// Copyright (c) 2014 GitHub, Inc. // Use of this source code is governed by the MIT license that can be // found in the LICENSE file. #include "atom/renderer/api/atom_api_spell_check_client.h" #include #include #include "atom/common/native_mate_converters/string16_converter.h" #include "base/logging.h" #include "base/threading/thread_task_runner_handle.h" #include "components/spellcheck/renderer/spellcheck_worditerator.h" #include "native_mate/converter.h" #include "native_mate/dictionary.h" #include "native_mate/function_template.h" #include "third_party/blink/public/web/web_text_checking_completion.h" #include "third_party/blink/public/web/web_text_checking_result.h" #include "third_party/icu/source/common/unicode/uscript.h" namespace atom { namespace api { namespace { bool HasWordCharacters(const base::string16& text, int index) { const base::char16* data = text.data(); int length = text.length(); while (index < length) { uint32_t code = 0; U16_NEXT(data, index, length, code); UErrorCode error = U_ZERO_ERROR; if (uscript_getScript(code, &error) != USCRIPT_COMMON) return true; } return false; } } // namespace class SpellCheckClient::SpellcheckRequest { public: // Map of individual words to list of occurrences in text using WordMap = std::map>; SpellcheckRequest(const base::string16& text, blink::WebTextCheckingCompletion* completion) : text_(text), completion_(completion) { DCHECK(completion); } ~SpellcheckRequest() {} const base::string16& text() const { return text_; } blink::WebTextCheckingCompletion* completion() { return completion_; } WordMap& wordmap() { return word_map_; } private: base::string16 text_; // Text to be checked in this task. WordMap word_map_; // WordMap to hold distinct words in text // The interface to send the misspelled ranges to WebKit. blink::WebTextCheckingCompletion* completion_; DISALLOW_COPY_AND_ASSIGN(SpellcheckRequest); }; SpellCheckClient::SpellCheckClient(const std::string& language, v8::Isolate* isolate, v8::Local provider) : pending_request_param_(nullptr), isolate_(isolate), context_(isolate, isolate->GetCurrentContext()), provider_(isolate, provider) { DCHECK(!context_.IsEmpty()); character_attributes_.SetDefaultLanguage(language); // Persistent the method. mate::Dictionary dict(isolate, provider); dict.Get("spellCheck", &spell_check_); } SpellCheckClient::~SpellCheckClient() { context_.Reset(); } void SpellCheckClient::RequestCheckingOfText( const blink::WebString& textToCheck, blink::WebTextCheckingCompletion* completionCallback) { base::string16 text(textToCheck.Utf16()); // Ignore invalid requests. if (text.empty() || !HasWordCharacters(text, 0)) { completionCallback->DidCancelCheckingText(); return; } // Clean up the previous request before starting a new request. if (pending_request_param_) { pending_request_param_->completion()->DidCancelCheckingText(); } pending_request_param_.reset(new SpellcheckRequest(text, completionCallback)); base::ThreadTaskRunnerHandle::Get()->PostTask( FROM_HERE, base::BindOnce(&SpellCheckClient::SpellCheckText, AsWeakPtr())); } bool SpellCheckClient::IsSpellCheckingEnabled() const { return true; } void SpellCheckClient::ShowSpellingUI(bool show) {} bool SpellCheckClient::IsShowingSpellingUI() { return false; } void SpellCheckClient::UpdateSpellingUIWithMisspelledWord( const blink::WebString& word) {} void SpellCheckClient::SpellCheckText() { const auto& text = pending_request_param_->text(); if (text.empty() || spell_check_.IsEmpty()) { pending_request_param_->completion()->DidCancelCheckingText(); pending_request_param_ = nullptr; return; } if (!text_iterator_.IsInitialized() && !text_iterator_.Initialize(&character_attributes_, true)) { // We failed to initialize text_iterator_, return as spelled correctly. VLOG(1) << "Failed to initialize SpellcheckWordIterator"; return; } if (!contraction_iterator_.IsInitialized() && !contraction_iterator_.Initialize(&character_attributes_, false)) { // We failed to initialize the word iterator, return as spelled correctly. VLOG(1) << "Failed to initialize contraction_iterator_"; return; } text_iterator_.SetText(text.c_str(), text.size()); SpellCheckScope scope(*this); base::string16 word; std::vector words; auto& word_map = pending_request_param_->wordmap(); blink::WebTextCheckingResult result; for (;;) { // Run until end of text const auto status = text_iterator_.GetNextWord(&word, &result.location, &result.length); if (status == SpellcheckWordIterator::IS_END_OF_TEXT) break; if (status == SpellcheckWordIterator::IS_SKIPPABLE) continue; // If the given word is a concatenated word of two or more valid words // (e.g. "hello:hello"), we should treat it as a valid word. std::vector contraction_words; if (!IsContraction(scope, word, &contraction_words)) { words.push_back(word); word_map[word].push_back(result); } else { // For a contraction, we want check the spellings of each individual // part, but mark the entire word incorrect if any part is misspelled // Hence, we use the same word_start and word_length values for every // part of the contraction. for (const auto& w : contraction_words) { words.push_back(w); word_map[w].push_back(result); } } } // Send out all the words data to the spellchecker to check SpellCheckWords(scope, words); } void SpellCheckClient::OnSpellCheckDone( const std::vector& misspelled_words) { std::vector results; auto* const completion_handler = pending_request_param_->completion(); auto& word_map = pending_request_param_->wordmap(); // Take each word from the list of misspelled words received, find their // corresponding WebTextCheckingResult that's stored in the map and pass // all the results to blink through the completion callback. for (const auto& word : misspelled_words) { auto iter = word_map.find(word); if (iter != word_map.end()) { // Word found in map, now gather all the occurrences of the word // from the map value auto& words = iter->second; results.insert(results.end(), words.begin(), words.end()); words.clear(); } } completion_handler->DidFinishCheckingText(results); pending_request_param_ = nullptr; } void SpellCheckClient::SpellCheckWords( const SpellCheckScope& scope, const std::vector& words) { DCHECK(!scope.spell_check_.IsEmpty()); v8::Local templ = mate::CreateFunctionTemplate( isolate_, base::Bind(&SpellCheckClient::OnSpellCheckDone, AsWeakPtr())); auto context = isolate_->GetCurrentContext(); v8::Local args[] = {mate::ConvertToV8(isolate_, words), templ->GetFunction(context).ToLocalChecked()}; // Call javascript with the words and the callback function scope.spell_check_->Call(context, scope.provider_, 2, args).ToLocalChecked(); } // Returns whether or not the given string is a contraction. // This function is a fall-back when the SpellcheckWordIterator class // returns a concatenated word which is not in the selected dictionary // (e.g. "in'n'out") but each word is valid. // Output variable contraction_words will contain individual // words in the contraction. bool SpellCheckClient::IsContraction( const SpellCheckScope& scope, const base::string16& contraction, std::vector* contraction_words) { DCHECK(contraction_iterator_.IsInitialized()); contraction_iterator_.SetText(contraction.c_str(), contraction.length()); base::string16 word; int word_start; int word_length; for (auto status = contraction_iterator_.GetNextWord(&word, &word_start, &word_length); status != SpellcheckWordIterator::IS_END_OF_TEXT; status = contraction_iterator_.GetNextWord(&word, &word_start, &word_length)) { if (status == SpellcheckWordIterator::IS_SKIPPABLE) continue; contraction_words->push_back(word); } return contraction_words->size() > 1; } SpellCheckClient::SpellCheckScope::SpellCheckScope( const SpellCheckClient& client) : handle_scope_(client.isolate_), context_scope_( v8::Local::New(client.isolate_, client.context_)), provider_(client.provider_.NewHandle()), spell_check_(client.spell_check_.NewHandle()) {} SpellCheckClient::SpellCheckScope::~SpellCheckScope() = default; } // namespace api } // namespace atom