Stochastic Edit Distance aligner for string transduction
Project description
Maxwell 👹
Maxwell is a Python library for learning the stochastic edit distance (SED) between source and target alphabets for string transduction.
Given a corpus of source and target string pairs, it uses expectation-maximization to learn the log-probability weights of edit actions (copy, substitution, deletion, insertion) that minimize the number of edits between source and target strings. These weights can then be used for edits over unknown strings through Viterbi decoding.
Install
First install dependencies:
pip install -r requirements.txt
Then install:
pip install .
It can then be imported like a regular Python module:
import maxwell
Usage
SED training can be done as either a command line tool or imported as a Python dependency.
For command-line use, run:
maxwell-train \
--train /path/to/train/data \
--output /path/to/output/file \
--epochs "${NUM_EPOCHS}"
As a library object, you can use the StochasticEditDistance class to pass any
iterable of source-target pairs for training. Learned edit weights can then be
saved with the write_params method:
from maxwell import sed
aligner = sed.StochasticEditDistance.fit_from_data(
training_samples, NUM_EPOCHS
)
aligner.params.write_params("/path/to/output/file")
After training, parameters can be loaded from file to calculate optimal edits
between strings with the action_sequence method, which returns a tuple of the
learned optimal sequence and the weight given to the sequence:
from maxwell import sed
params = sed.ParamsDict.read_params("/path/to/learned/parameters")
aligner = sed.StochasticEditDistance(params)
optimal_sequence, optimal_cost = aligner.action_sequence(source, target)
If only weight and no actions are required, action_sequence_cost can be called
instead:
optimal_cost = aligner.action_sequence_cost(source, target)
Conversely, individual actions can be evaluated with the action_cost method:
action_cost = aligner.action_cost(action)
Details
Data
The default data format is based on the SIGMORPHON 2017 shared tasks:
source target ...
That is, the first column is the source (a lemma) and the second is the target.
In the case where the formatting is different, the --source-col and
--target-col flags can be invoked. For instance, for the SIGMORPHON 2016
shared task data format:
source ... target
one would instead use the flag --target-col 3 to use the third column as
target strings (note the use of 1-based indexing).
Edit actions
Edit weights are maintained as a ParamsDict object, a dataclass comprising
three dictionaries and one floats. The dictionaries, and their indexing, are as
follows:
delta_subKeys: Tuple of source alphabet X target alphabet. Values: Substitution weight for all non-equivalent source-target pairs. If source symbol == target symbol, a seperate copy probability is used.delta_delKeys: All symbols in source string alphabet. Represents deletion from string. Values: Deletion weight for removal of source symbol from string.delta_insKeys: All symbols in target string alphabet. Represents insertion into string. Values: Insertion weight for introduction of target symbol into string.delta_eosA float value representing probability of terminating the string.
In Python, these values may be accessed through a StochasticEditDistance
object's params attribute.
References
Dempster, A., Laird, N., and Rubin, D. 1977. Maximum likelihood from incomplete data via the EM algorithm. Journal of the Royal Statistical Society, Series B 30(1): 1-38.
Ristad, E. S. and Yianilos, P. N. 1998. Learning string-edit distance. IEEE Transactions on Pattern Analysis and Machine Intelligence 20(5): 522-532.
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