diff --git a/tests/functional/desy/fixtures/desy_ftp_records.json b/tests/functional/desy/fixtures/desy_ftp_records.json deleted file mode 100644 index 8e9895d8..00000000 --- a/tests/functional/desy/fixtures/desy_ftp_records.json +++ /dev/null @@ -1,272 +0,0 @@ -[{ - "acquisition_source": { - "source": "desy", - "method": "hepcrawl", - "submission_number": "5652c7f6190f11e79e8000224dabeaad", - "datetime": "2017-04-03T10:26:40.365216" - }, - "_fft": [ - { - "version": 1, - "creation_datetime": "2017-06-27T09:43:17", "description": "00013 Decomposition of the problematic rotation curves in our sample according to the best-fit \\textsc{core}NFW models. 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Towards the development of an integrated 1 MeV\n electron accelerator based on dielectric laser accelerator technologies,\n development in several relevant technologies is needed. In this work, recent\n developments on electron sources, bunching, accelerating, focussing, deflecting and\n laser coupling structures are reported. 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Colors and symbols are as in Figure \\ref{fig:dc14_fits}.", + "format": ".txt", + "filename": "test_fft_1", + "version": 1, + "path": "/tmp/file_urls/full/796483eeaa779dfc00871228dd70dc9809ebc3c0.txt", + "type": "Main" + }, + { + "creation_datetime": "2017-06-27T09:43:16", + "description": "00005 Comparison of the parameters of the best-fit DC14 models to the cosmological halo mass-concentration relation from \\cite{dutton14} (left) and the stellar mass-halo mass relation from \\cite{behroozi13} (right). The error bars correspond to the extremal values of the multidimensional 68\\% confidence region for each fit. The theoretical relations are shown as red lines and their 1$\\sigma$ and 2$\\sigma$ scatter are represented by the dark and light grey bands, respectively. 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Towards the development of an integrated 1 MeV electron accelerator based on dielectric laser accelerator technologies, development in several relevant technologies is needed. In this work, recent developments on electron sources, bunching, accelerating, focussing, deflecting and laser coupling structures are reported. With an eye to the near future, components required for a 1 MeV kinetic energy tabletop accelerator producing sub-femtosecond electron bunches are outlined." + } + ], + "$schema": "hep.json", + "imprints": [ + { + "date": "2017" + } + ] +}] diff --git a/tests/functional/desy/fixtures/ftp_server/DESY/FFT/dummy.pdf b/tests/functional/desy/fixtures/ftp_server/DESY/FFT/dummy.pdf new file mode 100644 index 00000000..d38ed847 Binary files /dev/null and b/tests/functional/desy/fixtures/ftp_server/DESY/FFT/dummy.pdf differ diff --git a/tests/functional/desy/fixtures/ftp_server/DESY/desy_collection_records.xml b/tests/functional/desy/fixtures/ftp_server/DESY/desy_collection_records.xml index 359bb570..6b2a92b6 100644 --- a/tests/functional/desy/fixtures/ftp_server/DESY/desy_collection_records.xml +++ b/tests/functional/desy/fixtures/ftp_server/DESY/desy_collection_records.xml @@ -54,7 +54,7 @@ FFT/test_fft_1.txt 00013 Decomposition of the problematic rotation curves in our sample according to the best-fit \textsc{core}NFW models. Colors and symbols are as in Figure \ref{fig:dc14_fits}. .txt - cNFW_rogue_curves + test_fft_1 2017-06-27 09:43:17 Main @@ -65,7 +65,7 @@ FFT/test_fft_2.txt 00005 Comparison of the parameters of the best-fit DC14 models to the cosmological halo mass-concentration relation from \cite{dutton14} (left) and the stellar mass-halo mass relation from \cite{behroozi13} (right). The error bars correspond to the extremal values of the multidimensional 68\% confidence region for each fit. The theoretical relations are shown as red lines and their 1$\sigma$ and 2$\sigma$ scatter are represented by the dark and light grey bands, respectively. The mass-concentration relation from \cite{maccio08} and the stellar mass-halo mass relation from \cite{behroozi13} are also shown as the black dashed lines. .txt - scalingRelations_DutBeh_DC14_all_Oh + test_fft_2 2017-06-27 09:43:16 Main @@ -127,7 +127,7 @@ FFT/test_fft_1.txt 00013 Decomposition of the problematic rotation curves in our sample according to the best-fit \textsc{core}NFW models. Colors and symbols are as in Figure \ref{fig:dc14_fits}. .txt - cNFW_rogue_curves + test_fft_1 2017-06-27 09:43:17 Main @@ -138,7 +138,7 @@ FFT/test_fft_2.txt 00005 Comparison of the parameters of the best-fit DC14 models to the cosmological halo mass-concentration relation from \cite{dutton14} (left) and the stellar mass-halo mass relation from \cite{behroozi13} (right). The error bars correspond to the extremal values of the multidimensional 68\% confidence region for each fit. The theoretical relations are shown as red lines and their 1$\sigma$ and 2$\sigma$ scatter are represented by the dark and light grey bands, respectively. The mass-concentration relation from \cite{maccio08} and the stellar mass-halo mass relation from \cite{behroozi13} are also shown as the black dashed lines. .txt - scalingRelations_DutBeh_DC14_all_Oh + test_fft_2 2017-06-27 09:43:16 Main @@ -146,4 +146,781 @@ + + 1608652 + 20170727031029.0 + + DOI + 10.18429/JACoW-IPAC2017-WEYB1 + + + 9783954501823 + + + Towards a Fully Integrated Accelerator on a Chip: Dielectric Laser Acceleration (DLA) From the Source to Relativistic Electrons + JACoW + + + Dielectric laser acceleration of electrons has recently been demonstrated with significantly higher accelerating gradients than other structure-based linear accelerators. 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Szczepkowicz + Guided mode resonance, resonant grating thickness and finite-size effects in dielectric laser acceleration structures + Appl.Opt.,55,2634-2638 + 2016 + + + 59 + H. Deng, et al. + Design of racetrack ring resonator based dielectric laser accelerators + arXiv:1701.08945 [physics.accph] + + + 60 + T. Hughes, et al. + Method for computationally efficient design of dielectric laser accelerator structures + arXiv:1705.02392 [physics.optics] + 1598515 + + + 61 + B. M. Cowan, et al. + Full-scale simulations of dielectric laser-driven accelerators + in Proc. 14th Int. Conference on Numerical Simulation of Optoelectronic Devices, Palma de Mallorca, Spain Piscataway, NJ, USA), pp. 113-114, Sep + IEEE + 2014 + + + 62 + Y. Wei, et al. + Dielectric accelerators driven by pulse-fronttilted lasers + presented at the 8th Int. Particle Accelerator Conf. (IPAC’17), Copenhagen, Denmark, May, paper WEPVA020, this conference + 2017 + + + 63 + F. Mayet, et al. + Simulations and plans for a dielectric laser acceleration experiment at SINBAD + presented at the 8th Int. Particle Accelerator Conf. (IPAC’17), Copenhagen, Denmark, May, paper WEPVA007, this conference + 2017 + + + 64 + F. Mayet and W. Kuropka + A fast particle tracking tool for the simulation of dielectric laser accelerators + presented at the 8th Int. Particle Accelerator Conf. (IPAC’17), Copenhagen, Denmark, May, paper THPAB013, this conference + 2017 + + + 65 + W. Kuropka, F. Mayet, J. R. W. Assmann, and U. Dorda + Simulation of Many Period Grating-Based Dielectric Laser Accelerators for Electrons + presented at the 8th Int. Particle Accelerator Conf. (IPAC’17), Copenhagen, Denmark, May, paper WEPVA005, this conference. Proceedings of IPAC, Copenhagen, Denmark WEYB1 03 Novel Particle Sources and Acceleration Techniques A16 Advanced Concepts 2525 Copyright©CC-BY-3.0andbytherespectiveauthors + 978-3-95450-182-3 + 2017 + + + 0-0-0-1-0-0-1 + 2017-07-05 11:59:52 + Invenio/1.1.2.1260-aa76f refextract/1.5.44 + content.pdf;1 + + + 10.3204/PUBDB-2017-05953 + DOI + Deutsches Elektronen-Synchrotron + + + Wootton:2017zzc + INSPIRETeX + + + Wootton, Kent + K.P.Wootton.1 + 1284350 + 0 + + + 2017 + published + + + INSPIRE + Accelerators + + + Assmann, Ralph + INSPIRE-00331280 + Deutsches Elektronen-Synchrotron + 1017955 + 1 + + + Black, Dylan + D.Black.4 + 0 + + + Byer, Robert + R.L.Byer.1 + 0 + + + Cowan, Benjamin + B.Cowan.1 + 0 + + + Deng, Huiyang + H.Deng.3 + 0 + + + Egenolf, Thilo + T.Egenolf.1 + 0 + + + England, Robert + R.J.England.1 + 1076749 + 0 + + + Fan, Shanhui + S.Fan.1 + 0 + + + Harris, James + J.Harris.4 + 0 + + + Hartl, Ingmar + Deutsches Elektronen-Synchrotron + I.Hartl.1 + 0 + + + Hommelhoff, Peter + P.Hommelhoff.1 + 0 + + + Hughes, Tyler + T.Hughes.1 + 0 + + + Illmer, Johannes + J.Illmer.1 + 0 + + + Ischebeck, Rasmus + R.Ischebeck.3 + 0 + + + Kärtner, Franz + ORCID:0000-0001-8829-5461 + Deutsches Elektronen-Synchrotron + Centre for Free-Electron Laser Science + F.X.Kartner.1 + 1040341 + 1 + + + Kuropka, Willi + W.Kuropka.1 + 0 + + + Lee, Yun Jo + Y.J.Lee.4 + 0 + + + Li, Ang + Ang.Li.1 + 1452755 + 0 + + + Mayet, Frank + Deutsches Elektronen-Synchrotron + F.Mayet.2 + 0 + + + McNeur, Josh + J.C.Mcneur.1 + 0 + + + Mittelbach, Anna + A.Mittelbach.1 + 0 + + + Musumeci, Pietro + P.Musumeci.1 + 0 + + + Niedermayer, Uwe + U.Niedermayer.2 + 0 + + + Qi, Minghao + M.Qi.2 + 0 + + + Rivkin, Leonid + L.Z.Rivkin.1 + 991617 + 0 + + + Rühl, Axel + Deutsches Elektronen-Synchrotron + A.Ruehl.1 + 0 + + + Sapra, Neil + N.Sapra.1 + 0 + + + Schönenberger, Norbert + N.Schoenenberger.1 + 0 + + + Solgaard, Olav + O.Solgaard.1 + 0 + + + Tafel, Alex + A.Tafel.1 + 0 + + + Tantawi, Sami + S.G.Tantawi.1 + 0 + + + Vuckovic, Jelena + J.Vuckovic.1 + 0 + + + FFT/dummy.pdf + Fulltext + .pdf + dummy + + 2017-07-05 11:18:46 + Main + 1 + + + + FFT/test_fft_1.txt + 00013 Decomposition of the problematic rotation curves in our sample according to the best-fit \textsc{core}NFW models. Colors and symbols are as in Figure \ref{fig:dc14_fits}. + .txt + test_fft_1 + + 2017-06-27 09:43:17 + Main + 1 + + + + FFT/test_fft_2.txt + 00005 Comparison of the parameters of the best-fit DC14 models to the cosmological halo mass-concentration relation from \cite{dutton14} (left) and the stellar mass-halo mass relation from \cite{behroozi13} (right). The error bars correspond to the extremal values of the multidimensional 68\% confidence region for each fit. The theoretical relations are shown as red lines and their 1$\sigma$ and 2$\sigma$ scatter are represented by the dark and light grey bands, respectively. The mass-concentration relation from \cite{maccio08} and the stellar mass-halo mass relation from \cite{behroozi13} are also shown as the black dashed lines. + .txt + test_fft_2 + + 2017-06-27 09:43:16 + Main + 1 + + + + diff --git a/tests/functional/desy/fixtures/ftp_server/DESY/desy_no_namespace_collection_records.xml b/tests/functional/desy/fixtures/ftp_server/DESY/desy_no_namespace_collection_records.xml index 1f9c57a9..5d5d7310 100644 --- a/tests/functional/desy/fixtures/ftp_server/DESY/desy_no_namespace_collection_records.xml +++ b/tests/functional/desy/fixtures/ftp_server/DESY/desy_no_namespace_collection_records.xml @@ -54,7 +54,7 @@ FFT/test_fft_1.txt 00013 Decomposition of the problematic rotation curves in our sample according to the best-fit \textsc{core}NFW models. Colors and symbols are as in Figure \ref{fig:dc14_fits}. .txt - cNFW_rogue_curves + test_fft_1 2017-06-27 09:43:17 Main @@ -65,7 +65,7 @@ FFT/test_fft_2.txt 00005 Comparison of the parameters of the best-fit DC14 models to the cosmological halo mass-concentration relation from \cite{dutton14} (left) and the stellar mass-halo mass relation from \cite{behroozi13} (right). The error bars correspond to the extremal values of the multidimensional 68\% confidence region for each fit. The theoretical relations are shown as red lines and their 1$\sigma$ and 2$\sigma$ scatter are represented by the dark and light grey bands, respectively. The mass-concentration relation from \cite{maccio08} and the stellar mass-halo mass relation from \cite{behroozi13} are also shown as the black dashed lines. .txt - scalingRelations_DutBeh_DC14_all_Oh + test_fft_2 2017-06-27 09:43:16 Main @@ -127,7 +127,7 @@ FFT/test_fft_1.txt 00013 Decomposition of the problematic rotation curves in our sample according to the best-fit \textsc{core}NFW models. Colors and symbols are as in Figure \ref{fig:dc14_fits}. .txt - cNFW_rogue_curves + test_fft_1 2017-06-27 09:43:17 Main @@ -138,7 +138,7 @@ FFT/test_fft_2.txt 00005 Comparison of the parameters of the best-fit DC14 models to the cosmological halo mass-concentration relation from \cite{dutton14} (left) and the stellar mass-halo mass relation from \cite{behroozi13} (right). The error bars correspond to the extremal values of the multidimensional 68\% confidence region for each fit. The theoretical relations are shown as red lines and their 1$\sigma$ and 2$\sigma$ scatter are represented by the dark and light grey bands, respectively. The mass-concentration relation from \cite{maccio08} and the stellar mass-halo mass relation from \cite{behroozi13} are also shown as the black dashed lines. .txt - scalingRelations_DutBeh_DC14_all_Oh + test_fft_2 2017-06-27 09:43:16 Main diff --git a/tests/functional/desy/test_desy.py b/tests/functional/desy/test_desy.py index 464907de..d7286f7e 100644 --- a/tests/functional/desy/test_desy.py +++ b/tests/functional/desy/test_desy.py @@ -11,10 +11,11 @@ from __future__ import absolute_import, division, print_function -import pytest - -from time import sleep +import copy import hashlib +from time import sleep + +import pytest from hepcrawl.testlib.celery_monitor import CeleryMonitor from hepcrawl.testlib.fixtures import ( @@ -26,13 +27,39 @@ from hepcrawl.testlib.utils import get_crawler_instance -def override_generated_fields(record): - record['acquisition_source']['datetime'] = u'2017-04-03T10:26:40.365216' - record['acquisition_source']['submission_number'] = ( - u'5652c7f6190f11e79e8000224dabeaad' +def override_dynamic_fields_on_records(records): + clean_records = [] + for record in records: + clean_record = override_dynamic_fields_on_record(record) + clean_records.append(clean_record) + + return clean_records + + +def override_dynamic_fields_on_record(record): + def _override(field_key, original_dict, backup_dict, new_value): + backup_dict[field_key] = original_dict[field_key] + original_dict[field_key] = new_value + + clean_record = copy.deepcopy(record) + overriden_fields = {} + dummy_random_date = u'2017-04-03T10:26:40.365216' + + overriden_fields['acquisition_source'] = {} + _override( + field_key='datetime', + original_dict=clean_record['acquisition_source'], + backup_dict=overriden_fields['acquisition_source'], + new_value=dummy_random_date, + ) + _override( + field_key='submission_number', + original_dict=clean_record['acquisition_source'], + backup_dict=overriden_fields['acquisition_source'], + new_value=u'5652c7f6190f11e79e8000224dabeaad', ) - return record + return clean_record def assert_files_equal(file_1, file_2): @@ -49,34 +76,7 @@ def _generate_md5_hash(file_path): assert file_1_hash == file_2_hash -@pytest.fixture(scope="function") -def fft_1_path(): - return get_test_suite_path( - 'desy', - 'fixtures', - 'ftp_server', - 'DESY', - 'FFT', - 'test_fft_1.txt', - test_suite='functional', - ) - - -@pytest.fixture(scope="function") -def fft_2_path(): - return get_test_suite_path( - 'desy', - 'fixtures', - 'ftp_server', - 'DESY', - 'FFT', - 'test_fft_2.txt', - test_suite='functional', - ) - - -@pytest.fixture(scope="function") -def ftp_environment(): +def get_ftp_settings(): netrc_location = get_test_suite_path( 'desy', 'fixtures', @@ -85,11 +85,7 @@ def ftp_environment(): test_suite='functional', ) - # The test must wait until the docker environment is up (takes about 10 - # seconds). - sleep(10) - - yield { + return { 'CRAWLER_HOST_URL': 'http://scrapyd:6800', 'CRAWLER_PROJECT': 'hepcrawl', 'CRAWLER_ARGUMENTS': { @@ -98,12 +94,8 @@ def ftp_environment(): } } - clean_dir('/tmp/file_urls') - clean_dir('/tmp/DESY') - -@pytest.fixture(scope="function") -def local_environment(): +def get_local_settings(): package_location = get_test_suite_path( 'desy', 'fixtures', @@ -112,7 +104,7 @@ def local_environment(): test_suite='functional', ) - yield { + return { 'CRAWLER_HOST_URL': 'http://scrapyd:6800', 'CRAWLER_PROJECT': 'hepcrawl', 'CRAWLER_ARGUMENTS': { @@ -120,31 +112,51 @@ def local_environment(): } } + +@pytest.fixture(scope="function") +def cleanup(): + # The test must wait until the docker environment is up (takes about 10 + # seconds). + sleep(10) + yield + clean_dir('/tmp/file_urls') clean_dir('/tmp/DESY') @pytest.mark.parametrize( - 'expected_results', + 'expected_results, settings', [ - expected_json_results_from_file( - 'desy', - 'fixtures', - 'desy_ftp_records.json', + ( + expected_json_results_from_file( + 'desy', + 'fixtures', + 'desy_ftp_records_expected.json', + ), + get_ftp_settings(), ), + ( + expected_json_results_from_file( + 'desy', + 'fixtures', + 'desy_local_records_expected.json', + ), + get_local_settings(), + ) + ], ids=[ - 'smoke', + 'ftp package', + 'local package' ] ) -def test_desy_ftp( - ftp_environment, - expected_results, - fft_1_path, - fft_2_path, +def test_desy( + expected_results, + settings, + cleanup, ): crawler = get_crawler_instance( - ftp_environment.get('CRAWLER_HOST_URL') + settings.get('CRAWLER_HOST_URL') ) results = CeleryMonitor.do_crawl( @@ -153,72 +165,41 @@ def test_desy_ftp( monitor_iter_limit=100, events_limit=2, crawler_instance=crawler, - project=ftp_environment.get('CRAWLER_PROJECT'), + project=settings.get('CRAWLER_PROJECT'), spider='desy', settings={}, - **ftp_environment.get('CRAWLER_ARGUMENTS') + **settings.get('CRAWLER_ARGUMENTS') ) - gotten_results = [override_generated_fields(result) for result in results] - expected_results = [ - override_generated_fields(expected) - for expected in expected_results - ] + results = sorted(results, key=lambda x: x['control_number']) - assert sorted(gotten_results) == expected_results + gotten_results = override_dynamic_fields_on_records(results) + expected_results = override_dynamic_fields_on_records(expected_results) - # Check using MD5 Hash if downloaded files are there. - for record in expected_results: - fft_file_paths = sorted(record['_fft']) + assert gotten_results == expected_results - assert_files_equal(fft_file_paths[0]['path'], fft_2_path) - assert_files_equal(fft_file_paths[1]['path'], fft_1_path) + for record in gotten_results: + assert_ffts_content_matches_expected(record) -@pytest.mark.parametrize( - 'expected_results', - [ - expected_json_results_from_file( - 'desy', - 'fixtures', - 'desy_local_records.json', - ), - ], - ids=[ - 'smoke', - ] -) -def test_desy_local_package_path( - local_environment, - expected_results, - fft_1_path, - fft_2_path, -): - crawler = get_crawler_instance(local_environment.get('CRAWLER_HOST_URL')) +def assert_ffts_content_matches_expected(record): + for fft_field in record.get('_fft', []): + assert_fft_content_matches_expected(fft_field) - results = CeleryMonitor.do_crawl( - app=celery_app, - monitor_timeout=5, - monitor_iter_limit=100, - events_limit=2, - crawler_instance=crawler, - project=local_environment.get('CRAWLER_PROJECT'), - spider='desy', - settings={}, - **local_environment.get('CRAWLER_ARGUMENTS') - ) - gotten_results = [override_generated_fields(result) for result in results] - expected_results = [ - override_generated_fields(expected) - for expected in expected_results - ] - - assert sorted(gotten_results) == expected_results +def assert_fft_content_matches_expected(fft_field): + expected_file_name = get_file_name_from_fft(fft_field) + assert_files_equal(expected_file_name, fft_field['path']) - # Check using MD5 Hash if downloaded files are there. - for record in expected_results: - fft_file_paths = sorted(record['_fft']) - assert_files_equal(fft_file_paths[0]['path'], fft_2_path) - assert_files_equal(fft_file_paths[1]['path'], fft_1_path) +def get_file_name_from_fft(fft_field): + file_path = get_test_suite_path( + 'desy', + 'fixtures', + 'ftp_server', + 'DESY', + 'FFT', + fft_field['filename'] + fft_field['format'], + test_suite='functional', + ) + return file_path diff --git a/tests/unit/responses/desy/desy_collection_records_expected.json b/tests/unit/responses/desy/desy_collection_records_expected.json new file mode 100644 index 00000000..81f3bb8a --- /dev/null +++ b/tests/unit/responses/desy/desy_collection_records_expected.json @@ -0,0 +1,140 @@ +[ + { + "acquisition_source": { + "source": "desy", + "method": "hepcrawl", + "submission_number": "5652c7f6190f11e79e8000224dabeaad", + "datetime": "2017-05-04T17:49:07.975168" + }, + "control_number": 111111, + "public_notes": [ + { + "value": "*Brief entry*" + } + ], + "self": { + "$ref": "https://labs.inspirehep.net/api/literature/111111" + }, + "number_of_pages": 6, + "titles": [ + { + "source": "JACoW", + "title": "Towards a Fully Integrated Accelerator on a Chip: Dielectric Laser\n Acceleration (DLA) From the Source to Relativistic Electrons\n " + } + ], + "_fft": [ + { + "creation_datetime": "2017-06-27T09:43:17", + "description": "00013 Decomposition of the problematic rotation curves in our sample according to the best-fit \\textsc{core}NFW models. Colors and symbols are as in Figure \\ref{fig:dc14_fits}.", + "format": ".txt", + "filename": "cNFW_rogue_curves", + "version": 1, + "path": "FFT/test_fft_1.txt", + "type": "Main" + }, + { + "creation_datetime": "2017-06-27T09:43:16", + "description": "00005 Comparison of the parameters of the best-fit DC14 models to the cosmological halo mass-concentration relation from \\cite{dutton14} (left) and the stellar mass-halo mass relation from \\cite{behroozi13} (right). The error bars correspond to the extremal values of the multidimensional 68\\% confidence region for each fit. The theoretical relations are shown as red lines and their 1$\\sigma$ and 2$\\sigma$ scatter are represented by the dark and light grey bands, respectively. The mass-concentration relation from \\cite{maccio08} and the stellar mass-halo mass relation from \\cite{behroozi13} are also shown as the black dashed lines.", + "format": ".txt", + "filename": "scalingRelations_DutBeh_DC14_all_Oh", + "version": 1, + "path": "FFT/test_fft_2.txt", + "type": "Main" + } + ], + "dois": [ + { + "value": "10.18429/JACoW-IPAC2017-WEYB1" + } + ], + "publication_info": [ + { + "parent_isbn": "9783954501823" + }, + { + "page_start": "2520", + "page_end": "2525", + "year": 2017 + } + ], + "$schema": "hep.json", + "document_type": [ + "article" + ], + "abstracts": [ + { + "source": "Deutsches Elektronen-Synchrotron", + "value": "Dielectric laser acceleration of electrons has recently been\n demonstrated with significantly higher accelerating gradients than other\n structure-based linear accelerators. Towards the development of an integrated 1 MeV\n electron accelerator based on dielectric laser accelerator technologies,\n development in several relevant technologies is needed. In this work, recent\n developments on electron sources, bunching, accelerating, focussing, deflecting and\n laser coupling structures are reported. With an eye to the near future, components\n required for a 1 MeV kinetic energy tabletop accelerator producing sub-femtosecond\n electron bunches are outlined.\n " + } + ] + }, + { + "acquisition_source": { + "source": "desy", + "method": "hepcrawl", + "submission_number": "5652c7f6190f11e79e8000224dabeaad", + "datetime": "2017-05-04T17:49:07.975168" + }, + "control_number": 222222, + "public_notes": [ + { + "value": "*Brief entry*" + } + ], + "self": { + "$ref": "https://labs.inspirehep.net/api/literature/222222" + }, + "number_of_pages": 6, + "titles": [ + { + "source": "JACoW", + "title": "Towards a Fully Integrated Accelerator on a Chip: Dielectric Laser\n Acceleration (DLA) From the Source to Relativistic Electrons\n " + } + ], + "_fft": [ + { + "creation_datetime": "2017-06-27T09:43:17", + "description": "00013 Decomposition of the problematic rotation curves in our sample according to the best-fit \\textsc{core}NFW models. Colors and symbols are as in Figure \\ref{fig:dc14_fits}.", + "format": ".txt", + "filename": "cNFW_rogue_curves", + "version": 1, + "path": "FFT/test_fft_1.txt", + "type": "Main" + }, + { + "creation_datetime": "2017-06-27T09:43:16", + "description": "00005 Comparison of the parameters of the best-fit DC14 models to the cosmological halo mass-concentration relation from \\cite{dutton14} (left) and the stellar mass-halo mass relation from \\cite{behroozi13} (right). The error bars correspond to the extremal values of the multidimensional 68\\% confidence region for each fit. The theoretical relations are shown as red lines and their 1$\\sigma$ and 2$\\sigma$ scatter are represented by the dark and light grey bands, respectively. The mass-concentration relation from \\cite{maccio08} and the stellar mass-halo mass relation from \\cite{behroozi13} are also shown as the black dashed lines.", + "format": ".txt", + "filename": "scalingRelations_DutBeh_DC14_all_Oh", + "version": 1, + "path": "FFT/test_fft_2.txt", + "type": "Main" + } + ], + "dois": [ + { + "value": "10.18429/JACoW-IPAC2017-WEYB1" + } + ], + "publication_info": [ + { + "parent_isbn": "9783954501823" + }, + { + "page_start": "2520", + "page_end": "2525", + "year": 2017 + } + ], + "$schema": "hep.json", + "document_type": [ + "article" + ], + "abstracts": [ + { + "source": "Deutsches Elektronen-Synchrotron", + "value": "Dielectric laser acceleration of electrons has recently been\n demonstrated with significantly higher accelerating gradients than other\n structure-based linear accelerators. Towards the development of an integrated 1 MeV\n electron accelerator based on dielectric laser accelerator technologies,\n development in several relevant technologies is needed. In this work, recent\n developments on electron sources, bunching, accelerating, focussing, deflecting and\n laser coupling structures are reported. With an eye to the near future, components\n required for a 1 MeV kinetic energy tabletop accelerator producing sub-femtosecond\n electron bunches are outlined.\n " + } + ] + } +] diff --git a/tests/unit/responses/desy/desy_record.xml b/tests/unit/responses/desy/desy_record.xml index 9e20e8d0..65be0a48 100644 --- a/tests/unit/responses/desy/desy_record.xml +++ b/tests/unit/responses/desy/desy_record.xml @@ -1,76 +1,780 @@ - - 111111 - 20170705125610.0 - - DOI - 10.18429/JACoW-IPAC2017-WEYB1 - - - 9783954501823 - - - Towards a Fully Integrated Accelerator on a Chip: Dielectric Laser - Acceleration (DLA) From the Source to Relativistic Electrons - - JACoW - - - Dielectric laser acceleration of electrons has recently been - demonstrated with significantly higher accelerating gradients than other - structure-based linear accelerators. Towards the development of an integrated 1 MeV - electron accelerator based on dielectric laser accelerator technologies, - development in several relevant technologies is needed. In this work, recent - developments on electron sources, bunching, accelerating, focussing, deflecting and - laser coupling structures are reported. With an eye to the near future, components - required for a 1 MeV kinetic energy tabletop accelerator producing sub-femtosecond - electron bunches are outlined. - - Deutsches Elektronen-Synchrotron - - - 6 - - - *Brief entry* - - - 2017 - 2520-2525 - - - 100176 - http://inspirehep.net/record/1608652/files/Towards a fully - integrated acc on a chip.pdf - - Fulltext - - - oai:inspirehep.net:1608652 - INSPIRE:HEP - - - FFT/test_fft_1.txt - 00013 Decomposition of the problematic rotation curves in our sample according to the best-fit \textsc{core}NFW models. Colors and symbols are as in Figure \ref{fig:dc14_fits}. - .txt - cNFW_rogue_curves - - 2017-06-27 09:43:17 - Main - 1 - - - - FFT/test_fft_2.txt - 00005 Comparison of the parameters of the best-fit DC14 models to the cosmological halo mass-concentration relation from \cite{dutton14} (left) and the stellar mass-halo mass relation from \cite{behroozi13} (right). The error bars correspond to the extremal values of the multidimensional 68\% confidence region for each fit. The theoretical relations are shown as red lines and their 1$\sigma$ and 2$\sigma$ scatter are represented by the dark and light grey bands, respectively. The mass-concentration relation from \cite{maccio08} and the stellar mass-halo mass relation from \cite{behroozi13} are also shown as the black dashed lines. - .txt - scalingRelations_DutBeh_DC14_all_Oh - - 2017-06-27 09:43:16 - Main - 1 - - - + + 1608652 + 20170727031029.0 + + DOI + 10.18429/JACoW-IPAC2017-WEYB1 + + + 9783954501823 + + + Towards a Fully Integrated Accelerator on a Chip: Dielectric Laser Acceleration (DLA) From the Source to Relativistic Electrons + JACoW + + + Dielectric laser acceleration of electrons has recently been demonstrated with significantly higher accelerating gradients than other structure-based linear accelerators. Towards the development of an integrated 1 MeV electron accelerator based on dielectric laser accelerator technologies, development in several relevant technologies is needed. In this work, recent developments on electron sources, bunching, accelerating, focussing, deflecting and laser coupling structures are reported. With an eye to the near future, components required for a 1 MeV kinetic energy tabletop accelerator producing sub-femtosecond electron bunches are outlined. + Deutsches Elektronen-Synchrotron + + + JACoW + batchupload + + + 6 + + + *Brief entry* + + + 2017 + 2520-2525 + + + 100176 + http://inspirehep.net/record/1608652/files/Towards%20a%20fully%20integrated%20acc%20on%20a%20chip.pdf + Fulltext + + + oai:inspirehep.net:1608652 + INSPIRE:HEP + + + 2017-07-05 + 2017-07-27 + + + HEP + + + ConferencePaper + + + 1 + R. J. England, et al. + Dielectric laser accelerators + Rev.Mod.Phys.,86,1337-1389 + 2014 + 1256037 + + + 2 + R. J. England + Review of laser-driven photonic structure based particle acceleration + IEEE + J. Sel Top + Quant.Electron.,22,4401007 + 2016 + + + 3 + K. P. Wootton, J. McNeur, and K. J. Leedle + Dielectric laser accelerators: designs, experiments, and applications + Rev. Accel + Sci.Technol.,9,105-126 + 2016 + + + 4 + J. D. 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Proceedings of IPAC, Copenhagen, Denmark WEYB1 03 Novel Particle Sources and Acceleration Techniques A16 Advanced Concepts 2525 Copyright©CC-BY-3.0andbytherespectiveauthors + 978-3-95450-182-3 + 2017 + + + 0-0-0-1-0-0-1 + 2017-07-05 11:59:52 + Invenio/1.1.2.1260-aa76f refextract/1.5.44 + content.pdf;1 + + + 10.3204/PUBDB-2017-05953 + DOI + Deutsches Elektronen-Synchrotron + + + Wootton:2017zzc + INSPIRETeX + + + Wootton, Kent + K.P.Wootton.1 + 1284350 + 0 + + + 2017 + published + + + INSPIRE + Accelerators + + + Assmann, Ralph + INSPIRE-00331280 + Deutsches Elektronen-Synchrotron + 1017955 + 1 + + + Black, Dylan + D.Black.4 + 0 + + + Byer, Robert + R.L.Byer.1 + 0 + + + Cowan, Benjamin + B.Cowan.1 + 0 + + + Deng, Huiyang + H.Deng.3 + 0 + + + Egenolf, Thilo + T.Egenolf.1 + 0 + + + England, Robert + R.J.England.1 + 1076749 + 0 + + + Fan, Shanhui + S.Fan.1 + 0 + + + Harris, James + J.Harris.4 + 0 + + + Hartl, Ingmar + Deutsches Elektronen-Synchrotron + I.Hartl.1 + 0 + + + Hommelhoff, Peter + P.Hommelhoff.1 + 0 + + + Hughes, Tyler + T.Hughes.1 + 0 + + + Illmer, Johannes + J.Illmer.1 + 0 + + + Ischebeck, Rasmus + R.Ischebeck.3 + 0 + + + Kärtner, Franz + ORCID:0000-0001-8829-5461 + Deutsches Elektronen-Synchrotron + Centre for Free-Electron Laser Science + F.X.Kartner.1 + 1040341 + 1 + + + Kuropka, Willi + W.Kuropka.1 + 0 + + + Lee, Yun Jo + Y.J.Lee.4 + 0 + + + Li, Ang + Ang.Li.1 + 1452755 + 0 + + + Mayet, Frank + Deutsches Elektronen-Synchrotron + F.Mayet.2 + 0 + + + McNeur, Josh + J.C.Mcneur.1 + 0 + + + Mittelbach, Anna + A.Mittelbach.1 + 0 + + + Musumeci, Pietro + P.Musumeci.1 + 0 + + + Niedermayer, Uwe + U.Niedermayer.2 + 0 + + + Qi, Minghao + M.Qi.2 + 0 + + + Rivkin, Leonid + L.Z.Rivkin.1 + 991617 + 0 + + + Rühl, Axel + Deutsches Elektronen-Synchrotron + A.Ruehl.1 + 0 + + + Sapra, Neil + N.Sapra.1 + 0 + + + Schönenberger, Norbert + N.Schoenenberger.1 + 0 + + + Solgaard, Olav + O.Solgaard.1 + 0 + + + Tafel, Alex + A.Tafel.1 + 0 + + + Tantawi, Sami + S.G.Tantawi.1 + 0 + + + Vuckovic, Jelena + J.Vuckovic.1 + 0 + + + FFT/dummy.pdf;1 + Fulltext + .pdf + Towards a fully integrated acc on a chip + + 2017-07-05 11:18:46 + Main + 1 + + + + FFT/test_fft_1.txt + 00013 Decomposition of the problematic rotation curves in our sample according to the best-fit \textsc{core}NFW models. Colors and symbols are as in Figure \ref{fig:dc14_fits}. + .txt + cNFW_rogue_curves + + 2017-06-27 09:43:17 + Main + 1 + + + + FFT/test_fft_2.txt + 00005 Comparison of the parameters of the best-fit DC14 models to the cosmological halo mass-concentration relation from \cite{dutton14} (left) and the stellar mass-halo mass relation from \cite{behroozi13} (right). The error bars correspond to the extremal values of the multidimensional 68\% confidence region for each fit. The theoretical relations are shown as red lines and their 1$\sigma$ and 2$\sigma$ scatter are represented by the dark and light grey bands, respectively. The mass-concentration relation from \cite{maccio08} and the stellar mass-halo mass relation from \cite{behroozi13} are also shown as the black dashed lines. + .txt + scalingRelations_DutBeh_DC14_all_Oh + + 2017-06-27 09:43:16 + Main + 1 + + + + diff --git a/tests/unit/responses/desy/desy_record_expected.json b/tests/unit/responses/desy/desy_record_expected.json new file mode 100644 index 00000000..8326102a --- /dev/null +++ b/tests/unit/responses/desy/desy_record_expected.json @@ -0,0 +1,1896 @@ +{ + "acquisition_source": { + "source": "desy", + "method": "hepcrawl", + "submission_number": "5652c7f6190f11e79e8000224dabeaad", + "datetime": "2017-05-04T17:49:07.975168" + }, + "_collections": [ + "Literature" + ], + "control_number": 1608652, + "public_notes": [ + { + "value": "*Brief entry*" + } + ], + "self": { + "$ref": "https://labs.inspirehep.net/api/literature/1608652" + }, + "number_of_pages": 6, + "inspire_categories": [ + { + "source": "undefined", + "term": "Accelerators" + } + ], + "titles": [ + { + "source": "JACoW", + "title": "Towards a Fully Integrated Accelerator on a Chip: Dielectric Laser Acceleration (DLA) From the Source to Relativistic Electrons" + } + ], + "references": [ + { + "record": { + "$ref": "https://labs.inspirehep.net/api/literature/1256037" + }, + "reference": { + "publication_info": { + "journal_volume": "86", + "page_start": "1337", + "page_end": "1389", + "year": 2014, + "journal_title": "Rev.Mod.Phys." + }, + "title": { + "title": "Dielectric laser accelerators" + }, + "label": "1", + "authors": [ + { + "full_name": "England, R.J." + } + ] + }, + "curated_relation": false + }, + { + "reference": { + "title": { + "title": "Review of laser-driven photonic structure based particle acceleration" + }, + "misc": [ + "J. 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Particle Accelerator Conf. (IPAC\u201917), Copenhagen, Denmark, May, paper WEPVA002, this conference" + ], + "title": { + "title": "Simulations of DLA Grating Structures in the Frequency Domain" + }, + "authors": [ + { + "full_name": "Egenolf, T." + }, + { + "full_name": "Niedermayer, U." + }, + { + "full_name": "Boine-Frankenheim, O." + } + ] + } + }, + { + "record": { + "$ref": "https://labs.inspirehep.net/api/literature/1496779" + }, + "reference": { + "publication_info": { + "journal_volume": "1777", + "year": 2016, + "artid": "060014", + "journal_title": "AIP Conf.Proc." + }, + "title": { + "title": "Experimental results from the microaccelerator platform, a resonant slab-symmetric dielectric laser accelerator" + }, + "label": "56", + "authors": [ + { + "full_name": "McNeur, J." + } + ] + }, + "curated_relation": false + }, + { + "record": { + "$ref": "https://labs.inspirehep.net/api/literature/1496777" + }, + "reference": { + "publication_info": { + "journal_volume": "1777", + "year": 2016, + "artid": "060012", + "journal_title": "AIP Conf.Proc." + }, + "title": { + "title": "Fabrication of optical scale dielectric laser accelerators: challenges, tolerances and other scary tales from the foundry" + }, + "label": "57", + "authors": [ + { + "full_name": "Travish, G." + } + ] + }, + "curated_relation": false + }, + { + "reference": { + "publication_info": { + "journal_volume": "55", + "page_start": "2634", + "page_end": "2638", + "year": 2016, + "journal_title": "Appl.Opt." + }, + "title": { + "title": "Guided mode resonance, resonant grating thickness and finite-size effects in dielectric laser acceleration structures" + }, + "label": "58", + "authors": [ + { + "full_name": "Szczepkowicz, A." + } + ] + } + }, + { + "reference": { + "title": { + "title": "Design of racetrack ring resonator based dielectric laser accelerators" + }, + "label": "59", + "arxiv_eprint": "1701.08945", + "authors": [ + { + "full_name": "Deng, H." + } + ] + } + }, + { + "record": { + "$ref": "https://labs.inspirehep.net/api/literature/1598515" + }, + "reference": { + "title": { + "title": "Method for computationally efficient design of dielectric laser accelerator structures" + }, + "label": "60", + "arxiv_eprint": "1705.02392", + "authors": [ + { + "full_name": "Hughes, T." + } + ] + }, + "curated_relation": false + }, + { + "reference": { + "title": { + "title": "Full-scale simulations of dielectric laser-driven accelerators" + }, + "misc": [ + "in Proc. 14th Int. Conference on Numerical Simulation of Optoelectronic Devices, Palma de Mallorca, Spain Piscataway, NJ, USA), pp. 113-114, Sep" + ], + "label": "61", + "imprint": { + "publisher": "IEEE" + }, + "authors": [ + { + "full_name": "Cowan, B.M." + } + ], + "publication_info": { + "year": 2014 + } + } + }, + { + "reference": { + "publication_info": { + "year": 2017 + }, + "label": "62", + "misc": [ + "presented at the 8th Int. Particle Accelerator Conf. (IPAC\u201917), Copenhagen, Denmark, May, paper WEPVA020, this conference" + ], + "title": { + "title": "Dielectric accelerators driven by pulse-fronttilted lasers" + }, + "authors": [ + { + "full_name": "Wei, Y." + } + ] + } + }, + { + "reference": { + "publication_info": { + "year": 2017 + }, + "label": "63", + "misc": [ + "presented at the 8th Int. Particle Accelerator Conf. (IPAC\u201917), Copenhagen, Denmark, May, paper WEPVA007, this conference" + ], + "title": { + "title": "Simulations and plans for a dielectric laser acceleration experiment at SINBAD" + }, + "authors": [ + { + "full_name": "Mayet, F." + } + ] + } + }, + { + "reference": { + "publication_info": { + "year": 2017 + }, + "label": "64", + "misc": [ + "presented at the 8th Int. Particle Accelerator Conf. (IPAC\u201917), Copenhagen, Denmark, May, paper THPAB013, this conference" + ], + "title": { + "title": "A fast particle tracking tool for the simulation of dielectric laser accelerators" + }, + "authors": [ + { + "full_name": "Mayet, F." + }, + { + "full_name": "Kuropka, W." + } + ] + } + }, + { + "reference": { + "isbn": "9783954501823", + "title": { + "title": "Simulation of Many Period Grating-Based Dielectric Laser Accelerators for Electrons" + }, + "misc": [ + "presented at the 8th Int. Particle Accelerator Conf. (IPAC\u201917), Copenhagen, Denmark, May, paper WEPVA005, this conference. Proceedings of IPAC, Copenhagen, Denmark WEYB1 03 Novel Particle Sources and Acceleration Techniques A16 Advanced Concepts 2525 Copyright\u00a9CC-BY-3.0andbytherespectiveauthors" + ], + "label": "65", + "authors": [ + { + "full_name": "Kuropka, W." + }, + { + "full_name": "Mayet, F." + }, + { + "full_name": "Assmann, J.R.W." + }, + { + "full_name": "Dorda, U." + } + ], + "publication_info": { + "year": 2017 + } + } + } + ], + "_fft": [ + { + "creation_datetime": "2017-07-05T11:18:46", + "description": "Fulltext", + "format": ".pdf", + "filename": "Towards a fully integrated acc on a chip", + "version": 1, + "path": "FFT/dummy.pdf;1", + "type": "Main" + }, + { + "creation_datetime": "2017-06-27T09:43:17", + "description": "00013 Decomposition of the problematic rotation curves in our sample according to the best-fit \\textsc{core}NFW models. Colors and symbols are as in Figure \\ref{fig:dc14_fits}.", + "format": ".txt", + "filename": "cNFW_rogue_curves", + "version": 1, + "path": "FFT/test_fft_1.txt", + "type": "Main" + }, + { + "creation_datetime": "2017-06-27T09:43:16", + "description": "00005 Comparison of the parameters of the best-fit DC14 models to the cosmological halo mass-concentration relation from \\cite{dutton14} (left) and the stellar mass-halo mass relation from \\cite{behroozi13} (right). The error bars correspond to the extremal values of the multidimensional 68\\% confidence region for each fit. The theoretical relations are shown as red lines and their 1$\\sigma$ and 2$\\sigma$ scatter are represented by the dark and light grey bands, respectively. The mass-concentration relation from \\cite{maccio08} and the stellar mass-halo mass relation from \\cite{behroozi13} are also shown as the black dashed lines.", + "format": ".txt", + "filename": "scalingRelations_DutBeh_DC14_all_Oh", + "version": 1, + "path": "FFT/test_fft_2.txt", + "type": "Main" + } + ], + "legacy_creation_date": "2017-07-05", + "authors": [ + { + "record": { + "$ref": "https://labs.inspirehep.net/api/authors/1284350" + }, + "ids": [ + { + "value": "K.P.Wootton.1", + "schema": "INSPIRE BAI" + } + ], + "full_name": "Wootton, Kent" + }, + { + "raw_affiliations": [ + { + "value": "Deutsches Elektronen-Synchrotron" + } + ], + "curated_relation": true, + "ids": [ + { + "value": "INSPIRE-00331280", + "schema": "INSPIRE ID" + } + ], + "full_name": "Assmann, Ralph", + "record": { + "$ref": "https://labs.inspirehep.net/api/authors/1017955" + } + }, + { + "ids": [ + { + "value": "D.Black.4", + "schema": "INSPIRE BAI" + } + ], + "full_name": "Black, Dylan" + }, + { + "ids": [ 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"A.Tafel.1", + "schema": "INSPIRE BAI" + } + ], + "full_name": "Tafel, Alex" + }, + { + "ids": [ + { + "value": "S.G.Tantawi.1", + "schema": "INSPIRE BAI" + } + ], + "full_name": "Tantawi, Sami" + }, + { + "ids": [ + { + "value": "J.Vuckovic.1", + "schema": "INSPIRE BAI" + } + ], + "full_name": "Vuckovic, Jelena" + } + ], + "texkeys": [ + "Wootton:2017zzc" + ], + "publication_info": [ + { + "parent_isbn": "9783954501823" + }, + { + "page_start": "2520", + "page_end": "2525", + "year": 2017 + } + ], + "dois": [ + { + "value": "10.18429/JACoW-IPAC2017-WEYB1" + }, + { + "source": "Deutsches Elektronen-Synchrotron", + "value": "10.3204/PUBDB-2017-05953" + } + ], + "document_type": [ + "conference paper" + ], + "abstracts": [ + { + "source": "Deutsches Elektronen-Synchrotron", + "value": "Dielectric laser acceleration of electrons has recently been demonstrated with significantly higher accelerating gradients than other structure-based linear accelerators. Towards the development of an integrated 1 MeV electron accelerator based on dielectric laser accelerator technologies, development in several relevant technologies is needed. In this work, recent developments on electron sources, bunching, accelerating, focussing, deflecting and laser coupling structures are reported. With an eye to the near future, components required for a 1 MeV kinetic energy tabletop accelerator producing sub-femtosecond electron bunches are outlined." + } + ], + "$schema": "hep.json", + "imprints": [ + { + "date": "2017" + } + ] +} diff --git a/tests/unit/test_desy.py b/tests/unit/test_desy.py index 60a13a10..86ec4906 100644 --- a/tests/unit/test_desy.py +++ b/tests/unit/test_desy.py @@ -19,7 +19,10 @@ from hepcrawl import settings from hepcrawl.pipelines import InspireCeleryPushPipeline from hepcrawl.spiders import desy_spider -from hepcrawl.testlib.fixtures import fake_response_from_file +from hepcrawl.testlib.fixtures import ( + expected_json_results_from_file, + fake_response_from_file, +) def create_spider(): @@ -45,7 +48,7 @@ def get_records(response_file_name): spider = create_spider() records = spider.parse( fake_response_from_file( - file_name=response_file_name, + file_name='desy/' + response_file_name, response_type=TextResponse ) ) @@ -67,6 +70,15 @@ def get_one_record(response_file_name): return record +def get_expected_fixture(response_file_name): + expected_record = expected_json_results_from_file( + 'responses/desy', + response_file_name, + test_suite='unit', + ) + return expected_record + + def override_generated_fields(record): record['acquisition_source']['datetime'] = '2017-05-04T17:49:07.975168' record['acquisition_source']['submission_number'] = ( @@ -77,367 +89,25 @@ def override_generated_fields(record): @pytest.mark.parametrize( - 'generated_record', - [ - get_one_record('desy/desy_record.xml'), - ], - ids=[ - 'smoke', - ] -) -def test_pipeline_record(generated_record): - expected = { - '$schema': 'hep.json', - '_fft': [ - { - 'creation_datetime': '2017-06-27T09:43:17', - 'description': ( - '00013 Decomposition of the problematic rotation curves ' - 'in our sample according to the best-fit ' - '\\textsc{core}NFW models. Colors and symbols are as in ' - 'Figure \\ref{fig:dc14_fits}.' - ), - 'filename': 'cNFW_rogue_curves', - 'format': '.txt', - 'path': 'FFT/test_fft_1.txt', - 'type': 'Main', - 'version': 1, - }, - { - 'creation_datetime': '2017-06-27T09:43:16', - 'description': ( - '00005 Comparison of the parameters of the best-fit DC14 ' - 'models to the cosmological halo mass-concentration ' - 'relation from \\cite{dutton14} (left) and the stellar ' - 'mass-halo mass relation from \\cite{behroozi13} (right). ' - 'The error bars correspond to the extremal values of the ' - 'multidimensional 68\\% confidence region for each fit. ' - 'The theoretical relations are shown as red lines and ' - 'their 1$\\sigma$ and 2$\\sigma$ scatter are represented ' - 'by the dark and light grey bands, respectively. The ' - 'mass-concentration relation from \\cite{maccio08} and ' - 'the stellar mass-halo mass relation from ' - '\\cite{behroozi13} are also shown as the black dashed ' - 'lines.' - ), - 'filename': 'scalingRelations_DutBeh_DC14_all_Oh', - 'format': '.txt', - 'path': 'FFT/test_fft_2.txt', - 'type': 'Main', - 'version': 1 - } - ], - 'abstracts': [ - { - 'source': 'Deutsches Elektronen-Synchrotron', - 'value': ( - 'Dielectric laser acceleration of electrons has recently ' - 'been\n demonstrated with significantly ' - 'higher accelerating gradients than other\n ' - ' structure-based linear accelerators. Towards the ' - 'development of an integrated 1 MeV\n ' - 'electron accelerator based on dielectric laser ' - 'accelerator technologies,\n development ' - 'in several relevant technologies is needed. In this ' - 'work, recent\n developments on electron ' - 'sources, bunching, accelerating, focussing, deflecting ' - 'and\n laser coupling structures are ' - 'reported. With an eye to the near future, ' - 'components\n required for a 1 MeV kinetic ' - 'energy tabletop accelerator producing ' - 'sub-femtosecond\n electron bunches are ' - 'outlined.\n ' - ) - } - ], - 'acquisition_source': { - 'datetime': '2017-05-04T17:49:07.975168', - 'method': 'hepcrawl', - 'source': 'desy', - 'submission_number': '5652c7f6190f11e79e8000224dabeaad' - }, - 'control_number': 111111, - 'document_type': [ - 'article' - ], - 'dois': [ - { - 'value': '10.18429/JACoW-IPAC2017-WEYB1' - } - ], - 'number_of_pages': 6, - 'public_notes': [ - { - 'value': '*Brief entry*' - } - ], - 'publication_info': [ - { - 'parent_isbn': '9783954501823' - }, - { - 'page_end': '2525', - 'page_start': '2520', - 'year': 2017 - } - ], - 'self': { - '$ref': 'https://labs.inspirehep.net/api/literature/111111' - }, - 'titles': [ - { - 'source': 'JACoW', - 'title': ( - 'Towards a Fully Integrated Accelerator on a Chip: ' - 'Dielectric Laser\n Acceleration (DLA) ' - 'From the Source to Relativistic Electrons\n ' - ) - } - ] - } - - assert override_generated_fields(generated_record) == expected - - -@pytest.mark.parametrize( - 'generated_records', + 'generated_records, expected_records', [ - get_records('desy/desy_collection_records.xml'), + ( + [get_one_record('desy_record.xml')], + [get_expected_fixture('desy_record_expected.json')], + ), + ( + list(get_records('desy_collection_records.xml')), + get_expected_fixture('desy_collection_records_expected.json'), + ), ], ids=[ - 'smoke', + 'single record', + 'collection of records', ] ) -def test_pipeline_collection_records(generated_records): - expected = [{ - "acquisition_source": { - "source": "desy", - "method": "hepcrawl", - "submission_number": "5652c7f6190f11e79e8000224dabeaad", - "datetime": "2017-05-04T17:49:07.975168" - }, - "_fft": [ - { - 'creation_datetime': '2017-06-27T09:43:17', - 'description': ( - '00013 Decomposition of the problematic rotation ' - 'curves in our sample according to the best-fit ' - '\\textsc{core}NFW models. Colors and symbols are as ' - 'in Figure \\ref{fig:dc14_fits}.' - ), - 'filename': 'cNFW_rogue_curves', - 'format': '.txt', - 'path': 'FFT/test_fft_1.txt', - 'type': 'Main', - 'version': 1, - }, - { - 'creation_datetime': '2017-06-27T09:43:16', - 'description': ( - '00005 Comparison of the parameters of the best-fit ' - 'DC14 models to the cosmological halo ' - 'mass-concentration relation from \\cite{dutton14} ' - '(left) and the stellar mass-halo mass relation from ' - '\\cite{behroozi13} (right). The error bars correspond' - ' to the extremal values of the multidimensional 68\\%' - ' confidence region for each fit. The theoretical ' - 'relations are shown as red lines and their ' - '1$\\sigma$ and 2$\\sigma$ scatter are represented ' - 'by the dark and light grey bands, respectively. The ' - 'mass-concentration relation from \\cite{maccio08} ' - 'and the stellar mass-halo mass relation from ' - '\\cite{behroozi13} are also shown as the black ' - 'dashed lines.' - ), - 'filename': 'scalingRelations_DutBeh_DC14_all_Oh', - 'format': '.txt', - 'path': 'FFT/test_fft_2.txt', - 'type': 'Main', - 'version': 1 - } - ], - "control_number": 111111, - "public_notes": [ - { - "value": "*Brief entry*" - } - ], - "self": { - "$ref": "https://labs.inspirehep.net/api/literature/111111" - }, - "number_of_pages": 6, - "titles": [ - { - "source": "JACoW", - "title": ( - 'Towards a Fully Integrated Accelerator on a Chip: ' - 'Dielectric Laser\n Acceleration (DLA) ' - 'From the Source to Relativistic Electrons' - '\n ' - ) - } - ], - "dois": [ - { - "value": "10.18429/JACoW-IPAC2017-WEYB1" - } - ], - "publication_info": [ - { - "parent_isbn": "9783954501823" - }, - { - "page_start": "2520", - "page_end": "2525", - "year": 2017 - } - ], - "$schema": "hep.json", - "document_type": [ - "article" - ], - "abstracts": [ - { - "source": "Deutsches Elektronen-Synchrotron", - "value": ( - "Dielectric laser acceleration of electrons has " - "recently been\n demonstrated with " - "significantly higher accelerating gradients than " - "other\n structure-based linear " - "accelerators. Towards the development of an " - "integrated 1 MeV\n electron " - "accelerator based on dielectric laser accelerator " - "technologies,\n development in " - "several relevant technologies is needed. In this work" - ", recent\n developments on electron " - "sources, bunching, accelerating, focussing, " - "deflecting and\n laser coupling " - "structures are reported. With an eye to the near " - "future, components\n required for a 1 " - "MeV kinetic energy tabletop accelerator producing sub" - "-femtosecond\n electron bunches are " - "outlined.\n " - ) - } - ] - }, - { - "acquisition_source": { - "source": "desy", - "method": "hepcrawl", - "submission_number": "5652c7f6190f11e79e8000224dabeaad", - "datetime": "2017-05-04T17:49:07.975168" - }, - "_fft": [ - { - 'creation_datetime': '2017-06-27T09:43:17', - 'description': ( - "00013 Decomposition of the problematic rotation " - "curves in our sample according to the best-fit " - "\\textsc{core}NFW models. Colors and symbols are as " - "in Figure \\ref{fig:dc14_fits}." - ), - 'filename': 'cNFW_rogue_curves', - 'format': '.txt', - 'path': 'FFT/test_fft_1.txt', - 'type': 'Main', - 'version': 1, - }, - { - 'creation_datetime': '2017-06-27T09:43:16', - 'description': ( - '00005 Comparison of the parameters of the best-fit ' - 'DC14 models to the cosmological halo ' - 'mass-concentration relation from \\cite{dutton14} ' - '(left) and the stellar mass-halo mass relation ' - 'from \\cite{behroozi13} (right). The error bars ' - 'correspond to the extremal values of the ' - 'multidimensional 68\\% confidence region for each ' - 'fit. The theoretical relations are shown as red ' - 'lines and their 1$\\sigma$ and 2$\\sigma$ scatter ' - 'are represented by the dark and light grey bands, ' - 'respectively. The mass-concentration relation ' - 'from \\cite{maccio08} and the stellar mass-halo ' - 'mass relation from \\cite{behroozi13} are also ' - 'shown as the black dashed lines.' - ), - 'filename': 'scalingRelations_DutBeh_DC14_all_Oh', - 'format': '.txt', - 'path': 'FFT/test_fft_2.txt', - 'type': 'Main', - 'version': 1 - } - ], - "control_number": 222222, - "public_notes": [ - { - "value": "*Brief entry*" - } - ], - "self": { - "$ref": "https://labs.inspirehep.net/api/literature/222222" - }, - "number_of_pages": 6, - "titles": [ - { - "source": "JACoW", - "title": ( - "Towards a Fully Integrated Accelerator on a Chip: " - "Dielectric Laser\n Acceleration " - "(DLA) From the Source to Relativistic Electrons" - "\n " - ) - } - ], - "dois": [ - { - "value": "10.18429/JACoW-IPAC2017-WEYB1" - } - ], - "publication_info": [ - { - "parent_isbn": "9783954501823" - }, - { - "page_start": "2520", - "page_end": "2525", - "year": 2017 - } - ], - "$schema": "hep.json", - "document_type": [ - "article" - ], - "abstracts": [ - { - "source": "Deutsches Elektronen-Synchrotron", - "value": ( - "Dielectric laser acceleration of electrons has " - "recently been\n demonstrated with " - "significantly higher accelerating gradients than " - "other\n structure-based linear " - "accelerators. Towards the development of an " - "integrated 1 MeV\n electron " - "accelerator based on dielectric laser accelerator " - "technologies,\n development in " - "several relevant technologies is needed. In this " - "work, recent\n developments on " - "electron sources, bunching, accelerating, " - "focussing, deflecting and\n laser " - "coupling structures are reported. With an eye to " - "the near future, components\n " - "required for a 1 MeV kinetic energy tabletop " - "accelerator producing sub-femtosecond" - "\n electron bunches are outlined." - "\n " - ) - } - ] - } - ] - - generated_results = [ - override_generated_fields(rec) for rec in generated_records +def test_pipeline(generated_records, expected_records): + clean_generated_records = [ + override_generated_fields(generated_record) + for generated_record in generated_records ] - - assert generated_results == expected + assert clean_generated_records == expected_records