384 lines
12 KiB
C++
384 lines
12 KiB
C++
// Copyright (c) 2011 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "base/i18n/rtl.h"
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#include "base/files/file_path.h"
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#include "base/logging.h"
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#include "base/strings/string_util.h"
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#include "base/strings/sys_string_conversions.h"
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#include "base/strings/utf_string_conversions.h"
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#include "third_party/icu/source/common/unicode/locid.h"
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#include "third_party/icu/source/common/unicode/uchar.h"
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#include "third_party/icu/source/common/unicode/uscript.h"
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#include "third_party/icu/source/i18n/unicode/coll.h"
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#if defined(TOOLKIT_GTK)
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#include <gtk/gtk.h>
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#endif
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namespace {
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// Extract language, country and variant, but ignore keywords. For example,
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// en-US, ca@valencia, ca-ES@valencia.
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std::string GetLocaleString(const icu::Locale& locale) {
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const char* language = locale.getLanguage();
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const char* country = locale.getCountry();
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const char* variant = locale.getVariant();
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std::string result =
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(language != NULL && *language != '\0') ? language : "und";
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if (country != NULL && *country != '\0') {
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result += '-';
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result += country;
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}
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if (variant != NULL && *variant != '\0') {
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std::string variant_str(variant);
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StringToLowerASCII(&variant_str);
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result += '@' + variant_str;
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}
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return result;
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}
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// Returns LEFT_TO_RIGHT or RIGHT_TO_LEFT if |character| has strong
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// directionality, returns UNKNOWN_DIRECTION if it doesn't. Please refer to
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// http://unicode.org/reports/tr9/ for more information.
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base::i18n::TextDirection GetCharacterDirection(UChar32 character) {
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// Now that we have the character, we use ICU in order to query for the
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// appropriate Unicode BiDi character type.
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int32_t property = u_getIntPropertyValue(character, UCHAR_BIDI_CLASS);
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if ((property == U_RIGHT_TO_LEFT) ||
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(property == U_RIGHT_TO_LEFT_ARABIC) ||
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(property == U_RIGHT_TO_LEFT_EMBEDDING) ||
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(property == U_RIGHT_TO_LEFT_OVERRIDE)) {
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return base::i18n::RIGHT_TO_LEFT;
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} else if ((property == U_LEFT_TO_RIGHT) ||
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(property == U_LEFT_TO_RIGHT_EMBEDDING) ||
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(property == U_LEFT_TO_RIGHT_OVERRIDE)) {
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return base::i18n::LEFT_TO_RIGHT;
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}
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return base::i18n::UNKNOWN_DIRECTION;
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}
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} // namespace
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namespace base {
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namespace i18n {
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// Represents the locale-specific ICU text direction.
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static TextDirection g_icu_text_direction = UNKNOWN_DIRECTION;
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// Convert the ICU default locale to a string.
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std::string GetConfiguredLocale() {
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return GetLocaleString(icu::Locale::getDefault());
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}
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// Convert the ICU canonicalized locale to a string.
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std::string GetCanonicalLocale(const char* locale) {
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return GetLocaleString(icu::Locale::createCanonical(locale));
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}
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// Convert Chrome locale name to ICU locale name
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std::string ICULocaleName(const std::string& locale_string) {
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// If not Spanish, just return it.
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if (locale_string.substr(0, 2) != "es")
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return locale_string;
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// Expand es to es-ES.
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if (LowerCaseEqualsASCII(locale_string, "es"))
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return "es-ES";
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// Map es-419 (Latin American Spanish) to es-FOO depending on the system
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// locale. If it's es-RR other than es-ES, map to es-RR. Otherwise, map
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// to es-MX (the most populous in Spanish-speaking Latin America).
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if (LowerCaseEqualsASCII(locale_string, "es-419")) {
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const icu::Locale& locale = icu::Locale::getDefault();
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std::string language = locale.getLanguage();
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const char* country = locale.getCountry();
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if (LowerCaseEqualsASCII(language, "es") &&
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!LowerCaseEqualsASCII(country, "es")) {
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language += '-';
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language += country;
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return language;
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}
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return "es-MX";
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}
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// Currently, Chrome has only "es" and "es-419", but later we may have
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// more specific "es-RR".
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return locale_string;
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}
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void SetICUDefaultLocale(const std::string& locale_string) {
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icu::Locale locale(ICULocaleName(locale_string).c_str());
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UErrorCode error_code = U_ZERO_ERROR;
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icu::Locale::setDefault(locale, error_code);
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// This return value is actually bogus because Locale object is
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// an ID and setDefault seems to always succeed (regardless of the
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// presence of actual locale data). However,
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// it does not hurt to have it as a sanity check.
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DCHECK(U_SUCCESS(error_code));
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g_icu_text_direction = UNKNOWN_DIRECTION;
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}
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bool IsRTL() {
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#if defined(TOOLKIT_GTK)
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GtkTextDirection gtk_dir = gtk_widget_get_default_direction();
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return gtk_dir == GTK_TEXT_DIR_RTL;
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#else
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return ICUIsRTL();
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#endif
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}
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bool ICUIsRTL() {
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if (g_icu_text_direction == UNKNOWN_DIRECTION) {
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const icu::Locale& locale = icu::Locale::getDefault();
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g_icu_text_direction = GetTextDirectionForLocale(locale.getName());
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}
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return g_icu_text_direction == RIGHT_TO_LEFT;
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}
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TextDirection GetTextDirectionForLocale(const char* locale_name) {
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UErrorCode status = U_ZERO_ERROR;
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ULayoutType layout_dir = uloc_getCharacterOrientation(locale_name, &status);
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DCHECK(U_SUCCESS(status));
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// Treat anything other than RTL as LTR.
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return (layout_dir != ULOC_LAYOUT_RTL) ? LEFT_TO_RIGHT : RIGHT_TO_LEFT;
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}
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TextDirection GetFirstStrongCharacterDirection(const string16& text) {
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const UChar* string = text.c_str();
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size_t length = text.length();
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size_t position = 0;
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while (position < length) {
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UChar32 character;
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size_t next_position = position;
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U16_NEXT(string, next_position, length, character);
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TextDirection direction = GetCharacterDirection(character);
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if (direction != UNKNOWN_DIRECTION)
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return direction;
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position = next_position;
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}
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return LEFT_TO_RIGHT;
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}
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TextDirection GetStringDirection(const string16& text) {
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const UChar* string = text.c_str();
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size_t length = text.length();
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size_t position = 0;
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TextDirection result(UNKNOWN_DIRECTION);
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while (position < length) {
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UChar32 character;
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size_t next_position = position;
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U16_NEXT(string, next_position, length, character);
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TextDirection direction = GetCharacterDirection(character);
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if (direction != UNKNOWN_DIRECTION) {
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if (result != UNKNOWN_DIRECTION && result != direction)
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return UNKNOWN_DIRECTION;
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result = direction;
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}
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position = next_position;
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}
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// Handle the case of a string not containing any strong directionality
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// characters defaulting to LEFT_TO_RIGHT.
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if (result == UNKNOWN_DIRECTION)
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return LEFT_TO_RIGHT;
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return result;
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}
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#if defined(OS_WIN)
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bool AdjustStringForLocaleDirection(string16* text) {
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if (!IsRTL() || text->empty())
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return false;
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// Marking the string as LTR if the locale is RTL and the string does not
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// contain strong RTL characters. Otherwise, mark the string as RTL.
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bool has_rtl_chars = StringContainsStrongRTLChars(*text);
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if (!has_rtl_chars)
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WrapStringWithLTRFormatting(text);
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else
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WrapStringWithRTLFormatting(text);
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return true;
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}
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bool UnadjustStringForLocaleDirection(string16* text) {
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if (!IsRTL() || text->empty())
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return false;
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*text = StripWrappingBidiControlCharacters(*text);
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return true;
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}
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#else
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bool AdjustStringForLocaleDirection(string16* text) {
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// On OS X & GTK the directionality of a label is determined by the first
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// strongly directional character.
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// However, we want to make sure that in an LTR-language-UI all strings are
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// left aligned and vice versa.
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// A problem can arise if we display a string which starts with user input.
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// User input may be of the opposite directionality to the UI. So the whole
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// string will be displayed in the opposite directionality, e.g. if we want to
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// display in an LTR UI [such as US English]:
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//
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// EMAN_NOISNETXE is now installed.
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//
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// Since EXTENSION_NAME begins with a strong RTL char, the label's
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// directionality will be set to RTL and the string will be displayed visually
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// as:
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//
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// .is now installed EMAN_NOISNETXE
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//
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// In order to solve this issue, we prepend an LRM to the string. An LRM is a
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// strongly directional LTR char.
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// We also append an LRM at the end, which ensures that we're in an LTR
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// context.
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// Unlike Windows, Linux and OS X can correctly display RTL glyphs out of the
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// box so there is no issue with displaying zero-width bidi control characters
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// on any system. Thus no need for the !IsRTL() check here.
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if (text->empty())
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return false;
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bool ui_direction_is_rtl = IsRTL();
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bool has_rtl_chars = StringContainsStrongRTLChars(*text);
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if (!ui_direction_is_rtl && has_rtl_chars) {
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WrapStringWithRTLFormatting(text);
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text->insert(0U, 1U, kLeftToRightMark);
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text->push_back(kLeftToRightMark);
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} else if (ui_direction_is_rtl && has_rtl_chars) {
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WrapStringWithRTLFormatting(text);
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text->insert(0U, 1U, kRightToLeftMark);
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text->push_back(kRightToLeftMark);
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} else if (ui_direction_is_rtl) {
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WrapStringWithLTRFormatting(text);
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text->insert(0U, 1U, kRightToLeftMark);
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text->push_back(kRightToLeftMark);
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} else {
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return false;
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}
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return true;
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}
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bool UnadjustStringForLocaleDirection(string16* text) {
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if (text->empty())
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return false;
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size_t begin_index = 0;
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char16 begin = text->at(begin_index);
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if (begin == kLeftToRightMark ||
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begin == kRightToLeftMark) {
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++begin_index;
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}
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size_t end_index = text->length() - 1;
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char16 end = text->at(end_index);
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if (end == kLeftToRightMark ||
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end == kRightToLeftMark) {
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--end_index;
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}
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string16 unmarked_text =
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text->substr(begin_index, end_index - begin_index + 1);
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*text = StripWrappingBidiControlCharacters(unmarked_text);
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return true;
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}
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#endif // !OS_WIN
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bool StringContainsStrongRTLChars(const string16& text) {
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const UChar* string = text.c_str();
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size_t length = text.length();
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size_t position = 0;
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while (position < length) {
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UChar32 character;
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size_t next_position = position;
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U16_NEXT(string, next_position, length, character);
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// Now that we have the character, we use ICU in order to query for the
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// appropriate Unicode BiDi character type.
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int32_t property = u_getIntPropertyValue(character, UCHAR_BIDI_CLASS);
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if ((property == U_RIGHT_TO_LEFT) || (property == U_RIGHT_TO_LEFT_ARABIC))
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return true;
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position = next_position;
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}
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return false;
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}
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void WrapStringWithLTRFormatting(string16* text) {
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if (text->empty())
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return;
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// Inserting an LRE (Left-To-Right Embedding) mark as the first character.
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text->insert(0U, 1U, kLeftToRightEmbeddingMark);
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// Inserting a PDF (Pop Directional Formatting) mark as the last character.
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text->push_back(kPopDirectionalFormatting);
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}
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void WrapStringWithRTLFormatting(string16* text) {
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if (text->empty())
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return;
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// Inserting an RLE (Right-To-Left Embedding) mark as the first character.
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text->insert(0U, 1U, kRightToLeftEmbeddingMark);
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// Inserting a PDF (Pop Directional Formatting) mark as the last character.
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text->push_back(kPopDirectionalFormatting);
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}
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void WrapPathWithLTRFormatting(const FilePath& path,
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string16* rtl_safe_path) {
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// Wrap the overall path with LRE-PDF pair which essentialy marks the
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// string as a Left-To-Right string.
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// Inserting an LRE (Left-To-Right Embedding) mark as the first character.
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rtl_safe_path->push_back(kLeftToRightEmbeddingMark);
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#if defined(OS_MACOSX)
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rtl_safe_path->append(UTF8ToUTF16(path.value()));
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#elif defined(OS_WIN)
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rtl_safe_path->append(path.value());
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#else // defined(OS_POSIX) && !defined(OS_MACOSX)
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std::wstring wide_path = base::SysNativeMBToWide(path.value());
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rtl_safe_path->append(WideToUTF16(wide_path));
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#endif
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// Inserting a PDF (Pop Directional Formatting) mark as the last character.
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rtl_safe_path->push_back(kPopDirectionalFormatting);
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}
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string16 GetDisplayStringInLTRDirectionality(const string16& text) {
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// Always wrap the string in RTL UI (it may be appended to RTL string).
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// Also wrap strings with an RTL first strong character direction in LTR UI.
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if (IsRTL() || GetFirstStrongCharacterDirection(text) == RIGHT_TO_LEFT) {
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string16 text_mutable(text);
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WrapStringWithLTRFormatting(&text_mutable);
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return text_mutable;
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}
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return text;
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}
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string16 StripWrappingBidiControlCharacters(const string16& text) {
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if (text.empty())
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return text;
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size_t begin_index = 0;
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char16 begin = text[begin_index];
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if (begin == kLeftToRightEmbeddingMark ||
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begin == kRightToLeftEmbeddingMark ||
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begin == kLeftToRightOverride ||
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begin == kRightToLeftOverride)
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++begin_index;
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size_t end_index = text.length() - 1;
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if (text[end_index] == kPopDirectionalFormatting)
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--end_index;
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return text.substr(begin_index, end_index - begin_index + 1);
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}
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} // namespace i18n
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} // namespace base
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