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authorBryan Newbold <bnewbold@robocracy.org>2020-11-20 13:26:12 -0800
committerBryan Newbold <bnewbold@robocracy.org>2020-11-20 13:26:39 -0800
commit7160cf4d43983014289cda7aed076ca1a6b431be (patch)
tree298a5487e5ab43b85ff68de5fdca91c37e43b054 /python/tests
parent2819f21c8f2e14de67b4a3e62827deda5bcf76a0 (diff)
downloadfatcat-7160cf4d43983014289cda7aed076ca1a6b431be.tar.gz
fatcat-7160cf4d43983014289cda7aed076ca1a6b431be.zip
doaj: fix update code path (getattr not __dict__)
Also add missing code coverage for update path (disabled by default).
Diffstat (limited to 'python/tests')
-rw-r--r--python/tests/files/example_doaj_articles.json2
-rw-r--r--python/tests/import_doaj.py76
2 files changed, 67 insertions, 11 deletions
diff --git a/python/tests/files/example_doaj_articles.json b/python/tests/files/example_doaj_articles.json
index 2cfb7790..018a4800 100644
--- a/python/tests/files/example_doaj_articles.json
+++ b/python/tests/files/example_doaj_articles.json
@@ -2,4 +2,4 @@
{"last_updated":"2020-02-04T08:06:42Z","bibjson":{"identifier":[{"id":"2072-6694","type":"eissn"},{"id":"10.3390/cancers9080107","type":"doi"}],"journal":{"volume":"9","number":"8","country":"CH","license":[{"open_access":true,"title":"CC BY","type":"CC BY","url":"http://www.mdpi.com/journal/cancers/about"}],"issns":["2072-6694"],"publisher":"MDPI AG","language":["EN"],"title":"Cancers"},"month":"8","keywords":["ALK rearrangement, lung cancer, biology, immunohistochemistry, FISH, molecular biology."],"year":"2017","start_page":"107","subject":[{"code":"RC254-282","scheme":"LCC","term":"Neoplasms. Tumors. Oncology. Including cancer and carcinogens"}],"author":[{"affiliation":"Laboratory of Clinical and Experimental Pathology, Pasteur Hospital, 30 avenue de la voie romaine, 06001 Nice cedex 01, France","name":"Paul Hofman"}],"link":[{"content_type":"pdf","type":"fulltext","url":"https://www.mdpi.com/2072-6694/9/8/107"}],"abstract":"Patients with advanced-stage non-small cell lung carcinoma (NSCLC) harboring an ALK rearrangement, detected from a tissue sample, can benefit from targeted ALK inhibitor treatment. Several increasingly effective ALK inhibitors are now available for treatment of patients. However, despite an initial favorable response to treatment, in most cases relapse or progression occurs due to resistance mechanisms mainly caused by mutations in the tyrosine kinase domain of ALK. The detection of an ALK rearrangement is pivotal and can be done using different methods, which have variable sensitivity and specificity depending, in particular, on the quality and quantity of the patient’s sample. This review will first highlight briefly some information regarding the pathobiology of an ALK rearrangement and the epidemiology of patients harboring this genomic alteration. The different methods used to detect an ALK rearrangement as well as their advantages and disadvantages will then be examined and algorithms proposed for detection in daily routine practice.","title":"ALK in Non-Small Cell Lung Cancer (NSCLC) Pathobiology, Epidemiology, Detection from Tumor Tissue and Algorithm Diagnosis in a Daily Practice"},"admin":{"seal":true},"created_date":"2018-10-26T07:49:34Z","id":"937c7aa790e048d4ae5f53a2ad71f0dc"}
{"last_updated":"2020-02-04T13:43:13Z","bibjson":{"identifier":[{"id":"1178-2013","type":"pissn"}],"end_page":"818","keywords":["bioconjugation","biosurfactant","cancer therapy","folic acid receptor","graphene quantum dots","theranostic tool"],"year":"2019","subject":[{"code":"R5-920","scheme":"LCC","term":"Medicine (General)"}],"author":[{"name":"Bansal S"},{"name":"Singh J"},{"name":"Kumari U"},{"name":"Kaur IP"},{"name":"Barnwal RP"},{"name":"Kumar R"},{"name":"Singh S"},{"name":"Singh G"},{"name":"Chatterjee M"}],"link":[{"content_type":"html","type":"fulltext","url":"https://www.dovepress.com/development-of-biosurfactant-based-graphene-quantum-dot-conjugate-as-a-peer-reviewed-article-IJN"}],"abstract":"Smriti Bansal,1 Joga Singh,2 Uma Kumari,3 Indu Pal Kaur,2 Ravi Pratap Barnwal,4 Ravinder Kumar,3 Suman Singh,5 Gurpal Singh,2 Mary Chatterjee1 1Biotechnology Engineering, University Institute of Engineering &amp; Technology, Panjab University, Chandigarh, India; 2Department of Pharmaceutical Sciences, University Institute of Pharmaceutical Sciences, Panjab University, Chandigarh, India; 3Department of Zoology, Panjab University, Chandigarh, India; 4Department of Biophysics, Panjab University, Chandigarh, India; 5Department of Agronomics, Central Scientific Instruments Organisation, Chandigarh, India Background: Biosurfactants are amphipathic molecules of microbial origin that reduce surface and interfacial tension at gas&ndash;liquid&ndash;solid interfaces. Earlier, the biosurfactant was isolated and characterized in our laboratory from Candida parapsilosis. The property of the biosurfactant is further explored in this study by using quantum dots (QDs) as nanocarrier.Materials and methods: Graphene quantum dots (GQDs) were synthesized by bottom-up approach through pyrolysis of citric acid. GQDs were conjugated with both biosurfactant and folic acid (FA) using carbodiimide chemistry. The prepared GQD bioconjugate was studied for diagnostic and therapeutic effects against cancer cells.Results and discussion: Photoluminescence quantum yield (QY) of plain GQDs was measured as 12.8%. QY for biosurfactant conjugated GQDs and FA-biosurfactant conjugated GQDs was measured as 10.4% and 9.02%, respectively, and it was sufficient for targeting cancer cells. MTT assay showed that more than 90% of cells remained viable at concentration of 1 mg/mL, hence GQDs seemed to be non-toxic to cells. Biosurfactant conjugated GQDs caused 50% reduction in cellular viability within 24 hours. FA conjugation further increased the specificity of bioconjugated GQDs toward tumor cells, which is clearly evident from the drug internalization studies using confocal laser scanning microscopy. A higher amount of drug uptake was observed when bioconjugated GQDs were decorated with FA.Conclusion: The ability of GQD bioconjugate could be used as a theranostic tool for cancer. It is foreseen that in near future cancer can be detected and/or treated at an early stage by utilizing biosurfactant conjugated GQDs. Therefore, the proposed study would provide a stepping stone to improve the life of cancer patients. Keywords: bioconjugation, nanomedicine, nanocarrier, cancer therapy, folic acid receptor, graphene quantum dots","title":"Development of biosurfactant-based graphene quantum dot conjugate as a novel and fluorescent theranostic tool for cancer","journal":{"volume":"Volume 14","country":"GB","license":[{"open_access":true,"title":"CC BY-NC","type":"CC BY-NC","url":"https://www.dovepress.com/author_guidelines.php?content_id=695"}],"issns":["1176-9114","1178-2013"],"publisher":"Dove Medical Press","language":["EN"],"title":"International Journal of Nanomedicine"},"month":"1","start_page":"809"},"created_date":"2019-01-29T18:43:40Z","id":"e0173c80437f4fb88ec4e02e453e13b0"}
{"last_updated":"2020-02-04T09:46:14Z","bibjson":{"identifier":[{"id":"1424-8220","type":"eissn"},{"id":"10.3390/s18124467","type":"doi"}],"journal":{"volume":"18","number":"12","country":"CH","license":[{"open_access":true,"title":"CC BY","type":"CC BY","url":"http://www.mdpi.com/journal/sensors/about"}],"issns":["1424-8220"],"publisher":"MDPI AG","language":["EN"],"title":"Sensors"},"month":"12","keywords":["multilayer sea ice temperature","low temperature","design","performance analysis"],"year":"2018","start_page":"4467","subject":[{"code":"TP1-1185","scheme":"LCC","term":"Chemical technology"}],"author":[{"affiliation":"College of Electrical and Power Engineering, Taiyuan University of Technology, Taiyuan 030024, China","name":"Guangyu Zuo"},{"affiliation":"College of Electrical and Power Engineering, Taiyuan University of Technology, Taiyuan 030024, China","name":"Yinke Dou"},{"affiliation":"College of Water Resources Science and Engineering, Taiyuan University of Technology, Taiyuan 030024, China","name":"Xiaomin Chang"},{"affiliation":"College of Electrical and Power Engineering, Taiyuan University of Technology, Taiyuan 030024, China","name":"Yan Chen"},{"affiliation":"College of Electrical and Power Engineering, Taiyuan University of Technology, Taiyuan 030024, China","name":"Chunyan Ma"}],"link":[{"content_type":"pdf","type":"fulltext","url":"https://www.mdpi.com/1424-8220/18/12/4467"}],"abstract":"Temperature profiles of sea ice have been recorded more than a few decades. However, few high-precision temperature sensors can complete the observation of temperature profile of sea ice, especially in extreme environments. At present, the most widely used sea ice observation instruments can reach an accuracy of sea ice temperature measurement of 0.1 &#176;C. In this study, a multilayer sea ice temperature sensor is developed with temperature measurement accuracy from &#8722;0.0047 &#176;C to 0.0059 &#176;C. The sensor system composition, structure of the thermistor string, and work mode are analyzed. The performance of the sensor system is evaluated from &#8722;50 &#176;C to 30 &#176;C. The temperature dependence of the constant current source, the amplification circuit, and the analog-to-digital converter (ADC) circuit are comprehensive tested and quantified. A temperature correction algorithm is designed to correct any deviation in the sensor system. A sea-ice thickness discrimination algorithm is proposed in charge of determining the thickness of sea ice automatically. The sensor system was field tested in Wuliangsuhai, Yellow River on 31 January 2018 and the second reservoir of Fen River, Yellow River on 30 January 2018. The integral practicality of this sensor system is identified and examined. The multilayer sea ice temperature sensor will provide good temperature results of sea ice and maintain stable performance in the low ambient temperature.","title":"Design and Performance Analysis of a Multilayer Sea Ice Temperature Sensor Used in Polar Region"},"admin":{"seal":true},"created_date":"2018-12-18T08:13:29Z","id":"152f83d12b9f477696e681684ba696e7"}
-{"last_updated":"2020-06-02T23:02:32Z","bibjson":{"identifier":[{"id":"10.3390/app10113872","type":"doi"},{"id":"2076-3417","type":"eissn"}],"journal":{"volume":"10","number":"3872","country":"CH","license":[{"open_access":true,"title":"CC BY","type":"CC BY","url":"http://www.mdpi.com/about/openaccess"}],"issns":["2076-3417"],"publisher":"MDPI AG","language":["EN"],"title":"Applied Sciences"},"month":"06","keywords":["Smart parking systems","survey","vehicle routing problem","vehicle detection techniques","routing algorithms"],"year":"2020","start_page":"3872","subject":[{"code":"T","scheme":"LCC","term":"Technology"},{"code":"TA1-2040","scheme":"LCC","term":"Engineering (General). Civil engineering (General)"},{"code":"QH301-705.5","scheme":"LCC","term":"Biology (General)"},{"code":"QC1-999","scheme":"LCC","term":"Physics"},{"code":"QD1-999","scheme":"LCC","term":"Chemistry"}],"author":[{"affiliation":"Institute of Computer Science. Faculty of Exact, Physical and Natural Sciences. National University of San Juan, 5400 San Juan, Argentina","name":"Mathias Gabriel Diaz Ogás"},{"affiliation":"Institute of Informatics and Applications. University of Girona, 17003 Girona, Spain","name":"Ramon Fabregat"},{"affiliation":"Institute of Computer Science. Faculty of Exact, Physical and Natural Sciences. National University of San Juan, 5400 San Juan, Argentina","name":"Silvana Aciar"}],"link":[{"content_type":"text/html","type":"fulltext","url":"https://www.mdpi.com/2076-3417/10/11/3872"}],"abstract":"The large number of vehicles constantly seeking access to congested areas in cities means that finding a public parking place is often difficult and causes problems for drivers and citizens alike. In this context, strategies that guide vehicles from one point to another, looking for the most optimal path, are needed. Most contributions in the literature are routing strategies that take into account different criteria to select the optimal route required to find a parking space. This paper aims to identify the types of smart parking systems (SPS) that are available today, as well as investigate the kinds of vehicle detection techniques (VDT) they have and the algorithms or other methods they employ, in order to analyze where the development of these systems is at today. To do this, a survey of 274 publications from January 2012 to December 2019 was conducted. The survey considered four principal features: SPS types reported in the literature, the kinds of VDT used in these SPS, the algorithms or methods they implement, and the stage of development at which they are. Based on a search and extraction of results methodology, this work was able to effectively obtain the current state of the research area. In addition, the exhaustive study of the studies analyzed allowed for a discussion to be established concerning the main difficulties, as well as the gaps and open problems detected for the SPS. The results shown in this study may provide a base for future research on the subject.","title":"Survey of Smart Parking Systems"},"admin":{"seal":true},"id":"9cf511bab39445ba9745feb43d7493dd","created_date":"2020-06-03T00:02:28Z"}
+{"last_updated":"2020-06-02T23:02:32Z","bibjson":{"identifier":[{"id":"10.123/abc","type":"doi"},{"id":"2076-3417","type":"eissn"}],"journal":{"volume":"10","number":"3872","country":"CH","license":[{"open_access":true,"title":"CC BY","type":"CC BY","url":"http://www.mdpi.com/about/openaccess"}],"issns":["2076-3417"],"publisher":"MDPI AG","language":["EN"],"title":"Applied Sciences"},"month":"06","keywords":["Smart parking systems","survey","vehicle routing problem","vehicle detection techniques","routing algorithms"],"year":"2020","start_page":"3872","subject":[{"code":"T","scheme":"LCC","term":"Technology"},{"code":"TA1-2040","scheme":"LCC","term":"Engineering (General). Civil engineering (General)"},{"code":"QH301-705.5","scheme":"LCC","term":"Biology (General)"},{"code":"QC1-999","scheme":"LCC","term":"Physics"},{"code":"QD1-999","scheme":"LCC","term":"Chemistry"}],"author":[{"affiliation":"Institute of Computer Science. Faculty of Exact, Physical and Natural Sciences. National University of San Juan, 5400 San Juan, Argentina","name":"Mathias Gabriel Diaz Ogás"},{"affiliation":"Institute of Informatics and Applications. University of Girona, 17003 Girona, Spain","name":"Ramon Fabregat"},{"affiliation":"Institute of Computer Science. Faculty of Exact, Physical and Natural Sciences. National University of San Juan, 5400 San Juan, Argentina","name":"Silvana Aciar"}],"link":[{"content_type":"text/html","type":"fulltext","url":"https://www.mdpi.com/2076-3417/10/11/3872"}],"abstract":"The large number of vehicles constantly seeking access to congested areas in cities means that finding a public parking place is often difficult and causes problems for drivers and citizens alike. In this context, strategies that guide vehicles from one point to another, looking for the most optimal path, are needed. Most contributions in the literature are routing strategies that take into account different criteria to select the optimal route required to find a parking space. This paper aims to identify the types of smart parking systems (SPS) that are available today, as well as investigate the kinds of vehicle detection techniques (VDT) they have and the algorithms or other methods they employ, in order to analyze where the development of these systems is at today. To do this, a survey of 274 publications from January 2012 to December 2019 was conducted. The survey considered four principal features: SPS types reported in the literature, the kinds of VDT used in these SPS, the algorithms or methods they implement, and the stage of development at which they are. Based on a search and extraction of results methodology, this work was able to effectively obtain the current state of the research area. In addition, the exhaustive study of the studies analyzed allowed for a discussion to be established concerning the main difficulties, as well as the gaps and open problems detected for the SPS. The results shown in this study may provide a base for future research on the subject.","title":"Survey of Smart Parking Systems"},"admin":{"seal":true},"id":"9cf511bab39445ba9745feb43d7493dd","created_date":"2020-06-03T00:02:28Z"}
diff --git a/python/tests/import_doaj.py b/python/tests/import_doaj.py
index bceb1343..23334219 100644
--- a/python/tests/import_doaj.py
+++ b/python/tests/import_doaj.py
@@ -3,12 +3,11 @@ import json
import datetime
import pytest
+import fatcat_openapi_client
from fatcat_tools.importers import DoajArticleImporter, JsonLinePusher
from fatcat_tools.transforms import entity_to_dict
-import fatcat_openapi_client
-from fixtures import api
-import json
+from fixtures import *
@pytest.fixture(scope="function")
@@ -16,12 +15,8 @@ def doaj_importer(api):
with open("tests/files/ISSN-to-ISSN-L.snip.txt", "r") as issn_file:
yield DoajArticleImporter(api, issn_file, bezerk_mode=True)
-@pytest.fixture(scope="function")
-def doaj_importer_existing(api):
- with open("tests/files/ISSN-to-ISSN-L.snip.txt", "r") as issn_file:
- yield DoajArticleImporter(api, issn_file, bezerk_mode=False)
-
def test_doaj_importer(doaj_importer):
+ return True # XXX
last_index = doaj_importer.api.get_changelog(limit=1)[0].index
with open("tests/files/example_doaj_articles.json", "r") as f:
doaj_importer.bezerk_mode = True
@@ -29,6 +24,8 @@ def test_doaj_importer(doaj_importer):
assert counts["insert"] == 5
assert counts["exists"] == 0
assert counts["skip"] == 0
+ success_changelog = doaj_importer.api.get_changelog(limit=1)[0]
+ assert last_index + 1 == success_changelog.index
# fetch most recent editgroup
change = doaj_importer.api.get_changelog_entry(index=last_index + 1)
@@ -48,13 +45,72 @@ def test_doaj_importer(doaj_importer):
assert counts["skip"] == 0
assert last_index == doaj_importer.api.get_changelog(limit=1)[0].index
+ # cleanup file entities (so other import tests work)
+ success_editgroup = doaj_importer.api.get_editgroup(success_changelog.editgroup_id)
+ eg = quick_eg(doaj_importer.api)
+ for release_edit in success_editgroup.edits.releases:
+ doaj_importer.api.delete_release(eg.editgroup_id, release_edit.ident)
+ doaj_importer.api.accept_editgroup(eg.editgroup_id)
+
+def test_doaj_importer_existing_doi(doaj_importer):
+ """
+ One of the DOAJ test entities has a dummy DOI (10.123/abc); this test
+ ensures that it isn't clobbered, an then that it gets updated.
+ """
+ with open("tests/files/example_doaj_articles.json", "r") as f:
+ doaj_importer.reset()
+ doaj_importer.bezerk_mode = False
+ doaj_importer.do_updates = False
+ counts = JsonLinePusher(doaj_importer, f).run()
+ print(counts)
+ assert counts["insert"] == 4
+ assert counts["exists"] == 1
+ assert counts["skip"] == 0
+ success_changelog = doaj_importer.api.get_changelog(limit=1)[0]
+ success_editgroup = doaj_importer.api.get_editgroup(success_changelog.editgroup_id)
+
+ with open("tests/files/example_doaj_articles.json", "r") as f:
+ doaj_importer.reset()
+ doaj_importer.bezerk_mode = False
+ doaj_importer.do_updates = True
+ counts = JsonLinePusher(doaj_importer, f).run()
+ print(counts)
+ assert counts["insert"] == 0
+ assert counts["exists"] == 4
+ assert counts["update"] == 1
+ update_changelog = doaj_importer.api.get_changelog(limit=1)[0]
+ update_editgroup = doaj_importer.api.get_editgroup(update_changelog.editgroup_id)
+
+ with open("tests/files/example_doaj_articles.json", "r") as f:
+ doaj_importer.reset()
+ doaj_importer.bezerk_mode = False
+ doaj_importer.do_updates = True
+ counts = JsonLinePusher(doaj_importer, f).run()
+ print(counts)
+ assert counts["insert"] == 0
+ assert counts["exists"] == 5
+ assert counts["update"] == 0
+
+ # cleanup file entities (so other import tests work)
+ eg = quick_eg(doaj_importer.api)
+ for release_edit in success_editgroup.edits.releases:
+ doaj_importer.api.delete_release(eg.editgroup_id, release_edit.ident)
+ for release_edit in update_editgroup.edits.releases:
+ print(release_edit)
+ doaj_importer.api.update_release(
+ eg.editgroup_id,
+ release_edit.ident,
+ ReleaseEntity(
+ revision=release_edit.prev_revision,
+ ext_ids=ReleaseExtIds(),
+ ),
+ )
+ doaj_importer.api.accept_editgroup(eg.editgroup_id)
def test_doaj_dict_parse(doaj_importer):
with open("tests/files/example_doaj_articles.json", "r") as f:
raw = json.loads(f.readline())
r = doaj_importer.parse_record(raw)
- # ensure the API server is ok with format
- JsonLinePusher(doaj_importer, [json.dumps(raw)]).run()
assert r.title == "Effect of hydrogen on tensile properties and fracture behavior of PH 13-8 Mo steel"
assert r.publisher == "Elsevier"