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// Copyright (c) 2011 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 "chrome/browser/character_encoding.h"
#include <map>
#include <set>
#include "base/logging.h"
#include "base/memory/scoped_ptr.h"
#include "base/string_tokenizer.h"
#include "base/string_util.h"
#include "base/utf_string_conversions.h"
#include "chrome/app/chrome_command_ids.h"
#include "content/public/browser/browser_thread.h"
#include "grit/generated_resources.h"
#include "ui/base/l10n/l10n_util.h"
#include "ui/base/l10n/l10n_util_collator.h"
#include "unicode/ucnv.h"
using content::BrowserThread;
namespace {
// The maximum length of short list of recently user selected encodings is 3.
const size_t kUserSelectedEncodingsMaxLength = 3;
typedef struct {
int resource_id;
const char* name;
int category_string_id;
} CanonicalEncodingData;
// An array of all supported canonical encoding names.
const CanonicalEncodingData kCanonicalEncodingNames[] = {
{ IDC_ENCODING_UTF8, "UTF-8", IDS_ENCODING_UNICODE },
{ IDC_ENCODING_UTF16LE, "UTF-16LE", IDS_ENCODING_UNICODE },
{ IDC_ENCODING_ISO88591, "ISO-8859-1", IDS_ENCODING_WESTERN },
{ IDC_ENCODING_WINDOWS1252, "windows-1252", IDS_ENCODING_WESTERN },
{ IDC_ENCODING_GBK, "GBK", IDS_ENCODING_SIMP_CHINESE },
{ IDC_ENCODING_GB18030, "gb18030", IDS_ENCODING_SIMP_CHINESE },
{ IDC_ENCODING_BIG5, "Big5", IDS_ENCODING_TRAD_CHINESE },
{ IDC_ENCODING_BIG5HKSCS, "Big5-HKSCS", IDS_ENCODING_TRAD_CHINESE },
{ IDC_ENCODING_KOREAN, "windows-949", IDS_ENCODING_KOREAN },
{ IDC_ENCODING_SHIFTJIS, "Shift_JIS", IDS_ENCODING_JAPANESE },
{ IDC_ENCODING_EUCJP, "EUC-JP", IDS_ENCODING_JAPANESE },
{ IDC_ENCODING_ISO2022JP, "ISO-2022-JP", IDS_ENCODING_JAPANESE },
{ IDC_ENCODING_THAI, "windows-874", IDS_ENCODING_THAI },
{ IDC_ENCODING_ISO885915, "ISO-8859-15", IDS_ENCODING_WESTERN },
{ IDC_ENCODING_MACINTOSH, "macintosh", IDS_ENCODING_WESTERN },
{ IDC_ENCODING_ISO88592, "ISO-8859-2", IDS_ENCODING_CENTRAL_EUROPEAN },
{ IDC_ENCODING_WINDOWS1250, "windows-1250", IDS_ENCODING_CENTRAL_EUROPEAN },
{ IDC_ENCODING_ISO88595, "ISO-8859-5", IDS_ENCODING_CYRILLIC },
{ IDC_ENCODING_WINDOWS1251, "windows-1251", IDS_ENCODING_CYRILLIC },
{ IDC_ENCODING_KOI8R, "KOI8-R", IDS_ENCODING_CYRILLIC },
{ IDC_ENCODING_KOI8U, "KOI8-U", IDS_ENCODING_CYRILLIC },
{ IDC_ENCODING_ISO88597, "ISO-8859-7", IDS_ENCODING_GREEK },
{ IDC_ENCODING_WINDOWS1253, "windows-1253", IDS_ENCODING_GREEK },
{ IDC_ENCODING_WINDOWS1254, "windows-1254", IDS_ENCODING_TURKISH },
{ IDC_ENCODING_WINDOWS1256, "windows-1256", IDS_ENCODING_ARABIC },
{ IDC_ENCODING_ISO88596, "ISO-8859-6", IDS_ENCODING_ARABIC },
{ IDC_ENCODING_WINDOWS1255, "windows-1255", IDS_ENCODING_HEBREW },
{ IDC_ENCODING_ISO88598I, "ISO-8859-8-I", IDS_ENCODING_HEBREW },
{ IDC_ENCODING_ISO88598, "ISO-8859-8", IDS_ENCODING_HEBREW },
{ IDC_ENCODING_WINDOWS1258, "windows-1258", IDS_ENCODING_VIETNAMESE },
{ IDC_ENCODING_ISO88594, "ISO-8859-4", IDS_ENCODING_BALTIC },
{ IDC_ENCODING_ISO885913, "ISO-8859-13", IDS_ENCODING_BALTIC },
{ IDC_ENCODING_WINDOWS1257, "windows-1257", IDS_ENCODING_BALTIC },
{ IDC_ENCODING_ISO88593, "ISO-8859-3", IDS_ENCODING_SOUTH_EUROPEAN },
{ IDC_ENCODING_ISO885910, "ISO-8859-10", IDS_ENCODING_NORDIC },
{ IDC_ENCODING_ISO885914, "ISO-8859-14", IDS_ENCODING_CELTIC },
{ IDC_ENCODING_ISO885916, "ISO-8859-16", IDS_ENCODING_ROMANIAN },
};
const int kCanonicalEncodingNamesLength = arraysize(kCanonicalEncodingNames);
typedef std::map<int, std::pair<const char*, int> >
IdToCanonicalEncodingNameMapType;
typedef std::map<const std::string, int> CanonicalEncodingNameToIdMapType;
typedef struct {
const char* canonical_form;
const char* display_form;
} CanonicalEncodingDisplayNamePair;
const CanonicalEncodingDisplayNamePair kCanonicalDisplayNameOverrides[] = {
// Only lists the canonical names where we want a different form for display.
{ "macintosh", "Macintosh" },
{ "windows-874", "Windows-874" },
{ "windows-949", "Windows-949" },
{ "windows-1250", "Windows-1250" },
{ "windows-1251", "Windows-1251" },
{ "windows-1252", "Windows-1252" },
{ "windows-1253", "Windows-1253" },
{ "windows-1254", "Windows-1254" },
{ "windows-1255", "Windows-1255" },
{ "windows-1256", "Windows-1256" },
{ "windows-1257", "Windows-1257" },
{ "windows-1258", "Windows-1258" },
};
const int kCanonicalDisplayNameOverridesLength =
arraysize(kCanonicalDisplayNameOverrides);
typedef std::map<std::string, const char*> CanonicalNameDisplayNameMapType;
class CanonicalEncodingMap {
public:
CanonicalEncodingMap()
: id_to_encoding_name_map_(NULL),
encoding_name_to_id_map_(NULL),
encoding_name_to_display_name_map_(NULL) { }
const IdToCanonicalEncodingNameMapType* GetIdToCanonicalEncodingNameMapData();
const CanonicalEncodingNameToIdMapType* GetCanonicalEncodingNameToIdMapData();
const CanonicalNameDisplayNameMapType* GetCanonicalNameDisplayNameMapData();
std::vector<int>* locale_dependent_encoding_ids() {
return &locale_dependent_encoding_ids_;
}
std::vector<CharacterEncoding::EncodingInfo>* current_display_encodings() {
return ¤t_display_encodings_;
}
private:
scoped_ptr<IdToCanonicalEncodingNameMapType> id_to_encoding_name_map_;
scoped_ptr<CanonicalEncodingNameToIdMapType> encoding_name_to_id_map_;
scoped_ptr<CanonicalNameDisplayNameMapType>
encoding_name_to_display_name_map_;
std::vector<int> locale_dependent_encoding_ids_;
std::vector<CharacterEncoding::EncodingInfo> current_display_encodings_;
DISALLOW_COPY_AND_ASSIGN(CanonicalEncodingMap);
};
const IdToCanonicalEncodingNameMapType*
CanonicalEncodingMap::GetIdToCanonicalEncodingNameMapData() {
// Testing and building map is not thread safe, this function is supposed to
// only run in UI thread. Myabe I should add a lock in here for making it as
// thread safe.
if (!id_to_encoding_name_map_.get()) {
id_to_encoding_name_map_.reset(new IdToCanonicalEncodingNameMapType);
for (int i = 0; i < kCanonicalEncodingNamesLength; ++i) {
int resource_id = kCanonicalEncodingNames[i].resource_id;
(*id_to_encoding_name_map_)[resource_id] =
std::make_pair(kCanonicalEncodingNames[i].name,
kCanonicalEncodingNames[i].category_string_id);
}
}
return id_to_encoding_name_map_.get();
}
const CanonicalEncodingNameToIdMapType*
CanonicalEncodingMap::GetCanonicalEncodingNameToIdMapData() {
if (!encoding_name_to_id_map_.get()) {
encoding_name_to_id_map_.reset(new CanonicalEncodingNameToIdMapType);
for (int i = 0; i < kCanonicalEncodingNamesLength; ++i) {
(*encoding_name_to_id_map_)[kCanonicalEncodingNames[i].name] =
kCanonicalEncodingNames[i].resource_id;
}
}
return encoding_name_to_id_map_.get();
}
const CanonicalNameDisplayNameMapType*
CanonicalEncodingMap::GetCanonicalNameDisplayNameMapData() {
if (!encoding_name_to_display_name_map_.get()) {
encoding_name_to_display_name_map_.reset(
new CanonicalNameDisplayNameMapType);
// First store the names in the kCanonicalEncodingNames list.
for (int i = 0; i < kCanonicalEncodingNamesLength; ++i) {
(*encoding_name_to_display_name_map_)[kCanonicalEncodingNames[i].name] =
kCanonicalEncodingNames[i].name;
}
// Then save in the overrides.
for (int i = 0; i < kCanonicalDisplayNameOverridesLength; ++i) {
(*encoding_name_to_display_name_map_)
[kCanonicalDisplayNameOverrides[i].canonical_form] =
kCanonicalDisplayNameOverrides[i].display_form;
}
DCHECK(static_cast<int>(encoding_name_to_display_name_map_->size()) ==
kCanonicalEncodingNamesLength)
<< "Got an override that wasn't in the encoding list";
}
return encoding_name_to_display_name_map_.get();
}
// A static map object which contains all resourceid-nonsequenced canonical
// encoding names.
CanonicalEncodingMap* CanonicalEncodingMapSingleton() {
DCHECK(BrowserThread::CurrentlyOn(BrowserThread::UI));
static CanonicalEncodingMap* singleton = new CanonicalEncodingMap;
return singleton;
}
const int kDefaultEncodingMenus[] = {
IDC_ENCODING_UTF16LE,
IDC_ENCODING_ISO88591,
IDC_ENCODING_WINDOWS1252,
IDC_ENCODING_GBK,
IDC_ENCODING_GB18030,
IDC_ENCODING_BIG5,
IDC_ENCODING_BIG5HKSCS,
IDC_ENCODING_KOREAN,
IDC_ENCODING_SHIFTJIS,
IDC_ENCODING_EUCJP,
IDC_ENCODING_ISO2022JP,
IDC_ENCODING_THAI,
IDC_ENCODING_ISO885915,
IDC_ENCODING_MACINTOSH,
IDC_ENCODING_ISO88592,
IDC_ENCODING_WINDOWS1250,
IDC_ENCODING_ISO88595,
IDC_ENCODING_WINDOWS1251,
IDC_ENCODING_KOI8R,
IDC_ENCODING_KOI8U,
IDC_ENCODING_ISO88597,
IDC_ENCODING_WINDOWS1253,
IDC_ENCODING_WINDOWS1254,
IDC_ENCODING_WINDOWS1256,
IDC_ENCODING_ISO88596,
IDC_ENCODING_WINDOWS1255,
IDC_ENCODING_ISO88598I,
IDC_ENCODING_ISO88598,
IDC_ENCODING_WINDOWS1258,
IDC_ENCODING_ISO88594,
IDC_ENCODING_ISO885913,
IDC_ENCODING_WINDOWS1257,
IDC_ENCODING_ISO88593,
IDC_ENCODING_ISO885910,
IDC_ENCODING_ISO885914,
IDC_ENCODING_ISO885916,
};
const int kDefaultEncodingMenusLength = arraysize(kDefaultEncodingMenus);
// Parse the input |encoding_list| which is a encoding list separated with
// comma, get available encoding ids and save them to |available_list|.
// The parameter |maximum_size| indicates maximum size of encoding items we
// want to get from the |encoding_list|.
void ParseEncodingListSeparatedWithComma(
const std::string& encoding_list, std::vector<int>* const available_list,
size_t maximum_size) {
StringTokenizer tokenizer(encoding_list, ",");
while (tokenizer.GetNext()) {
int id = CharacterEncoding::GetCommandIdByCanonicalEncodingName(
tokenizer.token());
// Ignore invalid encoding.
if (!id)
continue;
available_list->push_back(id);
if (available_list->size() == maximum_size)
return;
}
}
string16 GetEncodingDisplayName(std::string encoding_name,
int category_string_id) {
string16 category_name = l10n_util::GetStringUTF16(category_string_id);
if (category_string_id != IDS_ENCODING_KOREAN &&
category_string_id != IDS_ENCODING_THAI &&
category_string_id != IDS_ENCODING_TURKISH) {
const CanonicalNameDisplayNameMapType* map =
CanonicalEncodingMapSingleton()->GetCanonicalNameDisplayNameMapData();
DCHECK(map);
CanonicalNameDisplayNameMapType::const_iterator found_name =
map->find(encoding_name);
DCHECK(found_name != map->end());
return l10n_util::GetStringFUTF16(IDS_ENCODING_DISPLAY_TEMPLATE,
category_name,
ASCIIToUTF16(found_name->second));
}
return category_name;
}
int GetEncodingCategoryStringIdByCommandId(int id) {
const IdToCanonicalEncodingNameMapType* map =
CanonicalEncodingMapSingleton()->GetIdToCanonicalEncodingNameMapData();
DCHECK(map);
IdToCanonicalEncodingNameMapType::const_iterator found_name = map->find(id);
if (found_name != map->end())
return found_name->second.second;
return 0;
}
std::string GetEncodingCategoryStringByCommandId(int id) {
int category_id = GetEncodingCategoryStringIdByCommandId(id);
if (category_id)
return l10n_util::GetStringUTF8(category_id);
return std::string();
}
} // namespace
CharacterEncoding::EncodingInfo::EncodingInfo(int id)
: encoding_id(id) {
encoding_category_name =
UTF8ToUTF16(GetEncodingCategoryStringByCommandId(id));
encoding_display_name = GetCanonicalEncodingDisplayNameByCommandId(id);
}
// Static.
int CharacterEncoding::GetCommandIdByCanonicalEncodingName(
const std::string& encoding_name) {
const CanonicalEncodingNameToIdMapType* map =
CanonicalEncodingMapSingleton()->GetCanonicalEncodingNameToIdMapData();
DCHECK(map);
CanonicalEncodingNameToIdMapType::const_iterator found_id =
map->find(encoding_name);
if (found_id != map->end())
return found_id->second;
return 0;
}
// Static.
std::string CharacterEncoding::GetCanonicalEncodingNameByCommandId(int id) {
const IdToCanonicalEncodingNameMapType* map =
CanonicalEncodingMapSingleton()->GetIdToCanonicalEncodingNameMapData();
DCHECK(map);
IdToCanonicalEncodingNameMapType::const_iterator found_name = map->find(id);
if (found_name != map->end())
return found_name->second.first;
return std::string();
}
// Static.
string16 CharacterEncoding::GetCanonicalEncodingDisplayNameByCommandId(
int id) {
const IdToCanonicalEncodingNameMapType* map =
CanonicalEncodingMapSingleton()->GetIdToCanonicalEncodingNameMapData();
DCHECK(map);
IdToCanonicalEncodingNameMapType::const_iterator found_name = map->find(id);
if (found_name != map->end())
return GetEncodingDisplayName(found_name->second.first,
found_name->second.second);
return string16();
}
// Static.
// Return count number of all supported canonical encoding.
int CharacterEncoding::GetSupportCanonicalEncodingCount() {
return kCanonicalEncodingNamesLength;
}
// Static.
std::string CharacterEncoding::GetCanonicalEncodingNameByIndex(int index) {
if (index < kCanonicalEncodingNamesLength)
return kCanonicalEncodingNames[index].name;
return std::string();
}
// Static.
string16 CharacterEncoding::GetCanonicalEncodingDisplayNameByIndex(
int index) {
if (index < kCanonicalEncodingNamesLength)
return GetEncodingDisplayName(kCanonicalEncodingNames[index].name,
kCanonicalEncodingNames[index].category_string_id);
return string16();
}
// Static.
int CharacterEncoding::GetEncodingCommandIdByIndex(int index) {
if (index < kCanonicalEncodingNamesLength)
return kCanonicalEncodingNames[index].resource_id;
return 0;
}
// Static.
std::string CharacterEncoding::GetCanonicalEncodingNameByAliasName(
const std::string& alias_name) {
// If the input alias_name is already canonical encoding name, just return it.
const CanonicalEncodingNameToIdMapType* map =
CanonicalEncodingMapSingleton()->GetCanonicalEncodingNameToIdMapData();
DCHECK(map);
CanonicalEncodingNameToIdMapType::const_iterator found_id =
map->find(alias_name);
if (found_id != map->end())
return alias_name;
UErrorCode error_code = U_ZERO_ERROR;
const char* canonical_name = ucnv_getCanonicalName(
alias_name.c_str(), "MIME", &error_code);
// If failed, then try IANA next.
if (U_FAILURE(error_code) || !canonical_name) {
error_code = U_ZERO_ERROR;
canonical_name = ucnv_getCanonicalName(
alias_name.c_str(), "IANA", &error_code);
}
if (canonical_name) {
// TODO(jnd) use a map to handle all customized {alias, canonical}
// encoding mappings if we have more than one pair.
// We don't want to add an unnecessary charset to the encoding menu, so we
// alias 'US-ASCII' to 'ISO-8859-1' in our UI without touching WebKit.
// http://crbug.com/15801.
if (alias_name == "US-ASCII")
return GetCanonicalEncodingNameByCommandId(IDC_ENCODING_ISO88591);
return canonical_name;
} else {
return std::string();
}
}
// Static
// According to the behavior of user recently selected encoding short list in
// Firefox, we always put UTF-8 as top position, after then put user
// recent selected encodings, then put local dependent encoding items.
// At last, we put all remaining encoding items.
const std::vector<CharacterEncoding::EncodingInfo>*
CharacterEncoding::GetCurrentDisplayEncodings(
const std::string& locale,
const std::string& locale_encodings,
const std::string& recently_select_encodings) {
std::vector<int>* const locale_dependent_encoding_list =
CanonicalEncodingMapSingleton()->locale_dependent_encoding_ids();
std::vector<CharacterEncoding::EncodingInfo>* const encoding_list =
CanonicalEncodingMapSingleton()->current_display_encodings();
// Initialize locale dependent static encoding list.
if (locale_dependent_encoding_list->empty() && !locale_encodings.empty())
ParseEncodingListSeparatedWithComma(locale_encodings,
locale_dependent_encoding_list,
kUserSelectedEncodingsMaxLength);
CR_DEFINE_STATIC_LOCAL(std::string, cached_user_selected_encodings, ());
// Build current display encoding list.
if (encoding_list->empty() ||
cached_user_selected_encodings != recently_select_encodings) {
// Update user recently selected encodings.
cached_user_selected_encodings = recently_select_encodings;
// Clear old encoding list since user recently selected encodings changed.
encoding_list->clear();
// Always add UTF-8 to first encoding position.
encoding_list->push_back(EncodingInfo(IDC_ENCODING_UTF8));
std::set<int> inserted_encoding;
inserted_encoding.insert(IDC_ENCODING_UTF8);
// Parse user recently selected encodings and get list
std::vector<int> recently_select_encoding_list;
ParseEncodingListSeparatedWithComma(recently_select_encodings,
&recently_select_encoding_list,
kUserSelectedEncodingsMaxLength);
// Put 'cached encodings' (dynamic encoding list) after 'local dependent
// encoding list'.
recently_select_encoding_list.insert(recently_select_encoding_list.begin(),
locale_dependent_encoding_list->begin(),
locale_dependent_encoding_list->end());
for (std::vector<int>::iterator it = recently_select_encoding_list.begin();
it != recently_select_encoding_list.end(); ++it) {
// Test whether we have met this encoding id.
bool ok = inserted_encoding.insert(*it).second;
// Duplicated encoding, ignore it. Ideally, this situation should not
// happened, but just in case some one manually edit preference file.
if (!ok)
continue;
encoding_list->push_back(EncodingInfo(*it));
}
// Append a separator;
encoding_list->push_back(EncodingInfo(0));
// We need to keep "Unicode (UTF-16LE)" always at the top (among the rest
// of encodings) instead of being sorted along with other encodings. So if
// "Unicode (UTF-16LE)" is already in previous encodings, sort the rest
// of encodings. Otherwise Put "Unicode (UTF-16LE)" on the first of the
// rest of encodings, skip "Unicode (UTF-16LE)" and sort all left encodings.
int start_sorted_index = encoding_list->size();
if (inserted_encoding.find(IDC_ENCODING_UTF16LE) ==
inserted_encoding.end()) {
encoding_list->push_back(EncodingInfo(IDC_ENCODING_UTF16LE));
inserted_encoding.insert(IDC_ENCODING_UTF16LE);
start_sorted_index++;
}
// Add the rest of encodings that are neither in the static encoding list
// nor in the list of recently selected encodings.
// Build the encoding list sorted in the current locale sorting order.
for (int i = 0; i < kDefaultEncodingMenusLength; ++i) {
int id = kDefaultEncodingMenus[i];
// We have inserted this encoding, skip it.
if (inserted_encoding.find(id) != inserted_encoding.end())
continue;
encoding_list->push_back(EncodingInfo(id));
}
// Sort the encoding list.
l10n_util::SortVectorWithStringKey(locale,
encoding_list,
start_sorted_index,
encoding_list->size(),
true);
}
DCHECK(!encoding_list->empty());
return encoding_list;
}
// Static
bool CharacterEncoding::UpdateRecentlySelectedEncoding(
const std::string& original_selected_encodings,
int new_selected_encoding_id,
std::string* selected_encodings) {
// Get encoding name.
std::string encoding_name =
GetCanonicalEncodingNameByCommandId(new_selected_encoding_id);
DCHECK(!encoding_name.empty());
// Check whether the new encoding is in local dependent encodings or original
// recently selected encodings. If yes, do not add it.
std::vector<int>* locale_dependent_encoding_list =
CanonicalEncodingMapSingleton()->locale_dependent_encoding_ids();
DCHECK(locale_dependent_encoding_list);
std::vector<int> selected_encoding_list;
ParseEncodingListSeparatedWithComma(original_selected_encodings,
&selected_encoding_list,
kUserSelectedEncodingsMaxLength);
// Put 'cached encodings' (dynamic encoding list) after 'local dependent
// encoding list' for check.
std::vector<int> top_encoding_list(*locale_dependent_encoding_list);
// UTF8 is always in our optimized encoding list.
top_encoding_list.insert(top_encoding_list.begin(), IDC_ENCODING_UTF8);
top_encoding_list.insert(top_encoding_list.end(),
selected_encoding_list.begin(),
selected_encoding_list.end());
for (std::vector<int>::const_iterator it = top_encoding_list.begin();
it != top_encoding_list.end(); ++it)
if (*it == new_selected_encoding_id)
return false;
// Need to add the encoding id to recently selected encoding list.
// Remove the last encoding in original list.
if (selected_encoding_list.size() == kUserSelectedEncodingsMaxLength)
selected_encoding_list.pop_back();
// Insert new encoding to head of selected encoding list.
*selected_encodings = encoding_name;
// Generate the string for rest selected encoding list.
for (std::vector<int>::const_iterator it = selected_encoding_list.begin();
it != selected_encoding_list.end(); ++it) {
selected_encodings->append(1, L',');
selected_encodings->append(GetCanonicalEncodingNameByCommandId(*it));
}
return true;
}
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