content/shell/test_runner/mock_spell_check.cc - chromium/src - Git at Google

 // Copyright 2014 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "content/shell/test_runner/mock_spell_check.h"

 #include <stddef.h>

 #include <algorithm>

 #include "base/logging.h"
 #include "base/stl_util.h"
 #include "content/shell/test_runner/test_common.h"

 namespace test_runner {

 namespace {

 void Append(blink::WebVector<blink::WebString>* data,
             const blink::WebString& item) {
   blink::WebVector<blink::WebString> result(data->size() + 1);
   for (size_t i = 0; i < data->size(); ++i)
     result[i] = (*data)[i];
   result[data->size()] = item;
   data->Swap(result);
 }

 }  // namespace

 MockSpellCheck::MockSpellCheck() : initialized_(false) {}

 MockSpellCheck::~MockSpellCheck() {}

 bool MockSpellCheck::SpellCheckWord(const blink::WebString& text,
                                     int* misspelled_offset,
                                     int* misspelled_length) {
   DCHECK(misspelled_offset);
   DCHECK(misspelled_length);

   // Initialize this spellchecker.
   InitializeIfNeeded();

   // Reset the result values as our spellchecker does.
   *misspelled_offset = 0;
   *misspelled_length = 0;

   // Convert to a base::string16 because we store base::string16 instances in
   // misspelled_words_ and blink::WebString has no find().
   base::string16 string_text = text.Utf16();
   int skipped_length = 0;

   while (!string_text.empty()) {
     // Extract the first possible English word from the given string.
     // The given string may include non-ASCII characters or numbers. So, we
     // should filter out such characters before start looking up our
     // misspelled-word table.
     // (This is a simple version of our SpellCheckWordIterator class.)
     // If the given string doesn't include any ASCII characters, we can treat
     // the string as valid one.
     base::string16::iterator first_char =
         std::find_if(string_text.begin(), string_text.end(), IsASCIIAlpha);
     if (first_char == string_text.end())
       return true;
     int word_offset = std::distance(string_text.begin(), first_char);
     int max_word_length = static_cast<int>(string_text.length()) - word_offset;
     int word_length;
     base::string16 word;

     // Look up our misspelled-word table to check if the extracted word is a
     // known misspelled word, and return the offset and the length of the
     // extracted word if this word is a known misspelled word.
     // (See the comment in MockSpellCheck::InitializeIfNeeded() why we use a
     // misspelled-word table.)
     for (size_t i = 0; i < misspelled_words_.size(); ++i) {
       word_length =
           static_cast<int>(misspelled_words_.at(i).length()) > max_word_length
               ? max_word_length
               : static_cast<int>(misspelled_words_.at(i).length());
       word = string_text.substr(word_offset, word_length);
       if (word == misspelled_words_.at(i) &&
           (static_cast<int>(string_text.length()) ==
                word_offset + word_length ||
            IsNotASCIIAlpha(string_text[word_offset + word_length]))) {
         *misspelled_offset = word_offset + skipped_length;
         *misspelled_length = word_length;
         break;
       }
     }

     if (*misspelled_length > 0)
       break;

     base::string16::iterator last_char = std::find_if(
         string_text.begin() + word_offset, string_text.end(), IsNotASCIIAlpha);
     if (last_char == string_text.end())
       word_length = static_cast<int>(string_text.length()) - word_offset;
     else
       word_length = std::distance(first_char, last_char);

     DCHECK_LT(0, word_offset + word_length);
     string_text = string_text.substr(word_offset + word_length);
     skipped_length += word_offset + word_length;
   }

   return false;
 }

 bool MockSpellCheck::HasInCache(const blink::WebString& word) {
   return word == "Spell wellcome. Is it broken?" ||
          word == "Spell wellcome.\x007F";
 }

 bool MockSpellCheck::IsMultiWordMisspelling(
     const blink::WebString& text,
     std::vector<blink::WebTextCheckingResult>* results) {
   if (text == "Helllo wordl.") {
     results->push_back(blink::WebTextCheckingResult(
         blink::kWebTextDecorationTypeSpelling, 0, 6,
         std::vector<blink::WebString>({"Hello"})));
     results->push_back(blink::WebTextCheckingResult(
         blink::kWebTextDecorationTypeSpelling, 7, 5,
         std::vector<blink::WebString>({"world"})));
     return true;
   }
   return false;
 }

 void MockSpellCheck::FillSuggestionList(
     const blink::WebString& word,
     blink::WebVector<blink::WebString>* suggestions) {
   if (word == "wellcome")
     Append(suggestions, blink::WebString::FromUTF8("welcome"));
   else if (word == "upper case")
     Append(suggestions, blink::WebString::FromUTF8("uppercase"));
   else if (word == "Helllo")
     Append(suggestions, blink::WebString::FromUTF8("Hello"));
   else if (word == "wordl")
     Append(suggestions, blink::WebString::FromUTF8("world"));
 }

 bool MockSpellCheck::InitializeIfNeeded() {
   // Exit if we have already initialized this object.
   if (initialized_)
     return false;

   // Create a table that consists of misspelled words used in Blink web tests.
   // Since Blink web tests don't have so many misspelled words as
   // well-spelled words, it is easier to compare the given word with misspelled
   // ones than to compare with well-spelled ones.
   static const char* misspelled_words[] = {
       // These words are known misspelled words in webkit tests.
       // If there are other misspelled words in webkit tests, please add them in
       // this array.
       "foo", "Foo", "baz", "fo", "LibertyF", "chello", "xxxtestxxx", "XXxxx",
       "Textx", "blockquoted", "asd", "Lorem", "Nunc", "Curabitur", "eu", "adlj",
       "adaasj", "sdklj", "jlkds", "jsaada", "jlda", "zz", "contentEditable",
       // The following words are used by unit tests.
       "ifmmp", "qwertyuiopasd", "qwertyuiopasdf", "upper case", "wellcome"};

   misspelled_words_.clear();
   for (size_t i = 0; i < base::size(misspelled_words); ++i)
     misspelled_words_.push_back(
         base::string16(misspelled_words[i],
                        misspelled_words[i] + strlen(misspelled_words[i])));

   // Mark as initialized to prevent this object from being initialized twice
   // or more.
   initialized_ = true;

   // Since this MockSpellCheck class doesn't download dictionaries, this
   // function always returns false.
   return false;
 }

 }  // namespace test_runner
	// Copyright 2014 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "content/shell/test_runner/mock_spell_check.h"

	#include <stddef.h>

	#include <algorithm>

	#include "base/logging.h"
	#include "base/stl_util.h"
	#include "content/shell/test_runner/test_common.h"

	namespace test_runner {

	namespace {

	void Append(blink::WebVector<blink::WebString>* data,
	const blink::WebString& item) {
	blink::WebVector<blink::WebString> result(data->size() + 1);
	for (size_t i = 0; i < data->size(); ++i)
	result[i] = (*data)[i];
	result[data->size()] = item;
	data->Swap(result);
	}

	} // namespace

	MockSpellCheck::MockSpellCheck() : initialized_(false) {}

	MockSpellCheck::~MockSpellCheck() {}

	bool MockSpellCheck::SpellCheckWord(const blink::WebString& text,
	int* misspelled_offset,
	int* misspelled_length) {
	DCHECK(misspelled_offset);
	DCHECK(misspelled_length);

	// Initialize this spellchecker.
	InitializeIfNeeded();

	// Reset the result values as our spellchecker does.
	*misspelled_offset = 0;
	*misspelled_length = 0;

	// Convert to a base::string16 because we store base::string16 instances in
	// misspelled_words_ and blink::WebString has no find().
	base::string16 string_text = text.Utf16();
	int skipped_length = 0;

	while (!string_text.empty()) {
	// Extract the first possible English word from the given string.
	// The given string may include non-ASCII characters or numbers. So, we
	// should filter out such characters before start looking up our
	// misspelled-word table.
	// (This is a simple version of our SpellCheckWordIterator class.)
	// If the given string doesn't include any ASCII characters, we can treat
	// the string as valid one.
	base::string16::iterator first_char =
	std::find_if(string_text.begin(), string_text.end(), IsASCIIAlpha);
	if (first_char == string_text.end())
	return true;
	int word_offset = std::distance(string_text.begin(), first_char);
	int max_word_length = static_cast<int>(string_text.length()) - word_offset;
	int word_length;
	base::string16 word;

	// Look up our misspelled-word table to check if the extracted word is a
	// known misspelled word, and return the offset and the length of the
	// extracted word if this word is a known misspelled word.
	// (See the comment in MockSpellCheck::InitializeIfNeeded() why we use a
	// misspelled-word table.)
	for (size_t i = 0; i < misspelled_words_.size(); ++i) {
	word_length =
	static_cast<int>(misspelled_words_.at(i).length()) > max_word_length
	? max_word_length
	: static_cast<int>(misspelled_words_.at(i).length());
	word = string_text.substr(word_offset, word_length);
	if (word == misspelled_words_.at(i) &&
	(static_cast<int>(string_text.length()) ==
	word_offset + word_length \|\|
	IsNotASCIIAlpha(string_text[word_offset + word_length]))) {
	*misspelled_offset = word_offset + skipped_length;
	*misspelled_length = word_length;
	break;
	}
	}

	if (*misspelled_length > 0)
	break;

	base::string16::iterator last_char = std::find_if(
	string_text.begin() + word_offset, string_text.end(), IsNotASCIIAlpha);
	if (last_char == string_text.end())
	word_length = static_cast<int>(string_text.length()) - word_offset;
	else
	word_length = std::distance(first_char, last_char);

	DCHECK_LT(0, word_offset + word_length);
	string_text = string_text.substr(word_offset + word_length);
	skipped_length += word_offset + word_length;
	}

	return false;
	}

	bool MockSpellCheck::HasInCache(const blink::WebString& word) {
	return word == "Spell wellcome. Is it broken?" \|\|
	word == "Spell wellcome.\x007F";
	}

	bool MockSpellCheck::IsMultiWordMisspelling(
	const blink::WebString& text,
	std::vector<blink::WebTextCheckingResult>* results) {
	if (text == "Helllo wordl.") {
	results->push_back(blink::WebTextCheckingResult(
	blink::kWebTextDecorationTypeSpelling, 0, 6,
	std::vector<blink::WebString>({"Hello"})));
	results->push_back(blink::WebTextCheckingResult(
	blink::kWebTextDecorationTypeSpelling, 7, 5,
	std::vector<blink::WebString>({"world"})));
	return true;
	}
	return false;
	}

	void MockSpellCheck::FillSuggestionList(
	const blink::WebString& word,
	blink::WebVector<blink::WebString>* suggestions) {
	if (word == "wellcome")
	Append(suggestions, blink::WebString::FromUTF8("welcome"));
	else if (word == "upper case")
	Append(suggestions, blink::WebString::FromUTF8("uppercase"));
	else if (word == "Helllo")
	Append(suggestions, blink::WebString::FromUTF8("Hello"));
	else if (word == "wordl")
	Append(suggestions, blink::WebString::FromUTF8("world"));
	}

	bool MockSpellCheck::InitializeIfNeeded() {
	// Exit if we have already initialized this object.
	if (initialized_)
	return false;

	// Create a table that consists of misspelled words used in Blink web tests.
	// Since Blink web tests don't have so many misspelled words as
	// well-spelled words, it is easier to compare the given word with misspelled
	// ones than to compare with well-spelled ones.
	static const char* misspelled_words[] = {
	// These words are known misspelled words in webkit tests.
	// If there are other misspelled words in webkit tests, please add them in
	// this array.
	"foo", "Foo", "baz", "fo", "LibertyF", "chello", "xxxtestxxx", "XXxxx",
	"Textx", "blockquoted", "asd", "Lorem", "Nunc", "Curabitur", "eu", "adlj",
	"adaasj", "sdklj", "jlkds", "jsaada", "jlda", "zz", "contentEditable",
	// The following words are used by unit tests.
	"ifmmp", "qwertyuiopasd", "qwertyuiopasdf", "upper case", "wellcome"};

	misspelled_words_.clear();
	for (size_t i = 0; i < base::size(misspelled_words); ++i)
	misspelled_words_.push_back(
	base::string16(misspelled_words[i],
	misspelled_words[i] + strlen(misspelled_words[i])));

	// Mark as initialized to prevent this object from being initialized twice
	// or more.
	initialized_ = true;

	// Since this MockSpellCheck class doesn't download dictionaries, this
	// function always returns false.
	return false;
	}

	} // namespace test_runner