I did this fork because I wanted to be able to use MinIE from within python. I made some changes to the original java source code because pyjnius has some bugs regarding accessing java enum types. The main problem was that I could not access the MinIE.Mode enumerator and I had to swap the values with integer values where I needed an interface with python. DISCLAIMER: I know little Java, if someone can help me there I would be appreciated.
First compile MinIE and package everything to a single .jar
(tested with java-8-openjdk
and maven 3.5.4
):
$ mvn clean compile
...
$ mvn assembly:assembly -DdescriptorId=jar-with-dependencies
...
Secondly, install pyjnius
. An example for local pip3 installation:
$ pip3 install pyjnius --user
Change to src/main/python/tests/minie/
:
$ cd src/main/python/tests/minie/
Run Demo.py
$ python3 Demo.py
Note that this assumes that you have environment variable $JAVA_HOME
set before running it. If you don't either add export JAVA_HOME=/path/to/your/jvm
in your .bashrc
or edit Demo.py
and uncomment (line 19):
os.environ['JAVA_HOME'] = '/usr/lib/jvm/default'
You can view src/main/python/tests/minie/Demo.py
for an example to
how to get extracted triples. I am planning on implementing a python package that provides a sufficiently good wrapper. For the moment, make sure that your os.environ['CLASSPATH']
variable points to the minie jar file relative to where you will run your script from (or even better provide an absolute path).
To install the python bindings switch to src/main/python/
:
$ cd src/main/python
And run:
$ python3 setup.py build
And install:
$ python3 setup.py install -u
Then you can write a script like the following:
import os
os.environ['CLASSPATH'] = "path/to/minie.jar"
from miniepy import *
# Instantiate minie
minie = MinIE()
# Sentence to extract triples from
sentence = "The Joker believes that the hero Batman was not actually born in foggy Gotham City."
# Get proposition triples
triples = [p.triple for p in minie.get_propositions(sentence)]
print("Original sentence:")
print('\t{}'.format(sentence))
print("Extracted triples:")
for t in triples:
print("\t{}".format(t))
NOTE: Bindings are incomplete, I will be adding functionality when I need it.
An Open Information Extraction system, providing useful extractions:
- represents contextual information with semantic annotations
- identifies and removes words that are considered overly specific
- high precision/recall
- shorter, semantically enriched extractions
Open Information Extraction (OIE) systems aim to extract unseen relations and their arguments from unstructured text in unsupervised manner. In its simplest form, given a natural language sentence, they extract information in the form of a triple, consisted of subject (S), relation (R) and object (O).
Suppose we have the following input sentence:
AMD, which is based in U.S., is a technology company.
An OIE system aims to make the following extractions:
("AMD"; "is based in"; "U.S.")
("AMD"; "is"; "technology company")
In general, the code for running MinIE in all of its modes is almost the same. The only exception is MinIE-D, which requires additional input (list of multi-word dictionaries). You can still use MinIE-D without providing multi-word dictionaries, but then MinIE-D assumes that you provided an empty dictionary, thus minimizing all the words which are candidates for dropping.
The following code demo is for MinIE-S (note that you can use the same for the rest of the modes, you just need to change MinIE.Mode
accordingly):
import de.uni_mannheim.minie.MinIE;
import de.uni_mannheim.minie.annotation.AnnotatedProposition;
import de.uni_mannheim.utils.coreNLP.CoreNLPUtils;
import edu.stanford.nlp.pipeline.StanfordCoreNLP;
public class Demo {
public static void main(String args[]) {
// Dependency parsing pipeline initialization
StanfordCoreNLP parser = CoreNLPUtils.StanfordDepNNParser();
// Input sentence
String sentence = "The Joker believes that the hero Batman was not actually born in
foggy Gotham City.";
// Generate the extractions (With SAFE mode)
MinIE minie = new MinIE(sentence, parser, MinIE.Mode.SAFE);
// Print the extractions
System.out.println("\nInput sentence: " + sentence);
System.out.println("=============================");
System.out.println("Extractions:");
for (AnnotatedProposition ap: minie.getPropositions()) {
System.out.println("\tTriple: " + ap.getTripleAsString());
System.out.print("\tFactuality: " + ap.getFactualityAsString());
if (ap.getAttribution().getAttributionPhrase() != null)
System.out.print("\tAttribution: " + ap.getAttribution().toStringCompact());
else
System.out.print("\tAttribution: NONE");
System.out.println("\n\t----------");
}
System.out.println("\n\nDONE!");
}
}
If you want to use MinIE-D, then the only difference would be the way MinIE is called:
import de.uni_mannheim.utils.Dictionary;
. . .
// Initialize dictionaries
String [] filenames = new String [] {"/minie-resources/wiki-freq-args-mw.txt",
"/minie-resources/wiki-freq-rels-mw.txt"};
Dictionary collocationsDict = new Dictionary(filenames);
// Use MinIE
MinIE minie = new MinIE(sentence, parser, MinIE.Mode.DICTIONARY, collocationsDict);
In resources/minie-resources/
you can find multi-word dictionaries constructed from WordNet (wn-mwe.txt) and from wiktionary (wiktionary-mw-titles.txt). This will give you some sort of functionality for MinIE-D. The multi-word dictionaries constructed with MinIE-S (as explained in the paper) are not here because of their size. If you want to use them, please refer to the download link in the section "Resources".
- Documentation: for more thorough documentation for the code, please visit MinIE's project page.
- Paper: "MinIE: Minimizing Facts in Open Information Extraction" - appeared on EMNLP 2017 [pdf]
- Dictionary: Wikipedia: frequent relations and arguments [zip]
- Experiments datasets: datasets from the paper
If you use MinIE in your work, please cite our paper:
@inproceedings{gashteovski2017minie,
title={MinIE: Minimizing Facts in Open Information Extraction},
author={Gashteovski, Kiril and Gemulla, Rainer and Del Corro, Luciano},
booktitle={Proceedings of the 2017 Conference on Empirical Methods in Natural Language Processing},
pages={2620--2630},
year={2017}
}