spaCy/website/docs/_api-span.jade

//-  Docs > API > Span
//- ============================================================================

+section('span')
    +h2('span', 'https://github.com/' + profiles.github + '/spaCy/blob/master/spacy/tokens/span.pyx#L19')
        | #[+label('tag') class] Span

    p
        | A slice of a #[code Doc] object, consisting of zero or 
        | more tokens.  Spans are usually used to represent sentences, named entities, 
        | phrases. 
        
        +aside('Implementation')
            #[code Span] objects are views &ndash; that is, they do not copy the 
            underlying C data.  This makes them cheap to construct, as internally are 
            simply a reference to the #[code Doc] object, a start position, an end 
            position, and a label ID.

    +code('python', 'Overview').
        class Span:
            doc = Doc
            start = int
            end = int
            label = int

            def __init__(self, doc, start, end, label=0, vector=None, vector_norm=None):
                return self

            def __len__(self):
                return int
            def __getitem__(self, i):
                return Token()
            def __iter__(self):
                yield Token()

            def similarity(self, other):
                return float

            def merge(self, tag, lemma, ent_type):
                return None
            
            @property
            def label_(self):
                return unicode

            @property
            def vector(self):
                return numpy.ndarray(dtype='float64')
            @property
            def vector_norm(self):
                return float

            @property
            def text(self):
                return unicode
            @property
            def text_with_ws(self):
                return unicode
            @property
            def orth_(self):
                return unicode
            @property
            def lemma_(self):
                return unicode

            @property
            def root(self):
                return Token()
            @property
            def lefts(self):
                yield Token()
            @property
            def rights(self):
                yield Token()
            @property
            def subtree(self):
                yield Token()
    
    +section('span-create')
        +h3('span-init')
            | #[+label('tag') Section] Create a Span

        p
            | Span instances are usually created via the #[code Doc] object.

        +table(['Example', 'Description'], 'code')
            +row
                +cell #[code.lang-python span = doc[4 : 7]]
                +cell Produce a span with tokens 4, 5 and 6.
            +row
                +cell #[code.lang-python span = Span(doc, start, end, label=spacy.symbols.PERSON)]
                +cell Calling #[code Span.__init__] directly allows you to set a label.
            +row
                +cell #[code.lang-python for entity in doc.ents]
                +cell See #[a(href="/docs#doc-spans-ents") Doc.ents]
            +row
                +cell #[code.lang-python for sentence in doc.sents]
                +cell See #[a(href="/docs#doc-spans-sents") Doc.sents]
            +row
                +cell #[code.lang-python for noun_phrase in doc.noun_chunks]
                +cell See #[a(href="/docs#doc-spans-nounchunks") Doc.noun_chunks]
        
        +code('python', 'Definition').
            def __init__(self, doc, start, end, label=0, vector=None, vector_norm=None):
                return Span()

    +table(['Name', 'Type', 'Description'], 'params')
        +row
            +cell doc
            +cell Doc
            +cell The parent doc object, to slice from.
        +row
            +cell start
            +cell int
            +cell The index of the first token in the slice.
        +row
            +cell end
            +cell int
            +cell The index of the first token #[em outside] the slice (since ranges are exclusive in Python).
        +row
            +cell label
            +cell int or unicode
            +cell A label for the span. Either a string, or an integer ID, that should refer to a string mapped by the #[code Doc] object's #[code StringStore].
        +row
            +cell vector
            +cell 
            +cell
        +row
            +cell vector_norm
            +cell 
            +cell
    
    +section('span-merge')
        +h3('span-merge')
            | #[+label('tag') method] Span.merge

        p
            | Merge the span into a single token, modifying the underlying
            | #[code.lang-python Doc] object in place.
            
            +aside('Caveat').
                Magic is done to allow you to call #[code.lang-python merge()]
                without invalidating other #[code.lang-python Span] objects.
                However, it's difficult to ensure all indices are recomputed
                correctly. Please report any errors encountered on the issue 
                tracker.

        +code('python', 'Example').
            for ent in doc.ents:
                ent.merge(ent.root.tag_, ent.text, ent.label_)
            for np in doc.noun_chunks:
                while len(np) > 1 and np[0].dep_ not in ('advmod', 'amod', 'compound'):
                    np = np[1:]
                np.merge(np.root.tag_, np.text, np.root.ent_type_)

        +code('python', 'Definition').
            def merge(self, tag, lemma, ent_type):
                return None

        +table(['Name', 'Type', 'Description'], 'params')
            +row
                +cell tag
                +cell unicode
                +cell The fine-grained part-of-speech tag to assign to the new token.
            +row
                +cell lemma
                +cell unicode
                +cell The lemma string for the new token.
            +row
                +cell ent_type
                +cell unicode
                +cell The named entity type to assign to the new token.

    +section('span-similarity')
        +h3('span-similarity')
            | #[+label('tag') method] Span.similarity

        p
            | Estimate the semantic similarity between the span and another #[code Span],
            #[code Doc], #[code Token] or #[code Lexeme].
            
            +aside('Algorithm').
                Similarity is estimated
                using the cosine metric, between #[code Span.vector] and #[code other.vector].
                By default, #[code Span.vector] is computed by averaging the vectors
                of its tokens.

        +code('python', 'Example').
            doc = nlp("Apples and oranges are similar. Boots and hippos aren't.")
            apples_sent, boots_sent = doc.sents
            fruit = doc.vocab[u'fruit']
            assert apples_sent.similarity(fruit) > boot_sent.similarity(fruit)

        +code('python', 'Definition').
            def similarity(self, other):
                return float

        +table(['Name', 'Type', 'Description'], 'params')
            +row
                +cell other
                +cell Token, Span, Doc or Lexeme
                +cell The other object to judge similarity with.

    +section('span-sequence')
        +h3('span-sequence')
            | #[+label('tag') section] Span as a Sequence

        p.
            #[code Span] objects act as a sequence of #[code Token] objects. In
            this way they mirror the API of the #[code Doc] object.

        +table(['Name', 'Description'], 'params')
            +row
                +cell #[code.lang-python token = span[i]]
                +cell
                    | Get the #[code Token] object at position #[em i], where 
                    | #[code i] is an offset within the #[code Span], not the 
                    | document. That is, if you have #[code.lang-python span = doc[4:6]], 
                    | then #[code.lang-python span[0].i == 4]

            +row
                +cell #[code.lang-python for token in span]
                +cell.
                    Iterate over the #[code Token] objects in the span.

            +row
                +cell __len__
                +cell.
                    Number of tokens in the span.

            +row
                +cell text
                +cell.
                    The text content of the span, obtained from 
                    #[code ''.join(token.text_with_ws for token in span)].

            +row
                +cell start
                +cell.
                    The start offset of the span, i.e. #[code span[0].i].

            +row
                +cell end
                +cell.
                    The end offset of the span, i.e. #[code span[-1].i + 1].

    +section('span-navigating-parse')
        +h3('span-navigativing-parse')
            | #[+label('tag') Section] Span and the Syntactic Parse

        p.
            Span objects allow similar access to the syntactic parse as individual
            tokens.

        +table(['Name', 'Type', 'Description'], 'params')
            +row
                +cell root
                +cell #[code.lang-python Token]
                +cell
                    | The word with the shortest path to the root of the sentence is 
                    | the root of the span.
            +row
                +cell lefts
                +cell #[code.lang-python yield Token]
                +cell Tokens that are to the left of the span, whose head is within it.
            +row
                +cell rights
                +cell #[code.lang-python yield Token]
                +cell Tokens that are to the right of the span, whose head is within it.

            +row
                +cell subtree
                +cell #[code.lang-python yield Token]
                +cell
                    | Tokens in the range #[code (start, end+1)], where #[code start] 
                    | is the index of the leftmost word descended from a token in the 
                    | span, and #[code end] is the index of the rightmost token descended 
                    | from a token in the span.

    +section('span-strings')
        +h3('span-strings')
            | #[+label('tag') section] Span's Strings API

        p.
            You can access the textual content of the span, and different view of
            it, with the following properties.

        +table(['Name', 'Type', 'Description'], 'params')
            +row
                +cell text_with_ws
                +cell unicode
                +cell.
                    The form of the span as it appears in the string, including 
                    trailing whitespace. This is useful when you need to use linguistic 
                    features to add inline mark-up to the string.

            +row
                +cell lemma / lemma_
                +cell int / unicode
                +cell.
                    Whitespace-concatenated lemmas of each token in the span.

            +row
                +cell label / label_
                +cell int / unicode
                +cell.
                    The span label, used particularly for named entities.
Replace website with new version 2016-03-31 17:24:48 +03:00			`//- Docs > API > Span`
			`//- ============================================================================`

			`+section('span')`
			`+h2('span', 'https://github.com/' + profiles.github + '/spaCy/blob/master/spacy/tokens/span.pyx#L19')`
			`\| #[+label('tag') class] Span`

			`p`
			`\| A slice of a #[code Doc] object, consisting of zero or`
			`\| more tokens. Spans are usually used to represent sentences, named entities,`
			`\| phrases.`

			`+aside('Implementation')`
			`#[code Span] objects are views – that is, they do not copy the`
			`underlying C data. This makes them cheap to construct, as internally are`
			`simply a reference to the #[code Doc] object, a start position, an end`
			`position, and a label ID.`

			`+code('python', 'Overview').`
			`class Span:`
			`doc = Doc`
			`start = int`
			`end = int`
			`label = int`

			`def __init__(self, doc, start, end, label=0, vector=None, vector_norm=None):`
			`return self`

			`def __len__(self):`
			`return int`
			`def __getitem__(self, i):`
			`return Token()`
			`def __iter__(self):`
			`yield Token()`

			`def similarity(self, other):`
			`return float`

			`def merge(self, tag, lemma, ent_type):`
			`return None`

			`@property`
			`def label_(self):`
			`return unicode`

			`@property`
			`def vector(self):`
			`return numpy.ndarray(dtype='float64')`
			`@property`
			`def vector_norm(self):`
			`return float`

			`@property`
			`def text(self):`
			`return unicode`
			`@property`
			`def text_with_ws(self):`
			`return unicode`
			`@property`
			`def orth_(self):`
			`return unicode`
			`@property`
			`def lemma_(self):`
			`return unicode`

			`@property`
			`def root(self):`
			`return Token()`
			`@property`
			`def lefts(self):`
			`yield Token()`
			`@property`
			`def rights(self):`
			`yield Token()`
			`@property`
			`def subtree(self):`
			`yield Token()`

			`+section('span-create')`
			`+h3('span-init')`
			`\| #[+label('tag') Section] Create a Span`

			`p`
			`\| Span instances are usually created via the #[code Doc] object.`

			`+table(['Example', 'Description'], 'code')`
			`+row`
			`+cell #[code.lang-python span = doc[4 : 7]]`
			`+cell Produce a span with tokens 4, 5 and 6.`
			`+row`
			`+cell #[code.lang-python span = Span(doc, start, end, label=spacy.symbols.PERSON)]`
			`+cell Calling #[code Span.__init__] directly allows you to set a label.`
			`+row`
			`+cell #[code.lang-python for entity in doc.ents]`
			`+cell See #[a(href="/docs#doc-spans-ents") Doc.ents]`
			`+row`
			`+cell #[code.lang-python for sentence in doc.sents]`
			`+cell See #[a(href="/docs#doc-spans-sents") Doc.sents]`
			`+row`
			`+cell #[code.lang-python for noun_phrase in doc.noun_chunks]`
			`+cell See #[a(href="/docs#doc-spans-nounchunks") Doc.noun_chunks]`

			`+code('python', 'Definition').`
			`def __init__(self, doc, start, end, label=0, vector=None, vector_norm=None):`
			`return Span()`

			`+table(['Name', 'Type', 'Description'], 'params')`
			`+row`
			`+cell doc`
			`+cell Doc`
			`+cell The parent doc object, to slice from.`
			`+row`
			`+cell start`
			`+cell int`
			`+cell The index of the first token in the slice.`
			`+row`
			`+cell end`
			`+cell int`
			`+cell The index of the first token #[em outside] the slice (since ranges are exclusive in Python).`
			`+row`
			`+cell label`
			`+cell int or unicode`
			`+cell A label for the span. Either a string, or an integer ID, that should refer to a string mapped by the #[code Doc] object's #[code StringStore].`
			`+row`
			`+cell vector`
			`+cell`
			`+cell`
			`+row`
			`+cell vector_norm`
			`+cell`
			`+cell`

			`+section('span-merge')`
			`+h3('span-merge')`
			`\| #[+label('tag') method] Span.merge`

			`p`
			`\| Merge the span into a single token, modifying the underlying`
			`\| #[code.lang-python Doc] object in place.`

			`+aside('Caveat').`
			`Magic is done to allow you to call #[code.lang-python merge()]`
			`without invalidating other #[code.lang-python Span] objects.`
			`However, it's difficult to ensure all indices are recomputed`
			`correctly. Please report any errors encountered on the issue`
			`tracker.`

			`+code('python', 'Example').`
			`for ent in doc.ents:`
			`ent.merge(ent.root.tag_, ent.text, ent.label_)`
			`for np in doc.noun_chunks:`
			`while len(np) > 1 and np[0].dep_ not in ('advmod', 'amod', 'compound'):`
			`np = np[1:]`
			`np.merge(np.root.tag_, np.text, np.root.ent_type_)`

			`+code('python', 'Definition').`
			`def merge(self, tag, lemma, ent_type):`
			`return None`

			`+table(['Name', 'Type', 'Description'], 'params')`
			`+row`
			`+cell tag`
			`+cell unicode`
			`+cell The fine-grained part-of-speech tag to assign to the new token.`
			`+row`
			`+cell lemma`
			`+cell unicode`
			`+cell The lemma string for the new token.`
			`+row`
			`+cell ent_type`
			`+cell unicode`
			`+cell The named entity type to assign to the new token.`

			`+section('span-similarity')`
			`+h3('span-similarity')`
			`\| #[+label('tag') method] Span.similarity`

			`p`
			`\| Estimate the semantic similarity between the span and another #[code Span],`
			`#[code Doc], #[code Token] or #[code Lexeme].`

			`+aside('Algorithm').`
			`Similarity is estimated`
			`using the cosine metric, between #[code Span.vector] and #[code other.vector].`
			`By default, #[code Span.vector] is computed by averaging the vectors`
			`of its tokens.`

			`+code('python', 'Example').`
			`doc = nlp("Apples and oranges are similar. Boots and hippos aren't.")`
			`apples_sent, boots_sent = doc.sents`
			`fruit = doc.vocab[u'fruit']`
			`assert apples_sent.similarity(fruit) > boot_sent.similarity(fruit)`

			`+code('python', 'Definition').`
			`def similarity(self, other):`
			`return float`

			`+table(['Name', 'Type', 'Description'], 'params')`
			`+row`
			`+cell other`
			`+cell Token, Span, Doc or Lexeme`
			`+cell The other object to judge similarity with.`

			`+section('span-sequence')`
			`+h3('span-sequence')`
			`\| #[+label('tag') section] Span as a Sequence`

			`p.`
			`#[code Span] objects act as a sequence of #[code Token] objects. In`
			`this way they mirror the API of the #[code Doc] object.`

			`+table(['Name', 'Description'], 'params')`
			`+row`
			`+cell #[code.lang-python token = span[i]]`
			`+cell`
			`\| Get the #[code Token] object at position #[em i], where`
			`\| #[code i] is an offset within the #[code Span], not the`
			`\| document. That is, if you have #[code.lang-python span = doc[4:6]],`
			`\| then #[code.lang-python span[0].i == 4]`

			`+row`
			`+cell #[code.lang-python for token in span]`
			`+cell.`
			`Iterate over the #[code Token] objects in the span.`

			`+row`
			`+cell __len__`
			`+cell.`
			`Number of tokens in the span.`

			`+row`
			`+cell text`
			`+cell.`
			`The text content of the span, obtained from`
			`#[code ''.join(token.text_with_ws for token in span)].`

			`+row`
			`+cell start`
			`+cell.`
			`The start offset of the span, i.e. #[code span[0].i].`

			`+row`
			`+cell end`
			`+cell.`
			`The end offset of the span, i.e. #[code span[-1].i + 1].`

			`+section('span-navigating-parse')`
			`+h3('span-navigativing-parse')`
			`\| #[+label('tag') Section] Span and the Syntactic Parse`

			`p.`
			`Span objects allow similar access to the syntactic parse as individual`
			`tokens.`

			`+table(['Name', 'Type', 'Description'], 'params')`
			`+row`
			`+cell root`
			`+cell #[code.lang-python Token]`
			`+cell`
			`\| The word with the shortest path to the root of the sentence is`
			`\| the root of the span.`
			`+row`
			`+cell lefts`
			`+cell #[code.lang-python yield Token]`
			`+cell Tokens that are to the left of the span, whose head is within it.`
			`+row`
			`+cell rights`
			`+cell #[code.lang-python yield Token]`
			`+cell Tokens that are to the right of the span, whose head is within it.`

			`+row`
			`+cell subtree`
			`+cell #[code.lang-python yield Token]`
			`+cell`
			`\| Tokens in the range #[code (start, end+1)], where #[code start]`
			`\| is the index of the leftmost word descended from a token in the`
			`\| span, and #[code end] is the index of the rightmost token descended`
			`\| from a token in the span.`

			`+section('span-strings')`
			`+h3('span-strings')`
			`\| #[+label('tag') section] Span's Strings API`

			`p.`
			`You can access the textual content of the span, and different view of`
			`it, with the following properties.`

			`+table(['Name', 'Type', 'Description'], 'params')`
			`+row`
			`+cell text_with_ws`
			`+cell unicode`
			`+cell.`
			`The form of the span as it appears in the string, including`
			`trailing whitespace. This is useful when you need to use linguistic`
			`features to add inline mark-up to the string.`

			`+row`
			`+cell lemma / lemma_`
			`+cell int / unicode`
			`+cell.`
			`Whitespace-concatenated lemmas of each token in the span.`

			`+row`
			`+cell label / label_`
			`+cell int / unicode`
			`+cell.`
			`The span label, used particularly for named entities.`