From https://github.com/bnewcomb/rank_photos
modified
10e58b523d | ||
---|---|---|
.gitignore | ||
README.rst | ||
rank_photos.py | ||
screenshot.jpg |
README.rst
Photo Ranking With Python ========================= .. hyper link references .. _`Elo Ranking System`: http://en.wikipedia.org/wiki/Elo_rating_system .. _`exifread`: https://pypi.python.org/pypi/ExifRead .. image:: screenshot.jpg What is this? ------------- This is a tool that uses the `Elo Ranking System`_ written in Python using: 1. Matplotlib 2. Numpy 3. exifread Features: * Auto image rotation that the camera recored in the EXIF meta data * Persistent state from execution to execution so you can pickup where you left off * New photos that are added to the photo dir after initial ranking are picked up Install dependencies -------------------- Use your system's package manager to install Matplotlib & Numpy if you don't already have them installed. Next, you can use pip to install the EXIF image reader package `exifread`_: .. code-block:: bash pip install exifread --user How to rank photos ------------------ Once you have to dependencies installed, run ``rank_photos.py`` on the command line passing it the directory of photos. .. code-block:: bash ./rank_photos.py -h usage: rank_photos.py [-h] [-r N_ROUNDS] [-f FIGSIZE FIGSIZE] photo_dir Uses the Elo ranking algorithm to sort your images by rank. The program globs for .jpg images to present to you in random order, then you select the better photo. After n-rounds, the results are reported. positional arguments: photo_dir The photo directory to scan for .jpg images optional arguments: -h, --help show this help message and exit -r N_ROUNDS, --n-rounds N_ROUNDS Specifies the number of rounds to pass through the photo set (3) -f FIGSIZE FIGSIZE, --figsize FIGSIZE FIGSIZE Specifies width and height of the Matplotlib figsize (20, 12) For example, iterate over all photos three times: .. code-block:: bash ./rank_photos.py -r 3 ~/Desktop/example/ After the number of rounds complete, ``ranked.txt`` is written into the photo dir. Ranking work is cached ---------------------- After completing N rounds of ranking, a file called ``ranking_table.json`` is written into the photo dir. The next time ``rank_photos.py`` is executed with the photo dir, this table is read in and ranking can continue where you left off. You can also add new photos the the directory and they will get added to the ranked list even though they weren't included previously. Example ------- Suppose there is a dir containing some photos: .. code-block:: bash ls -1 ~/Desktop/example/ 20160102_164732.jpg 20160109_151557.jpg 20160109_151607.jpg 20160109_152318.jpg 20160109_152400.jpg 20160109_152414.jpg 20160109_153443.jpg These photos haven't been ranked yet, so lets rank them, in this example, 1 round: .. code-block:: bash ./rank_photos.py -r 1 ~/Desktop/example/ Once the number of rounds complete, the ranked list is dumped to the console: .. code-block:: bash Final Ranking: Rank Score Matches Win % Filename 1 1433 2 100.00 20160109_152414.jpg 2 1414 3 66.67 20160109_151557.jpg 3 1401 2 50.00 20160109_153443.jpg 4 1400 2 50.00 20160102_164732.jpg 5 1387 3 33.33 20160109_151607.jpg 6 1383 3 33.33 20160109_152318.jpg 7 1382 3 33.33 20160109_152400.jpg The ranked list is also written to the file ``ranked.txt``. The raw data is cached to the file ``ranking_table.json``: .. code-block:: bash cat ~/Desktop/example/ranking_table.json { "photos" : [ { "matches" : 2, "wins" : 2, "score" : 1432.736306793522, "filename" : "20160109_152414.jpg" }, { "matches" : 3, "wins" : 2, "score" : 1413.760501639972, "filename" : "20160109_151557.jpg" }, { "matches" : 2, "wins" : 1, "score" : 1400.736306793522, "filename" : "20160109_153443.jpg" }, { "matches" : 2, "wins" : 1, "score" : 1400.0336900375303, "filename" : "20160102_164732.jpg" }, { "matches" : 3, "wins" : 1, "score" : 1387.00607880615, "filename" : "20160109_151607.jpg" }, { "matches" : 3, "wins" : 1, "score" : 1383.263693206478, "filename" : "20160109_152318.jpg" }, { "matches" : 3, "wins" : 1, "score" : 1382.4634227228255, "filename" : "20160109_152400.jpg" } ] } If you run the program again, the cached data is loaded and new match ups can be continued using the cached data. If new photos were added, they also get added to the table data and are included in match ups.