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match_impl.rs
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match_impl.rs
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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
use crate::util;
use bitflags::bitflags;
use caseless::Caseless;
use rusqlite::{
self,
types::{FromSql, FromSqlError, FromSqlResult, ToSql, ToSqlOutput, ValueRef},
};
use std::borrow::Cow;
const MAX_CHARS_TO_SEARCH_THROUGH: usize = 255;
#[derive(Clone, Copy, PartialEq, Eq, Debug)]
#[repr(u32)]
pub enum MatchBehavior {
// Match anywhere in each searchable tearm
Anywhere = 0,
/// Match first on word boundaries, and if we do not get enough results, then
/// match anywhere in each searchable term.
BoundaryAnywhere = 1,
/// Match on word boundaries in each searchable term.
Boundary = 2,
/// Match only the beginning of each search term.
Beginning = 3,
/// Match anywhere in each searchable term without doing any transformation
/// or stripping on the underlying data.
AnywhereUnmodified = 4,
/// Match only the beginning of each search term using a case sensitive
/// comparator
BeginningCaseSensitive = 5,
}
impl FromSql for MatchBehavior {
#[inline]
fn column_result(value: ValueRef<'_>) -> FromSqlResult<Self> {
Ok(match value.as_i64()? {
0 => MatchBehavior::Anywhere,
1 => MatchBehavior::BoundaryAnywhere,
2 => MatchBehavior::Boundary,
3 => MatchBehavior::Beginning,
4 => MatchBehavior::AnywhereUnmodified,
5 => MatchBehavior::BeginningCaseSensitive,
_ => return Err(FromSqlError::InvalidType),
})
}
}
impl ToSql for MatchBehavior {
#[inline]
fn to_sql(&self) -> rusqlite::Result<ToSqlOutput<'_>> {
Ok(ToSqlOutput::from(*self as u32))
}
}
bitflags! {
pub struct SearchBehavior: u32 {
/// Search through history.
const HISTORY = 1;
/// Search through bookmarks.
const BOOKMARK = 1 << 1;
/// Search through tags.
const TAG = 1 << 2;
/// Search through the title of pages.
const TITLE = 1 << 3;
/// Search the URL of pages.
const URL = 1 << 4;
/// Search for typed pages
const TYPED = 1 << 5;
/// Search for javascript: urls
const JAVASCRIPT = 1 << 6;
/// Search for open pages (currently not meaningfully implemented)
const OPENPAGE = 1 << 7;
/// Use intersection between history, typed, bookmark, tag and openpage
/// instead of union, when the restrict bit is set.
const RESTRICT = 1 << 8;
/// Include search suggestions from the currently selected search provider
/// (currently not implemented)
const SEARCHES = 1 << 9;
}
}
impl Default for SearchBehavior {
// See `defaultBehavior` in Desktop's `UrlbarPrefs.jsm`.
fn default() -> SearchBehavior {
SearchBehavior::HISTORY
| SearchBehavior::BOOKMARK
| SearchBehavior::OPENPAGE
| SearchBehavior::SEARCHES
}
}
impl SearchBehavior {
#[inline]
pub fn any() -> Self {
SearchBehavior::all() & !SearchBehavior::RESTRICT
}
}
impl FromSql for SearchBehavior {
#[inline]
fn column_result(value: ValueRef<'_>) -> FromSqlResult<Self> {
SearchBehavior::from_bits(u32::column_result(value)?).ok_or(FromSqlError::InvalidType)
}
}
impl ToSql for SearchBehavior {
#[inline]
fn to_sql(&self) -> rusqlite::Result<ToSqlOutput<'_>> {
Ok(ToSqlOutput::from(self.bits()))
}
}
/// Convert `c` to lower case if it's an alphabetic ascii character, or completely mangle it if it's
/// not. Just returns `c | 0x20`. I don't know if I actually believe this is faster in a way that
/// matters than the saner version.
#[inline(always)]
fn dubious_to_ascii_lower(c: u8) -> u8 {
c | 0x20
}
/// A port of nextSearchCandidate in the desktop places's SQLFunctions.cpp:
///
/// > Scan forward through UTF-8 text until the next potential character that
/// > could match a given codepoint when lower-cased (false positives are okay).
/// > This avoids having to actually parse the UTF-8 text, which is slow.
///
/// It returns the byte index of the first character that could possibly match.
#[inline(always)]
fn next_search_candidate(to_search: &str, search_for: char) -> Option<usize> {
// If the character we search for is ASCII, then we can scan until we find
// it or its ASCII uppercase character, modulo the special cases
// U+0130 LATIN CAPITAL LETTER I WITH DOT ABOVE and U+212A KELVIN SIGN
// (which are the only non-ASCII characters that lower-case to ASCII ones).
// Since false positives are okay, we approximate ASCII lower-casing by
// bit-ORing with 0x20, for increased performance.
//
// If the character we search for is *not* ASCII, we can ignore everything
// that is, since all ASCII characters lower-case to ASCII.
//
// Because of how UTF-8 uses high-order bits, this will never land us
// in the middle of a codepoint.
//
// The assumptions about Unicode made here are verified in test_casing.
let search_bytes = to_search.as_bytes();
if (search_for as u32) < 128 {
// When searching for I or K, we pick out the first byte of the UTF-8
// encoding of the corresponding special case character, and look for it
// in the loop below. For other characters we fall back to 0xff, which
// is not a valid UTF-8 byte.
let target = dubious_to_ascii_lower(search_for as u8);
let special = if target == b'i' {
0xc4u8
} else if target == b'k' {
0xe2u8
} else {
0xffu8
};
// Note: rustc doesn't do great at all on the more idiomatic
// implementation of this (or below), but it does okay for this.
let mut ci = 0;
while ci < search_bytes.len() {
let cur = search_bytes[ci];
if dubious_to_ascii_lower(cur) == target || cur == special {
return Some(ci);
}
ci += 1;
}
} else {
let mut ci = 0;
while ci < search_bytes.len() {
let cur = search_bytes[ci];
if (cur & 0x80) != 0 {
return Some(ci);
}
ci += 1;
}
}
None
}
#[inline(always)]
fn is_ascii_lower_alpha(c: u8) -> bool {
// Equivalent to (but fewer operations than) `b'a' <= c && c <= b'z'`
c.wrapping_sub(b'a') <= (b'z' - b'a')
}
/// port of isOnBoundary from gecko places.
///
/// > Check whether a character position is on a word boundary of a UTF-8 string
/// > (rather than within a word). We define "within word" to be any position
/// > between [a-zA-Z] and [a-z] -- this lets us match CamelCase words.
/// > TODO: support non-latin alphabets.
#[inline(always)]
fn is_on_boundary(text: &str, index: usize) -> bool {
if index == 0 {
return true;
}
let bytes = text.as_bytes();
if is_ascii_lower_alpha(bytes[index]) {
let prev_lower = dubious_to_ascii_lower(bytes[index - 1]);
!is_ascii_lower_alpha(prev_lower)
} else {
true
}
}
/// Returns true if `source` starts with `token` ignoring case.
///
/// Loose port of stringMatch from places, which we've modified to perform more correct case
/// folding (if this turns out to be a perf issue we can always address it then).
#[inline]
fn string_match(token: &str, source: &str) -> bool {
if source.len() < token.len() {
return false;
}
let mut ti = token.chars().default_case_fold();
let mut si = source.chars().default_case_fold();
loop {
match (ti.next(), si.next()) {
(None, _) => return true,
(Some(_), None) => return false,
(Some(x), Some(y)) => {
if x != y {
return false;
}
}
}
}
}
/// This performs single-codepoint case folding. It will do the wrong thing
/// for characters which have lowercase equivalents with multiple characters.
#[inline]
fn char_to_lower_single(c: char) -> char {
c.to_lowercase().next().unwrap()
}
/// Read the next codepoint out of `s` and return it's lowercase variant, and the index of the
/// codepoint after it.
#[inline]
fn next_codepoint_lower(s: &str) -> (char, usize) {
// This is super convoluted, and I wish a more direct way to do it was exposed. (In theory
// this should be more efficient than this implementation is)
let mut indices = s.char_indices();
let (_, next_char) = indices.next().unwrap();
let next_index = indices
.next()
.map(|(index, _)| index)
.unwrap_or_else(|| s.len());
(char_to_lower_single(next_char), next_index)
}
// Port of places `findInString`.
pub fn find_in_string(token: &str, src: &str, only_boundary: bool) -> bool {
// Place's version has this restriction too
assert!(!token.is_empty(), "Don't search for an empty string");
if src.len() < token.len() {
return false;
}
let token_first_char = next_codepoint_lower(token).0;
// The C++ code is a big ol pointer party, and even indexes with negative numbers
// in some places. We aren't quite this depraved, so we just use indices into slices.
//
// There's probably a higher cost to this than usual, and if we had more robust testing
// (fuzzing, even) it might be worth measuring a version of this that avoids more of the
// bounds checks.
let mut cur_offset = 0;
// Scan forward to the next viable candidate (if any).
while let Some(src_idx) = next_search_candidate(&src[cur_offset..], token_first_char) {
if cur_offset + src_idx >= src.len() {
break;
}
cur_offset += src_idx;
let src_cur = &src[cur_offset..];
// Check whether the first character in the token matches the character
// at src_cur. At the same time, get the index of the next character
// in the source.
let (src_next_char, next_offset_in_cur) = next_codepoint_lower(src_cur);
// If it is the first character, and we either don't care about boundaries or
// we're on one, do the more expensive string matching and return true if it hits.
if src_next_char == token_first_char
&& (!only_boundary || is_on_boundary(src, cur_offset))
&& string_match(token, src_cur)
{
return true;
}
cur_offset += next_offset_in_cur;
}
false
}
// Search functions used as function pointers by AutocompleteMatch::Invoke
fn find_anywhere(token: &str, source: &str) -> bool {
assert!(!token.is_empty(), "Don't search for an empty token");
find_in_string(token, source, false)
}
fn find_on_boundary(token: &str, source: &str) -> bool {
assert!(!token.is_empty(), "Don't search for an empty token");
find_in_string(token, source, true)
}
fn find_beginning(token: &str, source: &str) -> bool {
assert!(!token.is_empty(), "Don't search for an empty token");
string_match(token, source)
}
fn find_beginning_case_sensitive(token: &str, source: &str) -> bool {
assert!(!token.is_empty(), "Don't search for an empty token");
source.starts_with(token)
}
// I can't wait for Rust 2018 when lifetime annotations are automatic.
pub struct AutocompleteMatch<'search, 'url, 'title, 'tags> {
pub search_str: &'search str,
pub url_str: &'url str,
pub title_str: &'title str,
pub tags: &'tags str,
pub visit_count: u32,
pub typed: bool,
pub bookmarked: bool,
pub open_page_count: u32,
pub match_behavior: MatchBehavior,
pub search_behavior: SearchBehavior,
}
impl<'search, 'url, 'title, 'tags> AutocompleteMatch<'search, 'url, 'title, 'tags> {
fn get_search_fn(&self) -> fn(&str, &str) -> bool {
match self.match_behavior {
MatchBehavior::Anywhere | MatchBehavior::AnywhereUnmodified => find_anywhere,
MatchBehavior::Beginning => find_beginning,
MatchBehavior::BeginningCaseSensitive => find_beginning_case_sensitive,
_ => find_on_boundary,
}
}
fn fixup_url_str<'a>(&self, mut s: &'a str) -> Cow<'a, str> {
if self.match_behavior != MatchBehavior::AnywhereUnmodified {
if s.starts_with("http://") {
s = &s[7..];
} else if s.starts_with("https://") {
s = &s[8..];
} else if s.starts_with("ftp://") {
s = &s[6..];
}
}
// Bail out early if we don't need to percent decode. It's a
// little weird that it's measurably faster to check this
// separately, but whatever.
if memchr::memchr(b'%', s.as_bytes()).is_none() {
return Cow::Borrowed(s);
}
// TODO: would be nice to decode punycode here too, but for now
// this is probably fine.
match percent_encoding::percent_decode(s.as_bytes()).decode_utf8() {
Err(_) => Cow::Borrowed(s),
Ok(decoded) => decoded,
}
}
#[inline]
fn has_behavior(&self, behavior: SearchBehavior) -> bool {
self.search_behavior.intersects(behavior)
}
pub fn invoke(&self) -> bool {
// We only want to filter javascript: URLs if we are not supposed to search
// for them, and the search does not start with "javascript:".
if self.match_behavior == MatchBehavior::AnywhereUnmodified
&& self.url_str.starts_with("javascript:")
&& !self.has_behavior(SearchBehavior::JAVASCRIPT)
&& !self.search_str.starts_with("javascript:")
{
return false;
}
let matches = if self.has_behavior(SearchBehavior::RESTRICT) {
(!self.has_behavior(SearchBehavior::HISTORY) || self.visit_count > 0)
&& (!self.has_behavior(SearchBehavior::TYPED) || self.typed)
&& (!self.has_behavior(SearchBehavior::BOOKMARK) || self.bookmarked)
&& (!self.has_behavior(SearchBehavior::TAG) || !self.tags.is_empty())
&& (!self.has_behavior(SearchBehavior::OPENPAGE) || self.open_page_count > 0)
} else {
(self.has_behavior(SearchBehavior::HISTORY) && self.visit_count > 0)
|| (self.has_behavior(SearchBehavior::TYPED) && self.typed)
|| (self.has_behavior(SearchBehavior::BOOKMARK) && self.bookmarked)
|| (self.has_behavior(SearchBehavior::TAG) && !self.tags.is_empty())
|| (self.has_behavior(SearchBehavior::OPENPAGE) && self.open_page_count > 0)
};
if !matches {
return false;
}
let fixed_url = self.fixup_url_str(self.url_str);
let search_fn = self.get_search_fn();
let trimmed_url = util::slice_up_to(fixed_url.as_ref(), MAX_CHARS_TO_SEARCH_THROUGH);
let trimmed_title = util::slice_up_to(self.title_str, MAX_CHARS_TO_SEARCH_THROUGH);
for token in self.search_str.split_ascii_whitespace() {
let matches = match (
self.has_behavior(SearchBehavior::TITLE),
self.has_behavior(SearchBehavior::URL),
) {
(true, true) => {
(search_fn(token, trimmed_title) || search_fn(token, self.tags))
&& search_fn(token, trimmed_url)
}
(true, false) => search_fn(token, trimmed_title) || search_fn(token, self.tags),
(false, true) => search_fn(token, trimmed_url),
(false, false) => {
search_fn(token, trimmed_url)
|| search_fn(token, trimmed_title)
|| search_fn(token, self.tags)
}
};
if !matches {
return false;
}
}
true
}
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn test_is_ascii_lower_alpha() {
// just check exhaustively
for c in 0u8..=255u8 {
assert_eq!(
is_ascii_lower_alpha(c),
c.is_ascii_lowercase(),
"is_lower_ascii_alpha is wrong for {}",
c
);
}
}
// Test the various dubious things this code assumes about unicode / ascii text
// in the name of performance. This is mostly a port of the test_casing gtests in places
#[test]
fn test_casing_assumptions() {
use std::char;
// Verify the assertion in next_search_candidate that the
// only non-ASCII characters that lower-case to ASCII ones are:
// * U+0130 LATIN CAPITAL LETTER I WITH DOT ABOVE
// * U+212A KELVIN SIGN
//
// It also checks that U+0130 is the only single codepoint that lower cases
// to multiple characters.
for c in 128..0x11_0000 {
if let Some(ch) = char::from_u32(c) {
// Not quite the same (because codepoints aren't characters), but
// should serve the same purpose.
let mut li = ch.to_lowercase();
let lc = li.next().unwrap();
if c != 304 && c != 8490 {
assert!(
(lc as u32) >= 128,
"Lower case of non-ascii '{}' ({}) was unexpectedly ascii",
ch,
c
);
// This one we added (it's an implicit assumption in the utilities the
// places code uses).
assert!(
li.next().is_none(),
"Lower case of '{}' ({}) produced multiple codepoints unexpectedly",
ch,
c
);
} else {
assert!(
(lc as u32) < 128,
"Lower case of non-ascii '{}' ({}) was unexpectedly not ascii",
ch,
c
);
}
}
}
// Verify the assertion that all ASCII characters lower-case to ASCII.
for c in 0..128 {
let ch = char::from_u32(c).unwrap();
let mut li = ch.to_lowercase();
let lc = li.next().unwrap();
assert!(
li.next().is_none() && (lc as u32) < 128,
"Lower case of ascii '{}' ({}) wasn't ascii :(",
ch,
c
);
}
for c in (b'a'..=b'z').chain(b'A'..=b'Z') {
assert_eq!(
dubious_to_ascii_lower(c),
c.to_ascii_lowercase(),
"c: '{}'",
c as char
);
}
}
}