Setting Up Static IP Address on Linux

Posted on July 14, 2024 by max

This page explains how to set up a static IP address on a Linux with NetworkManager.

Steps
1. Static IP address(es) can be set up in *.nmconnection file under /etc/NetworkManager/system-connections like below.

[ipv4]
method=manual
addresses=10.10.10.51
gateway=10.10.10.254
dns=10.10.10.254

2. Reload and restart

sudo nmcli connection reload
sudo nmcli connection down 'MY HOME WIFI'
sudo nmcli connection up 'MY HOME WIFI'

References
[1] Cannot configure a static IP address – raspberrypi.com
[2] NetworkManager – Arch Linux

VI Cheat Sheet

Posted on May 16, 2024 by max

This isn’t an extensive list.
I’m not a heavy vi user, so I often forget basic commands I want to use. So, this is a list of those commands.

Split screen

vertically
CTRL + w and v
horizontally
CTRL + w and s

Move between screens

down
CTRL + w and j
up
CTRL + w and k
right
CTRL + w and l
left
CTRL + w and h

Move cursor to …

specific line
<line number> + gg
top of the file
gg
bottom of the file
G
end of the line
$

Scroll page

up
CTRL + b
down
CTRL + f

Copy and paste multiple lines

Press V (to enter VISUAL LINE mode)
Select the lines you want to copy
Press y (or d for cut instead of copy)
Move the cursor to where you want to paste the lines
Press p to paste

Comment out multiple lines

Press CTRL + v (to enter VISUAL BLOCK mode)
Move the cursor to select the lines you want to comment out
Press I (to enter INSERT mode)
Type # (in case of shell script)
Enter ESC

Save file as …

:w <file name>

Open file

:e <file name>

Search selected word

Search forward
*
Search backward
#

Show/hide line number

Show
:set number
Hide
:set nonumber

ALSA PCM State Machine

Posted on March 9, 2024 by max

Note to self

1. PCM state (snd_pcm_state_t) [1]

SND_PCM_STATE_OPEN
SND_PCM_STATE_SETUP
SND_PCM_STATE_PREPARED
SND_PCM_STATE_RUNNING
SND_PCM_STATE_XRUN
SND_PCM_STATE_DRAINING
SND_PCM_STATE_PAUSED
SND_PCM_STATE_SUSPENDED
SND_PCM_STATE_DISCONNECTED

State Machine [2]

References
[1] snd_pcm_state_t
[2] ALSA project – the C library reference

Generating UML Class Diagram from C++ Header File using PlantUML

Posted on January 9, 2023 by max

This post shows a way to generate a UML class diagram from C++ header file(s) using PlantUML [1] and hpp2plantuml [2].

Assumptions

Debian-based linux distribution (I used Ubuntu 20.04)

Steps
1. Install hpp2plantuml
hpp2plantuml is used to convert C++ header file to PlantUML.

1-1. Install pip if not already installed.

sudo apt install python3-pip -y

1-2. Install hpp2plantuml with pip.

pip install hpp2plantuml

2. Install plantuml
plantuml command is used to generate a image from a PlantUML file.

2-1. Install plantuml with apt.

sudo apt install plantuml -y

3. Test
In this post, I use a sample c++ header file from hpp2plantuml repo to demonstrate.

3-1. Download a sample header file.

wget https://github.com/thibaultmarin/hpp2plantuml/blob/v0.8.2/tests/simple_classes_1_2.hpp

3-2. Convert the sample C++ header file to a PlantUML file.

hpp2plantuml -i simple_classes_1_2.hpp -o output.puml

3-3. Generate a class diagram image from the PlantUML file.

plantuml -tsvg output.puml

You can change the image format with the output file format option.

References
[1] PlantUML
[2] hpp2plantuml – GitHub

Showing Video Image on Tkinter Window with OpenCV

Posted on August 19, 2020 by max

This is an example of minimal tkinter application that shows video image on the window using OpenCV.

Prerequisites

Python 3

Required Packages

Install packages if not already.

1. Python Imaging Library (Pillow)

pip install Pillow

2. OpenCV

pip install opencv-python

Code

import tkinter as tk
from PIL import Image, ImageTk
import cv2

class MainWindow():
    def __init__(self, window, cap):
        self.window = window
        self.cap = cap
        self.width = self.cap.get(cv2.CAP_PROP_FRAME_WIDTH)
        self.height = self.cap.get(cv2.CAP_PROP_FRAME_HEIGHT)
        self.interval = 20 # Interval in ms to get the latest frame

        # Create canvas for image
        self.canvas = tk.Canvas(self.window, width=self.width, height=self.height)
        self.canvas.grid(row=0, column=0)

        # Update image on canvas
        self.update_image()

    def update_image(self):
        # Get the latest frame and convert image format
        self.image = cv2.cvtColor(self.cap.read()[1], cv2.COLOR_BGR2RGB) # to RGB
        self.image = Image.fromarray(self.image) # to PIL format
        self.image = ImageTk.PhotoImage(self.image) # to ImageTk format

        # Update image
        self.canvas.create_image(0, 0, anchor=tk.NW, image=self.image)

        # Repeat every 'interval' ms
        self.window.after(self.interval, self.update_image)

if __name__ == "__main__":
    root = tk.Tk()
    MainWindow(root, cv2.VideoCapture(0))
    root.mainloop()

Execute the program like this:

python3 video_on_tkinter.py

If you want to get the image from a video file instead of a camera, specify the file name like this:

    MainWindow(root, cv2.VideoCapture('test.mp4'))

References
[1] How to update an image on a Canvas? — Stack Overflow
[2] How do you run your own code alongside Tkinter’s event loop? — Stack Overflow
[3] Displaying a video feed with OpenCV and Tkinter — pyimagesearch
[4] Python OpenCV – show a video in a Tkinter window — Solarian Programmer