Scatteract is a framework to automatically extract data from the image of scatter plots. We use TensorBox1 to detect the relevant objects (points, tick marks and tick values), Tesseract for the OCR, and several heuristics to extract the points in chart coordinates. See the paper for details. This repository is meant to support the paper and is not an attempt at creating an actual open source project.
1Disclaimer: We vendored the TensorBox dependency into the tensorbox
folder since there is no way to pull it in from pypi. We have made no change to this code.
tensorflow==0.10.0rc0
scipy (tested on 0.17.1)
scikit-learn (tested on 0.17.1)
pandas (tested on 0.18.1)
Pillow (PIL) (tested on 3.2.0)
numpy (tested on 1.10.4)
opencv-python (cv2) (tested on 2.4.10)
matplotlib (tested on 1.5.1)
runcython (tested on 0.25)
pyocr (tested on 0.4.6)
tesseract-ocr (tested on 3.02)
On Python 2.7+, the following compatibility module is also required:
backports.functools_lru_cache
$ python generate_random_scatter.py --directory plots_v1 --n_train 25000 --n_test 500
Note that we are using an older version of TensorBox which crashes once training is done because of threading issues, nevertheless the trained models are successfully saved.
& cd tensorbox/utils/ && make && cd ../..
$ python tensorbox/train_obj_model.py --hypes hypes/lstm_rezoom_plot_points.json --gpu 0 --logdir output --name points_v1
$ python tensorbox/train_obj_model.py --hypes hypes/lstm_rezoom_plot_ticks.json --gpu 0 --logdir output --name ticks_v1
$ python tensorbox/train_obj_model.py --hypes hypes/lstm_rezoom_plot_labels.json --gpu 0 --logdir output --name labels_v1
The ipython notebook can be used after the object detection models are trained. It allows you to interact with the building blocks of Scatteract and visualize their outputs.
On the randomly generated test set:
$ chmod +x tensorbox -R
$ python test_obj_model.py --model_dir output/points_v1 --iteration 125000 --image_dir data/plots_v1 --true_idl data/plots_v1/test_points.idl
$ python test_obj_model.py --model_dir output/ticks_v1 --iteration 125000 --image_dir data/plots_v1 --true_idl data/plots_v1/test_ticks.idl
$ python test_obj_model.py --model_dir output/labels_v1 --iteration 125000 --image_dir data/plots_v1 --true_idl data/plots_v1/test_labels.idl
On a currated randomly generated test set:
$ chmod +x tensorbox -R
$ python test_obj_model.py --model_dir output/points_v1 --iteration 125000 --image_dir data/plot_test --true_idl data/plot_test/points.idl
$ python test_obj_model.py --model_dir output/ticks_v1 --iteration 125000 --image_dir data/plot_test --true_idl data/plot_test/ticks.idl
$ python test_obj_model.py --model_dir output/labels_v1 --iteration 125000 --image_dir data/plot_test --true_idl data/plot_test/labels.idl
On the randomly generated test set:
$ python generate_test_tesseract.py --image_dir data/plots_v1 --label_values_idl data/plots_v1/test_label_values.idl
$ python tesseract.py --tsv_truth data/plots_v1/label_image_values.tsv --image_dir data/plots_v1/label_images
On a currated randomly generated test set:
$ python tesseract.py --tsv_truth data/plot_test/label_image_values.tsv --image_dir data/plot_test/label_images
On a currated randomly generated test set:
& python scatter_extract.py --model_dict '{"ticks":"./output/ticks_v1", "labels":"./output/labels_v1","points":"./output/points_v1"}' \
--true_idl_dict '{"ticks":"./data/plot_test/ticks.idl","labels":"./data/plot_test/labels.idl", "points":"./data/plot_test/points.idl"}' \
--image_output_dir image_output --csv_output_dir csv_output --true_coord_idl ./data/plot_test/coords.idl \
--iteration 125000 --image_dir data/plot_test/
On a set of plots scrapped from the web:
$ python scatter_extract.py --model_dict '{"ticks":"./output/ticks_v1", "labels":"./output/labels_v1","points":"./output/points_v1"}' \
--iteration 125000 --image_dir data/plot_real/ --predict_idl ./data/plot_real/test_real.idl --image_output_dir image_output --csv_output_dir csv_output