Map showing the files in cpython that Guido van Rossum changed the most;
full SVG image available in repo
A version of this program is now available for use at heatmap.jonathanforsythe.co.uk
- Generate database with
python generate_db.py {path_to_repo_dir} - Create virtual environment with
python -m venv .and install required modules withpip install -r requirements.txt - Run web server with
python app.pyorflask run(flask run --host=<ip>to run on that ip address, with0.0.0.0being used for all addresses on that machine) - Connect on
127.0.0.1:5000 - Available repos will be displayed, select the one you want to view
- Add emails, commits, filenames, and date ranges you want to highlight
- The "browse" buttons allow the user to see a list of valid values
- Alternatively valid sqlite patterns can be passed in
- Clicking on any of these entries will cause the query to exclude results matching that entry
- By default highlight hue is determined by file extensions but this can be manually overridden
- Options affecting performance are levels of text to render, and minimum size of boxes rendered
- Press submit query to update which files are highlighted
- Press refresh to update highlighting hue and redraw based on window size
- Click on directories to zoom in, and the back button in the sidebar to zoom out
This project consists of two parts:
- Git log -> database
- Database -> treemap
Scans through an entire git history using git log, and creates a database using three tables:
- Files, which just keeps track of filenames
- Commits, which stores commit hash, author, committer
- CommitFile, which stores an instance of a certain file being changed by a certain commit, and tracks how many lines were added/removed by that commit
- Author, which stores an author name and email
- CommitAuthor, which links commits and Author in order to support coauthors on commits
Using these we can keep track of which files/commits changed the repository the most, which in itself can provide useful insight
Taking the database above, uses an SQL query to generate a JSON object with the following structure:
directory:
"name": <Directory name>
"val": <Sum of sizes of children>
"children": [<directory or file>, ...]
file:
"name": <File name>
"val": <Total number of line changes for this file over all commits>
then uses this to generate an inline svg image representing a treemap of the file system, with the size of each rectangle being the val described above.
Then generates a second JSON object in a similar manner to above, but filtering for the things we want (only certain emails, date ranges, etc), then uses this to highlight the rectangles in varying intensity based on the vals returned eg highlighting the files changed most by a certain author.
These speeds were attained on my personal computer.
| Repo | Number of commits | Git log time | Git log size | Database time | Database size | Total time |
|---|---|---|---|---|---|---|
| linux | 1,154,884 | 60 minutes | 444MB | 462.618 seconds | 733MB | 68 minutes |
| cpython | 115,874 | 4.6 minutes | 44.6MB | 36.607 seconds | 74.3MB | 5.2 minutes |
Time taken seems to scale linearly, going through approximately 300 commits/second, or requiring 0.0033 seconds/commit. Database size also scales linearly, with approximately 2600 commits/MB, or requiring 384 B/commit.
For this test I filtered each repo by its most prominent authors:
| Repo | Author filter | Drawing treemap time | Highlighting treemap time |
|---|---|---|---|
| linux | torvalds@linux-foundation.org | 19.7 s | 54.3 s |
| cpython | guido@python.org | 842 ms | 1238 ms |
These times are with minimum size drawn = 0, on very large repositories, so the performance is not completely unreasonable. This does not include the time for the browser to actually render the svg, which can take longer.
Currently done using git log which can take a very long time for large repos. Will look into any other ways of getting needed information on files.
Currently the user can submit only a single query for the highlighting. Ideally they could have a separate filter dictating which boxes to draw in the first place, and possibly multiple filters that could result in multiple colour highlighting on the same image.