This code produces the non-anonymized version of the CNN / Daily Mail summarization dataset, as used in the ACL 2017 paper Get To The Point: Summarization with Pointer-Generator Networks. It processes the dataset into the binary format expected by the code for the Tensorflow model.
User @JafferWilson has provided the processed data, which you can download here. (See discussion here about why we do not provide it ourselves).
Download and unzip the stories
directories from here for both CNN and Daily Mail.
Warning: These files contain a few (114, in a dataset of over 300,000) examples for which the article text is missing - see for example cnn/stories/72aba2f58178f2d19d3fae89d5f3e9a4686bc4bb.story
. The Tensorflow code has been updated to discard these examples.
We will need Stanford CoreNLP to tokenize the data. Download it here and unzip it. Then add the following command to your bash_profile:
export CLASSPATH=/path/to/stanford-corenlp-full-2016-10-31/stanford-corenlp-3.7.0.jar
replacing /path/to/
with the path to where you saved the stanford-corenlp-full-2016-10-31
directory. You can check if it's working by running
echo "Please tokenize this text." | java edu.stanford.nlp.process.PTBTokenizer
You should see something like:
Please
tokenize
this
text
.
PTBTokenizer tokenized 5 tokens at 68.97 tokens per second.
Run
python make_datafiles.py /path/to/cnn/stories /path/to/dailymail/stories
replacing /path/to/cnn/stories
with the path to where you saved the cnn/stories
directory that you downloaded; similarly for dailymail/stories
.
This script will do several things:
- The directories
cnn_stories_tokenized
anddm_stories_tokenized
will be created and filled with tokenized versions ofcnn/stories
anddailymail/stories
. This may take some time. Note: you may see severalUntokenizable:
warnings from Stanford Tokenizer. These seem to be related to Unicode characters in the data; so far it seems OK to ignore them. - For each of the url lists
all_train.txt
,all_val.txt
andall_test.txt
, the corresponding tokenized stories are read from file, lowercased and written to serialized binary filestrain.bin
,val.bin
andtest.bin
. These will be placed in the newly-createdfinished_files
directory. This may take some time. - Additionally, a
vocab
file is created from the training data. This is also placed infinished_files
. - Lastly,
train.bin
,val.bin
andtest.bin
will be split into chunks of 1000 examples per chunk. These chunked files will be saved infinished_files/chunked
as e.g.train_000.bin
,train_001.bin
, ...,train_287.bin
. This should take a few seconds. You can use either the single files or the chunked files as input to the Tensorflow code (see considerations here).