Exemplo n.º 1
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    def test_call(self):
        def func(a, b, c, d):
            return 42

        obs = QiitaCommand("Test cmd", "Some description", func, self.exp_req,
                           self.exp_opt, self.exp_out, self.exp_dflt)
        self.assertEqual(obs('a', 'b', 'c', 'd'), 42)
Exemplo n.º 2
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    def test_call(self):
        def func(qclient, job_id, job_params, working_dir):
            fp = join(working_dir, 'test.fastq')
            with open(fp, 'w') as f:
                f.write('')
            res = ArtifactInfo('out1', 'Demultiplexed',
                               [[fp, 'preprocessed_fastq']])
            return True, "", [res]

        tester = QiitaPlugin("NewPlugin", "0.0.1", "description")
        cmd = QiitaCommand("NewCmd", "Desc", func,
                           {'p1': ('artifact', ['FASTQ'])},
                           {'p2': ('string', 'dflt')},
                           {'out1': 'Demultiplexed'})
        tester.register_command(cmd)

        a_cmd = QiitaCommand("NewCmdAnalysis", "Desc", func,
                             {'p1': ('artifact', ['FASTQ'])},
                             {'p2': ('string', 'dflt')},
                             {'out1': 'Demultiplexed'})
        tester.register_command(a_cmd)

        tester.generate_config('ls', 'echo',
                               server_cert=self.server_cert)
        self.qclient.post('/apitest/reload_plugins/')
        tester("https://localhost:21174", 'register', 'ignored')

        obs = self.qclient.get('/qiita_db/plugins/NewPlugin/0.0.1/')
        self.assertEqual(obs['name'], 'NewPlugin')
        self.assertEqual(obs['version'], '0.0.1')
        # I can't use assertItemsEqual because it is not available in py3
        # and I can't user assertCountEqual because it is not avaialable in py2
        self.assertEqual(sorted(obs['commands']),
                         sorted(['NewCmd', 'NewCmdAnalysis']))

        # Create a new job
        data = {'command': dumps(['NewPlugin', '0.0.1', 'NewCmd']),
                'parameters': dumps({'p1': '1', 'p2': 'a'}),
                'status': 'queued'}
        job_id = self.qclient.post('/apitest/processing_job/',
                                   data=data)['job']
        tester("https://localhost:21174", job_id, self.outdir)

        status = self._wait_for_running_job(job_id)
        self.assertEqual(status, 'success')
Exemplo n.º 3
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    def test_init(self):
        # Create a test function
        def func(a, b, c, d):
            return 42

        obs = QiitaCommand("Test cmd", "Some description", func, self.exp_req,
                           self.exp_opt, self.exp_out, self.exp_dflt)
        self.assertEqual(obs.name, "Test cmd")
        self.assertEqual(obs.description, "Some description")
        self.assertEqual(obs.function, func)
        self.assertEqual(obs.required_parameters, self.exp_req)
        self.assertEqual(obs.optional_parameters, self.exp_opt)
        self.assertEqual(obs.outputs, self.exp_out)
        self.assertEqual(obs.default_parameter_sets, self.exp_dflt)
        self.assertFalse(obs.analysis_only)

        obs = QiitaCommand("Test cmd analysis", "Some description", func,
                           self.exp_req, self.exp_opt, self.exp_out,
                           self.exp_dflt, analysis_only=True)
        self.assertEqual(obs.name, "Test cmd analysis")
        self.assertEqual(obs.description, "Some description")
        self.assertEqual(obs.function, func)
        self.assertEqual(obs.required_parameters, self.exp_req)
        self.assertEqual(obs.optional_parameters, self.exp_opt)
        self.assertEqual(obs.outputs, self.exp_out)
        self.assertEqual(obs.default_parameter_sets, self.exp_dflt)
        self.assertTrue(obs.analysis_only)

        with self.assertRaises(TypeError):
            QiitaCommand("Name", "Desc", "func", self.exp_req, self.exp_opt,
                         self.exp_out, self.exp_dflt)

        def func(a, b, c):
            return 42

        with self.assertRaises(ValueError):
            QiitaCommand("Name", "Desc", func, self.exp_req, self.exp_opt,
                         self.exp_out, self.exp_dflt)
Exemplo n.º 4
0
# -----------------------------------------------------------------------------
# Copyright (c) 2014--, The Qiita Development Team.
#
# Distributed under the terms of the BSD 3-clause License.
#
# The full license is in the file LICENSE, distributed with this software.
# -----------------------------------------------------------------------------

from qiita_client import QiitaCommand
from .utils import (generate_filter_dflt_params, get_dbs_list)
from .filter import filter
from os.path import join
from os import environ
__all__ = ['filter']

# Define the filter command
default_db = join(environ["QC_FILTER_DB_DP"], 'phix', 'phix')
default_db_list = get_dbs_list(environ["QC_FILTER_DB_DP"])
req_params = {'input': ('artifact', ['per_sample_FASTQ'])}
opt_params = {
    'Bowtie2 database to filter':
    ["choice: [%s]" % default_db_list, default_db],
    'Number of threads': ['integer', '4']
}
outputs = {'Filtered files': 'per_sample_FASTQ'}
dflt_param_set = generate_filter_dflt_params()

filter_cmd = QiitaCommand('QC_Filter', "Sequence QC - Filtering", filter,
                          req_params, opt_params, outputs, dflt_param_set)
Exemplo n.º 5
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            name = "Metadata column to use"
            opt_params[name] = ('string', '')
            name = 'qp-hide-param' + name
            opt_params[name] = ('string', 'qp-hide-metadata-field')
        else:
            ename = '%s (%s)' % (element.description, pname)
            if element.has_default():
                opt_params[ename] = (data_type, default)
                # we need to add the actual name of the parameter so we
                # can retrieve later
                opt_params['qp-hide-param' + ename] = ('string', pname)
            else:
                default = (default
                           if default is not element.NOVALUE else 'None')
                opt_params[ename] = (data_type, default)
                # we need to add the actual name of the parameter so we
                # can retrieve later
                opt_params['qp-hide-param' + ename] = ('string', pname)

    qiime_cmd = QiitaCommand("%s [%s]" % (m.name, mid),
                             m.description,
                             call_qiime2,
                             req_params,
                             opt_params,
                             outputs_params, {'Default': {}},
                             analysis_only=True)

    plugin.register_command(qiime_cmd)

plugin.register_command(qiime_cmd)
Exemplo n.º 6
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    # min length after trimming
    'Minimum trimmed read length': ['integer', '80'],
    # drop pairs whose mates are filtered out
    'Pair-end read required to match': ['choice:["any", "both"]', 'any'],
    # maximum Ns to drop sequence
    'Maximum number of N bases in a read to keep it': ['integer', '80'],
    # trim Ns on end of read
    'Trim Ns on ends of reads': ['boolean', 'True'],
    # Threads used
    'Number of threads used': ['integer', '4'],
    # NextSeq-specific quality trimming
    'NextSeq-specific quality trimming': ['boolean', 'False'],
}
outputs = {'Adapter trimmed files': 'per_sample_FASTQ'}
dflt_param_set = {
    'KAPA HyperPlus with iTru': {
        'Fwd read adapter': 'GATCGGAAGAGCACACGTCTGAACTCCAGTCAC',
        'Rev read adapter': 'GATCGGAAGAGCGTCGTGTAGGGAAAGGAGTGT',
        'Trim low-quality bases': 15,
        'Minimum trimmed read length': 80,
        'Pair-end read required to match': 'any',
        'Maximum number of N bases in a read to keep it': 80,
        'Trim Ns on ends of reads': True,
        'NextSeq-specific quality trimming': False,
        'Number of threads used': 4
    }
}

trim_cmd = QiitaCommand('Atropos v1.1.15', "Sequence QC - adapter trimming",
                        trim, req_params, opt_params, outputs, dflt_param_set)
Exemplo n.º 7
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from os import environ

# Initialize the plugin
plugin = QiitaPlugin(**plugin_details)

db_list = list(get_dbs(environ["QC_WOLTKA_DB_DP"]).values())
req_params = {'input': ('artifact', ['per_sample_FASTQ'])}
opt_params = {
    # database
    'Database': [
        "choice: [%s]" % ','.join([f'"{db}"' for db in db_list]),
        # making the first option default and rm quotes
        db_list[0]
    ],
}
outputs = {
    'Alignment Profile': 'BIOM',
    'Taxonomic Predictions - phylum': 'BIOM',
    'Taxonomic Predictions - genus': 'BIOM',
    'Taxonomic Predictions - species': 'BIOM',
    'Per genome Predictions': 'BIOM',
    'Per gene Predictions': 'BIOM',
}
dflt_param_set = generate_woltka_dflt_params()

woltka_cmd = QiitaCommand('Woltka v0.1.1',
                          "Functional and Taxonomic Predictions", woltka,
                          req_params, opt_params, outputs, dflt_param_set)

plugin.register_command(woltka_cmd)
Exemplo n.º 8
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plugin = QiitaPlugin(**plugin_details)

# Define the command
dbs = get_dbs_list()
dbs_without_extension = [splitext(db)[0] for db in dbs]
dbs_defaults = ', '.join([f'"{x}"' for x in dbs_without_extension])
req_params = {'input': ('artifact', ['per_sample_FASTQ'])}
opt_params = {
    'reference':
    [f'choice:["None", {dbs_defaults}]', dbs_without_extension[0]],
    'threads': ['integer', f'{THREADS}']
}

outputs = {'Filtered files': 'per_sample_FASTQ'}
default_params = {
    'auto-detect adapters only filtering [not recommended]': {
        'reference': "None",
        'threads': THREADS
    }
}
for db in dbs_without_extension:
    name = f'auto-detect adapters and {db} + phix filtering'
    default_params[name] = {'reference': db, 'threads': THREADS}

fastp_minimap2_cmd = QiitaCommand('Adapter and host filtering',
                                  "Sequence adapter and host filtering",
                                  fastp_minimap2, req_params, opt_params,
                                  outputs, default_params)

plugin.register_command(fastp_minimap2_cmd)
Exemplo n.º 9
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        0.01,
        'Maximum number of insertion/deletion (indel)':
        3,
        'Sequence trim length (-1 for no trimming)':
        -1,
        # the default min-reads is 10, however to ensure that deblur
        # is actually per-sample, min-reads must be set to 0 otherwise
        # filtering is applied over the samples included in a single
        # run
        'Minimum dataset-wide read threshold':
        0,
        'Minimum per-sample read threshold':
        2,
        'Threads per sample':
        1,
        'Jobs to start':
        1,
        'Reference phylogeny for SEPP':
        'Greengenes_13.8'
    }
}
deblur_cmd = QiitaCommand("Deblur", "deblurring workflow", deblur, req_params,
                          opt_params, outputs, dflt_param_set)
plugin.register_command(deblur_cmd)

_ROOT = os.path.abspath(os.path.dirname(__file__))


def get_data(path):
    return os.path.join(_ROOT, '..', 'support_files', path)
Exemplo n.º 10
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# Define the shogun command
default_db = join(environ["QC_SHOGUN_DB_DP"], 'rep82')
default_db_list = get_dbs_list(environ["QC_SHOGUN_DB_DP"])
req_params = {'input': ('artifact', ['per_sample_FASTQ'])}
opt_params = {
    # database
    'Database': ["choice: [%s]" % default_db_list,
                 default_db],
    # aligner
    'Aligner tool': ['choice:[' +
                     '"utree", ' +
                     '"burst", ' +
                     '"bowtie2"]', 'bowtie2'],
    # threads
    'Number of threads': ['integer', '5'],
    'Capitalist': ['boolean', 'False'],
    'Percent identity': ['float', '0.95'],
    }
outputs = {
    'Shogun Alignment Profile': 'BIOM',
    'Taxonomic Predictions - phylum': 'BIOM',
    'Taxonomic Predictions - genus': 'BIOM',
    'Taxonomic Predictions - species': 'BIOM',
    }
dflt_param_set = generate_shogun_dflt_params()

shogun_cmd = QiitaCommand(
    'Shogun v1.0.7', "Functional and Taxonomic Predictions", shogun,
    req_params, opt_params, outputs, dflt_param_set)
Exemplo n.º 11
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    },
    'no merging + isolate': {
        'type': 'isolate',
        'merging': 'no merge',
        'threads': THREADS,
        'memory': MEMORY,
        'k-mers': KMERS
    },
    'merge flash 65% + meta': {
        'type': 'meta',
        'merging': 'flash 65%',
        'threads': THREADS,
        'memory': MEMORY,
        'k-mers': KMERS
    },
    'merge flash 65% + isolate': {
        'type': 'isolate',
        'merging': 'flash 65%',
        'threads': THREADS,
        'memory': MEMORY,
        'k-mers': KMERS
    }
}

spades_cmd = QiitaCommand("spades",
                          "Isolate and Metagenomic processing via spades",
                          spades, req_params, opt_params, outputs,
                          default_params)

plugin.register_command(spades_cmd)
Exemplo n.º 12
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    'max-memory': ['string', '500m'],  # max memory in mb [ DEFAULT : 500m ]
    # leaving as empty string to simply. note that in tests is not empty.
    'trimmomatic-options': ['string', ''],

    # Bowtie2 options
    # 'bowtie2-options': ['string', '--very-sensitive']
    # BMTagger options
    # # TRF options
    # 'match': ['integer', '2'], # matching weight
    # 'mismatch': ['integer', '7'], # mismatching penalty
    # 'delta': ['integer', '7'], # indel penalty
    # 'pm': ['integer', '80'], # match probability
    # 'pi': ['integer', '10'], # indel probability
    # 'minscore': ['integer', '50'], # mimimum alignment score to report
    # 'maxperiod': ['integer', '500m'] # maximum period size to report
    # FastQC options
    }
outputs = {'KneadData files': 'per_sample_FASTQ'}
dflt_param_set = {
    'Defaults': {
        'reference-db': 'default', 'bypass-trim': False, 'threads': 1,
        'processes': 1, 'quality-scores': 'phred33', 'run-bmtagger': False,
        'run-trf': False, 'run-fastqc-start': True, 'run-fastqc-end': False,
        'max-memory': '500m', 'trimmomatic-options': ''
        }
}

kneaddata_cmd = QiitaCommand(
    'KneadData 0.5.1', "Sequence QC - Human sequence removal", kneaddata,
    req_params, opt_params, outputs, dflt_param_set)