This directory contains Python code to generate the Spaceshapes and Chopsticks benchmarks (src/spaceshapes.py and src/chopsticks.py), run the MIMOSA and COFHAE algorithms (src/mimosa.py and src/cofhae.py), and evaluate the R^4 and R^4_c disentanglement metrics (src/metrics.py, with baselines adapted from disentanglement_lib).
To run both COFHAE and MIMOSA together, run main.py, e.g. as follows:
python main.py --dataset=spaceshapes --output_dir=./foo --initial_dim=7
python main.py --dataset=chopsticks_depth2_either --output_dir=./bar --cos_simil_thresh=0.975Note that the first time you run main.py for a particular dataset, it will be generated and cached in the data/ folder. If you do not provide an --output_dir, it will be saved in a timestamped folder in /tmp.
The following commands replicate one restart of our main results on all datasets:
for tau in 0.5 0.67 1.0
do
for lmb1 in 10 100 1000
do
for lmb2 in 1 10 100
do
python main.py --dataset=chopsticks_depth2_slope --initial_dim=3 \
--softmax_temperature=$tau --assignment_penalty=$lmb1 --adversarial_penalty=$lmb2
python main.py --dataset=chopsticks_depth2_inter --initial_dim=3 \
--softmax_temperature=$tau --assignment_penalty=$lmb1 --adversarial_penalty=$lmb2
python main.py --dataset=chopsticks_depth2_either --initial_dim=4 \
--softmax_temperature=$tau --assignment_penalty=$lmb1 --adversarial_penalty=$lmb2
python main.py --dataset=chopsticks_depth2_both --initial_dim=5 \
--softmax_temperature=$tau --assignment_penalty=$lmb1 --adversarial_penalty=$lmb2
python main.py --dataset=chopsticks_depth3_slope --initial_dim=4 \
--softmax_temperature=$tau --assignment_penalty=$lmb1 --adversarial_penalty=$lmb2
python main.py --dataset=chopsticks_depth3_inter --initial_dim=4 \
--softmax_temperature=$tau --assignment_penalty=$lmb1 --adversarial_penalty=$lmb2
python main.py --dataset=chopsticks_depth3_either --initial_dim=5 \
--softmax_temperature=$tau --assignment_penalty=$lmb1 --adversarial_penalty=$lmb2
python main.py --dataset=chopsticks_depth3_both --initial_dim=7 \
--softmax_temperature=$tau --assignment_penalty=$lmb1 --adversarial_penalty=$lmb2
python main.py --dataset=spaceshapes --initial_dim=7 \
--cos_simil_thresh=0.95 --contagion_num=3 \
--softmax_temperature=$tau --assignment_penalty=$lmb1 --adversarial_penalty=$lmb2
done
done
doneOur result plotting code (not included here) then selects the best hyperparameter setting based on train_mse and train_assign_err.