base/i18n/icu_string_conversions_unittest.cc - gn - Git at Google

 // 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 <math.h>
 #include <stdarg.h>
 #include <stddef.h>

 #include <limits>
 #include <sstream>

 #include "base/format_macros.h"
 #include "base/i18n/icu_string_conversions.h"
 #include "base/logging.h"
 #include "base/macros.h"
 #include "base/strings/string_piece.h"
 #include "base/strings/stringprintf.h"
 #include "base/strings/utf_string_conversions.h"
 #include "build/build_config.h"
 #include "testing/gtest/include/gtest/gtest.h"

 namespace base {

 namespace {

 // Given a null-terminated string of wchar_t with each wchar_t representing
 // a UTF-16 code unit, returns a string16 made up of wchar_t's in the input.
 // Each wchar_t should be <= 0xFFFF and a non-BMP character (> U+FFFF)
 // should be represented as a surrogate pair (two UTF-16 units)
 // *even* where wchar_t is 32-bit (Linux and Mac).
 //
 // This is to help write tests for functions with string16 params until
 // the C++ 0x UTF-16 literal is well-supported by compilers.
 string16 BuildString16(const wchar_t* s) {
 #if defined(WCHAR_T_IS_UTF16)
   return string16(s);
 #elif defined(WCHAR_T_IS_UTF32)
   string16 u16;
   while (*s != 0) {
     DCHECK_LE(static_cast<unsigned int>(*s), 0xFFFFu);
     u16.push_back(*s++);
   }
   return u16;
 #endif
 }

 }  // namespace

 // kConverterCodepageCases is not comprehensive. There are a number of cases
 // to add if we really want to have a comprehensive coverage of various
 // codepages and their 'idiosyncrasies'. Currently, the only implementation
 // for CodepageTo* and *ToCodepage uses ICU, which has a very extensive
 // set of tests for the charset conversion. So, we can get away with a
 // relatively small number of cases listed below.
 //
 // Note about |u16_wide| in the following struct.
 // On Windows, the field is always identical to |wide|. On Mac and Linux,
 // it's identical as long as there's no character outside the
 // BMP (<= U+FFFF). When there is, it is different from |wide| and
 // is not a real wide string (UTF-32 string) in that each wchar_t in
 // the string is a UTF-16 code unit zero-extended to be 32-bit
 // even when the code unit belongs to a surrogate pair.
 // For instance, a Unicode string (U+0041 U+010000) is represented as
 // L"\x0041\xD800\xDC00" instead of L"\x0041\x10000".
 // To avoid the clutter, |u16_wide| will be set to NULL
 // if it's identical to |wide| on *all* platforms.

 static const struct {
   const char* codepage_name;
   const char* encoded;
   OnStringConversionError::Type on_error;
   bool success;
   const wchar_t* wide;
   const wchar_t* u16_wide;
 } kConvertCodepageCases[] = {
     // Test a case where the input cannot be decoded, using SKIP, FAIL
     // and SUBSTITUTE error handling rules. "A7 41" is valid, but "A6" isn't.
     {"big5", "\xA7\x41\xA6", OnStringConversionError::FAIL, false, L"",
      nullptr},
     {"big5", "\xA7\x41\xA6", OnStringConversionError::SKIP, true, L"\x4F60",
      nullptr},
     {"big5", "\xA7\x41\xA6", OnStringConversionError::SUBSTITUTE, true,
      L"\x4F60\xFFFD", nullptr},
     // Arabic (ISO-8859)
     {"iso-8859-6",
      "\xC7\xEE\xE4\xD3\xF1\xEE\xE4\xC7\xE5\xEF"
      " "
      "\xD9\xEE\xE4\xEE\xEA\xF2\xE3\xEF\xE5\xF2",
      OnStringConversionError::FAIL, true,
      L"\x0627\x064E\x0644\x0633\x0651\x064E\x0644\x0627\x0645\x064F"
      L" "
      L"\x0639\x064E\x0644\x064E\x064A\x0652\x0643\x064F\x0645\x0652",
      nullptr},
     // Chinese Simplified (GB2312)
     {"gb2312", "\xC4\xE3\xBA\xC3", OnStringConversionError::FAIL, true,
      L"\x4F60\x597D", nullptr},
     // Chinese (GB18030) : 4 byte sequences mapped to BMP characters
     {"gb18030", "\x81\x30\x84\x36\xA1\xA7", OnStringConversionError::FAIL, true,
      L"\x00A5\x00A8", nullptr},
     // Chinese (GB18030) : A 4 byte sequence mapped to plane 2 (U+20000)
     {"gb18030", "\x95\x32\x82\x36\xD2\xBB", OnStringConversionError::FAIL, true,
 #if defined(WCHAR_T_IS_UTF16)
      L"\xD840\xDC00\x4E00",
 #elif defined(WCHAR_T_IS_UTF32)
      L"\x20000\x4E00",
 #endif
      L"\xD840\xDC00\x4E00"},
     {"big5", "\xA7\x41\xA6\x6E", OnStringConversionError::FAIL, true,
      L"\x4F60\x597D", nullptr},
     // Greek (ISO-8859)
     {"iso-8859-7",
      "\xE3\xE5\xE9\xDC"
      " "
      "\xF3\xEF\xF5",
      OnStringConversionError::FAIL, true,
      L"\x03B3\x03B5\x03B9\x03AC"
      L" "
      L"\x03C3\x03BF\x03C5",
      nullptr},
     // Hebrew (Windows)
     {"windows-1255", "\xF9\xD1\xC8\xEC\xE5\xC9\xED",
      OnStringConversionError::FAIL, true,
      L"\x05E9\x05C1\x05B8\x05DC\x05D5\x05B9\x05DD", nullptr},
     // Korean (EUC)
     {"euc-kr", "\xBE\xC8\xB3\xE7\xC7\xCF\xBC\xBC\xBF\xE4",
      OnStringConversionError::FAIL, true, L"\xC548\xB155\xD558\xC138\xC694",
      nullptr},
     // Japanese (EUC)
     {"euc-jp", "\xA4\xB3\xA4\xF3\xA4\xCB\xA4\xC1\xA4\xCF\xB0\xEC\x8E\xA6",
      OnStringConversionError::FAIL, true,
      L"\x3053\x3093\x306B\x3061\x306F\x4E00\xFF66", nullptr},
     // Japanese (ISO-2022)
     {"iso-2022-jp",
      "\x1B$B"
      "\x24\x33\x24\x73\x24\x4B\x24\x41\x24\x4F\x30\x6C"
      "\x1B(B"
      "ab"
      "\x1B(J"
      "\x5C\x7E#$"
      "\x1B(B",
      OnStringConversionError::FAIL, true,
      L"\x3053\x3093\x306B\x3061\x306F\x4E00"
      L"ab\x00A5\x203E#$",
      nullptr},
     // Japanese (Shift-JIS)
     {"sjis", "\x82\xB1\x82\xF1\x82\xC9\x82\xBF\x82\xCD\x88\xEA\xA6",
      OnStringConversionError::FAIL, true,
      L"\x3053\x3093\x306B\x3061\x306F\x4E00\xFF66", nullptr},
     // Russian (KOI8)
     {"koi8-r", "\xDA\xC4\xD2\xC1\xD7\xD3\xD4\xD7\xD5\xCA\xD4\xC5",
      OnStringConversionError::FAIL, true,
      L"\x0437\x0434\x0440\x0430\x0432\x0441\x0442\x0432"
      L"\x0443\x0439\x0442\x0435",
      nullptr},
     // Thai (windows-874)
     {"windows-874",
      "\xCA\xC7\xD1\xCA\xB4\xD5"
      "\xA4\xC3\xD1\xBA",
      OnStringConversionError::FAIL, true,
      L"\x0E2A\x0E27\x0E31\x0E2A\x0E14\x0E35"
      L"\x0E04\x0E23\x0e31\x0E1A",
      nullptr},
 };

 TEST(ICUStringConversionsTest, ConvertBetweenCodepageAndUTF16) {
   for (size_t i = 0; i < arraysize(kConvertCodepageCases); ++i) {
     SCOPED_TRACE(base::StringPrintf(
                      "Test[%" PRIuS "]: <encoded: %s> <codepage: %s>", i,
                      kConvertCodepageCases[i].encoded,
                      kConvertCodepageCases[i].codepage_name));

     string16 utf16;
     bool success = CodepageToUTF16(kConvertCodepageCases[i].encoded,
                                    kConvertCodepageCases[i].codepage_name,
                                    kConvertCodepageCases[i].on_error,
                                    &utf16);
     string16 utf16_expected;
     if (kConvertCodepageCases[i].u16_wide == nullptr)
       utf16_expected = BuildString16(kConvertCodepageCases[i].wide);
     else
       utf16_expected = BuildString16(kConvertCodepageCases[i].u16_wide);
     EXPECT_EQ(kConvertCodepageCases[i].success, success);
     EXPECT_EQ(utf16_expected, utf16);

     // When decoding was successful and nothing was skipped, we also check the
     // reverse conversion. See also the corresponding comment in
     // ConvertBetweenCodepageAndWide.
     if (success &&
         kConvertCodepageCases[i].on_error == OnStringConversionError::FAIL) {
       std::string encoded;
       success = UTF16ToCodepage(utf16, kConvertCodepageCases[i].codepage_name,
                                 kConvertCodepageCases[i].on_error, &encoded);
       EXPECT_EQ(kConvertCodepageCases[i].success, success);
       EXPECT_EQ(kConvertCodepageCases[i].encoded, encoded);
     }
   }
 }

 static const struct {
   const char* encoded;
   const char* codepage_name;
   bool expected_success;
   const char* expected_value;
 } kConvertAndNormalizeCases[] = {
   {"foo-\xe4.html", "iso-8859-1", true, "foo-\xc3\xa4.html"},
   {"foo-\xe4.html", "iso-8859-7", true, "foo-\xce\xb4.html"},
   {"foo-\xe4.html", "foo-bar", false, ""},
   // HTML Encoding spec treats US-ASCII as synonymous with windows-1252
   {"foo-\xff.html", "ascii", true, "foo-\xc3\xbf.html"},
   {"foo.html", "ascii", true, "foo.html"},
   {"foo-a\xcc\x88.html", "utf-8", true, "foo-\xc3\xa4.html"},
   {"\x95\x32\x82\x36\xD2\xBB", "gb18030", true, "\xF0\xA0\x80\x80\xE4\xB8\x80"},
   {"\xA7\x41\xA6\x6E", "big5", true, "\xE4\xBD\xA0\xE5\xA5\xBD"},
   // Windows-1258 does have a combining character at xD2 (which is U+0309).
   // The sequence of (U+00E2, U+0309) is also encoded as U+1EA9.
   {"foo\xE2\xD2", "windows-1258", true, "foo\xE1\xBA\xA9"},
   {"", "iso-8859-1", true, ""},
 };
 TEST(ICUStringConversionsTest, ConvertToUtf8AndNormalize) {
   std::string result;
   for (size_t i = 0; i < arraysize(kConvertAndNormalizeCases); ++i) {
     SCOPED_TRACE(base::StringPrintf(
                      "Test[%" PRIuS "]: <encoded: %s> <codepage: %s>", i,
                      kConvertAndNormalizeCases[i].encoded,
                      kConvertAndNormalizeCases[i].codepage_name));

     bool success = ConvertToUtf8AndNormalize(
         kConvertAndNormalizeCases[i].encoded,
         kConvertAndNormalizeCases[i].codepage_name, &result);
     EXPECT_EQ(kConvertAndNormalizeCases[i].expected_success, success);
     EXPECT_EQ(kConvertAndNormalizeCases[i].expected_value, result);
   }
 }

 }  // namespace base
	// 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 <math.h>
	#include <stdarg.h>
	#include <stddef.h>

	#include <limits>
	#include <sstream>

	#include "base/format_macros.h"
	#include "base/i18n/icu_string_conversions.h"
	#include "base/logging.h"
	#include "base/macros.h"
	#include "base/strings/string_piece.h"
	#include "base/strings/stringprintf.h"
	#include "base/strings/utf_string_conversions.h"
	#include "build/build_config.h"
	#include "testing/gtest/include/gtest/gtest.h"

	namespace base {

	namespace {

	// Given a null-terminated string of wchar_t with each wchar_t representing
	// a UTF-16 code unit, returns a string16 made up of wchar_t's in the input.
	// Each wchar_t should be <= 0xFFFF and a non-BMP character (> U+FFFF)
	// should be represented as a surrogate pair (two UTF-16 units)
	// even where wchar_t is 32-bit (Linux and Mac).
	//
	// This is to help write tests for functions with string16 params until
	// the C++ 0x UTF-16 literal is well-supported by compilers.
	string16 BuildString16(const wchar_t* s) {
	#if defined(WCHAR_T_IS_UTF16)
	return string16(s);
	#elif defined(WCHAR_T_IS_UTF32)
	string16 u16;
	while (*s != 0) {
	DCHECK_LE(static_cast<unsigned int>(*s), 0xFFFFu);
	u16.push_back(*s++);
	}
	return u16;
	#endif
	}

	} // namespace

	// kConverterCodepageCases is not comprehensive. There are a number of cases
	// to add if we really want to have a comprehensive coverage of various
	// codepages and their 'idiosyncrasies'. Currently, the only implementation
	// for CodepageTo* and *ToCodepage uses ICU, which has a very extensive
	// set of tests for the charset conversion. So, we can get away with a
	// relatively small number of cases listed below.
	//
	// Note about \|u16_wide\| in the following struct.
	// On Windows, the field is always identical to \|wide\|. On Mac and Linux,
	// it's identical as long as there's no character outside the
	// BMP (<= U+FFFF). When there is, it is different from \|wide\| and
	// is not a real wide string (UTF-32 string) in that each wchar_t in
	// the string is a UTF-16 code unit zero-extended to be 32-bit
	// even when the code unit belongs to a surrogate pair.
	// For instance, a Unicode string (U+0041 U+010000) is represented as
	// L"\x0041\xD800\xDC00" instead of L"\x0041\x10000".
	// To avoid the clutter, \|u16_wide\| will be set to NULL
	// if it's identical to \|wide\| on all platforms.

	static const struct {
	const char* codepage_name;
	const char* encoded;
	OnStringConversionError::Type on_error;
	bool success;
	const wchar_t* wide;
	const wchar_t* u16_wide;
	} kConvertCodepageCases[] = {
	// Test a case where the input cannot be decoded, using SKIP, FAIL
	// and SUBSTITUTE error handling rules. "A7 41" is valid, but "A6" isn't.
	{"big5", "\xA7\x41\xA6", OnStringConversionError::FAIL, false, L"",
	nullptr},
	{"big5", "\xA7\x41\xA6", OnStringConversionError::SKIP, true, L"\x4F60",
	nullptr},
	{"big5", "\xA7\x41\xA6", OnStringConversionError::SUBSTITUTE, true,
	L"\x4F60\xFFFD", nullptr},
	// Arabic (ISO-8859)
	{"iso-8859-6",
	"\xC7\xEE\xE4\xD3\xF1\xEE\xE4\xC7\xE5\xEF"
	" "
	"\xD9\xEE\xE4\xEE\xEA\xF2\xE3\xEF\xE5\xF2",
	OnStringConversionError::FAIL, true,
	L"\x0627\x064E\x0644\x0633\x0651\x064E\x0644\x0627\x0645\x064F"
	L" "
	L"\x0639\x064E\x0644\x064E\x064A\x0652\x0643\x064F\x0645\x0652",
	nullptr},
	// Chinese Simplified (GB2312)
	{"gb2312", "\xC4\xE3\xBA\xC3", OnStringConversionError::FAIL, true,
	L"\x4F60\x597D", nullptr},
	// Chinese (GB18030) : 4 byte sequences mapped to BMP characters
	{"gb18030", "\x81\x30\x84\x36\xA1\xA7", OnStringConversionError::FAIL, true,
	L"\x00A5\x00A8", nullptr},
	// Chinese (GB18030) : A 4 byte sequence mapped to plane 2 (U+20000)
	{"gb18030", "\x95\x32\x82\x36\xD2\xBB", OnStringConversionError::FAIL, true,
	#if defined(WCHAR_T_IS_UTF16)
	L"\xD840\xDC00\x4E00",
	#elif defined(WCHAR_T_IS_UTF32)
	L"\x20000\x4E00",
	#endif
	L"\xD840\xDC00\x4E00"},
	{"big5", "\xA7\x41\xA6\x6E", OnStringConversionError::FAIL, true,
	L"\x4F60\x597D", nullptr},
	// Greek (ISO-8859)
	{"iso-8859-7",
	"\xE3\xE5\xE9\xDC"
	" "
	"\xF3\xEF\xF5",
	OnStringConversionError::FAIL, true,
	L"\x03B3\x03B5\x03B9\x03AC"
	L" "
	L"\x03C3\x03BF\x03C5",
	nullptr},
	// Hebrew (Windows)
	{"windows-1255", "\xF9\xD1\xC8\xEC\xE5\xC9\xED",
	OnStringConversionError::FAIL, true,
	L"\x05E9\x05C1\x05B8\x05DC\x05D5\x05B9\x05DD", nullptr},
	// Korean (EUC)
	{"euc-kr", "\xBE\xC8\xB3\xE7\xC7\xCF\xBC\xBC\xBF\xE4",
	OnStringConversionError::FAIL, true, L"\xC548\xB155\xD558\xC138\xC694",
	nullptr},
	// Japanese (EUC)
	{"euc-jp", "\xA4\xB3\xA4\xF3\xA4\xCB\xA4\xC1\xA4\xCF\xB0\xEC\x8E\xA6",
	OnStringConversionError::FAIL, true,
	L"\x3053\x3093\x306B\x3061\x306F\x4E00\xFF66", nullptr},
	// Japanese (ISO-2022)
	{"iso-2022-jp",
	"\x1B$B"
	"\x24\x33\x24\x73\x24\x4B\x24\x41\x24\x4F\x30\x6C"
	"\x1B(B"
	"ab"
	"\x1B(J"
	"\x5C\x7E#$"
	"\x1B(B",
	OnStringConversionError::FAIL, true,
	L"\x3053\x3093\x306B\x3061\x306F\x4E00"
	L"ab\x00A5\x203E#$",
	nullptr},
	// Japanese (Shift-JIS)
	{"sjis", "\x82\xB1\x82\xF1\x82\xC9\x82\xBF\x82\xCD\x88\xEA\xA6",
	OnStringConversionError::FAIL, true,
	L"\x3053\x3093\x306B\x3061\x306F\x4E00\xFF66", nullptr},
	// Russian (KOI8)
	{"koi8-r", "\xDA\xC4\xD2\xC1\xD7\xD3\xD4\xD7\xD5\xCA\xD4\xC5",
	OnStringConversionError::FAIL, true,
	L"\x0437\x0434\x0440\x0430\x0432\x0441\x0442\x0432"
	L"\x0443\x0439\x0442\x0435",
	nullptr},
	// Thai (windows-874)
	{"windows-874",
	"\xCA\xC7\xD1\xCA\xB4\xD5"
	"\xA4\xC3\xD1\xBA",
	OnStringConversionError::FAIL, true,
	L"\x0E2A\x0E27\x0E31\x0E2A\x0E14\x0E35"
	L"\x0E04\x0E23\x0e31\x0E1A",
	nullptr},
	};

	TEST(ICUStringConversionsTest, ConvertBetweenCodepageAndUTF16) {
	for (size_t i = 0; i < arraysize(kConvertCodepageCases); ++i) {
	SCOPED_TRACE(base::StringPrintf(
	"Test[%" PRIuS "]: <encoded: %s> <codepage: %s>", i,
	kConvertCodepageCases[i].encoded,
	kConvertCodepageCases[i].codepage_name));

	string16 utf16;
	bool success = CodepageToUTF16(kConvertCodepageCases[i].encoded,
	kConvertCodepageCases[i].codepage_name,
	kConvertCodepageCases[i].on_error,
	&utf16);
	string16 utf16_expected;
	if (kConvertCodepageCases[i].u16_wide == nullptr)
	utf16_expected = BuildString16(kConvertCodepageCases[i].wide);
	else
	utf16_expected = BuildString16(kConvertCodepageCases[i].u16_wide);
	EXPECT_EQ(kConvertCodepageCases[i].success, success);
	EXPECT_EQ(utf16_expected, utf16);

	// When decoding was successful and nothing was skipped, we also check the
	// reverse conversion. See also the corresponding comment in
	// ConvertBetweenCodepageAndWide.
	if (success &&
	kConvertCodepageCases[i].on_error == OnStringConversionError::FAIL) {
	std::string encoded;
	success = UTF16ToCodepage(utf16, kConvertCodepageCases[i].codepage_name,
	kConvertCodepageCases[i].on_error, &encoded);
	EXPECT_EQ(kConvertCodepageCases[i].success, success);
	EXPECT_EQ(kConvertCodepageCases[i].encoded, encoded);
	}
	}
	}

	static const struct {
	const char* encoded;
	const char* codepage_name;
	bool expected_success;
	const char* expected_value;
	} kConvertAndNormalizeCases[] = {
	{"foo-\xe4.html", "iso-8859-1", true, "foo-\xc3\xa4.html"},
	{"foo-\xe4.html", "iso-8859-7", true, "foo-\xce\xb4.html"},
	{"foo-\xe4.html", "foo-bar", false, ""},
	// HTML Encoding spec treats US-ASCII as synonymous with windows-1252
	{"foo-\xff.html", "ascii", true, "foo-\xc3\xbf.html"},
	{"foo.html", "ascii", true, "foo.html"},
	{"foo-a\xcc\x88.html", "utf-8", true, "foo-\xc3\xa4.html"},
	{"\x95\x32\x82\x36\xD2\xBB", "gb18030", true, "\xF0\xA0\x80\x80\xE4\xB8\x80"},
	{"\xA7\x41\xA6\x6E", "big5", true, "\xE4\xBD\xA0\xE5\xA5\xBD"},
	// Windows-1258 does have a combining character at xD2 (which is U+0309).
	// The sequence of (U+00E2, U+0309) is also encoded as U+1EA9.
	{"foo\xE2\xD2", "windows-1258", true, "foo\xE1\xBA\xA9"},
	{"", "iso-8859-1", true, ""},
	};
	TEST(ICUStringConversionsTest, ConvertToUtf8AndNormalize) {
	std::string result;
	for (size_t i = 0; i < arraysize(kConvertAndNormalizeCases); ++i) {
	SCOPED_TRACE(base::StringPrintf(
	"Test[%" PRIuS "]: <encoded: %s> <codepage: %s>", i,
	kConvertAndNormalizeCases[i].encoded,
	kConvertAndNormalizeCases[i].codepage_name));

	bool success = ConvertToUtf8AndNormalize(
	kConvertAndNormalizeCases[i].encoded,
	kConvertAndNormalizeCases[i].codepage_name, &result);
	EXPECT_EQ(kConvertAndNormalizeCases[i].expected_success, success);
	EXPECT_EQ(kConvertAndNormalizeCases[i].expected_value, result);
	}
	}

	} // namespace base