = get_deadline()

daily_hours = get_study_hours()

start_date = datetime.today().replace(hour=0, minute=0, second=0, microsecond=0) + timedelta(days=1)

available_days = (deadline.date() - start_date.date()).days

if available_days < 1:

print("\n Not enough time before deadline!")

exit()

# Generate plan

df = generate_schedule(topics, start_date, deadline, daily_hours)

if df.empty:

print("\n Could not generate plan. Check your inputs.")

exit()

# Display results

display_plan(df, topics, deadline, daily_hours)

give_tips(topics, available_days)

print("="*55)

print(" Good luck with your studies! You've got this.")

print("="*55 + "\n")

Network Packet Visualizer

from scapy.all import sniff

import matplotlib.pyplot as plt

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

# Packet Counters

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

protocol_counts = {

"TCP": 0,

"UDP": 0,

"ICMP": 0,

"Other": 0

}

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

# Packet Handler

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

def process_packet(packet):

if packet.haslayer("TCP"):

protocol_counts["TCP"] += 1

elif packet.haslayer("UDP"):

protocol_counts["UDP"] += 1

elif packet.haslayer("ICMP"):

protocol_counts["ICMP"] += 1

else:

protocol_counts["Other"] += 1

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

# Capture Packets

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

def capture_packets(packet_limit=200):

print("Capturing packets...")

sniff(prn=process_packet, count=packet_limit)

print("Capture complete.")

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

# Visualization

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

def visualize():

labels = list(protocol_counts.keys())

values = list(protocol_counts.values())

plt.figure(figsize=(6,6))

plt.pie(

values,

labels=labels,

autopct='%1.1f%%',

startangle=140

)

plt.title("Network Protocol Distribution")

plt.show()

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

# MAIN

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

if __name__ == "__main__":

capture_packets(300)

print("\nProtocol counts:")

for proto, count in protocol_counts.items():

print(f"{proto}: {count}")

visualize()

Matrix Calculator with Step-by-Step Linear Algebra

import numpy as np

import sympy as sp

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

# Input Matrix

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

def input_matrix():

rows = int(input("Enter number of rows: "))

cols = int(input("Enter number of columns: "))

matrix = []

print("Enter matrix values row by row:")

for i in range(rows):

row = list(map(float, input().split()))

matrix.append(row)

return np.array(matrix)

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

# Determinant

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

def calculate_determinant(matrix):

sym_matrix = sp.Matrix(matrix)

print("\nMatrix:")

sp.pprint(sym_matrix)

det = sym_matrix.det()

print("\nDeterminant calculation:")

print(det)

return det

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

# Matrix Inverse

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

def calculate_inverse(matrix):

sym_matrix = sp.Matrix(matrix)

print("\nMatrix:")

sp.pprint(sym_matrix)

try:

inverse = sym_matrix.inv()

print("\nInverse Matrix:")

sp.pprint(inverse)

return inverse

except:

print("Matrix is not invertible.")

return None

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

# Eigenvalues

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

def calculate_eigenvalues(matrix):

sym_matrix = sp.Matrix(matrix)

print("\nMatrix:")

sp.pprint(sym_matrix)

eigenvals = sym_matrix.eigenvals()

print("\nEigenvalues:")

for val, mult in eigenvals.items():

print(f"{val} (multiplicity {mult})")

return eigenvals

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

# MAIN

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

if __name__ == "__main__":

matrix = input_matrix()

print("\nChoose operation:")

print("1. Determinant")

print("2. Inverse")

print("3. Eigenvalues")

choice = input("Enter choice: ")

if choice == "1":

calculate_determinant(matrix)

elif choice == "2":

calculate_inverse(matrix)

elif choice == "3":

calculate_eigenvalues(matrix)

else:

print("Invalid option")

Blog Pages

PDF Watermark Adder

Bulk File Renamer

AI Study Planner Generator

Network Packet Visualizer

Matrix Calculator with Step-by-Step Linear Algebra