// Copyright 2009 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. package utf8_test import ( "bytes" "testing" . "utf8" ) type Utf8Map struct { rune int str string } var utf8map = []Utf8Map{ {0x0000, "\x00"}, {0x0001, "\x01"}, {0x007e, "\x7e"}, {0x007f, "\x7f"}, {0x0080, "\xc2\x80"}, {0x0081, "\xc2\x81"}, {0x00bf, "\xc2\xbf"}, {0x00c0, "\xc3\x80"}, {0x00c1, "\xc3\x81"}, {0x00c8, "\xc3\x88"}, {0x00d0, "\xc3\x90"}, {0x00e0, "\xc3\xa0"}, {0x00f0, "\xc3\xb0"}, {0x00f8, "\xc3\xb8"}, {0x00ff, "\xc3\xbf"}, {0x0100, "\xc4\x80"}, {0x07ff, "\xdf\xbf"}, {0x0800, "\xe0\xa0\x80"}, {0x0801, "\xe0\xa0\x81"}, {0xfffe, "\xef\xbf\xbe"}, {0xffff, "\xef\xbf\xbf"}, {0x10000, "\xf0\x90\x80\x80"}, {0x10001, "\xf0\x90\x80\x81"}, {0x10fffe, "\xf4\x8f\xbf\xbe"}, {0x10ffff, "\xf4\x8f\xbf\xbf"}, {0xFFFD, "\xef\xbf\xbd"}, } var testStrings = []string{ "", "abcd", "☺☻☹", "日a本b語ç日ð本Ê語þ日¥本¼語i日©", "日a本b語ç日ð本Ê語þ日¥本¼語i日©日a本b語ç日ð本Ê語þ日¥本¼語i日©日a本b語ç日ð本Ê語þ日¥本¼語i日©", "\x80\x80\x80\x80", } func TestFullRune(t *testing.T) { for i := 0; i < len(utf8map); i++ { m := utf8map[i] b := []byte(m.str) if !FullRune(b) { t.Errorf("FullRune(%q) (%U) = false, want true", b, m.rune) } s := m.str if !FullRuneInString(s) { t.Errorf("FullRuneInString(%q) (%U) = false, want true", s, m.rune) } b1 := b[0 : len(b)-1] if FullRune(b1) { t.Errorf("FullRune(%q) = true, want false", b1) } s1 := string(b1) if FullRuneInString(s1) { t.Errorf("FullRune(%q) = true, want false", s1) } } } func TestEncodeRune(t *testing.T) { for i := 0; i < len(utf8map); i++ { m := utf8map[i] b := []byte(m.str) var buf [10]byte n := EncodeRune(buf[0:], m.rune) b1 := buf[0:n] if !bytes.Equal(b, b1) { t.Errorf("EncodeRune(%#04x) = %q want %q", m.rune, b1, b) } } } func TestDecodeRune(t *testing.T) { for i := 0; i < len(utf8map); i++ { m := utf8map[i] b := []byte(m.str) rune, size := DecodeRune(b) if rune != m.rune || size != len(b) { t.Errorf("DecodeRune(%q) = %#04x, %d want %#04x, %d", b, rune, size, m.rune, len(b)) } s := m.str rune, size = DecodeRuneInString(s) if rune != m.rune || size != len(b) { t.Errorf("DecodeRune(%q) = %#04x, %d want %#04x, %d", s, rune, size, m.rune, len(b)) } // there's an extra byte that bytes left behind - make sure trailing byte works rune, size = DecodeRune(b[0:cap(b)]) if rune != m.rune || size != len(b) { t.Errorf("DecodeRune(%q) = %#04x, %d want %#04x, %d", b, rune, size, m.rune, len(b)) } s = m.str + "\x00" rune, size = DecodeRuneInString(s) if rune != m.rune || size != len(b) { t.Errorf("DecodeRuneInString(%q) = %#04x, %d want %#04x, %d", s, rune, size, m.rune, len(b)) } // make sure missing bytes fail wantsize := 1 if wantsize >= len(b) { wantsize = 0 } rune, size = DecodeRune(b[0 : len(b)-1]) if rune != RuneError || size != wantsize { t.Errorf("DecodeRune(%q) = %#04x, %d want %#04x, %d", b[0:len(b)-1], rune, size, RuneError, wantsize) } s = m.str[0 : len(m.str)-1] rune, size = DecodeRuneInString(s) if rune != RuneError || size != wantsize { t.Errorf("DecodeRuneInString(%q) = %#04x, %d want %#04x, %d", s, rune, size, RuneError, wantsize) } // make sure bad sequences fail if len(b) == 1 { b[0] = 0x80 } else { b[len(b)-1] = 0x7F } rune, size = DecodeRune(b) if rune != RuneError || size != 1 { t.Errorf("DecodeRune(%q) = %#04x, %d want %#04x, %d", b, rune, size, RuneError, 1) } s = string(b) rune, size = DecodeRune(b) if rune != RuneError || size != 1 { t.Errorf("DecodeRuneInString(%q) = %#04x, %d want %#04x, %d", s, rune, size, RuneError, 1) } } } // Check that DecodeRune and DecodeLastRune correspond to // the equivalent range loop. func TestSequencing(t *testing.T) { for _, ts := range testStrings { for _, m := range utf8map { for _, s := range []string{ts + m.str, m.str + ts, ts + m.str + ts} { testSequence(t, s) } } } } // Check that a range loop and a []int conversion visit the same runes. // Not really a test of this package, but the assumption is used here and // it's good to verify func TestIntConversion(t *testing.T) { for _, ts := range testStrings { runes := []int(ts) if RuneCountInString(ts) != len(runes) { t.Errorf("%q: expected %d runes; got %d", ts, len(runes), RuneCountInString(ts)) break } i := 0 for _, r := range ts { if r != runes[i] { t.Errorf("%q[%d]: expected %c (%U); got %c (%U)", ts, i, runes[i], runes[i], r, r) } i++ } } } func testSequence(t *testing.T, s string) { type info struct { index int rune int } index := make([]info, len(s)) b := []byte(s) si := 0 j := 0 for i, r := range s { if si != i { t.Errorf("Sequence(%q) mismatched index %d, want %d", s, si, i) return } index[j] = info{i, r} j++ rune1, size1 := DecodeRune(b[i:]) if r != rune1 { t.Errorf("DecodeRune(%q) = %#04x, want %#04x", s[i:], rune1, r) return } rune2, size2 := DecodeRuneInString(s[i:]) if r != rune2 { t.Errorf("DecodeRuneInString(%q) = %#04x, want %#04x", s[i:], rune2, r) return } if size1 != size2 { t.Errorf("DecodeRune/DecodeRuneInString(%q) size mismatch %d/%d", s[i:], size1, size2) return } si += size1 } j-- for si = len(s); si > 0; { rune1, size1 := DecodeLastRune(b[0:si]) rune2, size2 := DecodeLastRuneInString(s[0:si]) if size1 != size2 { t.Errorf("DecodeLastRune/DecodeLastRuneInString(%q, %d) size mismatch %d/%d", s, si, size1, size2) return } if rune1 != index[j].rune { t.Errorf("DecodeLastRune(%q, %d) = %#04x, want %#04x", s, si, rune1, index[j].rune) return } if rune2 != index[j].rune { t.Errorf("DecodeLastRuneInString(%q, %d) = %#04x, want %#04x", s, si, rune2, index[j].rune) return } si -= size1 if si != index[j].index { t.Errorf("DecodeLastRune(%q) index mismatch at %d, want %d", s, si, index[j].index) return } j-- } if si != 0 { t.Errorf("DecodeLastRune(%q) finished at %d, not 0", s, si) } } // Check that negative runes encode as U+FFFD. func TestNegativeRune(t *testing.T) { errorbuf := make([]byte, UTFMax) errorbuf = errorbuf[0:EncodeRune(errorbuf, RuneError)] buf := make([]byte, UTFMax) buf = buf[0:EncodeRune(buf, -1)] if !bytes.Equal(buf, errorbuf) { t.Errorf("incorrect encoding [% x] for -1; expected [% x]", buf, errorbuf) } } type RuneCountTest struct { in string out int } var runecounttests = []RuneCountTest{ {"abcd", 4}, {"☺☻☹", 3}, {"1,2,3,4", 7}, {"\xe2\x00", 2}, } func TestRuneCount(t *testing.T) { for i := 0; i < len(runecounttests); i++ { tt := runecounttests[i] if out := RuneCountInString(tt.in); out != tt.out { t.Errorf("RuneCountInString(%q) = %d, want %d", tt.in, out, tt.out) } if out := RuneCount([]byte(tt.in)); out != tt.out { t.Errorf("RuneCount(%q) = %d, want %d", tt.in, out, tt.out) } } } func BenchmarkRuneCountTenASCIIChars(b *testing.B) { for i := 0; i < b.N; i++ { RuneCountInString("0123456789") } } func BenchmarkRuneCountTenJapaneseChars(b *testing.B) { for i := 0; i < b.N; i++ { RuneCountInString("日本語日本語日本語日") } } func BenchmarkEncodeASCIIRune(b *testing.B) { buf := make([]byte, UTFMax) for i := 0; i < b.N; i++ { EncodeRune(buf, 'a') } } func BenchmarkEncodeJapaneseRune(b *testing.B) { buf := make([]byte, UTFMax) for i := 0; i < b.N; i++ { EncodeRune(buf, '本') } } func BenchmarkDecodeASCIIRune(b *testing.B) { a := []byte{'a'} for i := 0; i < b.N; i++ { DecodeRune(a) } } func BenchmarkDecodeJapaneseRune(b *testing.B) { nihon := []byte("本") for i := 0; i < b.N; i++ { DecodeRune(nihon) } }