Merge pull request #72 from Kerollmops/wordarea-char-index

Make WordArea be based on char index and length
This commit is contained in:
Clément Renault 2019-01-09 20:53:59 +01:00 committed by GitHub
commit 30c9c053c2
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4 changed files with 73 additions and 41 deletions

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@ -48,6 +48,24 @@ fn display_highlights(text: &str, ranges: &[usize]) -> io::Result<()> {
Ok(()) Ok(())
} }
fn char_to_byte_range(index: usize, length: usize, text: &str) -> (usize, usize) {
let mut byte_index = 0;
let mut byte_length = 0;
for (n, (i, c)) in text.char_indices().enumerate() {
if n == index {
byte_index = i;
}
if n + 1 == index + length {
byte_length = i - byte_index + c.len_utf8();
break;
}
}
(byte_index, byte_length)
}
fn create_highlight_areas(text: &str, matches: &[Match], attribute: SchemaAttr) -> Vec<usize> { fn create_highlight_areas(text: &str, matches: &[Match], attribute: SchemaAttr) -> Vec<usize> {
let mut byte_indexes = BTreeMap::new(); let mut byte_indexes = BTreeMap::new();
@ -55,11 +73,18 @@ fn create_highlight_areas(text: &str, matches: &[Match], attribute: SchemaAttr)
let match_attribute = match_.attribute.attribute(); let match_attribute = match_.attribute.attribute();
if SchemaAttr::new(match_attribute) == attribute { if SchemaAttr::new(match_attribute) == attribute {
let word_area = match_.word_area; let word_area = match_.word_area;
let byte_index = word_area.byte_index() as usize;
let length = word_area.length() as usize; let char_index = word_area.char_index() as usize;
let char_length = word_area.length() as usize;
let (byte_index, byte_length) = char_to_byte_range(char_index, char_length, text);
match byte_indexes.entry(byte_index) { match byte_indexes.entry(byte_index) {
Entry::Vacant(entry) => { entry.insert(length); }, Entry::Vacant(entry) => { entry.insert(byte_length); },
Entry::Occupied(mut entry) => if *entry.get() < length { entry.insert(length); }, Entry::Occupied(mut entry) => {
if *entry.get() < byte_length {
entry.insert(byte_length);
}
},
} }
} }
} }

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@ -51,24 +51,14 @@ where B: TokenizerBuilder
fn serialize_str(self, v: &str) -> Result<Self::Ok, Self::Error> { fn serialize_str(self, v: &str) -> Result<Self::Ok, Self::Error> {
for Token { word, word_index, char_index } in self.tokenizer_builder.build(v) { for Token { word, word_index, char_index } in self.tokenizer_builder.build(v) {
let document_id = self.document_id;
// FIXME must u32::try_from instead // FIXME must u32::try_from instead
let attribute = match Attribute::new(self.attribute.0, word_index as u32) { let attribute = match Attribute::new(self.attribute.0, word_index as u32) {
Ok(attribute) => attribute, Ok(attribute) => attribute,
Err(_) => return Ok(()), Err(_) => return Ok(()),
}; };
// FIXME must u16/u32::try_from instead
let word_area = match WordArea::new(char_index as u32, word.len() as u16) {
Ok(word_area) => word_area,
Err(_) => return Ok(()),
};
let doc_index = DocIndex {
document_id: self.document_id,
attribute,
word_area
};
// insert the exact representation // insert the exact representation
let word_lower = word.to_lowercase(); let word_lower = word.to_lowercase();
@ -77,9 +67,26 @@ where B: TokenizerBuilder
// and the unidecoded lowercased version // and the unidecoded lowercased version
let word_unidecoded = unidecode::unidecode(word).to_lowercase(); let word_unidecoded = unidecode::unidecode(word).to_lowercase();
if word_lower != word_unidecoded { if word_lower != word_unidecoded {
// FIXME must u16/u32::try_from instead
let length = word_unidecoded.chars().count() as u16;
let word_area = match WordArea::new(char_index as u32, length) {
Ok(word_area) => word_area,
Err(_) => return Ok(()),
};
let doc_index = DocIndex { document_id, attribute, word_area };
self.update.insert_doc_index(word_unidecoded.into_bytes(), doc_index); self.update.insert_doc_index(word_unidecoded.into_bytes(), doc_index);
} }
// FIXME must u16/u32::try_from instead
let length = word.chars().count() as u16;
let word_area = match WordArea::new(char_index as u32, length) {
Ok(word_area) => word_area,
Err(_) => return Ok(()),
};
let doc_index = DocIndex { document_id, attribute, word_area };
self.update.insert_doc_index(word_lower.into_bytes(), doc_index); self.update.insert_doc_index(word_lower.into_bytes(), doc_index);
} }
Ok(()) Ok(())

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@ -97,15 +97,15 @@ enum AttributeError {
pub struct WordArea(u32); pub struct WordArea(u32);
impl WordArea { impl WordArea {
/// Construct a `WordArea` from a word position in bytes /// Construct a `WordArea` from a word position in expresed as
/// and the length of it. /// a number of characters and the length of it.
/// ///
/// # Panics /// # Panics
/// ///
/// The byte index must not be greater than 2^22 /// The char index must not be greater than 2^22
/// and the length not greater than 1024. /// and the length not greater than 1024.
fn new(byte_index: u32, length: u16) -> Result<WordArea, WordAreaError> { fn new(char_index: u32, length: u16) -> Result<WordArea, WordAreaError> {
if byte_index & 0b1111_1111_1100_0000_0000_0000_0000 != 0 { if char_index & 0b1111_1111_1100_0000_0000_0000_0000 != 0 {
return Err(WordAreaError::ByteIndexTooBig) return Err(WordAreaError::ByteIndexTooBig)
} }
@ -113,12 +113,12 @@ impl WordArea {
return Err(WordAreaError::LengthTooBig) return Err(WordAreaError::LengthTooBig)
} }
let byte_index = byte_index << 10; let char_index = char_index << 10;
Ok(WordArea(byte_index | u32::from(length))) Ok(WordArea(char_index | u32::from(length)))
} }
fn new_faillible(byte_index: u32, length: u16) -> WordArea { fn new_faillible(char_index: u32, length: u16) -> WordArea {
match WordArea::new(byte_index, length) { match WordArea::new(char_index, length) {
Ok(word_area) => word_area, Ok(word_area) => word_area,
Err(WordAreaError::ByteIndexTooBig) => { Err(WordAreaError::ByteIndexTooBig) => {
panic!("word area byte index must not be greater than 2^22") panic!("word area byte index must not be greater than 2^22")
@ -130,7 +130,7 @@ impl WordArea {
} }
#[inline] #[inline]
pub fn byte_index(self) -> u32 { pub fn char_index(self) -> u32 {
self.0 >> 10 self.0 >> 10
} }
@ -143,7 +143,7 @@ impl WordArea {
impl fmt::Debug for WordArea { impl fmt::Debug for WordArea {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.debug_struct("WordArea") f.debug_struct("WordArea")
.field("byte_index", &self.byte_index()) .field("char_index", &self.char_index())
.field("length", &self.length()) .field("length", &self.length())
.finish() .finish()
} }
@ -270,26 +270,26 @@ mod tests {
TestResult::from_bool(a < b) TestResult::from_bool(a < b)
} }
fn qc_word_area(gen_byte_index: u32, gen_length: u16) -> TestResult { fn qc_word_area(gen_char_index: u32, gen_length: u16) -> TestResult {
if gen_byte_index > 2_u32.pow(22) || gen_length > 2_u16.pow(10) { if gen_char_index > 2_u32.pow(22) || gen_length > 2_u16.pow(10) {
return TestResult::discard() return TestResult::discard()
} }
let word_area = WordArea::new_faillible(gen_byte_index, gen_length); let word_area = WordArea::new_faillible(gen_char_index, gen_length);
let valid_char_index = word_area.byte_index() == gen_byte_index; let valid_char_index = word_area.char_index() == gen_char_index;
let valid_length = word_area.length() == gen_length; let valid_length = word_area.length() == gen_length;
TestResult::from_bool(valid_char_index && valid_length) TestResult::from_bool(valid_char_index && valid_length)
} }
fn qc_word_area_ord(gen_byte_index: u32, gen_length: u16) -> TestResult { fn qc_word_area_ord(gen_char_index: u32, gen_length: u16) -> TestResult {
if gen_byte_index >= 2_u32.pow(22) || gen_length >= 2_u16.pow(10) { if gen_char_index >= 2_u32.pow(22) || gen_length >= 2_u16.pow(10) {
return TestResult::discard() return TestResult::discard()
} }
let a = WordArea::new_faillible(gen_byte_index, gen_length); let a = WordArea::new_faillible(gen_char_index, gen_length);
let b = WordArea::new_faillible(gen_byte_index + 1, gen_length + 1); let b = WordArea::new_faillible(gen_char_index + 1, gen_length + 1);
TestResult::from_bool(a < b) TestResult::from_bool(a < b)
} }

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@ -96,7 +96,7 @@ impl<'a> Iterator for Tokenizer<'a> {
let (spaces, word) = prefix.split_at(start_word); let (spaces, word) = prefix.split_at(start_word);
self.inner = tail; self.inner = tail;
self.char_index += spaces.len(); self.char_index += spaces.chars().count();
self.word_index += distance.map(Separator::to_usize).unwrap_or(0); self.word_index += distance.map(Separator::to_usize).unwrap_or(0);
let token = Token { let token = Token {
@ -105,7 +105,7 @@ impl<'a> Iterator for Tokenizer<'a> {
char_index: self.char_index, char_index: self.char_index,
}; };
self.char_index += word.len(); self.char_index += word.chars().count();
return Some(token) return Some(token)
} }
@ -122,7 +122,7 @@ impl<'a> Iterator for Tokenizer<'a> {
let token = Token { let token = Token {
word: word, word: word,
word_index: self.word_index + distance.map(Separator::to_usize).unwrap_or(0), word_index: self.word_index + distance.map(Separator::to_usize).unwrap_or(0),
char_index: self.char_index + spaces.len(), char_index: self.char_index + spaces.chars().count(),
}; };
return Some(token) return Some(token)
} }
@ -173,7 +173,7 @@ mod tests {
assert_eq!(tokenizer.next(), Some(Token { word: "yo", word_index: 0, char_index: 4 })); assert_eq!(tokenizer.next(), Some(Token { word: "yo", word_index: 0, char_index: 4 }));
assert_eq!(tokenizer.next(), Some(Token { word: "😂", word_index: 1, char_index: 7 })); assert_eq!(tokenizer.next(), Some(Token { word: "😂", word_index: 1, char_index: 7 }));
assert_eq!(tokenizer.next(), Some(Token { word: "aïe", word_index: 9, char_index: 13 })); assert_eq!(tokenizer.next(), Some(Token { word: "aïe", word_index: 9, char_index: 10 }));
assert_eq!(tokenizer.next(), None); assert_eq!(tokenizer.next(), None);
let mut tokenizer = Tokenizer::new("yo ! lolo ? 😱 - lol . 😣 ,"); let mut tokenizer = Tokenizer::new("yo ! lolo ? 😱 - lol . 😣 ,");
@ -181,8 +181,8 @@ mod tests {
assert_eq!(tokenizer.next(), Some(Token { word: "yo", word_index: 0, char_index: 0 })); assert_eq!(tokenizer.next(), Some(Token { word: "yo", word_index: 0, char_index: 0 }));
assert_eq!(tokenizer.next(), Some(Token { word: "lolo", word_index: 8, char_index: 5 })); assert_eq!(tokenizer.next(), Some(Token { word: "lolo", word_index: 8, char_index: 5 }));
assert_eq!(tokenizer.next(), Some(Token { word: "😱", word_index: 16, char_index: 12 })); assert_eq!(tokenizer.next(), Some(Token { word: "😱", word_index: 16, char_index: 12 }));
assert_eq!(tokenizer.next(), Some(Token { word: "lol", word_index: 24, char_index: 19 })); assert_eq!(tokenizer.next(), Some(Token { word: "lol", word_index: 24, char_index: 16 }));
assert_eq!(tokenizer.next(), Some(Token { word: "😣", word_index: 32, char_index: 25 })); assert_eq!(tokenizer.next(), Some(Token { word: "😣", word_index: 32, char_index: 22 }));
assert_eq!(tokenizer.next(), None); assert_eq!(tokenizer.next(), None);
} }
} }