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use napi::bindgen_prelude::*;
use napi_derive::napi;
use serde::{Deserialize, Serialize};
use std::sync::{Arc, RwLock};
use tk::pre_tokenizers::PreTokenizerWrapper;
use tk::PreTokenizedString;
use tk::SplitDelimiterBehavior;
use tokenizers as tk;
#[napi(string_enum)]
pub enum JsSplitDelimiterBehavior {
Removed,
Isolated,
MergedWithPrevious,
MergedWithNext,
Contiguous,
}
impl TryFrom<String> for JsSplitDelimiterBehavior {
type Error = Error;
fn try_from(value: String) -> Result<Self> {
match &value[..] {
"removed" => Ok(JsSplitDelimiterBehavior::Removed),
"isolated" => Ok(JsSplitDelimiterBehavior::Isolated),
"mergedWithPrevious" => Ok(JsSplitDelimiterBehavior::MergedWithPrevious),
"mergedWithNext" => Ok(JsSplitDelimiterBehavior::MergedWithNext),
"contiguous" => Ok(JsSplitDelimiterBehavior::Contiguous),
_ => Err(Error::from_reason(
"Wrong value for SplitDelimiterBehavior, expected one of: \
`removed, isolated, mergedWithPrevious, mergedWithNext, contiguous`"
.to_string(),
)),
}
}
}
impl From<JsSplitDelimiterBehavior> for SplitDelimiterBehavior {
fn from(value: JsSplitDelimiterBehavior) -> Self {
match value {
JsSplitDelimiterBehavior::Removed => SplitDelimiterBehavior::Removed,
JsSplitDelimiterBehavior::Isolated => SplitDelimiterBehavior::Isolated,
JsSplitDelimiterBehavior::MergedWithPrevious => SplitDelimiterBehavior::MergedWithPrevious,
JsSplitDelimiterBehavior::MergedWithNext => SplitDelimiterBehavior::MergedWithNext,
JsSplitDelimiterBehavior::Contiguous => SplitDelimiterBehavior::Contiguous,
}
}
}
/// PreTokenizers
#[derive(Clone, Debug, Serialize, Deserialize)]
#[napi]
pub struct PreTokenizer {
#[serde(flatten, with = "arc_rwlock_serde")]
pretok: Option<Arc<RwLock<PreTokenizerWrapper>>>,
}
impl tk::PreTokenizer for PreTokenizer {
fn pre_tokenize(&self, pretokenized: &mut PreTokenizedString) -> tk::Result<()> {
self
.pretok
.as_ref()
.ok_or("Uninitialized PreTokenizer")?
.read()
.unwrap()
.pre_tokenize(pretokenized)?;
Ok(())
}
}
#[napi]
impl PreTokenizer {
#[napi(ts_return_type = "[string, [number, number]][]")]
pub fn pre_tokenize_string(&self, sequence: String, env: Env) -> Result<Vec<Array>> {
use tk::PreTokenizer;
let mut pretokenized = PreTokenizedString::from(sequence);
self
.pre_tokenize(&mut pretokenized)
.map_err(|e| Error::from_reason(format!("{}", e)))?;
pretokenized
.get_splits(tk::OffsetReferential::Original, tk::OffsetType::Char)
.into_iter()
.map(|(s, (start, end), _)| -> Result<Array> {
let mut arr = env.create_array(2)?;
let mut offset = env.create_array(2)?;
offset.set(0, env.create_uint32(start as u32)?)?;
offset.set(1, env.create_uint32(end as u32)?)?;
arr.set(0, env.create_string(s)?)?;
arr.set(1, offset)?;
Ok(arr)
})
.collect::<Result<Vec<_>>>()
}
}
/// byte_level(addPrefixSpace: bool = true, useRegex: bool = true)
#[napi]
pub fn byte_level_pre_tokenizer(
add_prefix_space: Option<bool>,
use_regex: Option<bool>,
) -> PreTokenizer {
let mut byte_level = tk::pre_tokenizers::byte_level::ByteLevel::default();
if let Some(add_prefix_space) = add_prefix_space {
byte_level = byte_level.add_prefix_space(add_prefix_space);
}
if let Some(use_regex) = use_regex {
byte_level = byte_level.use_regex(use_regex);
}
PreTokenizer {
pretok: Some(Arc::new(RwLock::new(byte_level.into()))),
}
}
#[napi]
pub fn byte_level_alphabet() -> Vec<String> {
tk::pre_tokenizers::byte_level::ByteLevel::alphabet()
.into_iter()
.map(|c| c.to_string())
.collect::<Vec<_>>()
}
#[napi]
pub fn whitespace_pre_tokenizer() -> PreTokenizer {
PreTokenizer {
pretok: Some(Arc::new(RwLock::new(
tk::pre_tokenizers::whitespace::Whitespace.into(),
))),
}
}
#[napi]
pub fn whitespace_split_pre_tokenizer() -> PreTokenizer {
PreTokenizer {
pretok: Some(Arc::new(RwLock::new(
tk::pre_tokenizers::whitespace::WhitespaceSplit.into(),
))),
}
}
#[napi]
pub fn bert_pre_tokenizer() -> PreTokenizer {
PreTokenizer {
pretok: Some(Arc::new(RwLock::new(
tk::pre_tokenizers::bert::BertPreTokenizer.into(),
))),
}
}
#[napi]
pub fn metaspace_pre_tokenizer(
#[napi(ts_arg_type = "string = '▁'")] replacement: Option<String>,
#[napi(ts_arg_type = "prepend_scheme = 'always'")] prepend_scheme: Option<String>,
#[napi(ts_arg_type = "split = true")] split: Option<bool>,
) -> Result<PreTokenizer> {
use tk::pre_tokenizers::metaspace::PrependScheme;
let split = split.unwrap_or(true);
let replacement = replacement.unwrap_or("▁".to_string());
if replacement.chars().count() != 1 {
return Err(Error::from_reason(
"replacement is supposed to be a single char",
));
}
let replacement = replacement.chars().next().unwrap();
let prepend_scheme: PrependScheme =
match prepend_scheme.unwrap_or(String::from("always")).as_str() {
"always" => PrependScheme::Always,
"first" => PrependScheme::First,
"never" => PrependScheme::Never,
_ => {
return Err(Error::from_reason(
"prepend_scheme is supposed to be either 'always', 'first' or 'never'",
));
}
};
Ok(PreTokenizer {
pretok: Some(Arc::new(RwLock::new(
tk::pre_tokenizers::metaspace::Metaspace::new(replacement, prepend_scheme, split).into(),
))),
})
}
#[napi]
pub fn split_pre_tokenizer(
pattern: String,
behavior: String,
invert: Option<bool>,
) -> Result<PreTokenizer> {
let behavior: JsSplitDelimiterBehavior = behavior.try_into()?;
let invert = invert.unwrap_or(false);
Ok(PreTokenizer {
pretok: Some(Arc::new(RwLock::new(
tk::pre_tokenizers::split::Split::new(pattern, behavior.into(), invert)
.map_err(|e| Error::from_reason(e.to_string()))?
.into(),
))),
})
}
#[napi]
pub fn punctuation_pre_tokenizer(behavior: Option<String>) -> Result<PreTokenizer> {
let behavior = match behavior {
Some(behavior) => behavior.try_into()?,
None => JsSplitDelimiterBehavior::Isolated,
};
Ok(PreTokenizer {
pretok: Some(Arc::new(RwLock::new(
tk::pre_tokenizers::punctuation::Punctuation::new(behavior.into()).into(),
))),
})
}
#[napi]
pub fn sequence_pre_tokenizer(pre_tokenizers: Vec<&PreTokenizer>) -> PreTokenizer {
let mut sequence: Vec<PreTokenizerWrapper> = Vec::with_capacity(pre_tokenizers.len());
pre_tokenizers.into_iter().for_each(|pre_tokenizer| {
if let Some(pre_tokenizer) = &pre_tokenizer.pretok {
sequence.push((**pre_tokenizer).read().unwrap().clone())
}
});
PreTokenizer {
pretok: Some(Arc::new(RwLock::new(PreTokenizerWrapper::Sequence(
tk::pre_tokenizers::sequence::Sequence::new(sequence),
)))),
}
}
#[napi]
pub fn char_delimiter_split(delimiter: String) -> Result<PreTokenizer> {
if delimiter.chars().count() != 1 {
return Err(Error::from_reason(
"delimiter is supposed to be a single char",
));
}
let delimiter = delimiter.chars().next().unwrap();
Ok(PreTokenizer {
pretok: Some(Arc::new(RwLock::new(
tk::pre_tokenizers::delimiter::CharDelimiterSplit::new(delimiter).into(),
))),
})
}
#[napi]
pub fn digits_pre_tokenizer(individual_digits: Option<bool>) -> PreTokenizer {
let individual_digits = individual_digits.unwrap_or(false);
PreTokenizer {
pretok: Some(Arc::new(RwLock::new(
tk::pre_tokenizers::digits::Digits::new(individual_digits).into(),
))),
}
}
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