コード例 #1
0
 def __init__(
     self,
     file_path: str,
     study_id: ObjectId,
     study_file_id: ObjectId,
     name: str,
     *,
     domain_ranges: Dict = None,
     **kwargs,
 ):
     Annotations.__init__(self, file_path, self.ALLOWED_FILE_TYPES,
                          study_id, study_file_id)
     # Lowercase coordinate headers, expected for df merge
     for i, header in enumerate(self.headers):
         if header in ["X", "Y", "Z"]:
             self.headers[i] = self.headers[i].lower()
     self.preprocess()
     self.determine_coordinates_and_cell_names()
     self.source_file_type = "cluster"
     self.cluster_type = ("3d" if
                          ("z" in self.coordinates_and_cell_headers or "Z"
                           in self.coordinates_and_cell_headers) else "2d")
     self.name = name
     # Check if domain_ranges is an empty dictionary
     self.domain_ranges = domain_ranges if not (not domain_ranges) else None
コード例 #2
0
def test_round_trip_annotations():
    a = Annotations(foo=1234, zoo=[123.1, 456.2, 789.3], species='Moose', birthdays=[datetime(1969,4,28), datetime(1973,12,8), datetime(2008,1,3)])
    sa = a.toSynapseAnnotations()
    # print sa
    a2 = Annotations.fromSynapseAnnotations(sa)
    # print a2
    a = a2
コード例 #3
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 def __init__(self, cluster_file, cell_metadata_file=None):
     Annotations.__init__(self, cluster_file, self.ALLOWED_FILE_TYPES)
     self.preprocess()
     self.determine_coordinates_and_cell_names()
     if cell_metadata_file is not None:
         self.cell_metadata = Annotations(cell_metadata_file,
                                          CellMetadata.ALLOWED_FILE_TYPES)
コード例 #4
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    def test_merge_df(self):
        cluster = Clusters(
            "../tests/data/test_1k_cluster_data.csv",
            "dec0dedfeed1111111111111",
            "addedfeed000000000000000",
            "testCluster",
        )
        cell_metadata_df = Annotations(
            self.CELL_METADATA_PATH,
            ["text/csv", "text/plain", "text/tab-separated-values"],
        )
        cell_metadata_df.preprocess()
        cell_names_cell_metadata_df = np.asarray(cell_metadata_df.file["NAME"])
        cell_names_cluster_df = np.asarray(cluster.file["NAME"])
        # Cell names found in both cluster and metadata files
        common_cell_names = cell_names_cluster_df[
            np.isin(cell_names_cluster_df, cell_names_cell_metadata_df)
        ]
        print(f"common cell names: {common_cell_names}")
        # Perform merge
        print(cluster.file[["NAME", "x", "y", "z"]])
        cluster.merge_df(cluster.file[["NAME", "x", "y", "z"]], cell_metadata_df.file)

        # Ensure ONLY common cell names found in cell metadata file and cluster file
        # are in the newly merged df
        result = all(
            cell[0] in common_cell_names for cell in cluster.file["NAME"].values
        )
        self.assertTrue(
            result,
            f"Merge was not performed correctly. Merge should be performed on 'NAME'",
        )
コード例 #5
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 def test_validate_numeric_annots(self):
     cluster = Annotations(
         "../tests/data/cluster_bad_missing_coordinate.txt",
         TestAnnotations.ALLOWED_FILE_TYPES,
     )
     cluster.create_data_frame()
     self.assertTrue(cluster.validate_numeric_annots)
コード例 #6
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    def test_coerce_numeric_values(self):
        cm = Annotations(
            "../tests/data/metadata_example.txt",
            ["text/csv", "text/plain", "text/tab-separated-values"],
        )
        cm.create_data_frame()
        cm.file = Annotations.coerce_numeric_values(cm.file, cm.annot_types)
        dtype = cm.file.dtypes[("Average Intensity", "numeric")]
        self.assertEqual(dtype, np.float)

        # Test that numeric values wer
        # Pick a random number between 1 and amount of lines in file
        ran_num = random.randint(1, 20)
        for column in cm.file.columns:
            annot_type = column[1]
            if annot_type == "numeric":
                value = str(cm.file[column][ran_num])
                print(Decimal(value).as_tuple().exponent)
                assert (
                    abs(Decimal(value).as_tuple().exponent) >= self.EXPONENT
                ), "Numbers did not round to 3 or less decimals places"

        # Test for string in numeric column
        cm_has_bad_value = Annotations(
            "../tests/data/metadata_bad_contains_str_in_numeric_column.txt",
            ["text/csv", "text/plain", "text/tab-separated-values"],
        )
        cm_has_bad_value.create_data_frame()
        self.assertRaises(
            ValueError,
            Annotations.coerce_numeric_values,
            cm_has_bad_value.file,
            cm_has_bad_value.annot_types,
        )
コード例 #7
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    def test_low_mem_artifact(self):
        # pandas default of low_memory=True allows internal chunking during parsing
        # causing inconsistent dtype coercion artifact for larger annotation files

        lmtest = Annotations(
            "../tests/data/low_mem_unit.txt",
            ["text/csv", "text/plain", "text/tab-separated-values"],
        )
        lmtest.preprocess()

        # when low memory=True, the first row in the file would be in the first chunk
        # and the numeric value was not properly coerced to become a string
        assert isinstance(
            lmtest.file["mixed_data"]["group"][0], str
        ), "numeric value should be coerced to string"

        # Per SCP-2545 NA values become strings for group annotations.
        print(lmtest.file["mixed_data"]["group"][2])
        print(type(lmtest.file["mixed_data"]["group"][2]))
        assert isinstance(
            lmtest.file["mixed_data"]["group"][2], str
        ), "expect empty cell conversion to NaN is string for group annotation"

        # numeric value in second chunk should still properly be coerced to string type
        assert isinstance(
            lmtest.file["mixed_data"]["group"][32800], str
        ), "numeric value should be coerced to string"
コード例 #8
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    def __init__(self, image_dir, gt_path, seqname=None, trackers=[]):
        if (seqname == None):
            # Assumed data format is /path/to/data/seqname.{csv|txt}
            self.seqname = gt_path.split('/')[-1][:-4]
        else:
            self.seqname = seqname

        self.gt_annotations = Annotations(gt_path, seqname=seqname)
        self.tracker_res = {}
        for i in trackers:
            try:
                self.tracker_res[i.name] = i.get_res_of(seqname)
            except:
                print(self.seqname, 'not available for', i.name)
        self.img_dir = image_dir
        self.images = [
            i for i in os.listdir(image_dir)
            if i[-4:] == '.png' or i[-4:] == '.jpg'
        ]
        self.images.sort()
        height, width, layers = cv2.imread(
            os.path.join(image_dir, self.images[0])).shape
        self.height = height
        self.width = width
        self.size = (width, height)
        self.obj_size = self.gt_annotations.obj_size
コード例 #9
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def test_annotations():
    a = Annotations(foo='bar', zoo=['zing','zaboo'], species='Platypus')
    sa = a.toSynapseAnnotations()
    # print sa
    assert sa['stringAnnotations']['foo'] == ['bar']
    assert sa['stringAnnotations']['zoo'] == ['zing','zaboo']
    assert sa['stringAnnotations']['species'] == ['Platypus']
コード例 #10
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def test_more_annotations():
    a = Annotations(foo=1234, zoo=[123.1, 456.2, 789.3], species='Platypus', birthdays=[datetime(1969,4,28), datetime(1973,12,8), datetime(2008,1,3)])
    sa = a.toSynapseAnnotations()
    # print sa
    assert sa['longAnnotations']['foo'] == [1234]
    assert sa['doubleAnnotations']['zoo'] == [123.1, 456.2, 789.3]
    assert sa['stringAnnotations']['species'] == ['Platypus']
    bdays = [datetime.utcfromtimestamp(t) for t in sa['dateAnnotations']['birthdays']]
    assert bdays == [datetime(1969,4,28), datetime(1973,12,8), datetime(2008,1,3)]
コード例 #11
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ファイル: jstruct_parse.py プロジェクト: jamie-pate/jstruct
def parse_and_generate(filename, out_filename=None, init_filename=None, include_paths=[], defines=[]):
    """
    parse the file at filename.
    if out_filename and init_filename are None:return a tuple containing the generated file's names.
    otherwise return the generated source code for each
    """
    from os import path

    if out_filename:
        out_filename = re.sub(FILENAME_EXPR, out_filename, filename)
    if init_filename:
        init_filename = re.sub(FILENAME_EXPR, init_filename, filename)
    rel_filename = ''
    if out_filename is None and init_filename is None:
        rel_filename = re.sub(FILENAME_EXPR, r'\g<basename>.h', path.basename(filename))
    else:
        init_dir = path.dirname(init_filename)
        rel_filename = path.relpath(out_filename, init_dir)

    ast, text = parse_jstruct(filename, include_paths=include_paths, defines=defines)
    annotations = Annotations(text)
    try:
        annotations.expand(ast, '<stdin>')
    except ExpansionError as ex:
        ex.filename = filename
        raise

    prune_ast(ast, '<stdin>')
    out_ast, init_ast = split_ast(ast)

    generator = CGenerator()
    out_result = generator.visit(out_ast)
    init_result = generator.visit(init_ast)
    if GUARD_HEADERS_EXPR.search(out_result):
        out_result = re.sub(
            GUARD_HEADERS_EXPR,
            r'\g<0>' + GENERATED,
            out_result, count=1
        ) + '\n#endif\n'
    else:
        out_result = GENERATED + out_result
    init_result = re.sub(GUARD_HEADERS_EXPR, '', init_result)
    init_instructions = INIT_INSTRUCTIONS if init_filename and init_filename.endswith('.h') else ''
    init_result = GENERATED1NL + init_instructions + INCLUDE_H(rel_filename) + init_result

    if out_filename:
        with open(out_filename, 'w') as out_file:
            out_file.write(out_result)
    if init_filename:
        with open(init_filename, 'w') as init_file:
            init_file.write(init_result)

    if out_filename is None and init_filename is None:
        return (out_result, init_result)
    else:
        return (out_filename, init_filename)
コード例 #12
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def test_mixed_annotations():
    """test that toSynapseAnnotations will coerce a list of mixed types to strings"""
    a = Annotations(foo=[1, 'a', datetime(1969,4,28,11,47)])
    sa = a.toSynapseAnnotations()
    # print sa
    a2 = Annotations.fromSynapseAnnotations(sa)
    # print a2
    assert a2['foo'][0] == '1'
    assert a2['foo'][1] == 'a'
    assert a2['foo'][2].find('1969') > -1
コード例 #13
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 def test_leading_zeros(self):
     """Ensures leading zeros are not stripped from group annotations"""
     path = "../tests/data/metadata_convention_with_leading_0s.tsv"
     annotation = Annotations(
         path, ["text/csv", "text/plain", "text/tab-separated-values"]
     )
     annotation.preprocess()
     # Grab value from donor id column.
     value_with_leading_zeros = annotation.file.iloc[
         :, annotation.file.columns.get_level_values(0) == "donor_id"
     ].values.item(0)
     self.assertTrue(value_with_leading_zeros.startswith("0"))
コード例 #14
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    def test_duplicate_headers(self):
        """Annotation headers should not contain duplicate values
        """
        dup_headers = Annotations(
            "../tests/data/dup_headers_v2.0.0.tsv",
            ["text/csv", "text/plain", "text/tab-separated-values"],
        )

        self.assertFalse(
            dup_headers.validate_unique_header(),
            "Duplicate headers should fail format validation",
        )

        with self.assertRaises(ValueError):
            dup_headers.preprocess()
コード例 #15
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ファイル: __main__.py プロジェクト: ning-y/trcls
def main():
    r"""
    Runs trcls.
    """
    parser = cli.get_parser()
    args = parser.parse_args()
    logger = setup_logging(args)

    if args.version:
        print('trcls {}'.format(VERSION))
        exit(0)

    if args.alignment == None or args.features == None:
        logger.error(
            'Both SAM alignment and GTF annotation files must be provided')
        parser.print_help()
        exit(1)

    with open(args.features) as features_file:
        annotations = Annotations(features_file)

    with open(args.alignment) as alignment_file:
        alignments = alignment_file.readlines()

    headers = filter(lambda l: l.startswith('@'), alignments)
    headers = map(str.strip, headers)
    alignments = filter(lambda l: not l.startswith('@'), alignments)

    transcripts = get_transcripts(alignments, args.skip_tolerance,
                                  args.map_tolerance)

    print('\n'.join(headers))
    for transcript in transcripts:
        transcript.annotate(annotations, args.junction_tolerance)
        print(transcript)
コード例 #16
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def apply(binary_path: str, sig_path: str) -> Tuple[int, str]:
    """
    Applies signatures in specified file to specified binary, and writes resulting bndb to disk

    :param binary_path: path of binary to apply signatures to
    :param sig_path: path of signature file to read in
    :return: tuple (int count of function signatures matched, str path to BNDB with tags that was created)
    """
    bv = binja.BinaryViewType.get_view_of_file(binary_path)
    print("Loaded binary {} into Binary Ninja.".format(binary_path))
    functions = hash_all(bv)
    print("{} functions in binary have been hashed.".format(len(functions)))
    data = read_json(sig_path)
    signatures = {}
    for raw_hash in data:
        # only bother with functions that actually have tags
        if len(data[raw_hash]) > 0:
            signatures[raw_hash] = Annotations(raw_data=data[raw_hash])

    print("Signature file {} loaded into memory.".format(sig_path))

    num_func_sigs_applied = 0
    for function_hash in functions:
        if function_hash in signatures:
            tag_function(bv, functions[function_hash], function_hash, signatures)
            print('Located a match at {}!'.format(function_hash))
            num_func_sigs_applied += 1

    output_bndb = os.path.join(os.getcwd(), binary_path + '.bndb')
    print("Writing output Binary Ninja database at {}".format(output_bndb))
    bv.create_database(output_bndb)
    return num_func_sigs_applied, output_bndb
コード例 #17
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    def _getAnnotations(self, entity):

        entity_id = entity['id'] if 'id' in entity else str(entity)
        url = '%s/entity/%s/annotations' % (self.repoEndpoint, entity_id,)

        response = requests.get(url, headers=self.headers)
        response.raise_for_status()
        
        return Annotations.fromSynapseAnnotations(response.json())
コード例 #18
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 def test_create_columns(self):
     header = ["Intensity", "donor_id", "species__ontology_label"]
     annotatiion_types = ["numeric", "group", "group"]
     colums = Annotations.create_columns(header, annotatiion_types)
     expected = [
         ("Intensity", "numeric"),
         ("donor_id", "group"),
         ("species__ontology_label", "group"),
     ]
     self.assertEqual(colums, expected)
コード例 #19
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 def test_convert_header_to_multiIndex(self):
     expected = [
         ("Name", "TYPE"),
         ("X", "numeric"),
         ("Y", "numeric"),
         ("Z", "numeric"),
         ("Average Intensity", "numeric"),
     ]
     path = "../tests/data/good_subsample_cluster.csv"
     annotation = Annotations(
         path, ["text/csv", "text/plain", "text/tab-separated-values"]
     )
     df = annotation.open_file(
         path, open_as="dataframe", skiprows=2, names=annotation.headers
     )[0]
     new_df = Annotations.convert_header_to_multi_index(df, expected)
     # Remove white spaces
     new_df_columns = [tuple(s.strip() for s in y) for y in new_df.columns]
     self.assertEqual(new_df_columns, expected)
コード例 #20
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    def tosling(self, filename):
        documents = []
        annotations = Annotations(self)
        input_stats = self.summary.input

        # Callback that will be invoked for each SLING document that is built.
        # This could be for each sentence or each document part, as specified.
        def callback(document):
            documents.append(document)

        with open(filename, "r") as f:
            input_stats.files.increment()
            lines = f.readlines()
            for line in lines:
                annotations.read(line, callback)

        for document in documents:
            self._add_output_statistics(document)

        return documents
コード例 #21
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    def __init__(
        self,
        file_path: str,
        study_id: ObjectId,
        study_file_id: ObjectId,
        *args,
        **kwargs,
    ):

        self.study_accession = kwargs.pop("study_accession")
        Annotations.__init__(self, file_path, self.ALLOWED_FILE_TYPES,
                             study_id, study_file_id)
        self.cell_names = []
        # lambda below initializes new key with nested dictionary as value and avoids KeyError
        self.issues = defaultdict(
            lambda: defaultdict(lambda: defaultdict(list)))
        self.ontology = defaultdict(lambda: defaultdict(list))
        self.ontology_label = dict()
        self.cells = []
        self.numeric_array_columns = {}
コード例 #22
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    def test_header_format(self):
        """Header rows of metadata file should conform to standard
        """
        error_headers = Annotations(
            "../tests/data/error_headers_v2.0.0.tsv",
            ["text/csv", "text/plain", "text/tab-separated-values"],
        )

        self.assertFalse(
            error_headers.validate_header_keyword(),
            "Missing NAME keyword should fail format validation",
        )

        self.assertFalse(
            error_headers.validate_type_keyword(),
            "Missing TYPE keyword should fail format validation",
        )

        self.assertFalse(
            error_headers.validate_type_annotations(),
            "Invalid type annotations should fail format validation",
        )
コード例 #23
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    def _setAnnotations(self, entity, annotations):
        entity_id = entity['id'] if 'id' in entity else str(entity)
        url = '%s/entity/%s/annotations' % (self.repoEndpoint, entity_id,)

        a = annotations.toSynapseAnnotations()
        a['id'] = entity_id
        if 'etag' in entity and 'etag' not in a:
            a['etag'] = entity['etag']

        response = requests.put(url, data=json.dumps(a), headers=self.headers)
        response.raise_for_status()
        
        return Annotations.fromSynapseAnnotations(response.json())
コード例 #24
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def test_idempotent_annotations():
    """test that toSynapseAnnotations won't mess up a dictionary that's already
    in synapse-style form"""
    a = Annotations(species='Moose', n=42, birthday=datetime(1969,4,28))
    sa = a.toSynapseAnnotations()
    a2 = Annotations()
    a2.update(sa)
    sa2 = a2.toSynapseAnnotations()
    assert sa == sa2
コード例 #25
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def read_tags(bv: Binary_View,
              hashes: Dict[str, Function]) -> Dict[str, Annotations]:
    """
    Gathers tag locations from every function in the binary.

    :param bv: BinaryView that contains the analysis results
    :param hashes: a dictionary mapping hashes to their functions
    :return: dictionary representing all tags in the current binary
    """
    tagged_dict = {}

    # TODO: switch to use GetAllTagReferences once it's available in the python API for O(1) access times
    for hash_value in hashes:
        function = hashes[hash_value]
        tagged_dict[hash_value] = Annotations(function=function, bv=bv)
    return tagged_dict
コード例 #26
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    def test_get_cell_names(self):
        import pandas as pd

        expected_cell_names = [
            "CELL_0001",
            "  CELL_0002",
            "  CELL_0003",
            "  CELL_0004",
            "  CELL_0005",
            "  CELL_0006",
            "  CELL_0007",
            "  CELL_0008",
            "  CELL_0009",
            " CELL_00010",
            " CELL_00011",
            " CELL_00012",
            " CELL_00013",
            " CELL_00014",
            " CELL_00015",
            " CELL_00016",
            " CELL_00017",
            " CELL_00018",
            " CELL_00019",
            " CELL_00020",
        ]
        column_names = [
            ("NAME", "TYPE"),
            ("Cluster", "group"),
            ("Sub-Cluster", "group"),
            ("Average Intensity", "numeric"),
        ]
        index = pd.MultiIndex.from_tuples(column_names)

        df = pd.read_csv(
            "../tests/data/metadata_example.txt", sep="\t", names=index, skiprows=2
        )
        cells = Annotations.get_cell_names(df)
        self.assertEqual(cells, expected_cell_names)
コード例 #27
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class RendererMarkdown:
    def __init__(self, output_dir):
        self.output_dir = Path(output_dir)
        self.annotations = Annotations("annotations-bitcoin-0.18.json")

    def add_version_note(self, page):
        if "added" in self.annotation:
            page.text("*Added in Bitcoin Core %s*\n" %
                      self.annotation["added"])

    def add_wallet_note(self, page):
        if "wallet" in self.annotation:
            if self.annotation["wallet"]:
                page.text("*Requires wallet support.*\n")

    def add_see_also_command(self, page, command):
        name = display_name(command)
        lower_name = uncapitalize(name)
        page.text("* [%s][rpc %s]: {{summary_%s}}" %
                  (name, command, lower_name))

    def add_see_also_glossary(self, page, text, link):
        page.text("* [%s][/en/glossary/%s]" % (text, link))

    def add_see_also_message(self, page, message, text):
        page.text("* [`%s` message][%s message]: %s" %
                  (message, message, text))

    def add_see_also(self, page):
        if "see_also" in self.annotation:
            page.text("*See also*\n")
            see_also = self.annotation["see_also"]
            if "commands" in see_also:
                for command in see_also["commands"]:
                    self.add_see_also_command(page, command)
            if "glossary" in see_also:
                for glossary in see_also["glossary"]:
                    self.add_see_also_glossary(page, glossary[1], glossary[0])
            if "messages" in see_also:
                for message in see_also["messages"]:
                    self.add_see_also_message(page, message[0], message[1])
            page.nl()

    def arg_summary(self, arg):
        return arg["name"]

    def arg_n(self, arg):
        return arg["name"]

    def arg_t(self, arg):
        t = arg["type"].split(", ")[0]
        if t == "numeric":
            t = "number (int)"
        if "args" in self.annotation:
            args = self.annotation["args"]
            if arg["name"] in args:
                arg_annotation = args[arg["name"]]
                if "type" in arg_annotation:
                    t += " (%s)" % arg_annotation["type"]
        return t

    def arg_p(self, arg):
        arg_line = arg["type"].split(", ")
        if len(arg_line) == 1:
            return "Required"
        else:
            p = arg_line[1]
            if p == "required":
                return "Required<br>(exactly 1)"
            elif p == "optional":
                if len(arg_line) == 3:
                    return "Optional<br>" + capitalize(arg_line[2])
                else:
                    return "Optional"
            else:
                return p

    def arg_d(self, arg):
        d = arg["description"]
        if "args" in self.annotation:
            args = self.annotation["args"]
            if arg["name"] in args:
                arg_annotation = args[arg["name"]]
                if "description" in arg_annotation:
                    d += ". " + arg_annotation["description"]
        return d

    def result_t(self, result):
        t = result["type"]
        if t == "numeric":
            t = "number (int)"
        elif t == "string":
            t += " (hex)"
        return t

    def result_null(self):
        return '''*Result---`null` on success*

{% itemplate ntpd1 %}
- n: "`result`"
  t: "null"
  p: "Required<br>(exactly 1)"
  d: "JSON `null` when the command was successfull or a JSON with an error field on error."

{% enditemplate %}
'''

    def yaml_escape(self, text):
        return text.replace('"', '\\"')

    def guarded_code_block(self, block):
        return "{% endautocrossref %}\n\n" + self.code_block(
            block) + "\n{% autocrossref %}\n"

    def code_block(self, block):
        min_indentation = 999
        split_block = block.splitlines()
        for line in split_block:
            indentation = len(line) - len(line.lstrip(" "))
            if indentation < min_indentation:
                min_indentation = indentation

        indented_block = ""
        for line in split_block:
            if min_indentation <= 4:
                indented_block += " " * (4 - min_indentation) + line
            else:
                indented_block += line[min_indentation - 4:]
            indented_block += "\n"
        if not indented_block.endswith("\n"):
            indented_block += "\n"
        return indented_block

    def add_license_header(self, page):
        with page.tag("comment"):
            page.text(
                "This file is licensed under the MIT License (MIT) available on\n"
                "http://opensource.org/licenses/MIT.")

    def split_description(self, full_description):
        if "summary" in self.annotation:
            summary = self.annotation["summary"]
            description = full_description
        elif full_description:
            if "." in full_description:
                summary = uncapitalize(
                    full_description.partition(".")[0]) + "."
                description = full_description[len(summary) + 1:].lstrip()
            else:
                summary = uncapitalize(full_description.rstrip()) + "."
                description = ""
            summary = " ".join(summary.splitlines())
        else:
            summary = "does %s." % display_name(self.command)
            description = None
        return summary, description

    def process_command_help(self, help_data):
        self.help_data = help_data
        # print(help_data)
        self.command = help_data["command"].split(" ")[0]
        self.annotation = self.annotations.annotation(self.command)

        page = Page()

        self.add_license_header(page)

        name = display_name(self.command)
        lower_name = name[0].lower() + name[1:]

        page.tag(
            "assign",
            'filename="_data/devdocs/en/bitcoin-core/rpcs/rpcs/%s.md"' %
            self.command)
        title = "\n##### %s" % name
        if self.command == "ping":
            title += " {#ping-rpc}"
            suffix = "-rpc"
        else:
            suffix = ""
        page.text(title)
        page.tag("include", "helpers/subhead-links.md")
        page.nl()
        summary, description = self.split_description(help_data["description"])
        page.tag("assign", 'summary_%s%s="%s"' % (lower_name, suffix, summary))
        page.nl()
        with page.tag("autocrossref"):
            page.nl()
            self.add_version_note(page)
            self.add_wallet_note(page)
            page.text("The `%s` RPC {{summary_%s%s}}\n" %
                      (self.command, lower_name, suffix))
            if description:
                quoted = False
                for line in description.splitlines():
                    if line.startswith("    "):
                        if not quoted:
                            page.text("{% endautocrossref %}")
                            page.nl()
                            quoted = True
                    elif quoted:
                        page.nl()
                        page.text("{% autocrossref %}")
                        quoted = False
                    page.text(line)
                if quoted:
                    page.nl()
                    page.text("{% autocrossref %}")
                page.nl()

            if "arguments" in help_data:
                if not help_data["arguments"]:
                    page.text("*Parameters: none*\n")
                else:
                    count = 1
                    for arg in help_data["arguments"]:
                        page.text("*Parameter #%s---%s*\n" %
                                  (count, self.arg_summary(arg)))
                        with page.tag("itemplate", "ntpd1"):
                            page.text('- n: "%s"' % self.arg_n(arg))
                            page.text('  t: "%s"' % self.arg_t(arg))
                            page.text('  p: "%s"' %
                                      self.yaml_escape(self.arg_p(arg)))
                            page.text('  d: "%s"' %
                                      self.yaml_escape(self.arg_d(arg)))
                            page.nl()
                        page.nl()
                        if "literal_description" in arg:
                            page.text(
                                self.guarded_code_block(
                                    arg["literal_description"]))

                        count += 1

            if help_data["results"] == [{
                    'title_extension': ''
            }] or help_data["results"] == []:
                page.text(self.result_null())
            else:
                for result in help_data["results"]:
                    result_header = "*Result"
                    if "title_extension" in result and result[
                            "title_extension"]:
                        result_header += "---" + \
                            result["title_extension"].lstrip()
                    result_header += "*\n"
                    page.text(result_header)
                    if result["format"] == "literal":
                        page.text(self.guarded_code_block(result["text"]))
                    else:
                        with page.tag("itemplate", "ntpd1"):
                            page.text('- n: "%s"' % "`result`")
                            page.text('  t: "%s"' % self.result_t(result))
                            page.text('  p: "Required<br>(exactly 1)"')
                            page.text('  d: "%s"' %
                                      self.yaml_escape(result["description"]))
                            page.nl()
                        page.nl()

            if help_data["examples"]:
                page.text("*Example*\n")
                for example in help_data["examples"]:
                    if example.startswith("> "):
                        if not example.startswith("> curl"):
                            with page.tag("highlight", "bash"):
                                page.text(example[2:].rstrip())
                    else:
                        if (not example.startswith("As json rpc")
                                and not example.startswith("As a json rpc")
                                and not example.startswith("As a JSON-RPC")):
                            page.text(example)
                            page.nl()
                page.nl()

            self.add_see_also(page)

        return page.out

    def render_cmd_page(self, command, help_data):
        command_file = command + ".md"
        with open(self.output_dir / "rpcs" / command_file, "w") as file:
            file.write(self.process_command_help(help_data))

    def add_version_helper_assignment(self, page, type, version, bold=False):
        a = type.upper() + version.replace(".", "_") + "='*"
        if bold:
            a += "*"
        a += '<abbr title="' + type + ' in Bitcoin Core v' + version + '">'
        a += type + ' in ' + version + '</abbr>*'
        if bold:
            a += "*"
        a += "'"
        page.tag("assign", a)

    def add_version_helpers(self,
                            page,
                            version,
                            date,
                            new=False,
                            updated=True,
                            bold=False):
        page.text("<!-- Bitcoin Core %s %s -->" % (version, date))
        if new:
            self.add_version_helper_assignment(page, "New", version, bold=bold)
        if updated:
            self.add_version_helper_assignment(page,
                                               "Updated",
                                               version,
                                               bold=bold)
        page.nl()

    def render_version_info(self, page):
        with page.tag("comment"):
            page.text(
                """Styling notes: use highly-visible style for upcoming changes (not yet
released) and changes made in the last 6 months.  Use less-visible
style for changes made up to two years ago.  Don't point out
changes made more than two years ago.

Use v0.n.n in abbreviation title to prevent autocrossrefing.""")
        page.nl()
        page.text("<!-- Deprecated -->")
        page.tag(
            "assign",
            "DEPRECATED='**<abbr title=\"Deprecated; will be removed in a future version of Bitcoin Core\">Deprecated</abbr>**'"
        )

        self.add_version_helpers(page, "0.14.1", "April 2017", bold=True)
        self.add_version_helpers(page,
                                 "0.14.0",
                                 "March 2017",
                                 new=True,
                                 bold=True)
        self.add_version_helpers(page, "0.13.1", "September 2016")
        self.add_version_helpers(page, "0.13.0", "August 2016", new=True)
        self.add_version_helpers(page, "0.12.1", "April 2016")
        self.add_version_helpers(page, "0.12.0", "February 2016", new=True)
        self.add_version_helpers(page,
                                 "0.11.0",
                                 "July 2015",
                                 new=True,
                                 updated=False)

    def render_overview_page(self, all_commands, render_version_info=True):
        with open(self.output_dir / "quick-reference.md", "w") as file:
            page = Page()

            self.add_license_header(page)
            page.tag(
                "assign",
                'filename="_data/devdocs/en/bitcoin-core/rpcs/quick-reference.md"'
            )
            page.nl()
            page.text("#### Quick Reference {#rpc-quick-reference}")
            page.tag("include", "helpers/subhead-links.md")
            page.nl()

            if render_version_info:
                self.render_version_info(page)

            page.text(
                """<!-- the summaries used below are defined in the files for the
     particular RPC and aggregated into this helper file by the makefile
     function manual-update-summaries-file. For example, to edit the
     summary for GetBestBlockHash, edit
     _includes/rpc/getbestblockhash.md and run `make manual-update-summaries`. -->"""
            )
            page.tag("include", "helpers/summaries.md")
            page.nl()

            for category in all_commands:
                page.text("#### " + category + " RPCs")
                page.text("{:.no_toc}")
                page.text("<!-- no subhead-links here -->\n")
                with page.tag("autocrossref"):
                    page.nl()
                    if category == "Wallet":
                        page.text(
                            """**Note:** the wallet RPCs are only available if Bitcoin Core was built
with [wallet support][]{:#term-wallet-support}{:.term}, which is the
default.
""")
                    for command in all_commands[category]:
                        cmd = command.split(" ")[0]
                        item = "* [" + display_name(cmd) + "]"
                        item += "[rpc " + cmd + "]: "
                        item += "{{summary_" + uncapitalize(display_name(cmd))
                        if cmd == "ping":
                            item += "-rpc"
                        item += "}}"
                        if render_version_info:
                            annotation = self.annotations.annotation(cmd)
                            if "added" in annotation:
                                item += " {{NEW%s}}" % annotation[
                                    "added"].replace(".", "_")
                            if "added" in annotation and "changed" in annotation:
                                item += ","
                            if "changed" in annotation:
                                item += " {{UPDATED%s}}" % annotation[
                                    "changed"].replace(".", "_")
                            if "deprecated" in annotation:
                                item += " {{DEPRECATED}}"
                        page.text(item)
                    page.nl()
                page.nl()

            file.write(page.out)
コード例 #28
0
 def clean_annotations(self, annotations_file):
     annotations = Annotations(annotations_file)
     annotations.clean_annotations()
コード例 #29
0
 def import_see_also(self, markdown_dir, annotations_file):
     annotations = Annotations(annotations_file)
     annotations.import_see_also(markdown_dir)
コード例 #30
0
ファイル: test_annotations.py プロジェクト: ning-y/trcls
def flna_annotations():
    with open('test/FLNA.gtf') as gtf_file:
        return Annotations(gtf_file)
コード例 #31
0
def generate_lawbook(name):
    ANNOTATIONS = ANNOTATIONS_MAP.get(name, Annotations(list()))

    with open(os.path.join(STATIC_DIR, "%s.html" % name),
              "w+",
              encoding="utf-8") as fp:
        fp.write("""<html>
        <head>
          <title> %s </title>
          <meta charset="utf-8">
          <meta name="viewport" content="width=device-width, initial-scale=1">
          <link rel="stylesheet" href="https://maxcdn.bootstrapcdn.com/bootstrap/3.4.0/css/bootstrap.min.css">
          <script src="https://ajax.googleapis.com/ajax/libs/jquery/3.4.1/jquery.min.js"></script>
          <script src="https://maxcdn.bootstrapcdn.com/bootstrap/3.4.0/js/bootstrap.min.js"></script>
          <link href="css/gesetze.css" rel="stylesheet" title="Default Style">
        </head>

        <body>
        """ % name)

        data = read_json(name)

        fp.write("<h1>%s</h1>" % name)

        for entry in data:
            if entry["type"] == "section":
                fp.write("<h3>%s</h3>" % entry["title"])

            else:
                paragraph, title = entry["norm"], entry.get("title", "")
                if title is None: title = ""

                # print("Writing %s %s" % (paragraph, name))

                anchor = "<a id='#%s'></a>" % entry["norm"]
                fp.write("<div class='norm'>")
                fp.write(
                    "<div class='normhead%s'>%s %s</div> %s" %
                    (" marked" if ANNOTATIONS.is_marked(paragraph) else "",
                     paragraph, title, anchor))
                fp.write("<div class='normtext'>")

                for absatz in entry["paragraphs"]:
                    fp.write("<div class='abs'>%s" % (absatz["text"]))

                    subs = absatz["sub"]
                    if subs:
                        fp.write("<div class='subbox'>")
                        for i, sub in enumerate(subs):
                            fp.write("<div class='sub'>%d. %s" %
                                     (i + 1, sub["text"]))
                            subsubs = sub["sub"]

                            if subsubs != []:
                                fp.write("<div class='subsubbox'>")
                                letters = lit_gen()
                                for subsub in subsubs:
                                    fp.write(
                                        "<div class='subsub'>%s) %s</div>" %
                                        (next(letters), subsub["text"]))

                                fp.write("</div>")  # .subsubbox

                            fp.write("</div>")  # .sub
                        fp.write("</div>")  # .subbox
                    fp.write("</div>")  # .abs
                fp.write("</div>")  # .normtext
                fp.write("</div>")  # .norm

        fp.write("</body> </html>")
コード例 #32
0
class SubSample(Annotations):
    ALLOWED_FILE_TYPES = [
        "text/csv", "text/plain", "text/tab-separated-values"
    ]
    MAX_THRESHOLD = 100_000
    SUBSAMPLE_THRESHOLDS = [MAX_THRESHOLD, 20_000, 10_000, 1_000]

    def __init__(self, cluster_file, cell_metadata_file=None):
        Annotations.__init__(self, cluster_file, self.ALLOWED_FILE_TYPES)
        self.preprocess()
        self.determine_coordinates_and_cell_names()
        if cell_metadata_file is not None:
            self.cell_metadata = Annotations(cell_metadata_file,
                                             CellMetadata.ALLOWED_FILE_TYPES)

    @staticmethod
    def has_cells_in_metadata_file(metadata_cells, cluster_cells):
        """Checks if cells in cluster are in metadata cells"""
        return set(cluster_cells).issubset(set(metadata_cells))

    def prepare_cell_metadata(self):
        """ Does an inner join on cell and cluster file """
        if self.cell_metadata is not None:
            self.cell_metadata.preprocess()
            self.merge_df(self.file[self.coordinates_and_cell_headers],
                          self.cell_metadata.file)
            self.determine_coordinates_and_cell_names()

    def bin(self, annotation: Tuple[str, str], scope: str):
        """Creates bins for a given group

        Args:
            annotation: Tuple[str, str]
                This is the annotation for a single column. For example annotation
                would look like ('annotation_name', 'numeric') or ('annotation_name', 'group')

        Returns:
            bin: Tuple[Dict[str: dataframe]], Tuple[str, str]]
                The first tuple contains all the bins for a given column/
                annotation. It would look like {'unique_value1': filtered dataframe where rows=unique_value1}
                for group values and there can be up to 20 bins for numeric columns.
                The second value in the tuple is structured exactly like the input value.
            """
        bin = {}
        # sample the annotation along with coordinates and cell names
        columns_to_sample = copy.copy(self.coordinates_and_cell_headers)
        if scope == "cluster":
            columns_to_sample.append(annotation[0])
        if "group" in annotation:
            # get unique values in column
            unique_values = self.file[annotation].unique()

            for col_val in unique_values:
                # get subset of data where row is equal to the unique value
                subset = self.file[self.file[annotation] == col_val]
                bin[col_val] = subset[columns_to_sample]
        else:
            columns = copy.copy(self.coordinates_and_cell_headers)
            # coordinates, cell names and annotation name
            columns.append(annotation[0])
            # Subset of df where header is [cell_names, x, y, z, <annot_name>]
            subset = self.file[columns].copy()
            subset.sort_values(by=[annotation], inplace=True)
            # Generates 20 bins
            for index, df in enumerate(np.array_split(subset, 20)):
                bin[str(index)] = df[columns_to_sample]
        return bin, annotation

    def subsample(self, scope):
        """Subsamples groups across a given file"""
        sample_sizes = [
            sample_size for sample_size in self.SUBSAMPLE_THRESHOLDS
            if sample_size < len(self.file.index)
        ]
        for bins in [
                self.bin(col, scope) for col in self.annot_column_headers
        ]:

            amount_of_bins = len(bins[0].keys())
            # (name of current column)
            annotation_name = bins[1]
            # Holds bins for annotation
            # Looks like {"Unique value #1" : dataframe, "Unique value #2": dataframe,...}
            annotation_dict = bins[0]
            for sample_size in sample_sizes:
                group_size = len(annotation_dict.keys())
                # Dict of values for the x, y, and z coordinates
                points = {k: [] for k in self.coordinates_and_cell_headers}
                if scope == "cluster":
                    points[annotation_name[0]] = []
                num_per_group = int(sample_size / group_size)
                cells_left = sample_size
                # bin = ("unique value in column" : dataframe)
                for idx, bin in enumerate(
                        self.return_sorted_bin(annotation_dict,
                                               annotation_name)):
                    amount_of_rows = len(bin[1].index)
                    # If the amount of sampled values is larger
                    # than the whole array, take the whole array
                    if num_per_group > amount_of_rows:
                        amount_picked_rows = amount_of_rows
                    else:
                        amount_picked_rows = num_per_group
                    shuffled_df = (bin[1].reindex(
                        np.random.permutation(
                            bin[1].index)).sample(n=amount_picked_rows))
                    for column in shuffled_df:
                        points[column[0]].extend(
                            shuffled_df[column].values.tolist())
                    # add the current observed annotation to the points dict the amount
                    # of times it has been sampled
                    # points[annotation_name] = [bin[0] for i in range(amount_picked_rows)]
                    # Subtract number of cells 'subsampled' from the number of cells left
                    cells_left -= amount_picked_rows
                    # For last bin sample the number of cells left over
                    # Subtract 2 because 0 based
                    if idx == (amount_of_bins - 2):
                        num_per_group = cells_left
                    else:
                        group_size -= 1
                        if group_size > 1:
                            num_per_group = int(cells_left / group_size)
                # returns tuple = (subsampled values as dictionary, annotation name, sample size )
                yield (points, annotation_name, sample_size)

    def return_sorted_bin(self, bin, annot_name):
        """Sorts binned groups in order of size from smallest to largest for group annotations """

        if "group" in annot_name:
            return sorted(bin.items(), key=lambda x: len(x[1]))
        else:
            return bin.items()

    def set_data_array(self, args, kwargs):
        return Clusters.set_data_array(*args, **kwargs)
コード例 #33
0
class Sequence:
    def __init__(self, image_dir, gt_path, seqname=None, trackers=[]):
        if (seqname == None):
            # Assumed data format is /path/to/data/seqname.{csv|txt}
            self.seqname = gt_path.split('/')[-1][:-4]
        else:
            self.seqname = seqname

        self.gt_annotations = Annotations(gt_path, seqname=seqname)
        self.tracker_res = {}
        for i in trackers:
            try:
                self.tracker_res[i.name] = i.get_res_of(seqname)
            except:
                print(self.seqname, 'not available for', i.name)
        self.img_dir = image_dir
        self.images = [
            i for i in os.listdir(image_dir)
            if i[-4:] == '.png' or i[-4:] == '.jpg'
        ]
        self.images.sort()
        height, width, layers = cv2.imread(
            os.path.join(image_dir, self.images[0])).shape
        self.height = height
        self.width = width
        self.size = (width, height)
        self.obj_size = self.gt_annotations.obj_size

    def get_frame(self,
                  frame_num,
                  scale_bb=1,
                  sort_order='x',
                  off_x=0,
                  off_y=0,
                  show_boxes=True,
                  boxColor=0,
                  show_text=True,
                  textColor=0,
                  save_path=None):
        img_path = os.path.join(self.img_dir, self.images[frame_num])
        try:
            with Image.open(img_path) as image:
                #print("Mode", image.mode, type(image.mode))
                if (image.mode != 'L'):
                    image = image.convert(mode='L')
                draw = ImageDraw.Draw(image, 'L')

                dets = self.gt_annotations.get_frame(frame_num +
                                                     1)[:, 1:].astype(np.float)
                if len(dets) == 0:
                    if (save_path is not None):
                        image.save(save_path)
                    return image

                # Format: [frame, ID, x1, y1, width, height, obj_class, species, occluded, noisy_frame]
                labels = None
                #print('sort_order', sort_order)
                if (sort_order == 'x+y'):
                    d = dets[np.argsort(dets[:, 2] + dets[:, 1])]
                else:
                    d = dets[np.lexsort((dets[:, 2], dets[:, 1]))]
                ids = d[:, 0]
                #print(ids)
                h, w = image.size
                #frame_text = "Frame: " + frame_num + "ids on screen: \n" + str(ids) + "\n count = " + str(len(ids))
                frame_text = "Frame: {0}\nids on screen: \n{1}\n count = {2}".format(
                    frame_num, ids, len(ids))
                if d.shape[1] > 8 and d.shape[0] > 0 and d[0, 8] == 1:
                    # Noisy frame
                    frame_text = "Noisy Frame\n" + frame_text
                draw.text((0, 0), frame_text, (textColor))  #(0))
                # Custom Offset
                dets[:, 1] += off_x
                dets[:, 2] += off_y

                # Scale the boxes:
                dets[:, 1] -= dets[:, 3] * ((scale_bb - 1) / 2)
                dets[:, 2] -= dets[:, 4] * ((scale_bb - 1) / 2)
                dets[:, 3:5] = dets[:, 3:5] * scale_bb
                # Convert from [x1, y1, width, height] to [x1, y1, x2, y2]
                dets[:, 3:5] += dets[:, 1:3]
                ids = []
                species = {
                    '-1': "Unknown",
                    '0': "Human",
                    '1': "Elephant",
                    '2': "Lion",
                    '3': "Giraffe",
                    '4': "Dog"
                }
                for i, d in enumerate(dets):
                    if (show_boxes):
                        boxcolor = boxColor
                        if d.shape[0] > 7 and d[7] == 1:
                            boxcolor = 255 - boxColor
                        draw.rectangle([d[3], d[4], d[1], d[2]],
                                       outline=(boxcolor))  #c)
                    #ids.append(d[0])
                    d = d.astype(np.int32)

                    if (show_text):
                        boxTag = str(d[0])
                        if len(d) > 6 and d[5] == 0:
                            # animal
                            boxTag += '-' + species[str(d[6])]
                        draw.text((d[1], d[2] - 10), boxTag, (textColor))

                if (save_path is not None):
                    image.save(save_path)

                return image

        except Exception as e:
            #print(str(e))
            print("error in redrawing image")
            raise e

    def get_frame_w_trackers(self,
                             frame_num,
                             scale_bb=1,
                             sort_order='x',
                             off_x=0,
                             off_y=0,
                             show_boxes=True,
                             boxColor=0,
                             show_text=True,
                             textColor=0,
                             save_path=None):
        img_path = os.path.join(self.img_dir, self.images[frame_num])
        det_matrix = {
            'GT': self.gt_annotations.get_frame(frame_num)[:,
                                                           1:].astype(np.float)
        }
        colors = {'GT': [textColor, boxColor]}
        index = 1
        for i in self.tracker_res:
            det_matrix[i] = self.tracker_res[i].get_frame(
                frame_num)[:, 1:].astype(np.float)
            colors[i] = [COLOR[index], COLOR[index]]
            index += 1

        try:
            with Image.open(img_path) as image:
                #print("Mode", image.mode, type(image.mode))
                if (image.mode != 'RGB'):
                    image = image.convert(mode='RGB')
                draw = ImageDraw.Draw(image)

                frame_text = "Frame: {0}".format(frame_num)
                d = det_matrix['GT']
                if d.shape[1] > 8 and d.shape[0] > 0 and d[0, 8] == 1:
                    # Noisy frame
                    frame_text += " (Noisy Frame)"
                draw.text((0, 0), frame_text, (textColor))  #(0))
                text_start = draw.textsize(frame_text)[1] + 1

                for e in det_matrix:
                    dets = det_matrix[e]
                    textColor = colors[e][0]
                    boxColor = colors[e][1]

                    #dets = self.gt_annotations.get_frame(frame_num)[:,1:].astype(np.float)
                    if len(dets) == 0:
                        if (save_path is not None):
                            image.save(save_path)
                        continue  #return image

                    # Format: [frame, ID, x1, y1, width, height, obj_class, species, occluded, noisy_frame]
                    labels = None
                    #print('sort_order', sort_order)
                    if (sort_order == 'x+y'):
                        d = dets[np.argsort(dets[:, 2] + dets[:, 1])]
                    else:
                        d = dets[np.lexsort((dets[:, 2], dets[:, 1]))]
                    ids = d[:, 0]
                    #print(ids)
                    h, w = image.size
                    #frame_text = "Frame: " + frame_num + "ids on screen: \n" + str(ids) + "\n count = " + str(len(ids))
                    frame_text = "{0}: {1}  count = {2}".format(
                        e, ids, len(ids))
                    draw.text((0, text_start), frame_text, (textColor))  #(0))
                    text_start += draw.textsize(frame_text)[1] + 1
                    # Custom Offset
                    dets[:, 1] += off_x
                    dets[:, 2] += off_y

                    # Scale the boxes:
                    dets[:, 1] -= dets[:, 3] * ((scale_bb - 1) / 2)
                    dets[:, 2] -= dets[:, 4] * ((scale_bb - 1) / 2)
                    dets[:, 3:5] = dets[:, 3:5] * scale_bb
                    # Convert from [x1, y1, width, height] to [x1, y1, x2, y2]
                    dets[:, 3:5] += dets[:, 1:3]
                    ids = []
                    species = {
                        '-1': "Unknown",
                        '0': "Human",
                        '1': "Elephant",
                        '2': "Lion",
                        '3': "Giraffe",
                        '4': "Dog"
                    }
                    for i, d in enumerate(dets):
                        if (show_boxes):
                            boxcolor = boxColor
                            if d.shape[0] > 7 and d[7] == 1:
                                boxcolor = 255 - boxColor
                            draw.rectangle([d[3], d[4], d[1], d[2]],
                                           outline=(boxcolor))  #c)
                        #ids.append(d[0])
                        d = d.astype(np.int32)

                        if (show_text):
                            boxTag = str(d[0])
                            if len(d) > 6 and d[5] == 0:
                                # animal
                                boxTag += '-' + species[str(d[6])]
                            draw.text((d[1], d[2] - 10), boxTag, (textColor))

                    if (save_path is not None):
                        image.save(save_path)

                return image

        except Exception as e:
            #print(str(e))
            print("error in redrawing image")
            raise e

    def generate_video(self,
                       output_dir,
                       fps=15,
                       start_frame=0,
                       end_frame=None):
        if end_frame is None:
            end_frame = len(self.images)
        if start_frame > len(
                self.images) or end_frame < start_frame or end_frame > len(
                    self.images):
            print("Invalid input", start_frame, end_frame,
                  "number of images is", len(self.images))
            return
        outpath = os.path.join(output_dir, self.seqname + '.avi')
        out = cv2.VideoWriter(outpath, cv2.VideoWriter_fourcc(*"XVID"),
                              float(fps), self.size)
        #for i in tqdm(range(start_frame,end_frame)):
        for i in range(start_frame, end_frame):
            img_path = './output-imgs/' + self.images[i]
            #out.write(np.asarray(self.get_frame(i)))
            self.get_frame(i, save_path=img_path)
            out.write(cv2.imread(img_path))

        out.release()
        #print('Written video to', outpath)

    def generate_video_w_trackers(self,
                                  output_dir,
                                  fps=15,
                                  start_frame=0,
                                  end_frame=None):
        if end_frame is None:
            end_frame = len(self.images)
        if start_frame > len(
                self.images) or end_frame < start_frame or end_frame > len(
                    self.images):
            print("Invalid input", start_frame, end_frame,
                  "number of images is", len(self.images))
            return
        outpath = os.path.join(output_dir, self.seqname + '.avi')
        out = cv2.VideoWriter(outpath, cv2.VideoWriter_fourcc(*"XVID"),
                              float(fps), self.size)
        #for i in tqdm(range(start_frame,end_frame)):
        for i in range(start_frame, end_frame):
            img_path = './output-imgs/' + self.images[i]
            #out.write(np.asarray(self.get_frame(i)))
            self.get_frame_w_trackers(i, save_path=img_path)
            out.write(cv2.imread(img_path))

        out.release()
        print('Written video to', outpath)
コード例 #34
0
ファイル: jstruct_parse.py プロジェクト: tmcofslp/jstruct
def parse_and_generate(filename,
                       out_filename=None,
                       init_filename=None,
                       include_paths=[],
                       defines=[]):
    """
    parse the file at filename.
    if out_filename and init_filename are None:return a tuple containing the generated file's names.
    otherwise return the generated source code for each
    """
    from os import path

    if out_filename:
        out_filename = re.sub(FILENAME_EXPR, out_filename, filename)
    if init_filename:
        init_filename = re.sub(FILENAME_EXPR, init_filename, filename)
    rel_filename = ''
    if out_filename is None and init_filename is None:
        rel_filename = re.sub(FILENAME_EXPR, r'\g<basename>.h',
                              path.basename(filename))
    else:
        init_dir = path.dirname(init_filename)
        rel_filename = path.relpath(out_filename, init_dir)

    ast, text = parse_jstruct(filename,
                              include_paths=include_paths,
                              defines=defines)
    annotations = Annotations(text)
    try:
        annotations.expand(ast, '<stdin>')
    except ExpansionError as ex:
        ex.filename = filename
        raise

    prune_ast(ast, '<stdin>')
    out_ast, init_ast = split_ast(ast)

    generator = CGenerator()
    out_result = generator.visit(out_ast)
    init_result = generator.visit(init_ast)
    if GUARD_HEADERS_EXPR.search(out_result):
        out_result = re.sub(
            GUARD_HEADERS_EXPR, r'\g<0>' + GENERATED, out_result,
            count=1) + '\n#endif\n'
    else:
        out_result = GENERATED + out_result
    init_result = re.sub(GUARD_HEADERS_EXPR, '', init_result)
    init_instructions = INIT_INSTRUCTIONS if init_filename and init_filename.endswith(
        '.h') else ''
    init_result = GENERATED1NL + init_instructions + INCLUDE_H(
        rel_filename) + init_result

    if out_filename:
        with open(out_filename, 'w') as out_file:
            out_file.write(out_result)
    if init_filename:
        with open(init_filename, 'w') as init_file:
            init_file.write(init_result)

    if out_filename is None and init_filename is None:
        return (out_result, init_result)
    else:
        return (out_filename, init_filename)
コード例 #35
0
 def __init__(self, output_dir):
     self.output_dir = Path(output_dir)
     self.annotations = Annotations("annotations-bitcoin-0.18.json")
コード例 #36
0
ファイル: mprg2coco.py プロジェクト: naomori/centernet
    output_file = args[4]

    output_json = {}
    with open(json_dir + "/info.json", 'r') as f:
        info_json = json.load(f)
        output_json.update(info_json)

    with open(json_dir + "/licenses.json", 'r') as f:
        licencses_json = json.load(f)
        output_json.update(licencses_json)

    with open(json_dir + "/categories.json", 'r') as f:
        categories_json = json.load(f)
        output_json.update(categories_json)

    images = ArcImages(images_dir)
    images_obj = images.get_obj()
    images_str = json.dumps(images_obj)
    images_json = json.loads(images_str)
    output_json.update(images_json)

    annos = Annotations(bboxes_dir)
    annos_obj = annos.get_obj()
    expand_json(images_obj, annos_obj)
    annos_str = json.dumps(annos.get_json())
    annos_json = json.loads(annos_str)
    output_json.update(annos_json)

    with open(output_file, 'w') as f:
        json.dump(output_json, f)
コード例 #37
0
 def mark_added(self, annotations_file, version, command):
     annotations = Annotations(annotations_file)
     annotations.mark_added(version, command)
コード例 #38
0
 def show_missing(self, cli, annotations_file):
     commands = HelpParser().parse_help_overview(
         CliCaller(cli).help()).flat()
     annotations = Annotations(annotations_file)
     annotations.show_missing(commands)