Thank you for fliptitle!

I, too, am trying to lay out a proper test plan to make sure that an application supports Unicode strings throughout the system.

I am bilingual, but in two languages that only use ISO-8859-1. Therefore, I have been struggling to determine what is a "real-life," "meaningful" way to test the full range of Unicode possibilities.

I just came across this:

# Follow-Up Post:

After devising some tests for my application, I realized that I had put together a small list of encoded values that might be helpful to others.

I am using the following international strings in my test:

(NOTE: here comes some UTF-8 encoded text... hopefully you can see this in your browser)

ユーザー別サイト

简体中文

크로스 플랫폼으로

מדורים מבוקשים

أفضل البحوث

Σὲ γνωρίζω ἀπὸ

Десятую Международную

แผ่นดินฮั่นเสื่อมโทรมแสนสังเวช

∮ E⋅da = Q, n → ∞, ∑ f(i) = ∏ g(i)

français langue étrangère

mañana olé

(End of UTF-8 foreign/non-English text)

However, at various points during testing, I realized that it was insufficient to only have information about how the strings were supposed to look when rendered in their respective foreign alphabets. I also needed to know the correct Unicode codepoint numbers, and also the correct hexadecimal values for these strings in at least two encodings (UCS-2 and UTF-8).

Here is the equivalent code-point numbering and hex values:

```
str = L"\u30E6\u30FC\u30B6\u30FC\u5225\u30B5\u30A4\u30C8"; // JAPAN
// Little endian UTF-16/UCS-2: e6 30 fc 30 b6 30 fc 30 25 52 b5 30 a4 30 c8 30 00 00
// Hex of UTF-8: e3 83 a6 e3 83 bc e3 82 b6 e3 83 bc e5 88 a5 e3 82 b5 e3 82 a4 e3 83 88 00
str = L"\u7B80\u4F53\u4E2D\u6587"; // CHINA
// Little endian UTF-16/UCS-2: 80 7b 53 4f 2d 4e 87 65 00 00
// Hex of UTF-8: e7 ae 80 e4 bd 93 e4 b8 ad e6 96 87 00
str = L"\uD06C\uB85C\uC2A4 \uD50C\uB7AB\uD3FC\uC73C\uB85C"; // KOREA
// Little endian UTF-16/UCS-2: 6c d0 5c b8 a4 c2 20 00 0c d5 ab b7 fc d3 3c c7 5c b8 00 00
// Hex of UTF-8: ed 81 ac eb a1 9c ec 8a a4 20 ed 94 8c eb 9e ab ed 8f bc ec 9c bc eb a1 9c 00
str = L"\u05DE\u05D3\u05D5\u05E8\u05D9\u05DD \u05DE\u05D1\u05D5\u05E7\u05E9\u05D9\u05DD"; // ISRAEL
// Little endian UTF-16/UCS-2: de 05 d3 05 d5 05 e8 05 d9 05 dd 05 20 00 de 05 d1 05 d5 05 e7 05 e9 05 d9 05 dd 05 00 00
// Hex of UTF-8: d7 9e d7 93 d7 95 d7 a8 d7 99 d7 9d 20 d7 9e d7 91 d7 95 d7 a7 d7 a9 d7 99 d7 9d 00
str = L"\u0623\u0641\u0636\u0644 \u0627\u0644\u0628\u062D\u0648\u062B"; // EGYPT
// Little endian UTF-16/UCS-2: 23 06 41 06 36 06 44 06 20 00 27 06 44 06 28 06 2d 06 48 06 2b 06 00 00
// Hex of UTF-8: d8 a3 d9 81 d8 b6 d9 84 20 d8 a7 d9 84 d8 a8 d8 ad d9 88 d8 ab 00
str = L"\u03A3\u1F72 \u03B3\u03BD\u03C9\u03C1\u03AF\u03B6\u03C9 \u1F00\u03C0\u1F78"; // GREECE
// Little endian UTF-16/UCS-2: a3 03 72 1f 20 00 b3 03 bd 03 c9 03 c1 03 af 03 b6 03 c9 03 20 00 00
// Hex of UTF-8: ce a3 e1 bd b2 20 ce b3 ce bd cf 89 cf 81 ce af ce b6 cf 89 20 e1 bc 80 cf 80 e1 bd b8 00
str = L"\u0414\u0435\u0441\u044F\u0442\u0443\u044E \u041C\u0435\u0436\u0434\u0443\u043D\u0430\u0440\u043E\u0434\u043D\u0443\u044E"; // RUSSIA
// Little endian UTF-16/UCS-2: 14 04 35 04 41 04 4f 04 42 04 43 04 4e 04 20 00 1c 04 35 04 36 04 34 04 43 04 3d 04 30 04 40 04 3e 04 34 04 3d 04 43 04 4e 04 00 00
// Hex of UTF-8: d0 94 d0 b5 d1 81 d1 8f d1 82 d1 83 d1 8e 20 d0 9c d0 b5 d0 b6 d0 b4 d1 83 d0 bd d0 b0 d1 80 d0 be d0 b4 d0 bd d1 83 d1 8e 00
str = L"\u0E41\u0E1C\u0E48\u0E19\u0E14\u0E34\u0E19\u0E2E\u0E31\u0E48\u0E19\u0E40\u0E2A\u0E37\u0E48\u0E2D\u0E21\u0E42\u0E17\u0E23\u0E21\u0E41\u0E2A\u0E19\u0E2A\u0E31\u0E07\u0E40\u0E27\u0E0A"; // THAILAND
// Little endian UTF-16/UCS-2: 41 0e 1c 0e 48 0e 19 0e 14 0e 34 0e 19 0e 2e 0e 31 0e 48 0e 19 0e 40 0e 2a 0e 37 0e 48 0e 2d 0e 21 0e 42 0e 17 0e 23 0e 21 0e 41 0e 2a 0e 19 0e 2a 0e 31 0e 07 0e 40 0e 27 0e 0a 0e 00 00
// Hex of UTF-8: e0 b9 81 e0 b8 9c e0 b9 88 e0 b8 99 e0 b8 94 e0 b8 b4 e0 b8 99 e0 b8 ae e0 b8 b1 e0 b9 88 e0 b8 99 e0 b9 80 e0 b8 aa e0 b8 b7 e0 b9 88 e0 b8 ad e0 b8 a1 e0 b9 82 e0 b8 97 e0 b8 a3 e0 b8 a1 e0 b9 81 e0 b8 aa e0 b8 99 e0 b8 aa e0 b8 b1 e0 b8 87 e0 b9 80 e0 b8 a7 e0 b8 8a 00
str = L"\u222E E\u22C5da = Q, n \u2192 \u221E, \u2211 f(i) = \u220F g(i)"; // MATHEMATICS
// Little endian UTF-16/UCS-2: 2e 22 20 00 45 00 c5 22 64 00 61 00 20 00 3d 00 20 00 51 00 2c 00 20 00 20 00 6e 00 20 00 92 21 20 00 1e 22 2c 00 20 00 11 22 20 00 66 00 28 00 69 00 29 00 20 00 3d 00 20 00 0f 22 20 00 67 00 28 00 69 00 29 00 00 00
// Hex of UTF-8: e2 88 ae 20 45 e2 8b 85 64 61 20 3d 20 51 2c 20 20 6e 20 e2 86 92 20 e2 88 9e 2c 20 e2 88 91 20 66 28 69 29 20 3d 20 e2 88 8f 20 67 28 69 29 00
str = L"fran\u00E7ais langue \u00E9trang\u00E8re"; // FRANCE
// Little endian UTF-16/UCS-2: 66 00 72 00 61 00 6e 00 e7 00 61 00 69 00 73 00 20 00 6c 00 61 00 6e 00 67 00 75 00 65 00 20 00 e9 00 74 00 72 00 61 00 6e 00 67 00 e8 00 72 00 65 00 00 00
// Hex of UTF-8: 66 72 61 6e c3 a7 61 69 73 20 6c 61 6e 67 75 65 20 c3 a9 74 72 61 6e 67 c3 a8 72 65 00
str = L"ma\u00F1ana ol\u00E9"; // SPAIN
// Little endian UTF-16/UCS-2: 6d 00 61 00 f1 00 61 00 6e 00 61 00 20 00 6f 00 6c 00 e9 00 00 00
// Hex of UTF-8: 6d 61 c3 b1 61 6e 61 20 6f 6c c3 a9 00
```

Also, here are a couple images that show some common "mis-renderings" that can happen in various editors, even though the underlying bytes are well-formed UTF8. If you see any of these renderings, it probably means that you correctly produced a UTF8 string, but that your editor/viewer is trying to interpret them under some encoding other than UTF8.

Sample Renderings Num. 1

Sample Renderings Num. 2