import os
import tempfile
import shutil
-import unittest
+from unittest import TestCase
from htsworkflow.pipelines import firecrest
from htsworkflow.pipelines import bustard
from htsworkflow.pipelines import gerald
from htsworkflow.pipelines import runfolder
-from htsworkflow.pipelines.runfolder import ElementTree
+from htsworkflow.pipelines import ElementTree
from htsworkflow.pipelines.test.simulate_runfolder import *
f.write(eland_result)
f.close()
-class RunfolderTests(unittest.TestCase):
+class RunfolderTests(TestCase):
"""
Test components of the runfolder processing code
which includes firecrest, bustard, and gerald
Construct a firecrest object
"""
f = firecrest.firecrest(self.firecrest_dir)
+ self.failUnlessEqual(f.software, 'Firecrest')
self.failUnlessEqual(f.version, '1.8.28')
self.failUnlessEqual(f.start, 1)
self.failUnlessEqual(f.stop, 33)
xml_str = ElementTree.tostring(xml)
f2 = firecrest.Firecrest(xml=xml)
- self.failUnlessEqual(f.version, f2.version)
- self.failUnlessEqual(f.start, f2.start)
- self.failUnlessEqual(f.stop, f2.stop)
- self.failUnlessEqual(f.user, f2.user)
- self.failUnlessEqual(f.date, f2.date)
+ self.failUnlessEqual(f.software, f2.software)
+ self.failUnlessEqual(f.version, f2.version)
+ self.failUnlessEqual(f.start, f2.start)
+ self.failUnlessEqual(f.stop, f2.stop)
+ self.failUnlessEqual(f.user, f2.user)
+ self.failUnlessEqual(f.date, f2.date)
def test_bustard(self):
"""
construct a bustard object
"""
b = bustard.bustard(self.bustard_dir)
+ self.failUnlessEqual(b.software, 'Bustard')
self.failUnlessEqual(b.version, '1.8.28')
self.failUnlessEqual(b.date, date(2008,4,12))
self.failUnlessEqual(b.user, 'diane')
xml = b.get_elements()
b2 = bustard.Bustard(xml=xml)
- self.failUnlessEqual(b.version, b2.version)
- self.failUnlessEqual(b.date, b2.date )
- self.failUnlessEqual(b.user, b2.user)
+ self.failUnlessEqual(b.software, b2.software)
+ self.failUnlessEqual(b.version, b2.version)
+ self.failUnlessEqual(b.date, b2.date )
+ self.failUnlessEqual(b.user, b2.user)
self.failUnlessEqual(len(b.phasing), len(b2.phasing))
- for key in b.phasing.keys():
+ for key in list(b.phasing.keys()):
self.failUnlessEqual(b.phasing[key].lane,
b2.phasing[key].lane)
self.failUnlessEqual(b.phasing[key].phasing,
# need to update gerald and make tests for it
g = gerald.gerald(self.gerald_dir)
+ self.failUnlessEqual(g.software, 'GERALD')
self.failUnlessEqual(g.version, '1.68.2.2')
self.failUnlessEqual(g.date, datetime(2008,4,19,19,8,30))
- self.failUnlessEqual(len(g.lanes), len(g.lanes.keys()))
- self.failUnlessEqual(len(g.lanes), len(g.lanes.items()))
+ self.failUnlessEqual(len(g.lanes), len(list(g.lanes.keys())))
+ self.failUnlessEqual(len(g.lanes), len(list(g.lanes.items())))
# list of genomes, matches what was defined up in
# do it all again after extracting from the xml file
self.failUnlessEqual(g.version, g2.version)
self.failUnlessEqual(g.date, g2.date)
- self.failUnlessEqual(len(g.lanes.keys()), len(g2.lanes.keys()))
- self.failUnlessEqual(len(g.lanes.items()), len(g2.lanes.items()))
+ self.failUnlessEqual(len(list(g.lanes.keys())), len(list(g2.lanes.keys())))
+ self.failUnlessEqual(len(list(g.lanes.items())), len(list(g2.lanes.items())))
# test lane specific parameters from gerald config file
for i in range(1,9):
g_eland = g.eland_results
g2_eland = g2.eland_results
- for lane in g_eland.results[0].keys():
- g_results = g_eland.results[0][lane]
- g2_results = g2_eland.results[0][lane]
+ for key in g_eland:
+ g_results = g_eland[key]
+ g2_results = g2_eland[key]
self.failUnlessEqual(g_results.reads,
g2_results.reads)
self.failUnlessEqual(len(g_results.mapped_reads),
len(g2_results.mapped_reads))
- for k in g_results.mapped_reads.keys():
+ for k in list(g_results.mapped_reads.keys()):
self.failUnlessEqual(g_results.mapped_reads[k],
g2_results.mapped_reads[k])
self.failUnlessEqual(len(g_results.match_codes),
len(g2_results.match_codes))
- for k in g_results.match_codes.keys():
+ for k in list(g_results.match_codes.keys()):
self.failUnlessEqual(g_results.match_codes[k],
g2_results.match_codes[k])
5:dm3_map, 6:dm3_map, 7:dm3_map, 8:dm3_map }
eland = gerald.eland(self.gerald_dir, genome_maps=genome_maps)
- for i in range(1,9):
- lane = eland.results[0][i]
+ for key in eland:
+ lane = eland[key]
self.failUnlessEqual(lane.reads, 4)
self.failUnlessEqual(lane.sample_name, "s")
- self.failUnlessEqual(lane.lane_id, i)
+ self.failUnlessEqual(lane.lane_id, key.lane)
self.failUnlessEqual(len(lane.mapped_reads), 3)
self.failUnlessEqual(lane.mapped_reads['Lambda.fa'], 1)
self.failUnlessEqual(lane.mapped_reads['dm3/chr2L.fa'], 1)
xml_str = ElementTree.tostring(xml)
e2 = gerald.ELAND(xml=xml)
- for i in range(1,9):
- l1 = eland.results[0][i]
- l2 = e2.results[0][i]
+ for key in eland:
+ l1 = eland[key]
+ l2 = e2[key]
self.failUnlessEqual(l1.reads, l2.reads)
self.failUnlessEqual(l1.sample_name, l2.sample_name)
self.failUnlessEqual(l1.lane_id, l2.lane_id)
self.failUnlessEqual(len(l1.mapped_reads), len(l2.mapped_reads))
self.failUnlessEqual(len(l1.mapped_reads), 3)
- for k in l1.mapped_reads.keys():
+ for k in list(l1.mapped_reads.keys()):
self.failUnlessEqual(l1.mapped_reads[k],
l2.mapped_reads[k])
self.failUnlessEqual(len(l1.match_codes), 9)
self.failUnlessEqual(len(l1.match_codes), len(l2.match_codes))
- for k in l1.match_codes.keys():
+ for k in list(l1.match_codes.keys()):
self.failUnlessEqual(l1.match_codes[k],
l2.match_codes[k])
# do we get the flowcell id from the filename?
self.failUnlessEqual(len(runs), 1)
- self.failUnlessEqual(runs[0].name, 'run_207BTAAXX_2008-04-19.xml')
+ self.failUnlessEqual(runs[0].serialization_filename, 'run_207BTAAXX_2008-04-19.xml')
# do we get the flowcell id from the FlowcellId.xml file
make_flowcell_id(self.runfolder_dir, '207BTAAXY')
runs = runfolder.get_runs(self.runfolder_dir)
self.failUnlessEqual(len(runs), 1)
- self.failUnlessEqual(runs[0].name, 'run_207BTAAXY_2008-04-19.xml')
+ self.failUnlessEqual(runs[0].serialization_filename, 'run_207BTAAXY_2008-04-19.xml')
r1 = runs[0]
xml = r1.get_elements()
xml_str = ElementTree.tostring(xml)
r2 = runfolder.PipelineRun(xml=xml)
- self.failUnlessEqual(r1.name, r2.name)
+ self.failUnlessEqual(r1.serialization_filename, r2.serialization_filename)
self.failIfEqual(r2.image_analysis, None)
self.failIfEqual(r2.bustard, None)
self.failIfEqual(r2.gerald, None)
def suite():
- return unittest.makeSuite(RunfolderTests,'test')
+ from unittest import TestSuite, defaultTestLoader
+ suite = TestSuite()
+ suite.addTests(defaultTestLoader.loadTestsFromTestCase(RunfolderTests))
+ return suite
-if __name__ == "__main__":
- unittest.main(defaultTest="suite")
+if __name__ == "__main__":
+ from unittest import main
+ main(defaultTest="suite")
projects / htsworkflow.git / blobdiff