【问题标题】:Implementing String.Format() in VB6在 VB6 中实现 String.Format()
【发布时间】:2013-01-10 03:47:24
【问题描述】:

String.Format() 是否可以在 VB6 中实现,至少是一个足够接近的版本,在使用良好的 VB6 编程时可能有用?

关于 VB6 字符串操作性能的好资源:http://www.aivosto.com/vbtips/stringopt2.html

在一个相关的问题上,我还想出了几个字符串比较函数,找到它们here on CodeReview.SE

这些函数对于提高 VB6 的可读性非常有用,特别是如果您最近被 .net 代码宠坏了,突然需要深入研究 VB6 代码库...享受吧!

【问题讨论】:

  • “足够接近”是指不使用 CultureInfo 参数(更不用说 IFormatProvider)作为本地化的版本比字符串格式更受关注。
  • 为什么不在用 VB.Net 或 C# 编写的 COM 可见 DLL 中公开 string.format 并从 VB6 调用它?

标签: string vba vb6 string-formatting


【解决方案1】:

我在任何地方都找不到,所以我自己做了一个:

Public PADDING_CHAR As String

Public Function StringFormat(format_string As String, ParamArray values()) As String
'VB6 implementation of .net String.Format(), slightly customized.
'Tested with Office 2010 VBA (x64)

        Dim return_value As String
        Dim values_count As Integer

        'some error-handling constants:
        Const ERR_FORMAT_EXCEPTION As Long = vbObjectError Or 9001
        Const ERR_ARGUMENT_NULL_EXCEPTION As Long = vbObjectError Or 9002
        Const ERR_SOURCE As String = "StringFormat"
        Const ERR_MSG_INVALID_FORMAT_STRING As String = "Invalid format string."
        Const ERR_MSG_FORMAT_EXCEPTION As String = "The number indicating an argument to format is less than zero, or greater than or equal to the length of the args array."

        'use SPACE as default padding character
        If PADDING_CHAR = vbNullString Then PADDING_CHAR = Chr$(32)

        'figure out number of passed values:
        values_count = UBound(values) + 1

        Dim regex As RegExp
        Dim matches As MatchCollection
        Dim thisMatch As Match
        Dim thisString As String
        Dim thisFormat As String

        'when format_string starts with "@", escapes are not replaced 
        '(string is treated as a literal string with placeholders)        
        Dim useLiteral As Boolean 
        Dim escapeHex As Boolean 'indicates whether HEX specifier "0x" is to be escaped or not
        'validate string_format:
        Set regex = New RegExp
        regex.Pattern = "{({{)*(\w+)(,-?\d+)?(:[^}]+)?}(}})*"
        regex.IgnoreCase = True
        regex.Global = True
        Set matches = regex.Execute(format_string)

        'determine if values_count matches number of unique regex matches:
        Dim uniqueCount As Integer
        Dim tmpCSV As String
        For Each thisMatch In matches
            If Not StringContains(tmpCSV, thisMatch.SubMatches(1)) Then
                uniqueCount = uniqueCount + 1
                tmpCSV = tmpCSV & thisMatch.SubMatches(1) & ","
            End If
        Next

        'unique indices count must match values_count:
        If matches.Count > 0 And uniqueCount <> values_count Then _
            Err.Raise ERR_FORMAT_EXCEPTION, _
            ERR_SOURCE, ERR_MSG_FORMAT_EXCEPTION

        useLiteral = StringStartsWith("@", format_string)

        'remove the "@" literal specifier
        If useLiteral Then format_string = Right(format_string, Len(format_string) - 1)

        If Not useLiteral And StringContains(format_string, "\\") Then _
            format_string = Replace(format_string, "\\", Chr$(27))

        If StringContains(format_string, "\\") Then _
            format_string = Replace(format_string, "\\", Chr$(27))

        If matches.Count = 0 And format_string <> vbNullString And UBound(values) = -1 Then
        'only format_string was specified: skip to checking escape sequences:
            return_value = format_string
            GoTo checkEscapes
        ElseIf UBound(values) = -1 And matches.Count > 0 Then
            Err.Raise ERR_ARGUMENT_NULL_EXCEPTION, _
                ERR_SOURCE, ERR_MSG_FORMAT_EXCEPTION
        End If

        return_value = format_string

        'dissect format_string:

        Dim i As Integer, v As String, p As String 'i: iterator; v: value; p: placeholder
        Dim alignmentGroup As String, alignmentSpecifier As String
        Dim formattedValue As String, alignmentPadding As Integer

        'iterate regex matches (each match is a placeholder):
        For i = 0 To matches.Count - 1

            'get the placeholder specified index:
            Set thisMatch = matches(i)
            p = thisMatch.SubMatches(1)

            'if specified index (0-based) > uniqueCount (1-based), something's wrong:
            If p > uniqueCount - 1 Then _
                Err.Raise ERR_FORMAT_EXCEPTION, _
                ERR_SOURCE, ERR_MSG_FORMAT_EXCEPTION
            v = values(p)

            'get the alignment specifier if it is specified:
            alignmentGroup = thisMatch.SubMatches(2)
            If alignmentGroup <> vbNullString Then _
                alignmentSpecifier = Right$(alignmentGroup, LenB(alignmentGroup) / 2 - 1)


            'get the format specifier if it is specified:
            thisString = thisMatch.Value
            If StringContains(thisString, ":") Then

                Dim formatGroup As String, precisionSpecifier As Integer
                Dim formatSpecifier As String, precisionString As String

                'get the string between ":" and "}":
                formatGroup = Mid$(thisString, InStr(1, thisString, ":") + 1, (LenB(thisString) / 2) - 2)
                formatGroup = Left$(formatGroup, LenB(formatGroup) / 2 - 1)

                precisionString = Right$(formatGroup, LenB(formatGroup) / 2 - 1)
                formatSpecifier = Mid$(thisString, InStr(1, thisString, ":") + 1, 1)

                'applicable formatting depends on the type of the value (yes, GOTO!!):
                If TypeName(values(p)) = "Date" Then GoTo DateTimeFormatSpecifiers
                If v = vbNullString Then GoTo ApplyStringFormat

NumberFormatSpecifiers:
                If precisionString <> vbNullString And Not IsNumeric(precisionString) Then _
                    Err.Raise ERR_FORMAT_EXCEPTION, _
                        ERR_SOURCE, ERR_MSG_INVALID_FORMAT_STRING

                If precisionString = vbNullString Then precisionString = 0

                Select Case formatSpecifier

                    Case "C", "c" 'CURRENCY format, formats string as currency.
                    'Precision specifier determines number of decimal digits.
                    'This implementation ignores regional settings
                    '(hard-coded group separator, decimal separator and currency sign).

                    precisionSpecifier = CInt(precisionString)
                    thisFormat = "#,##0.$"

                    If LenB(formatGroup) > 2 And precisionSpecifier > 0 Then 
                        'if a non-zero precision is specified...
                        thisFormat = _
                        Replace$(thisFormat, ".", "." & String$(precisionString, Chr$(48)))
                    End If


                    Case "D", "d" 'DECIMAL format, formats string as integer number.
                    'Precision specifier determines number of digits in returned string.


                    precisionSpecifier = CInt(precisionString)
                    thisFormat = "0"
                    thisFormat = Right$(String$(precisionSpecifier, "0") & thisFormat, _
                        IIf(precisionSpecifier = 0, Len(thisFormat), precisionSpecifier))


                    Case "E", "e" 'EXPONENTIAL NOTATION format (aka "Scientific Notation")
                    'Precision specifier determines number of decimals in returned string.
                    'This implementation ignores regional settings'
                    '(hard-coded decimal separator).


                    precisionSpecifier = CInt(precisionString)
                    thisFormat = "0.00000#" & formatSpecifier & "-#" 'defaults to 6 decimals

                    If LenB(formatGroup) > 2 And precisionSpecifier > 0 Then
                        'if a non-zero precision is specified...
                        thisFormat = "0." & String$(precisionSpecifier - 1, Chr$(48)) & "#" & formatSpecifier & "-#"

                    ElseIf LenB(formatGroup) > 2 And precisionSpecifier = 0 Then
                        Err.Raise ERR_FORMAT_EXCEPTION, _
                            ERR_SOURCE, ERR_MSG_INVALID_FORMAT_STRING
                    End If


                    Case "F", "f" 'FIXED-POINT format
                    'Precision specifier determines number of decimals in returned string.
                    'This implementation ignores regional settings'
                    '(hard-coded decimal separator).

                    precisionSpecifier = CInt(precisionString)
                    thisFormat = "0"
                    If LenB(formatGroup) > 2 And precisionSpecifier > 0 Then
                        'if a non-zero precision is specified...
                        thisFormat = (thisFormat & ".") & String$(precisionSpecifier, Chr$(48))
                    Else
                        'no precision specified - default to 2 decimals:
                        thisFormat = "0.00"
                    End If


                    Case "G", "g" 'GENERAL format (recursive)
                    'returns the shortest of either FIXED-POINT or SCIENTIFIC formats in case of a Double.
                    'returns DECIMAL format in case of a Integer or Long.

                    Dim eNotation As String, ePower As Integer, specifier As String
                    precisionSpecifier = IIf(CInt(precisionString) > 0, CInt(precisionString), _
                        IIf(StringContains(v, "."), Len(v) - InStr(1, v, "."), 0))

                    'track character case of formatSpecifier:
                    specifier = IIf(formatSpecifier = "G", "D", "d")

                    If TypeName(values(p)) = "Integer" Or TypeName(values(p)) = "Long" Then
                        'Integer types: use {0:D} (recursive call):
                        formattedValue = StringFormat("{0:" & specifier & "}", values(p))

                    ElseIf TypeName(values(p)) = "Double" Then
                        'Non-integer types: use {0:E}
                        specifier = IIf(formatSpecifier = "G", "E", "e")

                        'evaluate the exponential notation value (recursive call):
                        eNotation = StringFormat("{0:" & specifier & "}", v)

                        'get the power of eNotation:
                        ePower = Mid$(eNotation, InStr(1, UCase$(eNotation), "E-") + 1, Len(eNotation) - InStr(1, UCase$(eNotation), "E-"))

                        If ePower > -5 And Abs(ePower) < precisionSpecifier Then
                            'use {0:F} when ePower > -5 and abs(ePower) < precisionSpecifier:
                            'evaluate the floating-point value (recursive call):
                             specifier = IIf(formatSpecifier = "G", "F", "f")
                             formattedValue = StringFormat("{0:" & formatSpecifier & _
                                 IIf(precisionSpecifier <> 0, precisionString, vbNullString) & "}", values(p))
                        Else
                            'fallback to {0:E} if previous rule didn't apply:
                            formattedValue = eNotation
                        End If

                    End If

                    GoTo AlignFormattedValue 'Skip the "ApplyStringFormat" step, it's applied already.


                    Case "N", "n" 'NUMERIC format, formats string as an integer or decimal number.
                    'Precision specifier determines number of decimal digits.
                    'This implementation ignores regional settings'
                    '(hard-coded group and decimal separators).

                    precisionSpecifier = CInt(precisionString)
                    If LenB(formatGroup) > 2 And precisionSpecifier > 0 Then
                        'if a non-zero precision is specified...
                        thisFormat = "#,##0"
                        thisFormat = (thisFormat & ".") & String$(precisionSpecifier, Chr$(48))

                    Else 'only the "D" is specified
                        thisFormat = "#,##0"
                    End If


                    Case "P", "p" 'PERCENT format. Formats string as a percentage.
                    'Value is multiplied by 100 and displayed with a percent symbol.
                    'Precision specifier determines number of decimal digits.

                    thisFormat = "#,##0%"
                    precisionSpecifier = CInt(precisionString)
                    If LenB(formatGroup) > 2 And precisionSpecifier > 0 Then
                        'if a non-zero precision is specified...
                        thisFormat = "#,##0"
                        thisFormat = (thisFormat & ".") & String$(precisionSpecifier, Chr$(48))

                    Else 'only the "P" is specified
                        thisFormat = "#,##0"
                    End If

                    'Append the percentage sign to the format string:
                    thisFormat = thisFormat & "%"


                    Case "R", "r" 'ROUND-TRIP format (a string that can round-trip to an identical number)
                    'example: ?StringFormat("{0:R}", 0.0000000001141596325677345362656)
                    '         ...returns "0.000000000114159632567735"

                    'convert value to a Double (chop off overflow digits):
                    v = CDbl(v)


                    Case "X", "x" 'HEX format. Formats a string as a Hexadecimal value.
                    'Precision specifier determines number of total digits.
                    'Returned string is prefixed with "&H" to specify Hex.

                    v = Hex(v)
                    precisionSpecifier = CInt(precisionString)

                    If LenB(precisionString) > 0 Then 'precision here stands for left padding
                        v = Right$(String$(precisionSpecifier, "0") & v, IIf(precisionSpecifier = 0, Len(v), precisionSpecifier))
                    End If

                    'add C# hex specifier, apply specified casing:
                    '(VB6 hex specifier would cause Format() to reverse the formatting):
                    v = "0x" & IIf(formatSpecifier = "X", UCase$(v), LCase$(v))


                    Case Else

                        If IsNumeric(formatSpecifier) And val(formatGroup) = 0 Then
                            formatSpecifier = formatGroup
                            v = Format(v, formatGroup)
                        Else
                            Err.Raise ERR_FORMAT_EXCEPTION, _
                                ERR_SOURCE, ERR_MSG_INVALID_FORMAT_STRING
                        End If
                End Select

                GoTo ApplyStringFormat


DateTimeFormatSpecifiers:
                Select Case formatSpecifier

                    Case "c", "C" 'CUSTOM date/time format
                    'let VB Format() parse precision specifier as is:
                        thisFormat = precisionString

                    Case "d" 'SHORT DATE format
                        thisFormat = "ddddd" 

                    Case "D" 'LONG DATE format
                        thisFormat = "dddddd"

                    Case "f" 'FULL DATE format (short)
                        thisFormat = "dddddd h:mm AM/PM"

                    Case "F" 'FULL DATE format (long)
                        thisFormat = "dddddd ttttt"

                    Case "g"
                        thisFormat = "ddddd hh:mm AM/PM"

                    Case "G"
                        thisFormat = "ddddd ttttt"

                    Case "s" 'SORTABLE DATETIME format
                        thisFormat = "yyyy-mm-ddThh:mm:ss"

                    Case "t" 'SHORT TIME format
                        thisFormat = "hh:mm AM/PM"

                    Case "T" 'LONG TIME format
                        thisFormat = "ttttt"

                    Case Else
                        Err.Raise ERR_FORMAT_EXCEPTION, _
                            ERR_SOURCE, ERR_MSG_INVALID_FORMAT_STRING
                End Select
                GoTo ApplyStringFormat

            End If


ApplyStringFormat:
            'apply computed format string:
            formattedValue = Format(v, thisFormat)


AlignFormattedValue:
            'apply specified alignment specifier:
            If alignmentSpecifier <> vbNullString Then

                alignmentPadding = Abs(CInt(alignmentSpecifier))
                If CInt(alignmentSpecifier) < 0 Then
                    'negative: left-justified alignment
                    If alignmentPadding - Len(formattedValue) > 0 Then _
                        formattedValue = formattedValue & _
                            String$(alignmentPadding - Len(formattedValue), PADDING_CHAR)
                Else
                    'positive: right-justified alignment
                    If alignmentPadding - Len(formattedValue) > 0 Then _
                        formattedValue = String$(alignmentPadding - Len(formattedValue), PADDING_CHAR) & formattedValue
                End If
            End If

            'Replace C# hex specifier with VB6 hex specifier, 
            'only if hex specifier was introduced in this function:
            If (Not useLiteral And escapeHex) And _
                StringContains(formattedValue, "0x") Then _
            formattedValue = Replace$(formattedValue, "0x", "&H")

            'replace all occurrences of placeholder {i} with their formatted values:
            return_value = Replace(return_value, thisString, formattedValue, Count:=1)

            'reset before reiterating:
            thisFormat = vbNullString
        Next


checkEscapes:
        'if there's no more backslashes, don't bother checking for the rest:
        If useLiteral Or Not StringContains(return_value, "\") Then GoTo normalExit

        Dim escape As New EscapeSequence
        Dim escapes As New Collection
        escapes.Add escape.Create("\n", vbNewLine), "0"
        escapes.Add escape.Create("\q", Chr$(34)), "1"
        escapes.Add escape.Create("\t", vbTab), "2"
        escapes.Add escape.Create("\a", Chr$(7)), "3"
        escapes.Add escape.Create("\b", Chr$(8)), "4"
        escapes.Add escape.Create("\v", Chr$(13)), "5"
        escapes.Add escape.Create("\f", Chr$(14)), "6"
        escapes.Add escape.Create("\r", Chr$(15)), "7"

        For i = 0 To escapes.Count - 1
            Set escape = escapes(CStr(i))
            If StringContains(return_value, escape.EscapeString) Then _
                return_value = Replace(return_value, escape.EscapeString, escape.ReplacementString)

            If Not StringContains(return_value, "\") Then _
                GoTo normalExit
        Next

        'replace "ASCII (oct)" escape sequence
        Set regex = New RegExp
        regex.Pattern = "\\(\d{3})"
        regex.IgnoreCase = True
        regex.Global = True
        Set matches = regex.Execute(format_string)

        Dim char As Long
        If matches.Count <> 0 Then
            For Each thisMatch In matches
                p = thisMatch.SubMatches(0)
                '"p" contains the octal number representing the ASCII code we're after:
                p = "&O" & p 'prepend octal prefix
                char = CLng(p)
                return_value = Replace(return_value, thisMatch.Value, Chr$(char))
            Next
        End If

        'if there's no more backslashes, don't bother checking for the rest:
        If Not StringContains("\", return_value) Then GoTo normalExit

        'replace "ASCII (hex)" escape sequence
        Set regex = New RegExp
        regex.Pattern = "\\x(\w{2})"
        regex.IgnoreCase = True
        regex.Global = True
        Set matches = regex.Execute(format_string)

        If matches.Count <> 0 Then
            For Each thisMatch In matches
                p = thisMatch.SubMatches(0)
                '"p" contains the hex value representing the ASCII code we're after:
                p = "&H" & p 'prepend hex prefix
                char = CLng(p)
                return_value = Replace(return_value, thisMatch.Value, Chr$(char))
            Next
        End If

normalExit:
        Set escapes = Nothing
        Set escape = Nothing
        If Not useLiteral And StringContains(return_value, Chr$(27)) Then _
            return_value = Replace(return_value, Chr$(27), "\")
        StringFormat = return_value
End Function

注意方法签名中的ParamArray(感谢@wqw):这样做可以避免使用多个可选参数(以及在命名参数时能够分配value2而不分配value1的使用错误调用语句)。因为它是ParamArray,所以各个值都是Variant,这意味着每个参数都可以是不同的类型,VB 在后台进行字符串转换。

然后可以像这样使用该函数:

?StringFormat("(C) Currency: . . . . . . . . {0:C}\n" & _
    "(D) Decimal:. . . . . . . . . {0:D}\n" & _
    "(E) Scientific: . . . . . . . {1:E}\n" & _
    "(F) Fixed point:. . . . . . . {1:F}\n" & _
    "(N) Number: . . . . . . . . . {0:N}\n" & _
    "(P) Percent:. . . . . . . . . {1:P}\n" & _
    "(R) Round-trip: . . . . . . . {1:R}\n" & _
    "(X) Hexadecimal:. . . . . . . {0:X}\n",-123, -123.45)

输出:

(C) Currency: . . . . . . . . -123.00$
(D) Decimal:. . . . . . . . . -123
(E) Scientific: . . . . . . . -1.23450E2
(F) Fixed point:. . . . . . . -123
(N) Number: . . . . . . . . . -123
(P) Percent:. . . . . . . . . -12,345%
(R) Round-trip: . . . . . . . -123.45
(X) Hexadecimal:. . . . . . . &HFFFFFF85

还有这样的:

?StringFormat("(c) Custom format: . . . . . .{0:cYYYY-MM-DD (MMMM)}\n" & _
    "(d) Short date: . . . . . . . {0:d}\n" & _
    "(D) Long date:. . . . . . . . {0:D}\n" & _
    "(T) Long time:. . . . . . . . {0:T}\n" & _
    "(f) Full date/short time: . . {0:f}\n" & _
    "(F) Full date/long time:. . . {0:F}\n" & _
    "(s) Sortable: . . . . . . . . {0:s}\n", Now())

输出:

(c) Custom format: . . . . . .2013-01-26 (January)
(d) Short date: . . . . . . . 1/26/2013
(D) Long date:. . . . . . . . Saturday, January 26, 2013
(T) Long time:. . . . . . . . 8:28:11 PM
(f) Full date/short time: . . 1/26/2013 8:28:11 PM
(F) Full date/long time:. . . Saturday, January 26, 2013 8:28:11 PM
(s) Sortable: . . . . . . . . 2013-01-26T20:28:11

还可以指定对齐方式(/填充)并使用转义序列:

?StringFormat ("\q{0}, {1}!\x20\n'{2,10:C2}'\n'{2,-10:C2}'", "hello", "world", 100)

"hello, world!"
'   100.00$'
'100.00$   '

查看来自http://msdn.microsoft.com/fr-fr/library/b1csw23d(v=vs.80).aspx 的示例,只有少数格式说明符未实现,主要是日期/时间说明符...但我认为“c”自定义日期/时间格式说明符可以弥补。

该函数使用String.Contains() 的简单实现:

Public Function StringContains(string_source As String, find_text As String, _
    Optional ByVal caseSensitive As Boolean = True) As Boolean
    StringContains = StringContainsAny(string_source, caseSensitive, find_text)
End Function

编辑:此代码现在可以正确处理“\\”转义,如 cmets 中所述。此外,虽然StringContains 确实很实用,并且比InStr() 调用更舒适,但下面的StringContainsAny 函数甚至更好:

Public Function StringContainsAny(string_source As String, ByVal caseSensitive As Boolean, _
    ParamArray find_values()) As Boolean

    Dim i As Integer, found As Boolean
    If caseSensitive Then
        For i = LBound(find_values) To UBound(find_values)
            found = (InStr(1, string_source, _
                find_values(i), vbBinaryCompare) <> 0)
            If found Then Exit For
        Next
    Else
        For i = LBound(find_values) To UBound(find_values)
            StringContainsAny = (InStr(1, LCase$(string_source), _ 
                LCase$(find_values(i)),   vbBinaryCompare) <> 0)
            If found Then Exit For
        Next
    End If
    StringContainsAny = found
End Function

考虑以下几点:

foo = Instr(1, source, "value1") > 0 Or Instr(1, source, "value2") > 0 _
   Or Instr(1, source, "value3") > 0 Or Instr(1, source, "value4") > 0 _
   Or Instr(1, source, "value5") > 0 Or Instr(1, source, "value6") > 0 _

在 VB 确定fooTRUE 还是FALSE 之前,每个InStr() 调用都会进行。但是对于 StringContainsAny(),条件满足于找到的第一个值,这使得它的语句更快。

编辑:以前的编辑几乎消除了转义序列;恢复它们,使用一个小类“EscapeSequence”公开两个属性和一个工厂方法 - 这样做可以保持 for-each 循环并处理所有简单的转义,而无需复制太多代码。

这段代码还使用了StringStartsWith 函数,实现如下:

Public Function StringStartsWith(ByVal find_text As String, ByVal string_source As String, Optional ByVal caseSensitive As Boolean = True) As Boolean

    If caseSensitive Then
        StringStartsWith = (Left$(string_source, LenB(find_text) / 2) = find_text)
    Else
        StringStartsWith = (Left$(LCase(string_source), LenB(find_text) / 2) = LCase$(find_text))
    End If

End Function

【讨论】:

  • 试试StringFormat(format_string As String, ParamAray values() As String) 而不是那些可选参数。
  • @wqw +1 但正确的方法签名应该是StringFormat(ByVal format_string As String, ParamArray values()) As String,因为必须将ParamArray 声明为Variant 的数组才能编译(未指定的声明类型意味着Variant) .但是 100% 与你同在,ParamArray 对这种用途来说是一种魔力,老实说,这是我第一次成功使用它。我将编辑我的答案,它使用多个可选参数破坏了“重载”的目的。如何避免可选参数的好例子。
  • 不在使用示例中:支持的转义序列\t(制表符)、\q(“双引号”)、\a(“铃铛”)、\b(退格)、@ 987654357@(垂直制表符)、\f(换页)和\r(回车),以及\000 八进制ASCII 插入和\xhh 十六进制ASCII 插入。
  • 如果有人想知道,我使用格式字符串中的 1 个占位符和一个常量值进行了一些性能测试,10 次 10,000 次迭代平均为每次调用约 0.25 秒。再次使用三个占位符(一个带有填充)和两个(不同的)转义序列,平均每次调用大约 0.27 秒。在常量上运行“{0,10}”比应用简单的填充慢大约 100 倍,但考虑到它所做的一切以及它如何影响 VB6 代码的可读性,我认为它是赢家......或者是吗?
  • @RobSedgwick 您可以在 Code Review 上找到它,以及完全矫枉过正(但实现起来很有趣!)OOP 重写(性能更好,看起来也更干净)。
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