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// Copyright (c) 2019, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
import 'dart:io' show File, stdin, stdout;
import "utils/io_utils.dart";
final Uri repoDir = computeRepoDirUri();
enum Dictionaries {
common,
cfeMessages,
cfeCode,
cfeTests,
// The denylist is special and is always loaded!
denylist,
}
Map<Dictionaries, Set<String>>? loadedDictionaries;
SpellingResult spellcheckString(String s,
{List<Dictionaries>? dictionaries, bool splitAsCode: false}) {
dictionaries ??= const [Dictionaries.common];
ensureDictionariesLoaded(dictionaries);
List<String>? wrongWords;
List<List<String>?>? wrongWordsAlternatives;
List<int>? wrongWordsOffset;
List<bool>? wrongWordDenylisted;
List<int> wordOffsets = <int>[];
List<String> words =
splitStringIntoWords(s, wordOffsets, splitAsCode: splitAsCode);
List<Set<String>> dictionariesUnpacked = [];
for (int j = 0; j < dictionaries.length; j++) {
Dictionaries dictionaryType = dictionaries[j];
if (dictionaryType == Dictionaries.denylist) continue;
Set<String> dictionary = loadedDictionaries![dictionaryType]!;
dictionariesUnpacked.add(dictionary);
}
for (int i = 0; i < words.length; i++) {
String word = words[i].toLowerCase();
int offset = wordOffsets[i];
bool found = false;
for (int j = 0; j < dictionariesUnpacked.length; j++) {
Set<String> dictionary = dictionariesUnpacked[j];
if (dictionary.contains(word)) {
found = true;
break;
}
}
if (!found) {
wrongWords ??= [];
wrongWords.add(word);
wrongWordsAlternatives ??= [];
wrongWordsAlternatives.add(findAlternatives(word, dictionariesUnpacked));
wrongWordsOffset ??= [];
wrongWordsOffset.add(offset);
wrongWordDenylisted ??= [];
wrongWordDenylisted
.add(loadedDictionaries![Dictionaries.denylist]!.contains(word));
}
}
return new SpellingResult(wrongWords, wrongWordsOffset, wrongWordDenylisted,
wrongWordsAlternatives);
}
List<String>? findAlternatives(String word, List<Set<String>> dictionaries) {
List<String>? result;
bool check(String w) {
for (int j = 0; j < dictionaries.length; j++) {
Set<String> dictionary = dictionaries[j];
if (dictionary.contains(w)) return true;
}
return false;
}
void ok(String w) {
(result ??= <String>[]).add(w);
}
// Delete a letter, insert a letter or change a letter and lookup.
for (int i = 0; i < word.length; i++) {
String before = word.substring(0, i);
String after = word.substring(i + 1);
String afterIncluding = word.substring(i);
{
String deletedLetter = before + after;
if (check(deletedLetter)) ok(deletedLetter);
}
for (int j = 0; j < 25; j++) {
String c = new String.fromCharCode(97 + j);
String insertedLetter = before + c + afterIncluding;
if (check(insertedLetter)) ok(insertedLetter);
}
for (int j = 0; j < 25; j++) {
String c = new String.fromCharCode(97 + j);
String replacedLetter = before + c + after;
if (check(replacedLetter)) ok(replacedLetter);
}
}
return result;
}
class SpellingResult {
final List<String>? misspelledWords;
final List<int>? misspelledWordsOffset;
final List<bool>? misspelledWordsDenylisted;
final List<List<String>?>? misspelledWordsAlternatives;
SpellingResult(this.misspelledWords, this.misspelledWordsOffset,
this.misspelledWordsDenylisted, this.misspelledWordsAlternatives);
}
void ensureDictionariesLoaded(List<Dictionaries> dictionaries) {
void addWords(Uri uri, Set<String> dictionary) {
for (String word in File.fromUri(uri)
.readAsStringSync()
.split("\n")
.map((s) => s.toLowerCase())) {
if (word.startsWith("#")) continue;
int indexOfHash = word.indexOf(" #");
if (indexOfHash >= 0) {
// Strip out comment.
word = word.substring(0, indexOfHash).trim();
}
if (word == "") continue;
if (word.contains(" ")) throw "'$word' contains spaces";
dictionary.add(word);
}
}
loadedDictionaries ??= new Map<Dictionaries, Set<String>>();
// Ensure the denylist is loaded.
Set<String>? denylistDictionary = loadedDictionaries![Dictionaries.denylist];
if (denylistDictionary == null) {
denylistDictionary = new Set<String>();
loadedDictionaries![Dictionaries.denylist] = denylistDictionary;
addWords(dictionaryToUri(Dictionaries.denylist), denylistDictionary);
}
for (int j = 0; j < dictionaries.length; j++) {
Dictionaries dictionaryType = dictionaries[j];
Set<String>? dictionary = loadedDictionaries![dictionaryType];
if (dictionary == null) {
dictionary = new Set<String>();
loadedDictionaries![dictionaryType] = dictionary;
addWords(dictionaryToUri(dictionaryType), dictionary);
// Check that no good words occur in the denylist.
for (String s in dictionary) {
if (denylistDictionary.contains(s)) {
throw "Word '$s' in dictionary $dictionaryType "
"is also in the denylist.";
}
}
}
}
}
Uri dictionaryToUri(Dictionaries dictionaryType) {
switch (dictionaryType) {
case Dictionaries.common:
return repoDir
.resolve("pkg/front_end/test/spell_checking_list_common.txt");
case Dictionaries.cfeMessages:
return repoDir
.resolve("pkg/front_end/test/spell_checking_list_messages.txt");
case Dictionaries.cfeCode:
return repoDir.resolve("pkg/front_end/test/spell_checking_list_code.txt");
case Dictionaries.cfeTests:
return repoDir
.resolve("pkg/front_end/test/spell_checking_list_tests.txt");
case Dictionaries.denylist:
return repoDir
.resolve("pkg/front_end/test/spell_checking_list_denylist.txt");
}
}
List<String> splitStringIntoWords(String s, List<int> splitOffsets,
{bool splitAsCode: false}) {
List<String> result = <String>[];
// Match whitespace and the characters "-", "=", "|", "/", ",".
String regExpStringInner = r"\s-=\|\/,";
if (splitAsCode) {
// If splitting as code also split by "_", ":", ".", "(", ")", "<", ">",
// "[", "]", "{", "}", "@", "&", "#", "?", "%", "`".
// (As well as doing stuff to camel casing further below).
regExpStringInner = "${regExpStringInner}_:\\.\\(\\)<>\\[\\]\{\}@&#\\?%`";
}
// Match one or more of the characters specified above.
String regExp = "[$regExpStringInner]+";
if (splitAsCode) {
// If splitting as code we also want to remove the two characters "\n".
regExp = "([$regExpStringInner]|(\\\\n))+";
}
Iterator<RegExpMatch> matchesIterator =
new RegExp(regExp).allMatches(s).iterator;
int latestMatch = 0;
List<String> split = <String>[];
List<int> splitOffset = <int>[];
while (matchesIterator.moveNext()) {
RegExpMatch match = matchesIterator.current;
if (match.start > latestMatch) {
split.add(s.substring(latestMatch, match.start));
splitOffset.add(latestMatch);
}
latestMatch = match.end;
}
if (s.length > latestMatch) {
split.add(s.substring(latestMatch, s.length));
splitOffset.add(latestMatch);
}
for (int i = 0; i < split.length; i++) {
String word = split[i];
int offset = splitOffset[i];
if (word.isEmpty) continue;
int start = 0;
int end = word.length;
bool changedStart = false;
while (start < end) {
int unit = word.codeUnitAt(start);
if (unit >= 65 && unit <= 90) {
// A-Z => Good.
break;
} else if (unit >= 97 && unit <= 122) {
// a-z => Good.
break;
} else {
changedStart = true;
start++;
}
}
bool changedEnd = false;
while (end > start) {
int unit = word.codeUnitAt(end - 1);
if (unit >= 65 && unit <= 90) {
// A-Z => Good.
break;
} else if (unit >= 97 && unit <= 122) {
// a-z => Good.
break;
} else {
changedEnd = true;
end--;
}
}
if (changedEnd && word.codeUnitAt(end) == 41) {
// Special case trimmed ')' if there's a '(' inside the string.
for (int i = start; i < end; i++) {
if (word.codeUnitAt(i) == 40) {
end++;
break;
}
}
}
if (start == end) continue;
if (splitAsCode) {
bool prevCapitalized = false;
for (int i = start; i < end; i++) {
bool thisCapitalized = false;
int unit = word.codeUnitAt(i);
if (unit >= 65 && unit <= 90) {
thisCapitalized = true;
} else if (unit >= 48 && unit <= 57) {
// Number inside --- allow that.
continue;
}
if (prevCapitalized && thisCapitalized) {
// Sort-of-weird thing, something like "thisIsTheCNN". Carry on.
// Except if the previous was an 'A' and that both the previous
// (before that) and the next (if any) is not capitalized, i.e.
// we special-case the case of 'A' as in 'AWord' being 'a word'.
int prevUnit = word.codeUnitAt(i - 1);
if (prevUnit == 65) {
bool doSpecialCase = true;
if (i + 1 < end) {
int nextUnit = word.codeUnitAt(i + 1);
if (nextUnit >= 65 && nextUnit <= 90) {
// Next is capitalized too.
doSpecialCase = false;
}
}
if (i - 2 >= start) {
int prevPrevUnit = word.codeUnitAt(i - 2);
if (prevPrevUnit >= 65 && prevPrevUnit <= 90) {
// Prev-prev was capitalized too.
doSpecialCase = false;
}
}
if (doSpecialCase) {
result.add(word.substring(start, i));
splitOffsets.add(offset + start);
start = i;
}
}
// And the case where the next one is not capitalized --- we must
// assume that "TheCNNAlso" should be "The", "CNN", "Also".
if (start < i && i + 1 < end) {
int nextUnit = word.codeUnitAt(i + 1);
if (nextUnit >= 97 && nextUnit <= 122) {
// Next is not capitalized.
result.add(word.substring(start, i));
splitOffsets.add(offset + start);
start = i;
}
}
} else if (!prevCapitalized && thisCapitalized) {
// Starting a new camel case word.
if (i > start) {
result.add(word.substring(start, i));
splitOffsets.add(offset + start);
start = i;
}
} else if (prevCapitalized && !thisCapitalized) {
// This should have been handled above.
} else if (!prevCapitalized && !thisCapitalized) {
// Continued word.
}
if (i + 1 == end) {
// End of string.
if (i >= start) {
result.add(word.substring(start, end));
splitOffsets.add(offset + start);
}
}
prevCapitalized = thisCapitalized;
}
} else {
result.add(
(changedStart || changedEnd) ? word.substring(start, end) : word);
splitOffsets.add(offset + start);
}
}
return result;
}
void spellSummarizeAndInteractiveMode(
Set<String> reportedWords,
Set<String> reportedWordsDenylisted,
List<Dictionaries> dictionaries,
bool interactive,
String interactiveLaunchExample) {
if (reportedWordsDenylisted.isNotEmpty) {
print("\n\n\n");
print("================");
print("The following words was reported as used and denylisted:");
print("----------------");
for (String s in reportedWordsDenylisted) {
print("$s");
}
print("================");
}
if (reportedWords.isNotEmpty) {
print("\n\n\n");
print("================");
print("The following word(s) were reported as unknown:");
print("----------------");
Dictionaries? dictionaryToUse;
if (dictionaries.contains(Dictionaries.cfeTests)) {
dictionaryToUse = Dictionaries.cfeTests;
} else if (dictionaries.contains(Dictionaries.cfeMessages)) {
dictionaryToUse = Dictionaries.cfeMessages;
} else if (dictionaries.contains(Dictionaries.cfeCode)) {
dictionaryToUse = Dictionaries.cfeCode;
} else {
for (Dictionaries dictionary in dictionaries) {
if (dictionaryToUse == null ||
dictionary.index < dictionaryToUse.index) {
dictionaryToUse = dictionary;
}
}
}
if (interactive && dictionaryToUse != null) {
List<String> addedWords = <String>[];
for (String s in reportedWords) {
print("- $s");
String answer;
bool? add;
while (true) {
stdout.write("Do you want to add the word to the dictionary "
"$dictionaryToUse (y/n)? ");
answer = stdin.readLineSync()!.trim().toLowerCase();
switch (answer) {
case "y":
case "yes":
case "true":
add = true;
break;
case "n":
case "no":
case "false":
add = false;
break;
default:
add = null;
print("'$answer' is not a valid answer. Please try again.");
break;
}
if (add != null) break;
}
if (add) {
addedWords.add(s);
}
}
if (addedWords.isNotEmpty) {
File dictionaryFile =
new File.fromUri(dictionaryToUri(dictionaryToUse));
List<String> lines = dictionaryFile.readAsLinesSync();
List<String> header = <String>[];
List<String> sortThis = <String>[];
for (String line in lines) {
if (line.startsWith("#")) {
header.add(line);
} else if (line.trim().isEmpty && sortThis.isEmpty) {
header.add(line);
} else if (line.trim().isNotEmpty) {
sortThis.add(line);
}
}
sortThis.addAll(addedWords);
sortThis.sort();
lines = <String>[];
lines.addAll(header);
if (header.isEmpty || header.last.isNotEmpty) {
lines.add("");
}
lines.addAll(sortThis);
lines.add("");
dictionaryFile.writeAsStringSync(lines.join("\n"));
}
} else {
for (String s in reportedWords) {
print("$s");
}
if (dictionaries.isNotEmpty) {
print("----------------");
print("If the word(s) are correctly spelled please add it to one of "
"these files:");
for (Dictionaries dictionary in dictionaries) {
print(" - ${dictionaryToUri(dictionary)}");
}
print("");
print("To add words easily, try to run this script in interactive "
"mode via the command");
print(interactiveLaunchExample);
}
}
print("================");
}
}