Python client wrapper package to access the web service API of the KorAP Corpus Analysis Platform developed at IDS Mannheim. Currently, this is no native Python package. Internally, it uses KorAP's client package for R via rpy2. The latter also automatically translates between R data frames (or tibbles) and pandas DataFrames.
#### Debian / Ubuntu sudo apt install r-base-dev r-cran-rcpp r-cran-cpp11 libcurl4-gnutls-dev libxml2-dev libsodium-dev libsecret-1-dev libfontconfig1-dev libssl-dev libv8-dev python3-dev python3-pip python3-rpy2 python3-pandas python3-pytest libdeflate-dev r-cran-rcpparmadillo #### Fedora / CentOS / RHEL sudo yum install -y R R-devel libcurl-devel openssl-devel libxml2-devel libsodium-devel python3-pandas
Start R and run:
install.packages('RKorAPClient', repos='https://cloud.r-project.org/')
or install RKorAPClient from the package installation menu entry.
On Linux and MacOs:
# py -m pip install KorAPClient -U python3 -m pip install KorAPClient -U # --break-system-packages
On Windows:
# py -m pip install pip -U py -m pip install KorAPClient -U
The core classes and methods to access the KorAP API are documented in the KorAPClient API documentation. For additional, mostly static helper functions, please refer to the Reference Manual of RKorAPClient for now. For translating R syntax to Python and vice versa, refer to the rpy2 Documentation.
Please note that some arguments in the original RKorAPClient functions use characters that are not allowed in Python keyword argument names. For these cases, you can however use Python's **kwargs
syntax. For example, to let frequencyQuery
interpret queries as queries for alternative variants and make it return their proportions instead of relative frequencies, you can write:
from KorAPClient import KorAPConnection KorAPConnection(verbose=True) \ .frequencyQuery(['"Wissenschaftler.*"', '"Wissenschafter.*"'],\ **{"as.alternatives": True})
query | totalResults | vc | webUIRequestUrl | total | f | conf.low | conf.high | |
---|---|---|---|---|---|---|---|---|
1 | "Wissenschaftler.*" | 942053 | https://korap.ids-mannheim.de/?q=%22Wissenschaftler.%2a%22&ql=poliqarp | 1080268 | 0.872055 | 0.871423 | 0.872684 | |
2 | "Wissenschafter.*" | 138215 | https://korap.ids-mannheim.de/?q=%22Wissenschafter.%2a%22&ql=poliqarp | 1080268 | 0.127945 | 0.127316 | 0.128577 |
from KorAPClient import KorAPClient, KorAPConnection import altair as alt import pandas as pd QUERY = "Hello World" df = pd.DataFrame(range(2010, 2019), columns=["Year"], dtype=str) \ .merge(pd.DataFrame(["DE", "CH"], columns=["Country"]), how="cross") df["vc"] = "textType=/Zeit.*/ & pubPlaceKey = " + df.Country + " & pubDate in " + df.Year df = KorAPClient.ipm(KorAPConnection().frequencyQuery(QUERY, df.vc)).merge(df) alt.Chart(df).mark_line(point=True).encode(y="ipm", x="Year:T", color="Country", href="webUIRequestUrl") \ .properties(title=QUERY).show()
collocationAnalysis
methodfrom KorAPClient import KorAPConnection kcon = KorAPConnection(verbose=True) results = kcon.collocationAnalysis("focus(in [tt/p=NN] {[tt/l=setzen]})", leftContextSize=1, rightContextSize=0, exactFrequencies=False, searchHitsSampleLimit=1000, topCollocatesLimit=20) results['collocate'] = "[" + results['collocate'] +"](" + results['webUIRequestUrl'] +")" print(results[['collocate', 'logDice', 'pmi', 'll']].head(10).round(2).to_markdown(floatfmt=".2f"))
collocate | logDice | pmi | ll | |
---|---|---|---|---|
1 | Szene | 10.37 | 11.54 | 824928.58 |
2 | Gang | 9.65 | 10.99 | 366993.93 |
3 | Verbindung | 9.20 | 10.34 | 347644.75 |
4 | Kenntnis | 9.15 | 10.67 | 206902.89 |
5 | Bewegung | 8.80 | 9.91 | 264577.07 |
6 | Brand | 8.76 | 9.97 | 210654.43 |
7 | Anführungszeichen | 8.06 | 12.52 | 54148.31 |
8 | Kraft | 7.94 | 8.91 | 189399.70 |
9 | Beziehung | 6.92 | 8.29 | 37723.54 |
10 | Relation | 6.64 | 10.24 | 17105.84 |
The Python KorAP client can also be called from the command line and shell scripts:
$ korapclient -h usage: python -m KorAPClient [-h] [-v] [-l QUERY_LANGUAGE] [-u API_URL] [-c VC [VC ...]] [-q QUERY [QUERY ...]] Send a query to the KorAP API and print results as tsv. optional arguments: -h, --help show this help message and exit -v, --verbose -l QUERY_LANGUAGE, --query-language QUERY_LANGUAGE -u API_URL, --api-url API_URL Specify this to access a corpus other that DeReKo. -c VC [VC ...], --vc VC [VC ...] virtual corpus definition[s] -q QUERY [QUERY ...], --query QUERY [QUERY ...] If not specified only the size of the virtual corpus will be queried. example: python -m KorAPClient -v --query "Hello World" "Hallo Welt" --vc "pubDate in 2017" "pubDate in 2018" "pubDate in 2019"
By using the KorAPClient you agree to the respective terms of use of the accessed KorAP API services which will be printed upon opening a connection.
Author: Marc Kupietz
Copyright (c) 2024, Leibniz Institute for the German Language, Mannheim, Germany
This package is developed as part of the KorAP Corpus Analysis Platform at the Leibniz Institute for the German Language (IDS).
It is published under the BSD-2 License.
Contributors: Ines Pisetta, Nils Diewald, Tim Feldmüller
To cite this work, please refer to: Kupietz et al. (2020, 2022), below.
Contributions are very welcome!
Your contributions should ideally be committed via our Gerrit server to facilitate reviewing (see Gerrit Code Review - A Quick Introduction if you are not familiar with Gerrit). However, we are also happy to accept comments and pull requests via GitHub.
Please note that unless you explicitly state otherwise any contribution intentionally submitted for inclusion into this software shall – as this software itself – be under the BSD-2 License.
Kupietz, Marc / Diewald, Nils / Margaretha, Eliza (2020): RKorAPClient: An R package for accessing the German Reference Corpus DeReKo via KorAP. In: Calzolari, Nicoletta, Frédéric Béchet, Philippe Blache, Khalid Choukri, Christopher Cieri, Thierry Declerck, Sara Goggi, Hitoshi Isahara, Bente Maegaard, Joseph Mariani, Hélène Mazo, Asuncion Moreno, Jan Odijk, Stelios Piperidis (eds.): Proceedings of The 12th Language Resources and Evaluation Conference (LREC 2020). Marseille: European Language Resources Association (ELRA), 7017-7023.
Kupietz, Marc / Diewald, Nils / Margaretha, Eliza (2022): Building paths to corpus data: A multi-level least effort and maximum return approach. In Fišer, Darja / Witt, Andreas (eds.): CLARIN. The infrastructure for language resources. Berlin: deGruyter.