Code detector: A high-efficiency AI Code Analyzer with python ...

This AI code detector online provides intelligent, multilingual code analysis. It can quickly identify errors, inefficiencies, and potential security risks, helping developers improve code quality and gain deeper insights into performance and structure—all in a time-saving way.

I tested with website default sample and works like this:

Detection Result

78% AI

Likelihood of AI Generation: 78%

The code exhibits strong AI-generation characteristics including textbook-style implementation, generic naming, absence of production-grade features like error handling or optimization, and a templated comment that matches the code without adding context. This is highly likely an AI-generated educational example.

Naming Style:

• Function and variable names follow standard textbook conventions ('fibonacci', 'n', 'i'), which are typical for educational or AI-generated code examples rather than production code with business context.

Comment Style:

• The comment 'Calculate fibonacci sequence' is generic and descriptive of what the code does without providing business context, rationale, or edge case documentation—characteristic of AI-generated explanatory comments.

Structural Integrity:

• The code implements the classic recursive Fibonacci algorithm exactly as found in computer science textbooks, with no optimizations, memoization, or error handling that would be present in real-world implementations.

Business Footprints Missing:

• No input validation, no error handling for negative numbers or non-integers, no performance considerations, and uses a hardcoded loop limit of 10 without any business justification or configurability.

Typical AI Pattern:

• This is a textbook implementation of recursive Fibonacci often used in AI training data and coding tutorials, with the exact pattern of: simple base case, recursive call, and demonstration loop with magic number 10.

See this online tool on this webpage.

Python 3.13.0 : Motion extraction from video with python programming.

... based on this video - Motion Extraction with python source code.

• 1. Temporal Displacement
  Let V(t) represent the video frame at the current time t.
  A secondary reference frame is generated at time t + Δt, where Δt is the defined time delay (shift).
• 2. Absolute Difference Calculation
  For every pixel coordinate (x, y), the algorithm calculates the absolute difference between the two points in time:
  D(x,y) = | V(x,y,t) - V(x,y,t + Δt) |
• 3. Result Interpretation
  • Static Areas: If the pixel value remains constant, the result is 0 (Black).
  • Motion: If the pixel value changes, the result is a positive integer > 0 (the "ghosting" trail).
• 4. Signal Amplification (Contrast)
  The raw difference values are multiplied by a constant factor k to make faint motion visible:
  Output(x,y) = D(x,y) × k

News : examples with rich python package.

Python's Rich package is a tool kit that helps you generate beautifully formatted and highlighted text in the console.

Let's see some examples:

Run the source code with these args --demo and --dashboard:

import time
import sys
import logging
import argparse
import msvcrt  # Windows keyboard input

from rich.console import Console
from rich.table import Table
from rich.panel import Panel
from rich.progress import Progress, SpinnerColumn, BarColumn, TextColumn
from rich.syntax import Syntax
from rich.layout import Layout
from rich.live import Live
from rich.theme import Theme
from rich.logging import RichHandler

# ---------------------------------------------------------
# 1. DARK THEME
# ---------------------------------------------------------
dark_theme = Theme({
    "info": "bold cyan",
    "warning": "bold yellow",
    "error": "bold red",
    "success": "bold green",
    "title": "bold magenta",
    "data": "bold white",
})

console = Console(theme=dark_theme)

# ---------------------------------------------------------
# 2. LOGGING (RichHandler)
# ---------------------------------------------------------
logging.basicConfig(
    level="INFO",
    format="%(message)s",
    datefmt="[%H:%M:%S]",
    handlers=[RichHandler(console=console)]
)
log = logging.getLogger("CLI")

# ---------------------------------------------------------
# 3. CLI ARGUMENTS
# ---------------------------------------------------------
def parse_args():
    parser = argparse.ArgumentParser(
        description="Rich CLI + Dashboard + Menu + Buttons"
    )
    parser.add_argument("--demo", action="store_true", help="Run the demo")
    parser.add_argument("--dashboard", action="store_true", help="Start the dashboard")
    return parser.parse_args()

# ---------------------------------------------------------
# 4. WINDOWS KEY READER
# ---------------------------------------------------------
def get_key():
    if msvcrt.kbhit():
        return msvcrt.getch().decode(errors="ignore")
    return None

# ---------------------------------------------------------
# 5. MENU + BUTTONS
# ---------------------------------------------------------
menu_items = ["Statistics", "Processes", "Settings", "Exit"]
selected = 0

def render_menu():
    table = Table(show_header=False, expand=True)
    for i, item in enumerate(menu_items):
        if i == selected:
            table.add_row(f"[black on cyan] {item} [/]")
        else:
            table.add_row(f"[cyan] {item} [/]")
    return Panel(table, title="Menu", border_style="cyan")

def render_content():
    if menu_items[selected] == "Statistics":
        return Panel("CPU: 37%\nRAM: 62%\nDisk: 128MB/s", title="System Statistics")

    elif menu_items[selected] == "Processes":
        return Panel("proc1\nproc2\nproc3", title="Running Processes")

    elif menu_items[selected] == "Settings":
        return Panel("Settings will appear here", title="Settings")

    elif menu_items[selected] == "Exit":
        return Panel("[red]Press ENTER to exit[/red]", title="Exit")

# ---------------------------------------------------------
# 6. DASHBOARD LAYOUT (original + menu added)
# ---------------------------------------------------------
def build_dashboard():
    layout = Layout()

    layout.split(
        Layout(name="header", size=3),
        Layout(name="body", ratio=1),
        Layout(name="footer", size=3),
    )

    layout["body"].split_row(
        Layout(name="left", size=30),
        Layout(name="right")
    )

    layout["header"].update(
        Panel("[title]LIVE DASHBOARD — Rich Dark Mode[/title]", style="bold magenta")
    )

    layout["left"].update(render_menu())
    layout["right"].update(render_content())

    layout["footer"].update(
        Panel("[info]Status: Running in real time[/info]")
    )

    return layout

# ---------------------------------------------------------
# 7. DEMO (unchanged from first script)
# ---------------------------------------------------------
def run_demo():
    console.print("[success]Rich Dark Mode Demo Started[/success]")

    table = Table(title="Example Table", expand=True)
    table.add_column("ID", style="yellow")
    table.add_column("Name", style="cyan")
    table.add_column("Status", style="green")

    table.add_row("1", "Catalin", "Active")
    table.add_row("2", "Rich CLI", "OK")
    table.add_row("3", "Dashboard", "Ready")

    console.print(table)

    log.info("This is an INFO message")
    log.warning("This is a WARNING message")
    log.error("This is an ERROR message")

    with Progress(
        SpinnerColumn(),
        BarColumn(),
        TextColumn("[progress.percentage]{task.percentage:>3.0f}%"),
        console=console,
    ) as progress:
        task = progress.add_task("Processing...", total=100)
        for _ in range(100):
            time.sleep(0.02)
            progress.update(task, advance=1)

    code = """
def greet(name):
    return f"Hello, {name}!"

print(greet("Catalin"))
"""
    syntax = Syntax(code, "python", theme="monokai", line_numbers=True)
    console.print(Panel(syntax, title="Syntax Highlight"))

# ---------------------------------------------------------
# 8. MAIN LOOP
# ---------------------------------------------------------
if __name__ == "__main__":
    args = parse_args()

    if args.demo:
        run_demo()

    if args.dashboard:
        with Live(build_dashboard(), refresh_per_second=10) as live:
            while True:
                key = get_key()

                if key == "w":
                    selected = (selected - 1) % len(menu_items)
                elif key == "s":
                    selected = (selected + 1) % len(menu_items)
                elif key == "\r":
                    if menu_items[selected] == "Exit":
                        break

                live.update(build_dashboard())

Python 3.13.0 : ... build full-stack web applications entirely in Python with reflex.

NOTE : Yesterday I tested this framework and it blocked my python running and I couldn't display the result. Interesting about this framework is that you can also program your backend running.

The static motion is green because is not used with RGB colors.

Reflex is a library to build full-stack web apps in pure Python.

Reflex is a Python library designed to build full-stack web applications entirely in Python, eliminating the need to learn JavaScript. It allows developers to create both the frontend and backend of web applications seamlessly, offering flexibility and scalability for projects ranging from simple prototypes to complex systems.

See the GitHub project page.

See my test on Winodws O.S. :

mkdir my_app_catafest

cd my_app_catafest

my_app_catafest>python -m venv .venv

my_app_catafest>.venv\Scripts\activate

(.venv) C:\PyQt6\reflex_framework\my_app_catafest>pip install reflex
Collecting reflex
  Using cached reflex-0.8.26-py3-none-any.whl.metadata (13 kB)
...
Installing collected packages: wrapt, typing-extensions, redis, python-multipart, pygments, psutil, platformdirs, packaging, mdurl, MarkupSafe, idna, h11, greenlet, colorama, certifi, bidict, annotated-types, wsproto, typing-inspection, SQLAlchemy, pydantic-core, markdown-it-py, Mako, httpcore, click, anyio, watchfiles, starlette, simple-websocket, rich, pydantic, httpx, granian, alembic, sqlmodel, reflex-hosting-cli, python-engineio, python-socketio, reflex
Successfully installed Mako-1.3.10 MarkupSafe-3.0.3 SQLAlchemy-2.0.46 alembic-1.18.1 annotated-types-0.7.0 anyio-4.12.1 bidict-0.23.1 certifi-2026.1.4 click-8.3.1 colorama-0.4.6 granian-2.6.1 greenlet-3.3.1 h11-0.16.0 httpcore-1.0.9 httpx-0.28.1 idna-3.11 markdown-it-py-4.0.0 mdurl-0.1.2 packaging-25.0 platformdirs-4.5.1 psutil-7.2.1 pydantic-2.12.5 pydantic-core-2.41.5 pygments-2.19.2 python-engineio-4.13.0 python-multipart-0.0.22 python-socketio-5.16.0 redis-7.1.0 reflex-0.8.26 reflex-hosting-cli-0.1.61 rich-14.3.1 simple-websocket-1.1.0 sqlmodel-0.0.31 starlette-0.52.1 typing-extensions-4.15.0 typing-inspection-0.4.2 watchfiles-1.1.1 wrapt-2.0.1 wsproto-1.3.2

(.venv) C:\PyQt6\reflex_framework\my_app_catafest>reflex init
──────────────────────────────────────────── Initializing my_app_catafest ─────────────────────────────────────────────
[14:21:36] Initializing the web directory.                                         console.py:231

Get started with a template:
(0) A blank Reflex app.
(1) Premade templates built by the Reflex team.
(2) Try our AI builder.
Which template would you like to use? (0):
[14:21:39] Initializing the app directory.                                         console.py:231
Success: Initialized my_app_catafest using the blank template.

(.venv) C:\PyQt6\reflex_framework\my_app_catafest>reflex run
Warning: Windows Subsystem for Linux (WSL) is recommended for improving initial install times.
────────────────────────────────────── Starting Reflex App ──────────────────────────────────────
[14:27:31] Compiling: ---------------------------------------- 100% 21/21 0:00:02
⠙ Installing base frontend packages Resolving dependencies
... 

Python Qt6 : tasks with libraries.io

Today, I tested the libraries.io API to see what's new and what differences exist on the web and on my local installation and to be able to update the installed packages.

Python Qt6 : testing CatBoost with loto 6/49 numbers.

CatBoost is a high-performance library for gradient boosting on decision trees, developed by Yandex and used for various tasks. It supports categorical features, GPU version, improved

See the official webpage.

python -m pip install catboost
Collecting catboost
...
Installing collected packages: narwhals, plotly, catboost
Successfully installed catboost-1.2.8 narwhals-2.15.0 plotly-6.5.2

The source code implements a single, clean, fully self‑contained Python application that relies exclusively on real lottery data loaded from a text file. It computes all required numerical relationships for each draw, including digit distribution, statistical measures, and parity-based metrics. Using only the real historical draws, the program automatically builds a training dataset where each row uses the previous extraction as input and the next extraction’s digit distribution as the prediction target. It then trains two CatBoost regression models—one for forecasting how many one‑digit numbers will appear in the next draw, and another for predicting how many two‑digit numbers will appear. All computed metrics and model predictions are displayed in a structured PyQt6 table, ensuring that every result is derived entirely from the real data provided by the user.

I used 217 old real numbers from loto 6/49:

1 6 12 16 17 33
17 26 30 35 36 44
23 24 28 34 48 49
5 11 22 34 42 43
7 12 17 30 33 49
12 23 32 41 43 48
4 6 33 35 36 39
4 6 33 35 36 39
13 14 20 21 38 49
4 9 11 15 37 47
...

This is the result:

News : Intro to Gemini 2.0 Flash by google.

Gemini 2.0 Flash is a new multimodal generative ai model from the Gemini family developed by Google DeepMind. It is available through the Gemini API in Vertex AI and Vertex AI Studio.

The documentation online can be found on this official webpage.

See one example on this colab notebook.

Python 3.13.0 : Use image with ollama models Moondream and BakLLaVA.

Today, I tested with one big image 1366 x 768 px, with ollama on my laptop, only 16Gb RAM, Intel video card.

This script demonstrates how to send the same image to two different multimodal AI models (Moondream and BakLLaVA) using the Ollama API. It loads an image, encodes it in Base64 for Windows compatibility, sends it to both models, and prints their separate outputs so you can compare how each model interprets the same visual input.

import requests
import base64
import time

IMAGE_PATH = "test.png"
OLLAMA_URL = "http://localhost:11434/api/generate"

# Load and encode image
with open(IMAGE_PATH, "rb") as f:
    img_bytes = f.read()

img_b64 = base64.b64encode(img_bytes).decode("utf-8")

def query_model(model_name, prompt):
    payload = {
        "model": model_name,
        "prompt": prompt,
        "images": [img_b64],
        "stream": False
    }

    start = time.time()
    r = requests.post(OLLAMA_URL, json=payload)
    end = time.time()

    r.raise_for_status()
    response_text = r.json().get("response", "").strip()
    elapsed = end - start

    return response_text, elapsed

# Run Moondream
moondream_output, moondream_time = query_model("moondream", "Describe the image in detail")

# Run BakLLaVA
bakllava_output, bakllava_time = query_model("bakllava", "Describe the image in detail")

# Print results
print("=== Moondream Output ===")
print(moondream_output)
print(f"\n[Moondream time: {moondream_time:.2f} seconds]")

print("\n=== BakLLaVA Output ===")
print(bakllava_output)
print(f"\n[BakLLaVA time: {bakllava_time:.2f} seconds]")

python test_time.py
=== Moondream Output ===
The image shows a video game screen with four players engaged in an intense battle. The player on the left is holding 
a sword, while another player stands nearby wielding a shield. A third player is seen running towards them, and the 
fourth player is positioned further back, also armed with a sword. The background of the scene features a dark and 
mysterious setting, possibly a cave or underground area.

[Moondream time: 506.34 seconds]

=== BakLLaVA Output ===
The scene displays a group of monsters standing around a central point, creating an atmosphere reminiscent of a 
Dungeons & Dragons game. A total of nine monsters can be seen throughout the image, with some located closer to 
the center and others nearer corners.

In addition to the monsters, there are several items scattered around, such as a bottle situated in the lower-left
part of the scene. Interestingly, this image also contains text box information and appears to have a web address 
displayed, possibly related to the game or providing additional context for the scene.

[BakLLaVA time: 597.49 seconds]

This is the image, one screenshot from my favorite game Star Trek Online:

Python Qt6 : ... simple validity of media files .

Today I tested the validity of media files and their display in a table with pyqt6, it is a simple example of functionality testing and can be applied to any type of file.

Python Qt6 : test from PNG to SVG with potrace ...

Tests from two days ago with conversion from PNG format to SVG format with the python potrace package ...

Python313 : testing the potracer python package.

Pure Python Port of Potrace. This is a python port of Peter Selinger's Potrace (based on 1.16 code).

Today, I install the python package with pip tool:

pip install potracer[cli]
Collecting potracer[cli]
...
Successfully installed potrace-cli-0.0.4 potracer-0.0.4

The dir command show me all of these :

dir(potrace)
['BezierSegment', 'Bitmap', 'COS179', 'CornerSegment', 'Curve', 'INFTY', 'Optional', 'POTRACE_CORNER', 
'POTRACE_CURVETO', 'POTRACE_TURNPOLICY_BLACK', 'POTRACE_TURNPOLICY_LEFT', 'POTRACE_TURNPOLICY_MAJORITY',
'POTRACE_TURNPOLICY_MINORITY', 'POTRACE_TURNPOLICY_RANDOM', 'POTRACE_TURNPOLICY_RIGHT', 'POTRACE_TURNPOLICY_WHITE',
'Path', 'Tuple', 'Union', '_Curve', '_Path', '_Point', '_Segment', '_Sums', '__builtins__', '__cached__', '__doc__',
'__file__', '__loader__', '__name__', '__package__', '__spec__', '_adjust_vertices', '_bestpolygon', '_calc_lon',
'_calc_sums', '_opticurve', '_smooth', 'bezier', 'bm_to_pathlist', 'cprod', 'cyclic', 'ddenom', 'ddist', 'detrand',
'detrand_t', 'dorth_infty', 'dpara', 'findnext', 'findpath', 'floordiv', 'interval', 'iprod', 'iprod1', 'majority',
'math', 'mod', 'np', 'opti_penalty', 'opti_t', 'pathlist_to_tree', 'penalty3', 'pointslope', 'process_path', 'quadform',
'reverse', 'setbbox_path', 'sign', 'sq', 'tangent', 'xor_path', 'xor_to_ref', 'xprod']

See GitHub project from the tatarize.

I used the default example from the github project and works very well.

Python Qt6 : use default PyQt styles to PyQt6 applications.

Today, about PyQt Styles to PyQt6 Applications.

This works with default themes and how to change these, and using different types of custom styling.

First , let's see the source code with default themes:

from PyQt6.QtWidgets import QStyleFactory
print(QStyleFactory.keys())
['windows11', 'windowsvista', 'Windows', 'Fusion']

Let's see the source code for this simple script with this theme windows11:

import sys
from PyQt6.QtWidgets import (
    QApplication, QLabel, QLineEdit, QComboBox, QPushButton,
    QCheckBox, QSlider, QVBoxLayout, QWidget
)
from PyQt6.QtCore import Qt

app = QApplication(sys.argv)
app.setStyle('windows11')

window = QWidget()
layout = QVBoxLayout(window)

# 1. QLabel
layout.addWidget(QLabel("Acesta este un QLabel"))

# 2. QLineEdit
layout.addWidget(QLineEdit("Text editabil"))

# 3. QComboBox
combo = QComboBox()
combo.addItems(["Optiunea 1", "Optiunea 2", "Optiunea 3"])
layout.addWidget(combo)

# 4. QCheckBox
layout.addWidget(QCheckBox("Bifează această opțiune"))

# 5. QSlider
slider = QSlider(Qt.Orientation.Horizontal)
layout.addWidget(slider)

# 5. QPushButton
button = QPushButton('Simple button !')
layout.addWidget(button)

# show the main windows 
window.show()
sys.exit(app.exec())

News : PyQt v6.10.2 Released .

PyQt v6.10.2 has been released. This is a bug-fix release.

• Fixed a regression introduced in v6.5.0 in the handling of the return value of QSqlQueryModel.query().
• Fixed a regression introduced in v6.10.1 in the handling of the return value of createMimeDataFromSelection() in QTextEdit and QPlainTextEdit.

See the official website.