mirror of https://github.com/explosion/spaCy.git
323 lines
14 KiB
Markdown
323 lines
14 KiB
Markdown
---
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title: Example
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teaser: A training instance
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tag: class
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source: spacy/gold/example.pyx
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new: 3.0
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---
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An `Example` holds the information for one training instance. It stores two
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`Doc` objects: one for holding the gold-standard reference data, and one for
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holding the predictions of the pipeline. An
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[`Alignment`](/api/example#alignment-object) object stores the alignment between
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these two documents, as they can differ in tokenization.
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## Example.\_\_init\_\_ {#init tag="method"}
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Construct an `Example` object from the `predicted` document and the `reference`
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document. If `alignment` is `None`, it will be initialized from the words in
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both documents.
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> #### Example
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>
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> ```python
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> from spacy.tokens import Doc
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> from spacy.gold import Example
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>
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> words = ["hello", "world", "!"]
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> spaces = [True, False, False]
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> predicted = Doc(nlp.vocab, words=words, spaces=spaces)
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> reference = parse_gold_doc(my_data)
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> example = Example(predicted, reference)
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> ```
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| Name | Description |
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| -------------- | ------------------------------------------------------------------------------------------------------------------------ |
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| `predicted` | The document containing (partial) predictions. Can not be `None`. ~~Doc~~ |
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| `reference` | The document containing gold-standard annotations. Can not be `None`. ~~Doc~~ |
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| _keyword-only_ | |
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| `alignment` | An object holding the alignment between the tokens of the `predicted` and `reference` documents. ~~Optional[Alignment]~~ |
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## Example.from_dict {#from_dict tag="classmethod"}
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Construct an `Example` object from the `predicted` document and the reference
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annotations provided as a dictionary. For more details on the required format,
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see the [training format documentation](/api/data-formats#dict-input).
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> #### Example
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>
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> ```python
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> from spacy.tokens import Doc
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> from spacy.gold import Example
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>
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> predicted = Doc(vocab, words=["Apply", "some", "sunscreen"])
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> token_ref = ["Apply", "some", "sun", "screen"]
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> tags_ref = ["VERB", "DET", "NOUN", "NOUN"]
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> example = Example.from_dict(predicted, {"words": token_ref, "tags": tags_ref})
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> ```
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| Name | Description |
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| -------------- | ------------------------------------------------------------------------- |
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| `predicted` | The document containing (partial) predictions. Can not be `None`. ~~Doc~~ |
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| `example_dict` | `Dict[str, obj]` | The gold-standard annotations as a dictionary. Can not be `None`. ~~Dict[str, Any]~~ |
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| **RETURNS** | The newly constructed object. ~~Example~~ |
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## Example.text {#text tag="property"}
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The text of the `predicted` document in this `Example`.
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> #### Example
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>
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> ```python
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> raw_text = example.text
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> ```
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| Name | Description |
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| ----------- | --------------------------------------------- |
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| **RETURNS** | The text of the `predicted` document. ~~str~~ |
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## Example.predicted {#predicted tag="property"}
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The `Doc` holding the predictions. Occasionally also referred to as `example.x`.
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> #### Example
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>
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> ```python
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> docs = [eg.predicted for eg in examples]
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> predictions, _ = model.begin_update(docs)
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> set_annotations(docs, predictions)
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> ```
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| Name | Description |
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| ----------- | ------------------------------------------------------ |
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| **RETURNS** | The document containing (partial) predictions. ~~Doc~~ |
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## Example.reference {#reference tag="property"}
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The `Doc` holding the gold-standard annotations. Occasionally also referred to
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as `example.y`.
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> #### Example
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>
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> ```python
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> for i, eg in enumerate(examples):
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> for j, label in enumerate(all_labels):
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> gold_labels[i][j] = eg.reference.cats.get(label, 0.0)
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> ```
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| Name | Description |
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| ----------- | ---------------------------------------------------------- |
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| **RETURNS** | The document containing gold-standard annotations. ~~Doc~~ |
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## Example.alignment {#alignment tag="property"}
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The [`Alignment`](/api/example#alignment-object) object mapping the tokens of
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the `predicted` document to those of the `reference` document.
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> #### Example
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>
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> ```python
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> tokens_x = ["Apply", "some", "sunscreen"]
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> x = Doc(vocab, words=tokens_x)
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> tokens_y = ["Apply", "some", "sun", "screen"]
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> example = Example.from_dict(x, {"words": tokens_y})
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> alignment = example.alignment
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> assert list(alignment.y2x.data) == [[0], [1], [2], [2]]
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> ```
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| Name | Description |
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| ----------- | ---------------------------------------------------------------- |
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| **RETURNS** | The document containing gold-standard annotations. ~~Alignment~~ |
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## Example.get_aligned {#get_aligned tag="method"}
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Get the aligned view of a certain token attribute, denoted by its int ID or
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string name.
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> #### Example
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>
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> ```python
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> predicted = Doc(vocab, words=["Apply", "some", "sunscreen"])
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> token_ref = ["Apply", "some", "sun", "screen"]
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> tags_ref = ["VERB", "DET", "NOUN", "NOUN"]
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> example = Example.from_dict(predicted, {"words": token_ref, "tags": tags_ref})
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> assert example.get_aligned("TAG", as_string=True) == ["VERB", "DET", "NOUN"]
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> ```
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| Name | Description |
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| ----------- | -------------------------------------------------------------------------------------------------- |
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| `field` | Attribute ID or string name. ~~Union[int, str]~~ |
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| `as_string` | Whether or not to return the list of values as strings. Defaults to `False`. ~~bool~~ |
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| **RETURNS** | List of integer values, or string values if `as_string` is `True`. ~~Union[List[int], List[str]]~~ |
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## Example.get_aligned_parse {#get_aligned_parse tag="method"}
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Get the aligned view of the dependency parse. If `projectivize` is set to
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`True`, non-projective dependency trees are made projective through the
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Pseudo-Projective Dependency Parsing algorithm by Nivre and Nilsson (2005).
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> #### Example
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>
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> ```python
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> doc = nlp("He pretty quickly walks away")
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> example = Example.from_dict(doc, {"heads": [3, 2, 3, 0, 2]})
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> proj_heads, proj_labels = example.get_aligned_parse(projectivize=True)
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> assert proj_heads == [3, 2, 3, 0, 3]
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> ```
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| Name | Description |
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| -------------- | -------------------------------------------------------------------------------------------------- |
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| `projectivize` | Whether or not to projectivize the dependency trees. Defaults to `True`. ~~bool~~ |
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| **RETURNS** | List of integer values, or string values if `as_string` is `True`. ~~Union[List[int], List[str]]~~ |
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## Example.get_aligned_ner {#get_aligned_ner tag="method"}
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Get the aligned view of the NER
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[BILUO](/usage/linguistic-features#accessing-ner) tags.
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> #### Example
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>
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> ```python
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> words = ["Mrs", "Smith", "flew", "to", "New York"]
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> doc = Doc(en_vocab, words=words)
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> entities = [(0, 9, "PERSON"), (18, 26, "LOC")]
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> gold_words = ["Mrs Smith", "flew", "to", "New", "York"]
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> example = Example.from_dict(doc, {"words": gold_words, "entities": entities})
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> ner_tags = example.get_aligned_ner()
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> assert ner_tags == ["B-PERSON", "L-PERSON", "O", "O", "U-LOC"]
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> ```
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| Name | Description |
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| ----------- | ------------------------------------------------------------------------------------------------- |
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| **RETURNS** | List of BILUO values, denoting whether tokens are part of an NER annotation or not. ~~List[str]~~ |
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## Example.get_aligned_spans_y2x {#get_aligned_spans_y2x tag="method"}
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Get the aligned view of any set of [`Span`](/api/span) objects defined over
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[`Example.reference`](/api/example#reference). The resulting span indices will
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align to the tokenization in [`Example.predicted`](/api/example#predicted).
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> #### Example
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>
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> ```python
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> words = ["Mr and Mrs Smith", "flew", "to", "New York"]
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> doc = Doc(en_vocab, words=words)
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> entities = [(0, 16, "PERSON")]
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> tokens_ref = ["Mr", "and", "Mrs", "Smith", "flew", "to", "New", "York"]
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> example = Example.from_dict(doc, {"words": tokens_ref, "entities": entities})
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> ents_ref = example.reference.ents
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> assert [(ent.start, ent.end) for ent in ents_ref] == [(0, 4)]
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> ents_y2x = example.get_aligned_spans_y2x(ents_ref)
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> assert [(ent.start, ent.end) for ent in ents_y2x] == [(0, 1)]
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> ```
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| Name | Description |
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| ----------- | ----------------------------------------------------------------------------- |
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| `y_spans` | `Span` objects aligned to the tokenization of `reference`. ~~Iterable[Span]~~ |
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| **RETURNS** | `Span` objects aligned to the tokenization of `predicted`. ~~List[Span]~~ |
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## Example.get_aligned_spans_x2y {#get_aligned_spans_x2y tag="method"}
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Get the aligned view of any set of [`Span`](/api/span) objects defined over
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[`Example.predicted`](/api/example#predicted). The resulting span indices will
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align to the tokenization in [`Example.reference`](/api/example#reference). This
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method is particularly useful to assess the accuracy of predicted entities
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against the original gold-standard annotation.
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> #### Example
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>
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> ```python
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> nlp.add_pipe("my_ner")
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> doc = nlp("Mr and Mrs Smith flew to New York")
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> tokens_ref = ["Mr and Mrs", "Smith", "flew", "to", "New York"]
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> example = Example.from_dict(doc, {"words": tokens_ref})
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> ents_pred = example.predicted.ents
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> # Assume the NER model has found "Mr and Mrs Smith" as a named entity
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> assert [(ent.start, ent.end) for ent in ents_pred] == [(0, 4)]
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> ents_x2y = example.get_aligned_spans_x2y(ents_pred)
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> assert [(ent.start, ent.end) for ent in ents_x2y] == [(0, 2)]
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> ```
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| Name | Description |
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| ----------- | ----------------------------------------------------------------------------- |
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| `x_spans` | `Span` objects aligned to the tokenization of `predicted`. ~~Iterable[Span]~~ |
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| **RETURNS** | `Span` objects aligned to the tokenization of `reference`. ~~List[Span]~~ |
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## Example.to_dict {#to_dict tag="method"}
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Return a [dictionary representation](/api/data-formats#dict-input) of the
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reference annotation contained in this `Example`.
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> #### Example
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>
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> ```python
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> eg_dict = example.to_dict()
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> ```
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| Name | Description |
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| ----------- | ------------------------------------------------------------------------- |
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| **RETURNS** | Dictionary representation of the reference annotation. ~~Dict[str, Any]~~ |
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## Example.split_sents {#split_sents tag="method"}
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Split one `Example` into multiple `Example` objects, one for each sentence.
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> #### Example
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>
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> ```python
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> doc = nlp("I went yesterday had lots of fun")
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> tokens_ref = ["I", "went", "yesterday", "had", "lots", "of", "fun"]
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> sents_ref = [True, False, False, True, False, False, False]
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> example = Example.from_dict(doc, {"words": tokens_ref, "sent_starts": sents_ref})
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> split_examples = example.split_sents()
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> assert split_examples[0].text == "I went yesterday "
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> assert split_examples[1].text == "had lots of fun"
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> ```
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| Name | Description |
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| ----------- | ---------------------------------------------------------------------------- |
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| **RETURNS** | List of `Example` objects, one for each original sentence. ~~List[Example]~~ |
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## Alignment {#alignment-object new="3"}
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Calculate alignment tables between two tokenizations.
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### Alignment attributes {#alignment-attributes"}
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| Name | Description |
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| ----- | --------------------------------------------------------------------- |
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| `x2y` | The `Ragged` object holding the alignment from `x` to `y`. ~~Ragged~~ |
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| `y2x` | The `Ragged` object holding the alignment from `y` to `x`. ~~Ragged~~ |
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<Infobox title="Important note" variant="warning">
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The current implementation of the alignment algorithm assumes that both
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tokenizations add up to the same string. For example, you'll be able to align
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`["I", "'", "m"]` and `["I", "'m"]`, which both add up to `"I'm"`, but not
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`["I", "'m"]` and `["I", "am"]`.
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</Infobox>
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> #### Example
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>
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> ```python
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> from spacy.gold import Alignment
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>
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> bert_tokens = ["obama", "'", "s", "podcast"]
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> spacy_tokens = ["obama", "'s", "podcast"]
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> alignment = Alignment.from_strings(bert_tokens, spacy_tokens)
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> a2b = alignment.x2y
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> assert list(a2b.dataXd) == [0, 1, 1, 2]
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> ```
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>
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> If `a2b.dataXd[1] == a2b.dataXd[2] == 1`, that means that `A[1]` (`"'"`) and
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> `A[2]` (`"s"`) both align to `B[1]` (`"'s"`).
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### Alignment.from_strings {#classmethod tag="function"}
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| Name | Description |
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| ----------- | ------------------------------------------------------------- |
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| `A` | String values of candidate tokens to align. ~~List[str]~~ |
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| `B` | String values of reference tokens to align. ~~List[str]~~ |
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| **RETURNS** | An `Alignment` object describing the alignment. ~~Alignment~~ |
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