diff options
Diffstat (limited to 'src/unicode/utf8')
| -rw-r--r-- | src/unicode/utf8/example_test.go | 196 | ||||
| -rw-r--r-- | src/unicode/utf8/utf8.go | 445 | ||||
| -rw-r--r-- | src/unicode/utf8/utf8_test.go | 444 |
3 files changed, 1085 insertions, 0 deletions
diff --git a/src/unicode/utf8/example_test.go b/src/unicode/utf8/example_test.go new file mode 100644 index 000000000..7b3e7ac74 --- /dev/null +++ b/src/unicode/utf8/example_test.go @@ -0,0 +1,196 @@ +// Copyright 2013 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 ( + "fmt" + "unicode/utf8" +) + +func ExampleDecodeLastRune() { + b := []byte("Hello, 世界") + + for len(b) > 0 { + r, size := utf8.DecodeLastRune(b) + fmt.Printf("%c %v\n", r, size) + + b = b[:len(b)-size] + } + // Output: + // 界 3 + // 世 3 + // 1 + // , 1 + // o 1 + // l 1 + // l 1 + // e 1 + // H 1 +} + +func ExampleDecodeLastRuneInString() { + str := "Hello, 世界" + + for len(str) > 0 { + r, size := utf8.DecodeLastRuneInString(str) + fmt.Printf("%c %v\n", r, size) + + str = str[:len(str)-size] + } + // Output: + // 界 3 + // 世 3 + // 1 + // , 1 + // o 1 + // l 1 + // l 1 + // e 1 + // H 1 + +} + +func ExampleDecodeRune() { + b := []byte("Hello, 世界") + + for len(b) > 0 { + r, size := utf8.DecodeRune(b) + fmt.Printf("%c %v\n", r, size) + + b = b[size:] + } + // Output: + // H 1 + // e 1 + // l 1 + // l 1 + // o 1 + // , 1 + // 1 + // 世 3 + // 界 3 +} + +func ExampleDecodeRuneInString() { + str := "Hello, 世界" + + for len(str) > 0 { + r, size := utf8.DecodeRuneInString(str) + fmt.Printf("%c %v\n", r, size) + + str = str[size:] + } + // Output: + // H 1 + // e 1 + // l 1 + // l 1 + // o 1 + // , 1 + // 1 + // 世 3 + // 界 3 +} + +func ExampleEncodeRune() { + r := '世' + buf := make([]byte, 3) + + n := utf8.EncodeRune(buf, r) + + fmt.Println(buf) + fmt.Println(n) + // Output: + // [228 184 150] + // 3 +} + +func ExampleFullRune() { + buf := []byte{228, 184, 150} // 世 + fmt.Println(utf8.FullRune(buf)) + fmt.Println(utf8.FullRune(buf[:2])) + // Output: + // true + // false +} + +func ExampleFullRuneInString() { + str := "世" + fmt.Println(utf8.FullRuneInString(str)) + fmt.Println(utf8.FullRuneInString(str[:2])) + // Output: + // true + // false +} + +func ExampleRuneCount() { + buf := []byte("Hello, 世界") + fmt.Println("bytes =", len(buf)) + fmt.Println("runes =", utf8.RuneCount(buf)) + // Output: + // bytes = 13 + // runes = 9 +} + +func ExampleRuneCountInString() { + str := "Hello, 世界" + fmt.Println("bytes =", len(str)) + fmt.Println("runes =", utf8.RuneCountInString(str)) + // Output: + // bytes = 13 + // runes = 9 +} + +func ExampleRuneLen() { + fmt.Println(utf8.RuneLen('a')) + fmt.Println(utf8.RuneLen('界')) + // Output: + // 1 + // 3 +} + +func ExampleRuneStart() { + buf := []byte("a界") + fmt.Println(utf8.RuneStart(buf[0])) + fmt.Println(utf8.RuneStart(buf[1])) + fmt.Println(utf8.RuneStart(buf[2])) + // Output: + // true + // true + // false +} + +func ExampleValid() { + valid := []byte("Hello, 世界") + invalid := []byte{0xff, 0xfe, 0xfd} + + fmt.Println(utf8.Valid(valid)) + fmt.Println(utf8.Valid(invalid)) + // Output: + // true + // false +} + +func ExampleValidRune() { + valid := 'a' + invalid := rune(0xfffffff) + + fmt.Println(utf8.ValidRune(valid)) + fmt.Println(utf8.ValidRune(invalid)) + // Output: + // true + // false +} + +func ExampleValidString() { + valid := "Hello, 世界" + invalid := string([]byte{0xff, 0xfe, 0xfd}) + + fmt.Println(utf8.ValidString(valid)) + fmt.Println(utf8.ValidString(invalid)) + // Output: + // true + // false +} diff --git a/src/unicode/utf8/utf8.go b/src/unicode/utf8/utf8.go new file mode 100644 index 000000000..9ac37184d --- /dev/null +++ b/src/unicode/utf8/utf8.go @@ -0,0 +1,445 @@ +// 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 implements functions and constants to support text encoded in +// UTF-8. It includes functions to translate between runes and UTF-8 byte sequences. +package utf8 + +// The conditions RuneError==unicode.ReplacementChar and +// MaxRune==unicode.MaxRune are verified in the tests. +// Defining them locally avoids this package depending on package unicode. + +// Numbers fundamental to the encoding. +const ( + RuneError = '\uFFFD' // the "error" Rune or "Unicode replacement character" + RuneSelf = 0x80 // characters below Runeself are represented as themselves in a single byte. + MaxRune = '\U0010FFFF' // Maximum valid Unicode code point. + UTFMax = 4 // maximum number of bytes of a UTF-8 encoded Unicode character. +) + +// Code points in the surrogate range are not valid for UTF-8. +const ( + surrogateMin = 0xD800 + surrogateMax = 0xDFFF +) + +const ( + t1 = 0x00 // 0000 0000 + tx = 0x80 // 1000 0000 + t2 = 0xC0 // 1100 0000 + t3 = 0xE0 // 1110 0000 + t4 = 0xF0 // 1111 0000 + t5 = 0xF8 // 1111 1000 + + maskx = 0x3F // 0011 1111 + mask2 = 0x1F // 0001 1111 + mask3 = 0x0F // 0000 1111 + mask4 = 0x07 // 0000 0111 + + rune1Max = 1<<7 - 1 + rune2Max = 1<<11 - 1 + rune3Max = 1<<16 - 1 +) + +func decodeRuneInternal(p []byte) (r rune, size int, short bool) { + n := len(p) + if n < 1 { + return RuneError, 0, true + } + c0 := p[0] + + // 1-byte, 7-bit sequence? + if c0 < tx { + return rune(c0), 1, false + } + + // unexpected continuation byte? + if c0 < t2 { + return RuneError, 1, false + } + + // need first continuation byte + if n < 2 { + return RuneError, 1, true + } + c1 := p[1] + if c1 < tx || t2 <= c1 { + return RuneError, 1, false + } + + // 2-byte, 11-bit sequence? + if c0 < t3 { + r = rune(c0&mask2)<<6 | rune(c1&maskx) + if r <= rune1Max { + return RuneError, 1, false + } + return r, 2, false + } + + // need second continuation byte + if n < 3 { + return RuneError, 1, true + } + c2 := p[2] + if c2 < tx || t2 <= c2 { + return RuneError, 1, false + } + + // 3-byte, 16-bit sequence? + if c0 < t4 { + r = rune(c0&mask3)<<12 | rune(c1&maskx)<<6 | rune(c2&maskx) + if r <= rune2Max { + return RuneError, 1, false + } + if surrogateMin <= r && r <= surrogateMax { + return RuneError, 1, false + } + return r, 3, false + } + + // need third continuation byte + if n < 4 { + return RuneError, 1, true + } + c3 := p[3] + if c3 < tx || t2 <= c3 { + return RuneError, 1, false + } + + // 4-byte, 21-bit sequence? + if c0 < t5 { + r = rune(c0&mask4)<<18 | rune(c1&maskx)<<12 | rune(c2&maskx)<<6 | rune(c3&maskx) + if r <= rune3Max || MaxRune < r { + return RuneError, 1, false + } + return r, 4, false + } + + // error + return RuneError, 1, false +} + +func decodeRuneInStringInternal(s string) (r rune, size int, short bool) { + n := len(s) + if n < 1 { + return RuneError, 0, true + } + c0 := s[0] + + // 1-byte, 7-bit sequence? + if c0 < tx { + return rune(c0), 1, false + } + + // unexpected continuation byte? + if c0 < t2 { + return RuneError, 1, false + } + + // need first continuation byte + if n < 2 { + return RuneError, 1, true + } + c1 := s[1] + if c1 < tx || t2 <= c1 { + return RuneError, 1, false + } + + // 2-byte, 11-bit sequence? + if c0 < t3 { + r = rune(c0&mask2)<<6 | rune(c1&maskx) + if r <= rune1Max { + return RuneError, 1, false + } + return r, 2, false + } + + // need second continuation byte + if n < 3 { + return RuneError, 1, true + } + c2 := s[2] + if c2 < tx || t2 <= c2 { + return RuneError, 1, false + } + + // 3-byte, 16-bit sequence? + if c0 < t4 { + r = rune(c0&mask3)<<12 | rune(c1&maskx)<<6 | rune(c2&maskx) + if r <= rune2Max { + return RuneError, 1, false + } + if surrogateMin <= r && r <= surrogateMax { + return RuneError, 1, false + } + return r, 3, false + } + + // need third continuation byte + if n < 4 { + return RuneError, 1, true + } + c3 := s[3] + if c3 < tx || t2 <= c3 { + return RuneError, 1, false + } + + // 4-byte, 21-bit sequence? + if c0 < t5 { + r = rune(c0&mask4)<<18 | rune(c1&maskx)<<12 | rune(c2&maskx)<<6 | rune(c3&maskx) + if r <= rune3Max || MaxRune < r { + return RuneError, 1, false + } + return r, 4, false + } + + // error + return RuneError, 1, false +} + +// FullRune reports whether the bytes in p begin with a full UTF-8 encoding of a rune. +// An invalid encoding is considered a full Rune since it will convert as a width-1 error rune. +func FullRune(p []byte) bool { + _, _, short := decodeRuneInternal(p) + return !short +} + +// FullRuneInString is like FullRune but its input is a string. +func FullRuneInString(s string) bool { + _, _, short := decodeRuneInStringInternal(s) + return !short +} + +// DecodeRune unpacks the first UTF-8 encoding in p and returns the rune and +// its width in bytes. If p is empty it returns (RuneError, 0). Otherwise, if +// the encoding is invalid, it returns (RuneError, 1). Both are impossible +// results for correct UTF-8. +// +// An encoding is invalid if it is incorrect UTF-8, encodes a rune that is +// out of range, or is not the shortest possible UTF-8 encoding for the +// value. No other validation is performed. +func DecodeRune(p []byte) (r rune, size int) { + r, size, _ = decodeRuneInternal(p) + return +} + +// DecodeRuneInString is like DecodeRune but its input is a string. If s is +// empty it returns (RuneError, 0). Otherwise, if the encoding is invalid, it +// returns (RuneError, 1). Both are impossible results for correct UTF-8. +// +// An encoding is invalid if it is incorrect UTF-8, encodes a rune that is +// out of range, or is not the shortest possible UTF-8 encoding for the +// value. No other validation is performed. +func DecodeRuneInString(s string) (r rune, size int) { + r, size, _ = decodeRuneInStringInternal(s) + return +} + +// DecodeLastRune unpacks the last UTF-8 encoding in p and returns the rune and +// its width in bytes. If p is empty it returns (RuneError, 0). Otherwise, if +// the encoding is invalid, it returns (RuneError, 1). Both are impossible +// results for correct UTF-8. +// +// An encoding is invalid if it is incorrect UTF-8, encodes a rune that is +// out of range, or is not the shortest possible UTF-8 encoding for the +// value. No other validation is performed. +func DecodeLastRune(p []byte) (r rune, size int) { + end := len(p) + if end == 0 { + return RuneError, 0 + } + start := end - 1 + r = rune(p[start]) + if r < RuneSelf { + return r, 1 + } + // guard against O(n^2) behavior when traversing + // backwards through strings with long sequences of + // invalid UTF-8. + lim := end - UTFMax + if lim < 0 { + lim = 0 + } + for start--; start >= lim; start-- { + if RuneStart(p[start]) { + break + } + } + if start < 0 { + start = 0 + } + r, size = DecodeRune(p[start:end]) + if start+size != end { + return RuneError, 1 + } + return r, size +} + +// DecodeLastRuneInString is like DecodeLastRune but its input is a string. If +// s is empty it returns (RuneError, 0). Otherwise, if the encoding is invalid, +// it returns (RuneError, 1). Both are impossible results for correct UTF-8. +// +// An encoding is invalid if it is incorrect UTF-8, encodes a rune that is +// out of range, or is not the shortest possible UTF-8 encoding for the +// value. No other validation is performed. +func DecodeLastRuneInString(s string) (r rune, size int) { + end := len(s) + if end == 0 { + return RuneError, 0 + } + start := end - 1 + r = rune(s[start]) + if r < RuneSelf { + return r, 1 + } + // guard against O(n^2) behavior when traversing + // backwards through strings with long sequences of + // invalid UTF-8. + lim := end - UTFMax + if lim < 0 { + lim = 0 + } + for start--; start >= lim; start-- { + if RuneStart(s[start]) { + break + } + } + if start < 0 { + start = 0 + } + r, size = DecodeRuneInString(s[start:end]) + if start+size != end { + return RuneError, 1 + } + return r, size +} + +// RuneLen returns the number of bytes required to encode the rune. +// It returns -1 if the rune is not a valid value to encode in UTF-8. +func RuneLen(r rune) int { + switch { + case r < 0: + return -1 + case r <= rune1Max: + return 1 + case r <= rune2Max: + return 2 + case surrogateMin <= r && r <= surrogateMax: + return -1 + case r <= rune3Max: + return 3 + case r <= MaxRune: + return 4 + } + return -1 +} + +// EncodeRune writes into p (which must be large enough) the UTF-8 encoding of the rune. +// It returns the number of bytes written. +func EncodeRune(p []byte, r rune) int { + // Negative values are erroneous. Making it unsigned addresses the problem. + switch i := uint32(r); { + case i <= rune1Max: + p[0] = byte(r) + return 1 + case i <= rune2Max: + p[0] = t2 | byte(r>>6) + p[1] = tx | byte(r)&maskx + return 2 + case i > MaxRune, surrogateMin <= i && i <= surrogateMax: + r = RuneError + fallthrough + case i <= rune3Max: + p[0] = t3 | byte(r>>12) + p[1] = tx | byte(r>>6)&maskx + p[2] = tx | byte(r)&maskx + return 3 + default: + p[0] = t4 | byte(r>>18) + p[1] = tx | byte(r>>12)&maskx + p[2] = tx | byte(r>>6)&maskx + p[3] = tx | byte(r)&maskx + return 4 + } +} + +// RuneCount returns the number of runes in p. Erroneous and short +// encodings are treated as single runes of width 1 byte. +func RuneCount(p []byte) int { + i := 0 + var n int + for n = 0; i < len(p); n++ { + if p[i] < RuneSelf { + i++ + } else { + _, size := DecodeRune(p[i:]) + i += size + } + } + return n +} + +// RuneCountInString is like RuneCount but its input is a string. +func RuneCountInString(s string) (n int) { + for range s { + n++ + } + return +} + +// RuneStart reports whether the byte could be the first byte of +// an encoded rune. Second and subsequent bytes always have the top +// two bits set to 10. +func RuneStart(b byte) bool { return b&0xC0 != 0x80 } + +// Valid reports whether p consists entirely of valid UTF-8-encoded runes. +func Valid(p []byte) bool { + i := 0 + for i < len(p) { + if p[i] < RuneSelf { + i++ + } else { + _, size := DecodeRune(p[i:]) + if size == 1 { + // All valid runes of size 1 (those + // below RuneSelf) were handled above. + // This must be a RuneError. + return false + } + i += size + } + } + return true +} + +// ValidString reports whether s consists entirely of valid UTF-8-encoded runes. +func ValidString(s string) bool { + for i, r := range s { + if r == RuneError { + // The RuneError value can be an error + // sentinel value (if it's size 1) or the same + // value encoded properly. Decode it to see if + // it's the 1 byte sentinel value. + _, size := DecodeRuneInString(s[i:]) + if size == 1 { + return false + } + } + } + return true +} + +// ValidRune reports whether r can be legally encoded as UTF-8. +// Code points that are out of range or a surrogate half are illegal. +func ValidRune(r rune) bool { + switch { + case r < 0: + return false + case surrogateMin <= r && r <= surrogateMax: + return false + case r > MaxRune: + return false + } + return true +} diff --git a/src/unicode/utf8/utf8_test.go b/src/unicode/utf8/utf8_test.go new file mode 100644 index 000000000..758d7a0f8 --- /dev/null +++ b/src/unicode/utf8/utf8_test.go @@ -0,0 +1,444 @@ +// 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" + "unicode" + . "unicode/utf8" +) + +// Validate the constants redefined from unicode. +func init() { + if MaxRune != unicode.MaxRune { + panic("utf8.MaxRune is wrong") + } + if RuneError != unicode.ReplacementChar { + panic("utf8.RuneError is wrong") + } +} + +// Validate the constants redefined from unicode. +func TestConstants(t *testing.T) { + if MaxRune != unicode.MaxRune { + t.Errorf("utf8.MaxRune is wrong: %x should be %x", MaxRune, unicode.MaxRune) + } + if RuneError != unicode.ReplacementChar { + t.Errorf("utf8.RuneError is wrong: %x should be %x", RuneError, unicode.ReplacementChar) + } +} + +type Utf8Map struct { + r rune + 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"}, + {0xd7ff, "\xed\x9f\xbf"}, // last code point before surrogate half. + {0xe000, "\xee\x80\x80"}, // first code point after surrogate half. + {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 surrogateMap = []Utf8Map{ + {0xd800, "\xed\xa0\x80"}, // surrogate min decodes to (RuneError, 1) + {0xdfff, "\xed\xbf\xbf"}, // surrogate max decodes to (RuneError, 1) +} + +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 _, m := range utf8map { + b := []byte(m.str) + if !FullRune(b) { + t.Errorf("FullRune(%q) (%U) = false, want true", b, m.r) + } + s := m.str + if !FullRuneInString(s) { + t.Errorf("FullRuneInString(%q) (%U) = false, want true", s, m.r) + } + 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 _, m := range utf8map { + b := []byte(m.str) + var buf [10]byte + n := EncodeRune(buf[0:], m.r) + b1 := buf[0:n] + if !bytes.Equal(b, b1) { + t.Errorf("EncodeRune(%#04x) = %q want %q", m.r, b1, b) + } + } +} + +func TestDecodeRune(t *testing.T) { + for _, m := range utf8map { + b := []byte(m.str) + r, size := DecodeRune(b) + if r != m.r || size != len(b) { + t.Errorf("DecodeRune(%q) = %#04x, %d want %#04x, %d", b, r, size, m.r, len(b)) + } + s := m.str + r, size = DecodeRuneInString(s) + if r != m.r || size != len(b) { + t.Errorf("DecodeRuneInString(%q) = %#04x, %d want %#04x, %d", s, r, size, m.r, len(b)) + } + + // there's an extra byte that bytes left behind - make sure trailing byte works + r, size = DecodeRune(b[0:cap(b)]) + if r != m.r || size != len(b) { + t.Errorf("DecodeRune(%q) = %#04x, %d want %#04x, %d", b, r, size, m.r, len(b)) + } + s = m.str + "\x00" + r, size = DecodeRuneInString(s) + if r != m.r || size != len(b) { + t.Errorf("DecodeRuneInString(%q) = %#04x, %d want %#04x, %d", s, r, size, m.r, len(b)) + } + + // make sure missing bytes fail + wantsize := 1 + if wantsize >= len(b) { + wantsize = 0 + } + r, size = DecodeRune(b[0 : len(b)-1]) + if r != RuneError || size != wantsize { + t.Errorf("DecodeRune(%q) = %#04x, %d want %#04x, %d", b[0:len(b)-1], r, size, RuneError, wantsize) + } + s = m.str[0 : len(m.str)-1] + r, size = DecodeRuneInString(s) + if r != RuneError || size != wantsize { + t.Errorf("DecodeRuneInString(%q) = %#04x, %d want %#04x, %d", s, r, size, RuneError, wantsize) + } + + // make sure bad sequences fail + if len(b) == 1 { + b[0] = 0x80 + } else { + b[len(b)-1] = 0x7F + } + r, size = DecodeRune(b) + if r != RuneError || size != 1 { + t.Errorf("DecodeRune(%q) = %#04x, %d want %#04x, %d", b, r, size, RuneError, 1) + } + s = string(b) + r, size = DecodeRuneInString(s) + if r != RuneError || size != 1 { + t.Errorf("DecodeRuneInString(%q) = %#04x, %d want %#04x, %d", s, r, size, RuneError, 1) + } + + } +} + +func TestDecodeSurrogateRune(t *testing.T) { + for _, m := range surrogateMap { + b := []byte(m.str) + r, size := DecodeRune(b) + if r != RuneError || size != 1 { + t.Errorf("DecodeRune(%q) = %x, %d want %x, %d", b, r, size, RuneError, 1) + } + s := m.str + r, size = DecodeRuneInString(s) + if r != RuneError || size != 1 { + t.Errorf("DecodeRuneInString(%q) = %x, %d want %x, %d", b, r, 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 := []rune(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 + r rune + } + 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++ + r1, size1 := DecodeRune(b[i:]) + if r != r1 { + t.Errorf("DecodeRune(%q) = %#04x, want %#04x", s[i:], r1, r) + return + } + r2, size2 := DecodeRuneInString(s[i:]) + if r != r2 { + t.Errorf("DecodeRuneInString(%q) = %#04x, want %#04x", s[i:], r2, 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; { + r1, size1 := DecodeLastRune(b[0:si]) + r2, size2 := DecodeLastRuneInString(s[0:si]) + if size1 != size2 { + t.Errorf("DecodeLastRune/DecodeLastRuneInString(%q, %d) size mismatch %d/%d", s, si, size1, size2) + return + } + if r1 != index[j].r { + t.Errorf("DecodeLastRune(%q, %d) = %#04x, want %#04x", s, si, r1, index[j].r) + return + } + if r2 != index[j].r { + t.Errorf("DecodeLastRuneInString(%q, %d) = %#04x, want %#04x", s, si, r2, index[j].r) + 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 _, tt := range runecounttests { + 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) + } + } +} + +type RuneLenTest struct { + r rune + size int +} + +var runelentests = []RuneLenTest{ + {0, 1}, + {'e', 1}, + {'é', 2}, + {'☺', 3}, + {RuneError, 3}, + {MaxRune, 4}, + {0xD800, -1}, + {0xDFFF, -1}, + {MaxRune + 1, -1}, + {-1, -1}, +} + +func TestRuneLen(t *testing.T) { + for _, tt := range runelentests { + if size := RuneLen(tt.r); size != tt.size { + t.Errorf("RuneLen(%#U) = %d, want %d", tt.r, size, tt.size) + } + } +} + +type ValidTest struct { + in string + out bool +} + +var validTests = []ValidTest{ + {"", true}, + {"a", true}, + {"abc", true}, + {"Ж", true}, + {"ЖЖ", true}, + {"брэд-ЛГТМ", true}, + {"☺☻☹", true}, + {string([]byte{66, 250}), false}, + {string([]byte{66, 250, 67}), false}, + {"a\uFFFDb", true}, + {string("\xF4\x8F\xBF\xBF"), true}, // U+10FFFF + {string("\xF4\x90\x80\x80"), false}, // U+10FFFF+1; out of range + {string("\xF7\xBF\xBF\xBF"), false}, // 0x1FFFFF; out of range + {string("\xFB\xBF\xBF\xBF\xBF"), false}, // 0x3FFFFFF; out of range + {string("\xc0\x80"), false}, // U+0000 encoded in two bytes: incorrect + {string("\xed\xa0\x80"), false}, // U+D800 high surrogate (sic) + {string("\xed\xbf\xbf"), false}, // U+DFFF low surrogate (sic) +} + +func TestValid(t *testing.T) { + for _, tt := range validTests { + if Valid([]byte(tt.in)) != tt.out { + t.Errorf("Valid(%q) = %v; want %v", tt.in, !tt.out, tt.out) + } + if ValidString(tt.in) != tt.out { + t.Errorf("ValidString(%q) = %v; want %v", tt.in, !tt.out, tt.out) + } + } +} + +type ValidRuneTest struct { + r rune + ok bool +} + +var validrunetests = []ValidRuneTest{ + {0, true}, + {'e', true}, + {'é', true}, + {'☺', true}, + {RuneError, true}, + {MaxRune, true}, + {0xD7FF, true}, + {0xD800, false}, + {0xDFFF, false}, + {0xE000, true}, + {MaxRune + 1, false}, + {-1, false}, +} + +func TestValidRune(t *testing.T) { + for _, tt := range validrunetests { + if ok := ValidRune(tt.r); ok != tt.ok { + t.Errorf("ValidRune(%#U) = %t, want %t", tt.r, ok, tt.ok) + } + } +} + +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) + } +} |