def accumulate(self): try: for root, dirnames, filenames in os.walk(self.report_dir_pathname): for filename in filenames: if re.match(self.report_filename_pattern, filename): report_pathname = os.path.join(root, filename) print ProductVerifier.get_current_time(), "accumulating report", report_pathname report = ProductVerifier.load_report(report_pathname) for k, v in report.iteritems(): self.accumulate_entry(k, v) self.accumulate_entry("summary_report.count", 1) finally: ProductVerifier.dump_report(self.summary_report, self.summary_report_pathname)
def accumulate(self): try: for root, dirnames, filenames in os.walk(self.report_dir_pathname): for filename in filenames: if re.match(self.report_filename_pattern, filename): report_pathname = os.path.join(root, filename) print ProductVerifier.get_current_time( ), 'accumulating report', report_pathname report = ProductVerifier.load_report(report_pathname) for k, v in report.iteritems(): self.accumulate_entry(k, v) self.accumulate_entry('summary_report.count', 1) finally: ProductVerifier.dump_report(self.summary_report, self.summary_report_pathname)
def test_plot_report_AVHRR(self): plotter = ReportPlotter('l2p', 'AVHRR16_G', ProductVerifier.load_report('testdata/l2p-AVHRR16_G-summary.json')) plotter.plot()
def test_plot_report_AATSR(self): plotter = ReportPlotter('l2p', 'AATSR', ProductVerifier.load_report('testdata/l2p-AATSR-summary.json')) plotter.plot()
starts[i] = starts[i - 1] + values[i - 1] if len(values) > 1: plt.barh(pos, values, left=starts, color=colors[1:], align='center', height=0.5) else: plt.barh(pos, values, left=starts, color=colors[:1], align='center', height=0.5) if __name__ == "__main__": # Call with up to two arguments: # # 1 = usecase # 2 = sensor # 3 = summary report pathname # 4 = figure directory path import sys argument_count = len(sys.argv) if argument_count == 5: plotter = ReportPlotter(sys.argv[1], sys.argv[2], ProductVerifier.load_report(sys.argv[3]), sys.argv[4]) else: print 'usage:', sys.argv[0], '<usecase> <sensor> <summary report pathname> <figure dirpath>' sys.exit(1) # noinspection PyBroadException try: plotter.plot() except: sys.exit(1) sys.exit()
def test_plot_report_AVHRR(self): plotter = ReportPlotter( 'l2p', 'AVHRR16_G', ProductVerifier.load_report('testdata/l2p-AVHRR16_G-summary.json')) plotter.plot()
def test_plot_report_AATSR(self): plotter = ReportPlotter( 'l2p', 'AATSR', ProductVerifier.load_report('testdata/l2p-AATSR-summary.json')) plotter.plot()
height=0.5) if __name__ == "__main__": # Call with up to two arguments: # # 1 = usecase # 2 = sensor # 3 = summary report pathname # 4 = figure directory path import sys argument_count = len(sys.argv) if argument_count == 5: plotter = ReportPlotter(sys.argv[1], sys.argv[2], ProductVerifier.load_report(sys.argv[3]), sys.argv[4]) else: print 'usage:', sys.argv[ 0], '<usecase> <sensor> <summary report pathname> <figure dirpath>' sys.exit(1) # noinspection PyBroadException try: plotter.plot() except Exception as e: print "Error {0}".format(e.message) sys.exit(1) sys.exit()
def test_verify(self): verifier = ProductVerifier('testdata/20100505121116-ESACCI-L2P_GHRSST-SSTskin-AVHRRMTA_G-EXP1.2-v02.0-fv1.0.nc') verifier.verify() expected_report = ProductVerifier.load_report('testdata/report.json') self.assertEquals(expected_report, verifier.get_report())