Mercurial > vim
view src/libvterm/t/03encoding_utf8.test @ 26510:3772e454a7fb v8.2.3785
patch 8.2.3785: running CI on MacOS with gcc is not useful
Commit: https://github.com/vim/vim/commit/48c0196378a1fa408ebae4f578a62095d8a80c6f
Author: ichizok <gclient.gaap@gmail.com>
Date: Sat Dec 11 17:34:19 2021 +0000
patch 8.2.3785: running CI on MacOS with gcc is not useful
Problem: Running CI on MacOS with gcc is not useful.
Solution: Only use clang. (Ozaki Kiichi, closes https://github.com/vim/vim/issues/9326) Also build with
normal features.
author | Bram Moolenaar <Bram@vim.org> |
---|---|
date | Sat, 11 Dec 2021 18:45:03 +0100 |
parents | b8299e742f41 |
children |
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INIT WANTENCODING !Low ENCIN "123" encout 0x31,0x32,0x33 # We want to prove the UTF-8 parser correctly handles all the sequences. # Easy way to do this is to check it does low/high boundary cases, as that # leaves only two for each sequence length # # These ranges are therefore: # # Two bytes: # U+0080 = 000 10000000 => 00010 000000 # => 11000010 10000000 = C2 80 # U+07FF = 111 11111111 => 11111 111111 # => 11011111 10111111 = DF BF # # Three bytes: # U+0800 = 00001000 00000000 => 0000 100000 000000 # => 11100000 10100000 10000000 = E0 A0 80 # U+FFFD = 11111111 11111101 => 1111 111111 111101 # => 11101111 10111111 10111101 = EF BF BD # (We avoid U+FFFE and U+FFFF as they're invalid codepoints) # # Four bytes: # U+10000 = 00001 00000000 00000000 => 000 010000 000000 000000 # => 11110000 10010000 10000000 10000000 = F0 90 80 80 # U+1FFFFF = 11111 11111111 11111111 => 111 111111 111111 111111 # => 11110111 10111111 10111111 10111111 = F7 BF BF BF !2 byte ENCIN "\xC2\x80\xDF\xBF" encout 0x0080, 0x07FF !3 byte ENCIN "\xE0\xA0\x80\xEF\xBF\xBD" encout 0x0800,0xFFFD !4 byte ENCIN "\xF0\x90\x80\x80\xF7\xBF\xBF\xBF" encout 0x10000,0x1fffff # Next up, we check some invalid sequences # + Early termination (back to low bytes too soon) # + Early restart (another sequence introduction before the previous one was finished) !Early termination ENCIN "\xC2!" encout 0xfffd,0x21 ENCIN "\xE0!\xE0\xA0!" encout 0xfffd,0x21,0xfffd,0x21 ENCIN "\xF0!\xF0\x90!\xF0\x90\x80!" encout 0xfffd,0x21,0xfffd,0x21,0xfffd,0x21 !Early restart ENCIN "\xC2\xC2\x90" encout 0xfffd,0x0090 ENCIN "\xE0\xC2\x90\xE0\xA0\xC2\x90" encout 0xfffd,0x0090,0xfffd,0x0090 ENCIN "\xF0\xC2\x90\xF0\x90\xC2\x90\xF0\x90\x80\xC2\x90" encout 0xfffd,0x0090,0xfffd,0x0090,0xfffd,0x0090 # Test the overlong sequences by giving an overlong encoding of U+0000 and # an encoding of the highest codepoint still too short # # Two bytes: # U+0000 = C0 80 # U+007F = 000 01111111 => 00001 111111 => # => 11000001 10111111 => C1 BF # # Three bytes: # U+0000 = E0 80 80 # U+07FF = 00000111 11111111 => 0000 011111 111111 # => 11100000 10011111 10111111 = E0 9F BF # # Four bytes: # U+0000 = F0 80 80 80 # U+FFFF = 11111111 11111111 => 000 001111 111111 111111 # => 11110000 10001111 10111111 10111111 = F0 8F BF BF !Overlong ENCIN "\xC0\x80\xC1\xBF" encout 0xfffd,0xfffd ENCIN "\xE0\x80\x80\xE0\x9F\xBF" encout 0xfffd,0xfffd ENCIN "\xF0\x80\x80\x80\xF0\x8F\xBF\xBF" encout 0xfffd,0xfffd # UTF-16 surrogates U+D800 and U+DFFF !UTF-16 Surrogates ENCIN "\xED\xA0\x80\xED\xBF\xBF" encout 0xfffd,0xfffd !Split write ENCIN "\xC2" ENCIN "\xA0" encout 0x000A0 ENCIN "\xE0" ENCIN "\xA0\x80" encout 0x00800 ENCIN "\xE0\xA0" ENCIN "\x80" encout 0x00800 ENCIN "\xF0" ENCIN "\x90\x80\x80" encout 0x10000 ENCIN "\xF0\x90" ENCIN "\x80\x80" encout 0x10000 ENCIN "\xF0\x90\x80" ENCIN "\x80" encout 0x10000