コード例 #1
0
def pretty(doc: Document = Document(),
           docid: AnnotationData = AnnotationData("<docid>"),
           out: Export = Export("xml_pretty/[xml_export.filename]"),
           token: Annotation = Annotation("<token>"),
           word: Annotation = Annotation("[export.word]"),
           annotations: ExportAnnotations = ExportAnnotations("xml_export.annotations"),
           source_annotations: SourceAnnotations = SourceAnnotations("xml_export.source_annotations"),
           header_annotations: SourceAnnotations = SourceAnnotations("xml_export.header_annotations"),
           remove_namespaces: bool = Config("export.remove_module_namespaces", False),
           sparv_namespace: str = Config("export.sparv_namespace"),
           source_namespace: str = Config("export.source_namespace"),
           include_empty_attributes: bool = Config("xml_export.include_empty_attributes")):
    """Export annotations to pretty XML in export_dir.

    Args:
        doc: Name of the original document.
        docid: Annotation with document IDs.
        out: Path and filename pattern for resulting file.
        token: Annotation containing the token strings.
        word: Annotation containing the token strings.
        annotations: List of elements:attributes (annotations) to include.
        source_annotations: List of elements:attributes from the original document
            to be kept. If not specified, everything will be kept.
        header_annotations: List of header elements from the original document to include
            in the export. If not specified, all headers will be kept.
        remove_namespaces: Whether to remove module "namespaces" from element and attribute names.
            Disabled by default.
        sparv_namespace: The namespace to be added to all Sparv annotations.
        source_namespace: The namespace to be added to all annotations present in the source.
        include_empty_attributes: Whether to include attributes even when they are empty. Disabled by default.
    """
    # Create export dir
    os.makedirs(os.path.dirname(out), exist_ok=True)

    token_name = token.name

    # Read words and document ID
    word_annotation = list(word.read())
    docid_annotation = docid.read()

    # Get annotation spans, annotations list etc.
    annotation_list, _, export_names = util.get_annotation_names(annotations, source_annotations, doc=doc,
                                                                 token_name=token_name,
                                                                 remove_namespaces=remove_namespaces,
                                                                 sparv_namespace=sparv_namespace,
                                                                 source_namespace=source_namespace)
    h_annotations, h_export_names = util.get_header_names(header_annotations, doc=doc)
    export_names.update(h_export_names)
    span_positions, annotation_dict = util.gather_annotations(annotation_list, export_names, h_annotations,
                                                              doc=doc, split_overlaps=True)
    xmlstr = xml_utils.make_pretty_xml(span_positions, annotation_dict, export_names, token_name, word_annotation,
                                       docid_annotation, include_empty_attributes, sparv_namespace)

    # Write XML to file
    with open(out, mode="w") as outfile:
        outfile.write(xmlstr)
    log.info("Exported: %s", out)
コード例 #2
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def encode_scrambled(
        corpus: Corpus = Corpus(),
        annotations: ExportAnnotations = ExportAnnotations("cwb.annotations",
                                                           is_input=False),
        source_annotations: SourceAnnotations = SourceAnnotations(
            "cwb.source_annotations"),
        docs: AllDocuments = AllDocuments(),
        words: AnnotationAllDocs = AnnotationAllDocs("[export.word]"),
        vrtfiles: ExportInput = ExportInput("vrt_scrambled/{doc}.vrt",
                                            all_docs=True),
        out: Export = Export("[cwb.corpus_registry]/[metadata.id]",
                             absolute_path=True),
        out_marker: Export = Export(
            "[cwb.cwb_datadir]/[metadata.id]/.scrambled_marker",
            absolute_path=True),
        token: AnnotationAllDocs = AnnotationAllDocs("<token>"),
        bin_path: Config = Config("cwb.bin_path"),
        encoding: str = Config("cwb.encoding"),
        datadir: str = Config("cwb.cwb_datadir"),
        registry: str = Config("cwb.corpus_registry"),
        remove_namespaces: bool = Config("export.remove_module_namespaces",
                                         False),
        sparv_namespace: str = Config("export.sparv_namespace"),
        source_namespace: str = Config("export.source_namespace"),
        skip_compression: Optional[bool] = Config("cwb.skip_compression"),
        skip_validation: Optional[bool] = Config("cwb.skip_validation")):
    """Do cwb encoding with vrt files in scrambled order."""
    cwb_encode(corpus, annotations, source_annotations, docs, words, vrtfiles,
               out, out_marker, token.name, bin_path, encoding, datadir,
               registry, remove_namespaces, sparv_namespace, source_namespace,
               skip_compression, skip_validation)
コード例 #3
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def vrt_scrambled(
        doc: Document = Document(),
        out: Export = Export("vrt_scrambled/{doc}.vrt"),
        chunk: Annotation = Annotation("[cwb.scramble_on]"),
        chunk_order: Annotation = Annotation(
            "[cwb.scramble_on]:misc.number_random"),
        token: Annotation = Annotation("<token>"),
        word: Annotation = Annotation("[export.word]"),
        annotations: ExportAnnotations = ExportAnnotations("cwb.annotations"),
        source_annotations: SourceAnnotations = SourceAnnotations(
            "cwb.source_annotations"),
        remove_namespaces: bool = Config("export.remove_module_namespaces",
                                         False),
        sparv_namespace: str = Config("export.sparv_namespace"),
        source_namespace: str = Config("export.source_namespace")):
    """Export annotations to vrt in scrambled order."""
    # Get annotation spans, annotations list etc.
    annotation_list, token_attributes, export_names = util.get_annotation_names(
        annotations,
        source_annotations,
        doc=doc,
        token_name=token.name,
        remove_namespaces=remove_namespaces,
        sparv_namespace=sparv_namespace,
        source_namespace=source_namespace)
    if chunk not in annotation_list:
        raise util.SparvErrorMessage(
            "The annotation used for scrambling ({}) needs to be included in the output."
            .format(chunk))
    span_positions, annotation_dict = util.gather_annotations(
        annotation_list, export_names, doc=doc, split_overlaps=True)

    # Read words and document ID
    word_annotation = list(word.read())
    chunk_order_data = list(chunk_order.read())

    # Reorder chunks and open/close tags in correct order
    new_span_positions = util.scramble_spans(span_positions, chunk.name,
                                             chunk_order_data)

    # Make vrt format
    vrt_data = create_vrt(new_span_positions, token.name, word_annotation,
                          token_attributes, annotation_dict, export_names)

    # Create export dir
    os.makedirs(os.path.dirname(out), exist_ok=True)

    # Write result to file
    with open(out, "w") as f:
        f.write(vrt_data)
    log.info("Exported: %s", out)
コード例 #4
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def vrt(doc: Document = Document(),
        out: Export = Export("vrt/{doc}.vrt"),
        token: Annotation = Annotation("<token>"),
        word: Annotation = Annotation("[export.word]"),
        annotations: ExportAnnotations = ExportAnnotations("cwb.annotations"),
        source_annotations: SourceAnnotations = SourceAnnotations(
            "cwb.source_annotations"),
        remove_namespaces: bool = Config("export.remove_module_namespaces",
                                         False),
        sparv_namespace: str = Config("export.sparv_namespace"),
        source_namespace: str = Config("export.source_namespace")):
    """Export annotations to vrt.

    - annotations: list of elements:attributes (annotations) to include.
    - source_annotations: list of elements:attributes from the original document
      to be kept. If not specified, everything will be kept.
    """
    # Create export dir
    os.makedirs(os.path.dirname(out), exist_ok=True)

    # Read words
    word_annotation = list(word.read())

    # Get annotation spans, annotations list etc.
    annotation_list, token_attributes, export_names = util.get_annotation_names(
        annotations,
        source_annotations,
        doc=doc,
        token_name=token.name,
        remove_namespaces=remove_namespaces,
        sparv_namespace=sparv_namespace,
        source_namespace=source_namespace)
    span_positions, annotation_dict = util.gather_annotations(annotation_list,
                                                              export_names,
                                                              doc=doc)
    vrt_data = create_vrt(span_positions, token.name, word_annotation,
                          token_attributes, annotation_dict, export_names)

    # Write result to file
    with open(out, "w") as f:
        f.write(vrt_data)
    log.info("Exported: %s", out)
コード例 #5
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def preserved_format(
        doc: Document = Document(),
        text: Text = Text(),
        docid: AnnotationData = AnnotationData("<docid>"),
        out: Export = Export(
            "xml_preserved_format/[xml_export.filename_formatted]"),
        annotations: ExportAnnotations = ExportAnnotations(
            "xml_export.annotations"),
        source_annotations: SourceAnnotations = SourceAnnotations(
            "xml_export.source_annotations"),
        header_annotations: SourceAnnotations = SourceAnnotations(
            "xml_export.header_annotations"),
        remove_namespaces: bool = Config("export.remove_module_namespaces",
                                         False),
        sparv_namespace: str = Config("export.sparv_namespace"),
        source_namespace: str = Config("export.source_namespace"),
        include_empty_attributes: bool = Config(
            "xml_export.include_empty_attributes")):
    """Export annotations to XML in export_dir and keep whitespaces and indentation from original file.

    Args:
        doc: Name of the original document.
        text: The corpus text.
        docid: Annotation with document IDs.
        out: Path and filename pattern for resulting file.
        annotations: List of elements:attributes (annotations) to include.
        source_annotations: List of elements:attributes from the original document
            to be kept. If not specified, everything will be kept.
        header_annotations: List of header elements from the original document to include
            in the export. If not specified, all headers will be kept.
        remove_namespaces: Whether to remove module "namespaces" from element and attribute names.
            Disabled by default.
        sparv_namespace: The namespace to be added to all Sparv annotations.
        source_namespace: The namespace to be added to all annotations present in the source.
        include_empty_attributes: Whether to include attributes even when they are empty. Disabled by default.
    """
    # Create export dir
    os.makedirs(os.path.dirname(out), exist_ok=True)

    # Read corpus text and document ID
    corpus_text = text.read()
    docid = docid.read()

    # Get annotation spans, annotations list etc.
    annotation_list, _, export_names = util.get_annotation_names(
        annotations,
        source_annotations,
        doc=doc,
        remove_namespaces=remove_namespaces,
        sparv_namespace=sparv_namespace,
        source_namespace=source_namespace)
    h_annotations, h_export_names = util.get_header_names(header_annotations,
                                                          doc=doc)
    export_names.update(h_export_names)
    span_positions, annotation_dict = util.gather_annotations(
        annotation_list,
        export_names,
        h_annotations,
        doc=doc,
        flatten=False,
        split_overlaps=True)
    sorted_positions = [(pos, span[0], span[1])
                        for pos, spans in sorted(span_positions.items())
                        for span in spans]

    # Root tag sanity check
    if not xml_utils.valid_root(sorted_positions[0], sorted_positions[-1]):
        raise util.SparvErrorMessage(
            "Root tag is missing! If you have manually specified which elements to include, "
            "make sure to include an element that encloses all other included elements and "
            "text content.")

    # Create root node
    root_span = sorted_positions[0][2]
    root_span.set_node()
    node_stack = []
    last_pos = 0  # Keeps track of the position of the processed text

    for x, (_pos, instruction, span) in enumerate(sorted_positions):
        # Open node: Create child node under the top stack node
        if instruction == "open":
            # Set tail for previous node if necessary
            if last_pos < span.start:
                # Get last closing node in this position
                _, tail_span = [
                    i for i in span_positions[last_pos] if i[0] == "close"
                ][-1]
                tail_span.node.tail = corpus_text[last_pos:span.start]
                last_pos = span.start

            # Handle headers
            if span.is_header:
                header = annotation_dict[span.name][util.HEADER_CONTENTS][
                    span.index]
                header_xml = etree.fromstring(header)
                header_xml.tag = span.export  # Rename element if needed
                span.node = header_xml
                node_stack[-1].node.append(header_xml)
            else:
                if node_stack:  # Don't create root node, it already exists
                    span.set_node(parent_node=node_stack[-1].node)

                xml_utils.add_attrs(span.node, span.name, annotation_dict,
                                    export_names, span.index,
                                    include_empty_attributes)
                if span.overlap_id:
                    if sparv_namespace:
                        span.node.set(f"{sparv_namespace}.{util.OVERLAP_ATTR}",
                                      f"{docid}-{span.overlap_id}")
                    else:
                        span.node.set(
                            f"{util.SPARV_DEFAULT_NAMESPACE}.{util.OVERLAP_ATTR}",
                            f"{docid}-{span.overlap_id}")
                node_stack.append(span)

                # Set text if there should be any between this node and the next one
                next_item = sorted_positions[x + 1]
                if next_item[1] == "open" and next_item[2].start > span.start:
                    span.node.text = corpus_text[last_pos:next_item[2].start]
                    last_pos = next_item[2].start

        # Close node
        else:
            if span.is_header:
                continue
            if last_pos < span.end:
                # Set node text if necessary
                if span.start == last_pos:
                    span.node.text = corpus_text[last_pos:span.end]
                # Set tail for previous node if necessary
                else:
                    # Get last closing node in this position
                    _, tail_span = [
                        i for i in span_positions[last_pos] if i[0] == "close"
                    ][-1]
                    tail_span.node.tail = corpus_text[last_pos:span.end]
                last_pos = span.end

            # Make sure closing node == top stack node
            assert span == node_stack[
                -1], "Overlapping elements found: {}".format(node_stack[-2:])
            # Pop stack and move on to next span
            node_stack.pop()

    # Write xml to file
    etree.ElementTree(root_span.node).write(out,
                                            encoding="unicode",
                                            method="xml",
                                            xml_declaration=True)
    log.info("Exported: %s", out)
コード例 #6
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def csv(doc: Document = Document(),
        out: Export = Export("csv/{doc}.csv"),
        token: Annotation = Annotation("<token>"),
        word: Annotation = Annotation("[export.word]"),
        sentence: Annotation = Annotation("<sentence>"),
        annotations: ExportAnnotations = ExportAnnotations(
            "csv_export.annotations"),
        source_annotations: SourceAnnotations = SourceAnnotations(
            "csv_export.source_annotations"),
        remove_namespaces: bool = Config("export.remove_module_namespaces",
                                         False),
        sparv_namespace: str = Config("export.sparv_namespace"),
        source_namespace: str = Config("export.source_namespace"),
        delimiter: str = Config("csv_export.delimiter")):
    """Export annotations to CSV format."""
    # Create export dir
    os.makedirs(os.path.dirname(out), exist_ok=True)

    token_name = token.name

    # Read words
    word_annotation = list(word.read())

    # Get annotation spans, annotations list etc.
    annotation_list, token_attributes, export_names = util.get_annotation_names(
        annotations,
        source_annotations,
        doc=doc,
        token_name=token_name,
        remove_namespaces=remove_namespaces,
        sparv_namespace=sparv_namespace,
        source_namespace=source_namespace)
    span_positions, annotation_dict = util.gather_annotations(annotation_list,
                                                              export_names,
                                                              doc=doc)

    # Make csv header
    csv_data = [
        _make_header(token_name, token_attributes, export_names, delimiter)
    ]

    # Go through spans_dict and add to csv, line by line
    for _pos, instruction, span in span_positions:
        if instruction == "open":
            # Create token line
            if span.name == token_name:
                csv_data.append(
                    _make_token_line(word_annotation[span.index], token_name,
                                     token_attributes, annotation_dict,
                                     span.index, delimiter))

            # Create line with structural annotation
            else:
                attrs = _make_attrs(span.name, annotation_dict, export_names,
                                    span.index)
                for attr in attrs:
                    csv_data.append(f"# {attr}")
                if not attrs:
                    csv_data.append(f"# {span.export}")

        # Insert blank line after each closing sentence
        elif span.name == sentence.name and instruction == "close":
            csv_data.append("")

    # Write result to file
    with open(out, "w") as f:
        f.write("\n".join(csv_data))
    logger.info("Exported: %s", out)
コード例 #7
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ファイル: conllu.py プロジェクト: heatherleaf/sparv-pipeline
def conllu(doc: Document = Document(),
           out: Export = Export("conll/{doc}.conllu"),
           token: Annotation = Annotation("<token>"),
           sentence: Annotation = Annotation("<sentence>"),
           sentence_id: Annotation = Annotation("[conll_export.conll_fields.sentid]"),
           source_annotations: SourceAnnotations = SourceAnnotations("conll_export.source_annotations"),
           id_ref: Optional[Annotation] = Annotation("[conll_export.conll_fields.id]"),
           form: Optional[Annotation] = Annotation("[export.word]"),
           lemma: Optional[Annotation] = Annotation("[conll_export.conll_fields.lemma]"),
           upos: Optional[Annotation] = Annotation("[conll_export.conll_fields.upos]"),
           xpos: Optional[Annotation] = Annotation("[conll_export.conll_fields.xpos]"),
           feats: Optional[Annotation] = Annotation("[conll_export.conll_fields.feats]"),
           head: Optional[Annotation] = Annotation("[conll_export.conll_fields.head]"),
           deprel: Optional[Annotation] = Annotation("[conll_export.conll_fields.deprel]"),
           deps: Optional[Annotation] = Annotation("[conll_export.conll_fields.deps]"),
           misc: Optional[Annotation] = Annotation("[conll_export.conll_fields.misc]")):
    """Export annotations to CoNLL-U format."""
    # CoNLLU specification: https://universaldependencies.org/format.html
    # ID: Word index, integer starting at 1 for each new sentence; may be a range for multiword tokens; may be a decimal number for empty nodes (decimal numbers can be lower than 1 but must be greater than 0).
    # FORM: Word form or punctuation symbol.
    # LEMMA: Lemma or stem of word form.
    # UPOS: Universal part-of-speech tag.
    # XPOS: Language-specific part-of-speech tag; underscore if not available.
    # FEATS: List of morphological features from the universal feature inventory or from a defined language-specific extension; underscore if not available.
    # HEAD: Head of the current word, which is either a value of ID or zero (0).
    # DEPREL: Universal dependency relation to the HEAD (root iff HEAD = 0) or a defined language-specific subtype of one.
    # DEPS: Enhanced dependency graph in the form of a list of head-deprel pairs.
    # MISC: Any other annotation.
    conll_fields = [id_ref, form, lemma, upos, xpos, feats, head, deprel, deps, misc]
    conll_fields = [f if isinstance(f, Annotation) else Annotation() for f in conll_fields]

    # Create export dir
    os.makedirs(os.path.dirname(out), exist_ok=True)

    token_name = token.name

    # Get annotation spans, annotations list etc.
    # TODO: Add structural annotations from 'annotations'? This is a bit annoying though because then we'd have to
    # take annotations as a requirement which results in Sparv having to run all annotations, even the ones we don't
    # want to use here.
    annotations = [sentence, sentence_id, token] + conll_fields
    annotations = [(annot, None) for annot in annotations]
    annotation_list, _, export_names = util.get_annotation_names(annotations, source_annotations,
                                                                 remove_namespaces=True,
                                                                 doc=doc, token_name=token_name)
    span_positions, annotation_dict = util.gather_annotations(annotation_list, export_names, doc=doc)

    csv_data = ["# global.columns = ID FORM LEMMA UPOS XPOS FEATS HEAD DEPREL DEPS MISC"]
    # Go through spans_dict and add to csv, line by line
    for _pos, instruction, span in span_positions:
        if instruction == "open":
            # Create token line
            if span.name == token_name:
                csv_data.append(_make_conll_token_line(conll_fields, token_name, annotation_dict, span.index))

            # Create line with structural annotation
            else:
                attrs = _make_attrs(span.name, annotation_dict, export_names, span.index)
                for attr in attrs:
                    csv_data.append(f"# {attr}")
                if not attrs:
                    csv_data.append(f"# {span.export}")

        # Insert blank line after each closing sentence
        elif span.name == sentence.name and instruction == "close":
            csv_data.append("")

    # Insert extra blank line to make CoNLL-U validator happy
    csv_data.append("")

    # Write result to file
    with open(out, "w") as f:
        f.write("\n".join(csv_data))
    logger.info("Exported: %s", out)