Objectives
💡 You can name the advantages of command-line interfaces.
💡 You can navigate directories using absolute and relative paths.
💡 You can use shortcuts like the tilde or dots to navigate your file system.
💡 You can apply arguments and flags to customize command-line commands.
💡 You can use wildcards (*) for file selection.
💡 You can combine command-line commands.
Exercises
Use only command line commands for all tasks.
Exercise 1: Set up your research workspace
- Navigate to a folder where you want to keep course-related files and display its path.
- Create a new directory called
my-research-project. - Navigate into this directory and confirm your location.
Exercise 2: Create project structure
- Create three subdirectories inside your research project:
data,scripts, anddocs. - List all contents and verify the directories were created.
- Navigate into the
docsdirectory.
Exercise 3: Create project documentation
- While in the
docsdirectory, create a file calledREADME.md. - Add the text “# My Research Project” to this file.
- List the directory contents and confirm the file was created.
Exercise 4: Set up data organization
- Navigate to the
datadirectory. - Create two subdirectories:
rawandprocessed. - Navigate to the
rawdirectory and create three sample data files:experiment1.csv,experiment2.csv, andsurvey.txt.
Exercise 5: Add project metadata
- Navigate back to your main project directory.
- Create three files:
project-notes.txt,todo-list.md, andreferences.bib. - Use wildcards to list only the
.txtfiles in your project.
Exercise 6: Organize and clean up
- Create a new directory called
archive. - Move all
.txtfiles from your main project directory into thearchivedirectory. - Display the full directory tree of your project and see the final structure.
Slides
NoteHow can I download the slides as a PDF file?
To export the slides to PDF, do the following:
- Toggle into Print View using the E key (or using the Navigation Menu).
- Open the in-browser print dialog (CTRL/CMD+P).
- Change the Destination setting to Save as PDF.
- Change the Layout to Landscape.
- Change the Margins to None.
- Enable the Background graphics option.
- Click Save.
Note: This feature has been confirmed to work in Google Chrome, Chromium as well as in Firefox.
These instructions were copied from the Quarto documentation (MIT License) and slightly modified.
Solutions
TipShow me the solutions!
Exercise 1: Set up your research workspace
- Navigate to your home directory and display its path:
cd ~
pwd- Create a new directory called
my-research-project:
mkdir my-research-project- Navigate into this directory and confirm your location:
cd my-research-project
pwdExercise 2: Create project structure
- Inside your research project, create three subdirectories:
data,scripts, anddocs:
mkdir data scripts docs- List all contents to verify the directories were created:
ls- Navigate into the
docsdirectory:
cd docsExercise 3: Create project documentation
- In the
docsdirectory, create a file calledREADME.md:
touch README.md- Add the text “# My Research Project” to this file:
echo "# My Research Project" > README.md- List the directory contents to confirm the file was created:
lsExercise 4: Set up data organization
- Navigate to the
datadirectory:
cd ../data- Create two subdirectories:
rawandprocessed:
mkdir raw processed- In the
rawdirectory, create three sample data files:experiment1.csv,experiment2.csv, andsurvey.txt:
touch experiment1.csv experiment2.csv survey.txtExercise 5: Add project metadata
- Navigate back to your main project directory:
cd ../../- Create three files:
project-notes.txt,todo-list.md, andreferences.bib:
touch project-notes.txt todo-list.md references.bib- Use wildcards to list only the
.txtfiles in your project:
ls *.txtExercise 6: Organize and clean up
- Create a new directory called
archive:
mkdir archive- Move all
.txtfiles from your main project directory into thearchivedirectory:
mv *.txt archive/- Display the full directory tree of your project to see the final structure:
tree
# or if tree is not installed:
ls -R