一尘不染

如何在utlang中将utf16文本文件读取为字符串?

go

我可以将文件读取为字节数组

但是当我将其转换为字符串时

它将utf16字节视为ASCII

如何正确转换?

package main

import ("fmt"
"os"
"bufio"
)

func main(){
    // read whole the file
    f, err := os.Open("test.txt")
    if err != nil {
        fmt.Printf("error opening file: %v\n",err)
        os.Exit(1)
    }
    r := bufio.NewReader(f)
    var s,b,e = r.ReadLine()
    if e==nil{
        fmt.Println(b)
        fmt.Println(s)
        fmt.Println(string(s))
    }
}

输出:

[255 254 91 0 83 0 99 0 114 0 105 0 112 0 116 0 32 0 73 0 110 0 102 0 111 0 93
0 13 0]

Script I nfo]


更新:

在测试了两个示例之后,我已经了解了确切的问题。

在Windows中,如果我在行尾添加换行符(CR + LF),则会在该行中读取CR。因为readline函数不能正确处理unicode([OD OA] =
ok,[OD 00 OA 00] =不正常)。

如果readline函数可以识别unicode,则它应该理解[OD 00 OA 00]并返回[] uint16而不是[] bytes。

所以我认为我不应该使用bufio.NewReader,因为它无法读取utf16,我看不到bufio.NewReader.ReadLine可以接受参数作为标志来指示读取文本是utf8,utf16le
/ be或utf32。go库中是否有用于unicode文本的readline函数?


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2020-07-02

共1个答案

一尘不染

UTF16,UTF8和字节顺序标记由Unicode联合会定义:UTF-16常见问题解答UTF-8常见问题解答字节顺序标记(BOM)常见问题解答


问题4802:bufio:阅读行太繁琐

从文件中读取行在Go中太麻烦了。

人们常常会因为其名称而将其吸引到bufio.Reader.ReadLine,但是它具有一个奇怪的签名,并且会返回(行[] byte,isPrefix
bool,err错误),并且需要进行大量工作。

ReadSlice和ReadString需要定界符字节,这几乎总是明显且难看的’\ n’,并且还可以返回一行和一个EOF


修订:f685026a2d38

bufio:新的扫描仪界面

根据称为“扫描仪”的新类型,添加一个新的简单界面来扫描(可能是文本)数据。它有自己的内部缓冲,因此即使没有注入bufio.Reader也应该有效率。输入的格式由“拆分功能”定义,默认情况下分为几行。


go1.1beta1发布

您可以从通常的位置下载二进制和源分发版:https
:
//code.google.com/p/go/downloads/list?q=go1.1beta1


这是一个使用Unicode规则将UTF16文本文件行转换为Go UTF8编码的字符串的程序。该代码已经过修改,以利用bufio.ScannerGo
1.1 中的新界面。

package main

import (
    "bufio"
    "bytes"
    "encoding/binary"
    "fmt"
    "os"
    "runtime"
    "unicode/utf16"
    "unicode/utf8"
)

// UTF16BytesToString converts UTF-16 encoded bytes, in big or little endian byte order,
// to a UTF-8 encoded string.
func UTF16BytesToString(b []byte, o binary.ByteOrder) string {
    utf := make([]uint16, (len(b)+(2-1))/2)
    for i := 0; i+(2-1) < len(b); i += 2 {
        utf[i/2] = o.Uint16(b[i:])
    }
    if len(b)/2 < len(utf) {
        utf[len(utf)-1] = utf8.RuneError
    }
    return string(utf16.Decode(utf))
}

// UTF-16 endian byte order
const (
    unknownEndian = iota
    bigEndian
    littleEndian
)

// dropCREndian drops a terminal \r from the endian data.
func dropCREndian(data []byte, t1, t2 byte) []byte {
    if len(data) > 1 {
        if data[len(data)-2] == t1 && data[len(data)-1] == t2 {
            return data[0 : len(data)-2]
        }
    }
    return data
}

// dropCRBE drops a terminal \r from the big endian data.
func dropCRBE(data []byte) []byte {
    return dropCREndian(data, '\x00', '\r')
}

// dropCRLE drops a terminal \r from the little endian data.
func dropCRLE(data []byte) []byte {
    return dropCREndian(data, '\r', '\x00')
}

// dropCR drops a terminal \r from the data.
func dropCR(data []byte) ([]byte, int) {
    var endian = unknownEndian
    switch ld := len(data); {
    case ld != len(dropCRLE(data)):
        endian = littleEndian
    case ld != len(dropCRBE(data)):
        endian = bigEndian
    }
    return data, endian
}

// SplitFunc is a split function for a Scanner that returns each line of
// text, stripped of any trailing end-of-line marker. The returned line may
// be empty. The end-of-line marker is one optional carriage return followed
// by one mandatory newline. In regular expression notation, it is `\r?\n`.
// The last non-empty line of input will be returned even if it has no
// newline.
func ScanUTF16LinesFunc(byteOrder binary.ByteOrder) (bufio.SplitFunc, func() binary.ByteOrder) {

    // Function closure variables
    var endian = unknownEndian
    switch byteOrder {
    case binary.BigEndian:
        endian = bigEndian
    case binary.LittleEndian:
        endian = littleEndian
    }
    const bom = 0xFEFF
    var checkBOM bool = endian == unknownEndian

    // Scanner split function
    splitFunc := func(data []byte, atEOF bool) (advance int, token []byte, err error) {

        if atEOF && len(data) == 0 {
            return 0, nil, nil
        }

        if checkBOM {
            checkBOM = false
            if len(data) > 1 {
                switch uint16(bom) {
                case uint16(data[0])<<8 | uint16(data[1]):
                    endian = bigEndian
                    return 2, nil, nil
                case uint16(data[1])<<8 | uint16(data[0]):
                    endian = littleEndian
                    return 2, nil, nil
                }
            }
        }

        // Scan for newline-terminated lines.
        i := 0
        for {
            j := bytes.IndexByte(data[i:], '\n')
            if j < 0 {
                break
            }
            i += j
            switch e := i % 2; e {
            case 1: // UTF-16BE
                if endian != littleEndian {
                    if i > 1 {
                        if data[i-1] == '\x00' {
                            endian = bigEndian
                            // We have a full newline-terminated line.
                            return i + 1, dropCRBE(data[0 : i-1]), nil
                        }
                    }
                }
            case 0: // UTF-16LE
                if endian != bigEndian {
                    if i+1 < len(data) {
                        i++
                        if data[i] == '\x00' {
                            endian = littleEndian
                            // We have a full newline-terminated line.
                            return i + 1, dropCRLE(data[0 : i-1]), nil
                        }
                    }
                }
            }
            i++
        }

        // If we're at EOF, we have a final, non-terminated line. Return it.
        if atEOF {
            // drop CR.
            advance = len(data)
            switch endian {
            case bigEndian:
                data = dropCRBE(data)
            case littleEndian:
                data = dropCRLE(data)
            default:
                data, endian = dropCR(data)
            }
            if endian == unknownEndian {
                if runtime.GOOS == "windows" {
                    endian = littleEndian
                } else {
                    endian = bigEndian
                }
            }
            return advance, data, nil
        }

        // Request more data.
        return 0, nil, nil
    }

    // Endian byte order function
    orderFunc := func() (byteOrder binary.ByteOrder) {
        switch endian {
        case bigEndian:
            byteOrder = binary.BigEndian
        case littleEndian:
            byteOrder = binary.LittleEndian
        }
        return byteOrder
    }

    return splitFunc, orderFunc
}

func main() {
    file, err := os.Open("utf16.le.txt")
    if err != nil {
        fmt.Println(err)
        os.Exit(1)
    }
    defer file.Close()
    fmt.Println(file.Name())

    rdr := bufio.NewReader(file)
    scanner := bufio.NewScanner(rdr)
    var bo binary.ByteOrder // unknown, infer from data
    // bo = binary.LittleEndian // windows
    splitFunc, orderFunc := ScanUTF16LinesFunc(bo)
    scanner.Split(splitFunc)

    for scanner.Scan() {
        b := scanner.Bytes()
        s := UTF16BytesToString(b, orderFunc())
        fmt.Println(len(s), s)
        fmt.Println(len(b), b)
    }
    fmt.Println(orderFunc())

    if err := scanner.Err(); err != nil {
        fmt.Println(err)
    }
}

输出:

utf16.le.txt
15 "Hello, 世界"
22 [34 0 72 0 101 0 108 0 108 0 111 0 44 0 32 0 22 78 76 117 34 0]
0 
0 []
15 "Hello, 世界"
22 [34 0 72 0 101 0 108 0 108 0 111 0 44 0 32 0 22 78 76 117 34 0]
LittleEndian

utf16.be.txt
15 "Hello, 世界"
22 [0 34 0 72 0 101 0 108 0 108 0 111 0 44 0 32 78 22 117 76 0 34]
0 
0 []
15 "Hello, 世界"
22 [0 34 0 72 0 101 0 108 0 108 0 111 0 44 0 32 78 22 117 76 0 34]
BigEndian
2020-07-02