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217 lines
8.9 KiB
Markdown
217 lines
8.9 KiB
Markdown
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# StringStore & Vocab
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> Reference: `spacy/strings.pyx`
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> Reference: `spacy/vocab.pyx`
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## Overview
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spaCy represents mosts strings internally using a `uint64` in Cython which
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corresponds to a hash. The magic required to make this largely transparent is
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handled by the `StringStore`, and is integrated into the pipelines using the
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`Vocab`, which also connects it to some other information.
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These are mostly internal details that average library users should never have
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to think about. On the other hand, when developing a component it's normal to
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interact with the Vocab for lexeme data or word vectors, and it's not unusual
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to add labels to the `StringStore`.
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## StringStore
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### Overview
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The `StringStore` is a `cdef class` that looks a bit like a two-way dictionary,
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though it is not a subclass of anything in particular.
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The main functionality of the `StringStore` is that `__getitem__` converts
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hashes into strings or strings into hashes.
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The full details of the conversion are complicated. Normally you shouldn't have
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to worry about them, but the first applicable case here is used to get the
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return value:
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1. 0 and the empty string are special cased to each other
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2. internal symbols use a lookup table (`SYMBOLS_BY_STR`)
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3. normal strings or bytes are hashed
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4. internal symbol IDs in `SYMBOLS_BY_INT` are handled
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5. anything not yet handled is used as a hash to lookup a string
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For the symbol enums, see [`symbols.pxd`](https://github.com/explosion/spaCy/blob/master/spacy/symbols.pxd).
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Almost all strings in spaCy are stored in the `StringStore`. This naturally
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includes tokens, but also includes things like labels (not just NER/POS/dep,
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but also categories etc.), lemmas, lowercase forms, word shapes, and so on. One
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of the main results of this is that tokens can be represented by a compact C
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struct ([`LexemeC`](https://spacy.io/api/cython-structs#lexemec)/[`TokenC`](https://github.com/explosion/spaCy/issues/4854)) that mostly consists of string hashes. This also means that converting
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input for the models is straightforward, and there's not a token mapping step
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like in many machine learning frameworks. Additionally, because the token IDs
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in spaCy are based on hashes, they are consistent across environments or
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models.
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One pattern you'll see a lot in spaCy APIs is that `something.value` returns an
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`int` and `something.value_` returns a string. That's implemented using the
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`StringStore`. Typically the `int` is stored in a C struct and the string is
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generated via a property that calls into the `StringStore` with the `int`.
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Besides `__getitem__`, the `StringStore` has functions to return specifically a
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string or specifically a hash, regardless of whether the input was a string or
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hash to begin with, though these are only used occasionally.
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### Implementation Details: Hashes and Allocations
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Hashes are 64-bit and are computed using [murmurhash][] on UTF-8 bytes. There is no
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mechanism for detecting and avoiding collisions. To date there has never been a
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reproducible collision or user report about any related issues.
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[murmurhash]: https://github.com/explosion/murmurhash
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The empty string is not hashed, it's just converted to/from 0.
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A small number of strings use indices into a lookup table (so low integers)
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rather than hashes. This is mostly Universal Dependencies labels or other
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strings considered "core" in spaCy. This was critical in v1, which hadn't
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introduced hashing yet. Since v2 it's important for items in `spacy.attrs`,
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especially lexeme flags, but is otherwise only maintained for backwards
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compatibility.
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You can call `strings["mystring"]` with a string the `StringStore` has never seen
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before and it will return a hash. But in order to do the reverse operation, you
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need to call `strings.add("mystring")` first. Without a call to `add` the
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string will not be interned.
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Example:
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```
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from spacy.strings import StringStore
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ss = StringStore()
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hashval = ss["spacy"] # 10639093010105930009
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try:
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# this won't work
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ss[hashval]
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except KeyError:
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print(f"key {hashval} unknown in the StringStore.")
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ss.add("spacy")
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assert ss[hashval] == "spacy" # it works now
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# There is no `.keys` property, but you can iterate over keys
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# The empty string will never be in the list of keys
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for key in ss:
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print(key)
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```
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In normal use nothing is ever removed from the `StringStore`. In theory this
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means that if you do something like iterate through all hex values of a certain
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length you can have explosive memory usage. In practice this has never been an
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issue. (Note that this is also different from using `sys.intern` to intern
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Python strings, which does not guarantee they won't be garbage collected later.)
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Strings are stored in the `StringStore` in a peculiar way: each string uses a
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union that is either an eight-byte `char[]` or a `char*`. Short strings are
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stored directly in the `char[]`, while longer strings are stored in allocated
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memory and prefixed with their length. This is a strategy to reduce indirection
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and memory fragmentation. See `decode_Utf8Str` and `_allocate` in
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`strings.pyx` for the implementation.
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### When to Use the StringStore?
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While you can ignore the `StringStore` in many cases, there are situations where
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you should make use of it to avoid errors.
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Any time you introduce a string that may be set on a `Doc` field that has a hash,
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you should add the string to the `StringStore`. This mainly happens when adding
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labels in components, but there are some other cases:
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- syntax iterators, mainly `get_noun_chunks`
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- external data used in components, like the `KnowledgeBase` in the `entity_linker`
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- labels used in tests
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## Vocab
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The `Vocab` is a core component of a `Language` pipeline. Its main function is
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to manage `Lexeme`s, which are structs that contain information about a token
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that depends only on its surface form, without context. `Lexeme`s store much of
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the data associated with `Token`s. As a side effect of this the `Vocab` also
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manages the `StringStore` for a pipeline and a grab-bag of other data.
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These are things stored in the vocab:
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- `Lexeme`s
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- `StringStore`
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- `Morphology`: manages info used in `MorphAnalysis` objects
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- `vectors`: basically a dict for word vectors
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- `lookups`: language specific data like lemmas
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- `writing_system`: language specific metadata
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- `get_noun_chunks`: a syntax iterator
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- lex attribute getters: functions like `is_punct`, set in language defaults
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- `cfg`: **not** the pipeline config, this is mostly unused
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- `_unused_object`: Formerly an unused object, kept around until v4 for compatability
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Some of these, like the Morphology and Vectors, are complex enough that they
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need their own explanations. Here we'll just look at Vocab-specific items.
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### Lexemes
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A `Lexeme` is a type that mainly wraps a `LexemeC`, a struct consisting of ints
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that identify various context-free token attributes. Lexemes are the core data
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of the `Vocab`, and can be accessed using `__getitem__` on the `Vocab`. The memory
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for storing `LexemeC` objects is managed by a pool that belongs to the `Vocab`.
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Note that `__getitem__` on the `Vocab` works much like the `StringStore`, in
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that it accepts a hash or id, with one important difference: if you do a lookup
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using a string, that value is added to the `StringStore` automatically.
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The attributes stored in a `LexemeC` are:
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- orth (the raw text)
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- lower
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- norm
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- shape
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- prefix
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- suffix
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Most of these are straightforward. All of them can be customized, and (except
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`orth`) probably should be since the defaults are based on English, but in
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practice this is rarely done at present.
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### Lookups
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This is basically a dict of dicts, implemented using a `Table` for each
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sub-dict, that stores lemmas and other language-specific lookup data.
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A `Table` is a subclass of `OrderedDict` used for string-to-string data. It uses
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Bloom filters to speed up misses and has some extra serialization features.
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Tables are not used outside of the lookups.
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### Lex Attribute Getters
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Lexical Attribute Getters like `is_punct` are defined on a per-language basis,
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much like lookups, but take the form of functions rather than string-to-string
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dicts, so they're stored separately.
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### Writing System
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This is a dict with three attributes:
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- `direction`: ltr or rtl (default ltr)
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- `has_case`: bool (default `True`)
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- `has_letters`: bool (default `True`, `False` only for CJK for now)
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Currently these are not used much - the main use is that `direction` is used in
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visualizers, though `rtl` doesn't quite work (see
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[#4854](https://github.com/explosion/spaCy/issues/4854)). In the future they
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could be used when choosing hyperparameters for subwords, controlling word
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shape generation, and similar tasks.
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### Other Vocab Members
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The Vocab is kind of the default place to store things from `Language.defaults`
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that don't belong to the Tokenizer. The following properties are in the Vocab
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just because they don't have anywhere else to go.
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- `get_noun_chunks`
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- `cfg`: This is a dict that just stores `oov_prob` (hardcoded to `-20`)
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- `_unused_object`: Leftover C member, should be removed in next major version
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