ooggss

initial

f0f4f2b 12 months ago

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	#![allow(dead_code)]

	use crate::assets::LANGUAGES;
	use crate::consts::{
	ENCODING_MARKS, IANA_SUPPORTED, IANA_SUPPORTED_SIMILAR, RE_POSSIBLE_ENCODING_INDICATION,
	UNICODE_RANGES_COMBINED, UNICODE_SECONDARY_RANGE_KEYWORD,
	};
	use crate::entity::Language;

	use ahash::{HashSet, HashSetExt};
	use encoding::label::encoding_from_whatwg_label;
	use encoding::{CodecError, DecoderTrap, EncoderTrap, Encoding, EncodingRef, StringWriter};
	use icu_normalizer::DecomposingNormalizer;
	use unicode_names2::name;

	use std::borrow::Cow;
	use std::fs;
	use std::path::{Path, PathBuf};

	// Utils module

	#[inline]
	pub(crate) fn in_range(range: Option<&str>, ranges_partial: &[&str]) -> bool {
	// unicode range part
	if !ranges_partial.is_empty() {
	if let Some(range) = range {
	return ranges_partial.iter().any(\|&r\| range.contains(r));
	}
	}
	false
	}

	#[inline]
	pub(crate) fn in_description(character: char, patterns: &[&str]) -> bool {
	name(character)
	.is_some_and(\|ucd_name\| patterns.iter().any(\|&s\| ucd_name.to_string().contains(s)))
	}

	pub(crate) fn is_accentuated(character: char) -> bool {
	let patterns = [
	"WITH GRAVE",
	"WITH ACUTE",
	"WITH CEDILLA",
	"WITH DIAERESIS",
	"WITH CIRCUMFLEX",
	"WITH TILDE",
	];
	in_description(character, &patterns)
	}

	pub(crate) fn is_unicode_range_secondary(range_name: &str) -> bool {
	UNICODE_SECONDARY_RANGE_KEYWORD
	.iter()
	.any(\|&s\| range_name.contains(s))
	}

	// Retrieve the Unicode range official name from a single character
	pub(crate) fn unicode_range(character: char) -> Option<&'static str> {
	let char_code = character as u32;
	UNICODE_RANGES_COMBINED
	.iter()
	.find(\|&(_, range)\| range.contains(&char_code))
	.map(\|(name, _)\| *name)
	}

	pub(crate) fn range_scan(decoded_sequence: &str) -> HashSet<String> {
	let (lower, upper) = decoded_sequence.chars().size_hint();
	let mut result: HashSet<String> = HashSet::with_capacity(upper.unwrap_or(lower));
	result.extend(
	decoded_sequence
	.chars()
	.filter_map(\|ch\| unicode_range(ch).map(\|r\| r.to_string())),
	);
	result // decoded_sequence.chars().filter_map(\|ch\| unicode_range(&ch).map(\|r\| r.to_string())).collect()
	}

	pub(crate) fn remove_accent(ch: char) -> char {
	DecomposingNormalizer::new_nfd() //initialize decomposer
	.normalize(ch.to_string().as_str()) //normalize into String
	.chars()
	.next() // retrieve first component(unaccented char)
	.unwrap_or(ch) //if fail, return the original char
	}

	// Verify is a specific encoding is a multi byte one based on it IANA name
	pub fn is_multi_byte_encoding(name: &str) -> bool {
	[
	"utf-8",
	"utf-16le",
	"utf-16be",
	"euc-jp",
	"euc-kr",
	"iso-2022-jp",
	"gbk",
	"gb18030",
	"hz",
	"big5",
	"shift_jis",
	]
	.contains(&name)
	}

	// Try to detect multibyte encoding by signature
	pub(crate) fn identify_sig_or_bom(sequence: &[u8]) -> (Option<String>, Option<&[u8]>) {
	ENCODING_MARKS
	.iter()
	.find(\|&(_, enc_sig)\| sequence.starts_with(enc_sig))
	.map_or((None, None), \|(enc_name, enc_sig)\| {
	(Some((enc_name).to_string()), Some(enc_sig))
	})
	}

	// Try to get standard name by alternative labels
	pub fn iana_name(cp_name: &str) -> Option<&str> {
	IANA_SUPPORTED
	.contains(&cp_name) // first just try to search it in our list
	.then_some(cp_name)
	.or_else(\|\| {
	// if not found, try to use alternative way
	encoding_from_whatwg_label(cp_name).map(\|enc\| enc.whatwg_name().unwrap_or(enc.name()))
	})
	}

	pub(crate) fn is_cp_similar(iana_name_a: &str, iana_name_b: &str) -> bool {
	IANA_SUPPORTED_SIMILAR.contains_key(iana_name_a)
	&& IANA_SUPPORTED_SIMILAR[iana_name_a].contains(&iana_name_b)
	}

	// Extract using ASCII-only decoder any specified encoding in the first n-bytes.
	pub(crate) fn any_specified_encoding(sequence: &[u8], search_zone: usize) -> Option<String> {
	encoding::all::ASCII
	.decode(
	&sequence[0..search_zone.min(sequence.len())],
	DecoderTrap::Ignore,
	)
	.ok()
	.and_then(\|test_string\| {
	RE_POSSIBLE_ENCODING_INDICATION
	.captures_iter(&test_string)
	.map(\|c\| c.extract())
	.find_map(\|(_, [specified_encoding])\| iana_name(specified_encoding))
	.map(\|found_iana\| found_iana.to_string())
	})
	}

	// Calculate similarity of two single byte encodings
	pub(crate) fn cp_similarity(iana_name_a: &str, iana_name_b: &str) -> f32 {
	// we don't want to compare multi-byte encodings
	if is_multi_byte_encoding(iana_name_a) \|\| is_multi_byte_encoding(iana_name_b) {
	return 0.0;
	}

	if let (Some(encoder_a), Some(encoder_b)) = (
	encoding_from_whatwg_label(iana_name_a),
	encoding_from_whatwg_label(iana_name_b),
	) {
	let character_match_count = (1..255u8)
	.filter(\|&ch\| {
	let res_a = encoder_a.decode(&[ch], DecoderTrap::Ignore).ok();
	let res_b = encoder_b.decode(&[ch], DecoderTrap::Ignore).ok();
	res_a.is_some() && res_a == res_b //check that they aren't none and equal
	})
	.count();
	return character_match_count as f32 / 254.0;
	}
	0.0 // Return 0.0 if encoders could not be retrieved.
	}

	// Test Decoding bytes to string with specified encoding without writing result to memory
	// returns true if everything is correctly decoded, otherwise false
	struct DecodeTestResult {
	only_test: bool,
	data: String,
	}
	impl StringWriter for DecodeTestResult {
	fn writer_hint(&mut self, expectedlen: usize) {
	if self.only_test {
	return;
	}
	let newlen = self.data.len() + expectedlen;
	self.data.reserve(newlen);
	}
	fn write_char(&mut self, c: char) {
	if self.only_test {
	return;
	}
	self.data.push(c);
	}
	fn write_str(&mut self, s: &str) {
	if self.only_test {
	return;
	}
	self.data.push_str(s);
	}
	}
	impl DecodeTestResult {
	pub fn get_buffer(&self) -> &str {
	&self.data
	}
	}

	// Decode bytes to string with specified encoding
	// if is_chunk = true it will try to fix first and end bytes for multibyte encodings
	pub fn decode(
	input: &[u8],
	from_encoding: &str,
	how_process_errors: DecoderTrap,
	only_test: bool,
	is_chunk: bool,
	) -> Result<String, String> {
	let encoder = encoding_from_whatwg_label(from_encoding)
	.ok_or(format!("Encoding '{}' not found", from_encoding))?;

	let mut buf = DecodeTestResult {
	only_test,
	data: String::new(),
	};
	let mut err = CodecError {
	upto: 0,
	cause: Cow::from(String::new()),
	};
	let chunk_len = input.len();
	let mut begin_offset: usize = 0;
	let mut end_offset: usize = chunk_len;
	let mut error_occured: bool;
	loop {
	let res = decode_to(
	encoder,
	&input[begin_offset..end_offset],
	how_process_errors,
	&mut buf,
	);
	error_occured = res.is_err();
	if let DecoderTrap::Strict = how_process_errors {
	if !is_chunk \|\| res.is_ok() \|\| !is_multi_byte_encoding(from_encoding) {
	break;
	}
	err = res.unwrap_err();
	if err.cause.contains("invalid sequence") {
	begin_offset += 1;
	} else if err.cause.contains("incomplete sequence") {
	end_offset -= 1;
	}
	if end_offset - begin_offset < 1 \|\| begin_offset > 3 \|\| (chunk_len - end_offset) > 3 {
	break;
	}
	} else {
	break;
	}
	}
	if error_occured {
	return Err(format!("{} at index {}", err.cause, err.upto));
	}
	Ok(String::from(buf.get_buffer()))
	}

	// Copied implementation of decode_to from encoder lib
	// (we need index of problematic chars & hacks for chunks)
	fn decode_to(
	encoder: EncodingRef,
	input: &[u8],
	trap: DecoderTrap,
	ret: &mut dyn StringWriter,
	) -> Result<(), CodecError> {
	let mut decoder = encoder.raw_decoder();
	let mut remaining = 0;
	loop {
	let (offset, err) = decoder.raw_feed(&input[remaining..], ret);
	let unprocessed = remaining + offset;

	match err {
	Some(err) => {
	remaining = remaining.wrapping_add_signed(err.upto);
	if !trap.trap(&mut *decoder, &input[unprocessed..remaining], ret) {
	return Err(err);
	}
	}
	None => {
	remaining = input.len();
	if let Some(err) = decoder.raw_finish(ret) {
	remaining = remaining.wrapping_add_signed(err.upto);
	if !trap.trap(&mut *decoder, &input[unprocessed..remaining], ret) {
	return Err(err);
	}
	}
	if remaining >= input.len() {
	return Ok(());
	}
	}
	}
	}
	}

	// Encode string to vec of bytes with specified encoding
	pub fn encode(
	input: &str,
	to_encoding: &str,
	how_process_errors: EncoderTrap,
	) -> Result<Vec<u8>, String> {
	if let Some(encoder) = encoding_from_whatwg_label(to_encoding) {
	return Ok(encoder.encode(input, how_process_errors)?);
	}
	Err(format!("Encoding '{}' not found", to_encoding))
	}

	// Determine if two Unicode range seen next to each other can be considered as suspicious.
	pub(crate) fn is_suspiciously_successive_range(
	range_a: Option<&'static str>,
	range_b: Option<&'static str>,
	) -> bool {
	if let (Some(range_a), Some(range_b)) = (range_a, range_b) {
	if range_a == range_b
	\|\| [range_a, range_b].iter().all(\|x\| x.contains("Latin"))
	\|\| [range_a, range_b].iter().any(\|x\| x.contains("Emoticons"))
	{
	return false;
	}

	// Latin characters can be accompanied with a combining diacritical mark
	// eg. Vietnamese.
	if [range_a, range_b].iter().any(\|x\| x.contains("Latin"))
	&& [range_a, range_b].iter().any(\|x\| x.contains("Combining"))
	{
	return false;
	}

	// keywords intersection
	let set_a: HashSet<_> = range_a.split_whitespace().collect();
	let set_b: HashSet<_> = range_b.split_whitespace().collect();

	if set_a
	.intersection(&set_b)
	.any(\|elem\| !UNICODE_SECONDARY_RANGE_KEYWORD.contains(elem))
	{
	return false;
	}

	// Japanese exception
	let jp_ranges = ["Hiragana", "Katakana"];
	match (
	jp_ranges.contains(&range_a), // has_jp_a
	jp_ranges.contains(&range_b), // has_jp_b
	[range_a, range_b].iter().any(\|x\| x.contains("CJK")), // has_cjk
	[range_a, range_b].iter().any(\|x\| x.contains("Hangul")), // has_hangul
	[range_a, range_b]
	.iter()
	.any(\|x\| x.contains("Punctuation") \|\| x.contains("Forms")), // has_punct_or_forms
	[range_a, range_b].iter().any(\|&x\| x == "Basic Latin"), // is_any_basic_latin
	) {
	(true, true, _, _, _, _) // both are japanese
	\| (true, _, true, _, _, _) \| (_, true, true, _, _, _) //either is japanese and either contains CJK
	\| (_, _, true, true, _, _) // either has both CJK and Hanguls
	\| (_, _, true, _, true, _) // either has chinese and dedicated punctuation and separators
	\| (_, _, _, true, _, true) // either has hangul and basic latin
	=> return false,
	_ => {} // All other combinations
	}
	}
	true // if either range is none or edge cases never triggers, return true
	}

	// Get data for specified language
	pub(crate) fn get_language_data(language: &Language) -> Result<(&'static str, bool, bool), String> {
	for (iterated_language, characters, has_accents, pure_latin) in LANGUAGES.iter() {
	if iterated_language == language {
	return Ok((characters, has_accents, pure_latin));
	}
	}
	Err(String::from("Language wasn't found"))
	}

	// ascii in encodings means windows-1252 codepage with supports diacritis
	// because of this we will check additionally it with is_ascii method
	pub(super) fn is_invalid_chunk(
	decoded_chunk_result: &Result<String, String>,
	encoding_iana: &str,
	) -> bool {
	decoded_chunk_result.is_err()
	\|\| (encoding_iana == "ascii" && !decoded_chunk_result.as_ref().is_ok_and(\|s\| s.is_ascii()))
	}

	// Get large datasets
	fn collect_large_sets(dir: &Path) -> Vec<PathBuf> {
	let mut files = Vec::new();

	if dir.is_dir() {
	for entry in fs::read_dir(dir).unwrap() {
	let path = entry.unwrap().path();

	if path.is_dir() {
	// Recursively collect files in subdirectories
	let subdirectory_files = collect_large_sets(&path);
	files.extend(subdirectory_files);
	} else {
	// Add the file to the list if it's a regular file
	files.push(path);
	}
	}
	}
	files
	}

	// Get large datasets
	pub fn get_large_test_datasets() -> Result<Vec<(String, Vec<String>)>, String> {
	let path = Path::new(env!("CARGO_MANIFEST_DIR")).join("src/tests/data/largesets/");

	match fs::metadata(&path) {
	Ok(metadata) if metadata.is_dir() => Ok(collect_large_sets(&path)
	.iter()
	.filter_map(\|set\| {
	let path = set.to_str()?;
	let encoding: Vec<&str> = path.split('/').collect();
	let encoding: Vec<String> = encoding
	.get(encoding.len().checked_sub(2)?)?
	.split(',')
	.map(\|s\| s.to_string())
	.collect();
	if encoding.as_slice() == ["largesets"] {
	return None; // None is ignored by filter_map
	}
	Some((path.to_string(), encoding)) // Return the tuple for the 'result'. unpacked by filter_map
	})
	.collect::<Vec<(String, Vec<String>)>>()),
	Ok(metadata) => Err(format!(
	"Path exists but not a directory: {:?} metadata: {:?}",
	path, metadata
	)),
	Err(err) => Err(format!(
	"Cannot find large datasets at {:?} error: {}",
	path, err
	)),
	}
	}