libphobos/src/std/ascii.d - gcc - Git at Google

 // Written in the D programming language.

 /++
     Functions which operate on ASCII characters.

     All of the functions in std.ascii accept Unicode characters but
     effectively ignore them if they're not ASCII. All `isX` functions return
     `false` for non-ASCII characters, and all `toX` functions do nothing
     to non-ASCII characters.

     For functions which operate on Unicode characters, see
     $(MREF std, uni).

 $(SCRIPT inhibitQuickIndex = 1;)
 $(DIVC quickindex,
 $(BOOKTABLE,
 $(TR $(TH Category) $(TH Functions))
 $(TR $(TD Validation) $(TD
         $(LREF isAlpha)
         $(LREF isAlphaNum)
         $(LREF isASCII)
         $(LREF isControl)
         $(LREF isDigit)
         $(LREF isGraphical)
         $(LREF isHexDigit)
         $(LREF isOctalDigit)
         $(LREF isPrintable)
         $(LREF isPunctuation)
         $(LREF isUpper)
         $(LREF isWhite)
 ))
 $(TR $(TD Conversions) $(TD
         $(LREF toLower)
         $(LREF toUpper)
 ))
 $(TR $(TD Constants) $(TD
         $(LREF digits)
         $(LREF fullHexDigits)
         $(LREF hexDigits)
         $(LREF letters)
         $(LREF lowercase)
         $(LREF lowerHexDigits)
         $(LREF newline)
         $(LREF octalDigits)
         $(LREF uppercase)
         $(LREF whitespace)
 ))
 $(TR $(TD Enums) $(TD
         $(LREF ControlChar)
         $(LREF LetterCase)
 ))
 ))
     References:
         $(LINK2 http://www.digitalmars.com/d/ascii-table.html, ASCII Table),
         $(HTTP en.wikipedia.org/wiki/Ascii, Wikipedia)

     License:   $(HTTP www.boost.org/LICENSE_1_0.txt, Boost License 1.0).
     Authors:   $(HTTP digitalmars.com, Walter Bright) and
                $(HTTP jmdavisprog.com, Jonathan M Davis)
     Source:    $(PHOBOSSRC std/ascii.d)
   +/
 module std.ascii;

 immutable fullHexDigits  = "0123456789ABCDEFabcdef";     /// 0 .. 9A .. Fa .. f
 immutable hexDigits      = fullHexDigits[0 .. 16];         /// 0 .. 9A .. F
 immutable lowerHexDigits = "0123456789abcdef";           /// 0 .. 9a .. f
 immutable digits         = hexDigits[0 .. 10];             /// 0 .. 9
 immutable octalDigits    = digits[0 .. 8];                 /// 0 .. 7
 immutable letters        = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"; /// A .. Za .. z
 immutable uppercase      = letters[0 .. 26];               /// A .. Z
 immutable lowercase      = letters[26 .. 52];              /// a .. z
 immutable whitespace     = " \t\v\r\n\f";                /// ASCII _whitespace

 /++
     Letter case specifier.
   +/
 enum LetterCase : bool
 {
     upper, /// Upper case letters
     lower  /// Lower case letters
 }

 ///
 @safe unittest
 {
     import std.conv : to;

     assert(42.to!string(16, LetterCase.upper) == "2A");
     assert(42.to!string(16, LetterCase.lower) == "2a");
 }

 ///
 @safe unittest
 {
     import std.digest.hmac : hmac;
     import std.digest : toHexString;
     import std.digest.sha : SHA1;
     import std.string : representation;

     const sha1HMAC = "A very long phrase".representation
         .hmac!SHA1("secret".representation)
         .toHexString!(LetterCase.lower);
     assert(sha1HMAC == "49f2073c7bf58577e8c9ae59fe8cfd37c9ab94e5");
 }

 /++
     All control characters in the ASCII table ($(HTTPS www.asciitable.com, source)).
 +/
 enum ControlChar : char
 {
     nul = '\x00', /// Null
     soh = '\x01', /// Start of heading
     stx = '\x02', /// Start of text
     etx = '\x03', /// End of text
     eot = '\x04', /// End of transmission
     enq = '\x05', /// Enquiry
     ack = '\x06', /// Acknowledge
     bel = '\x07', /// Bell
     bs  = '\x08', /// Backspace
     tab = '\x09', /// Horizontal tab
     lf  = '\x0A', /// NL line feed, new line
     vt  = '\x0B', /// Vertical tab
     ff  = '\x0C', /// NP form feed, new page
     cr  = '\x0D', /// Carriage return
     so  = '\x0E', /// Shift out
     si  = '\x0F', /// Shift in
     dle = '\x10', /// Data link escape
     dc1 = '\x11', /// Device control 1
     dc2 = '\x12', /// Device control 2
     dc3 = '\x13', /// Device control 3
     dc4 = '\x14', /// Device control 4
     nak = '\x15', /// Negative acknowledge
     syn = '\x16', /// Synchronous idle
     etb = '\x17', /// End of transmission block
     can = '\x18', /// Cancel
     em  = '\x19', /// End of medium
     sub = '\x1A', /// Substitute
     esc = '\x1B', /// Escape
     fs  = '\x1C', /// File separator
     gs  = '\x1D', /// Group separator
     rs  = '\x1E', /// Record separator
     us  = '\x1F', /// Unit separator
     del = '\x7F' /// Delete
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     import std.algorithm.comparison, std.algorithm.searching, std.range, std.traits;

     // Because all ASCII characters fit in char, so do these
     static assert(ControlChar.ack.sizeof == 1);

     // All control characters except del are in row starting from 0
     static assert(EnumMembers!ControlChar.only.until(ControlChar.del).equal(iota(32)));

     static assert(ControlChar.nul == '\0');
     static assert(ControlChar.bel == '\a');
     static assert(ControlChar.bs  == '\b');
     static assert(ControlChar.ff  == '\f');
     static assert(ControlChar.lf  == '\n');
     static assert(ControlChar.cr  == '\r');
     static assert(ControlChar.tab == '\t');
     static assert(ControlChar.vt  == '\v');
 }

 ///
 @safe pure nothrow unittest
 {
     import std.conv;
     //Control character table can be used in place of hexcodes.
     with (ControlChar) assert(text("Phobos", us, "Deimos", us, "Tango", rs) == "Phobos\x1FDeimos\x1FTango\x1E");
 }

 /// Newline sequence for this system.
 version (Windows)
     immutable newline = "\r\n";
 else version (Posix)
     immutable newline = "\n";
 else
     static assert(0, "Unsupported OS");


 /++
     Params: c = The character to test.
     Returns: Whether `c` is a letter or a number (0 .. 9, a .. z, A .. Z).
   +/
 bool isAlphaNum(dchar c) @safe pure nothrow @nogc
 {
     return c <= 'z' && c >= '0' && (c <= '9' || c >= 'a' || (c >= 'A' && c <= 'Z'));
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     assert( isAlphaNum('A'));
     assert( isAlphaNum('1'));
     assert(!isAlphaNum('#'));

     // N.B.: does not return true for non-ASCII Unicode alphanumerics:
     assert(!isAlphaNum('á'));
 }

 @safe unittest
 {
     import std.range;
     foreach (c; chain(digits, octalDigits, fullHexDigits, letters, lowercase, uppercase))
         assert(isAlphaNum(c));

     foreach (c; whitespace)
         assert(!isAlphaNum(c));
 }


 /++
     Params: c = The character to test.
     Returns: Whether `c` is an ASCII letter (A .. Z, a .. z).
   +/
 bool isAlpha(dchar c) @safe pure nothrow @nogc
 {
     // Optimizer can turn this into a bitmask operation on 64 bit code
     return (c >= 'A' && c <= 'Z') || (c >= 'a' && c <= 'z');
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     assert( isAlpha('A'));
     assert(!isAlpha('1'));
     assert(!isAlpha('#'));

     // N.B.: does not return true for non-ASCII Unicode alphabetic characters:
     assert(!isAlpha('á'));
 }

 @safe unittest
 {
     import std.range;
     foreach (c; chain(letters, lowercase, uppercase))
         assert(isAlpha(c));

     foreach (c; chain(digits, octalDigits, whitespace))
         assert(!isAlpha(c));
 }


 /++
     Params: c = The character to test.
     Returns: Whether `c` is a lowercase ASCII letter (a .. z).
   +/
 bool isLower(dchar c) @safe pure nothrow @nogc
 {
     return c >= 'a' && c <= 'z';
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     assert( isLower('a'));
     assert(!isLower('A'));
     assert(!isLower('#'));

     // N.B.: does not return true for non-ASCII Unicode lowercase letters
     assert(!isLower('á'));
     assert(!isLower('Á'));
 }

 @safe unittest
 {
     import std.range;
     foreach (c; lowercase)
         assert(isLower(c));

     foreach (c; chain(digits, uppercase, whitespace))
         assert(!isLower(c));
 }


 /++
     Params: c = The character to test.
     Returns: Whether `c` is an uppercase ASCII letter (A .. Z).
   +/
 bool isUpper(dchar c) @safe pure nothrow @nogc
 {
     return c <= 'Z' && 'A' <= c;
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     assert( isUpper('A'));
     assert(!isUpper('a'));
     assert(!isUpper('#'));

     // N.B.: does not return true for non-ASCII Unicode uppercase letters
     assert(!isUpper('á'));
     assert(!isUpper('Á'));
 }

 @safe unittest
 {
     import std.range;
     foreach (c; uppercase)
         assert(isUpper(c));

     foreach (c; chain(digits, lowercase, whitespace))
         assert(!isUpper(c));
 }


 /++
     Params: c = The character to test.
     Returns: Whether `c` is a digit (0 .. 9).
   +/
 bool isDigit(dchar c) @safe pure nothrow @nogc
 {
     return '0' <= c && c <= '9';
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     assert( isDigit('3'));
     assert( isDigit('8'));
     assert(!isDigit('B'));
     assert(!isDigit('#'));

     // N.B.: does not return true for non-ASCII Unicode numbers
     assert(!isDigit('０')); // full-width digit zero (U+FF10)
     assert(!isDigit('４')); // full-width digit four (U+FF14)
 }

 @safe unittest
 {
     import std.range;
     foreach (c; digits)
         assert(isDigit(c));

     foreach (c; chain(letters, whitespace))
         assert(!isDigit(c));
 }


 /++
     Params: c = The character to test.
     Returns: Whether `c` is a digit in base 8 (0 .. 7).
   +/
 bool isOctalDigit(dchar c) @safe pure nothrow @nogc
 {
     return c >= '0' && c <= '7';
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     assert( isOctalDigit('0'));
     assert( isOctalDigit('7'));
     assert(!isOctalDigit('8'));
     assert(!isOctalDigit('A'));
     assert(!isOctalDigit('#'));
 }

 @safe unittest
 {
     import std.range;
     foreach (c; octalDigits)
         assert(isOctalDigit(c));

     foreach (c; chain(letters, ['8', '9'], whitespace))
         assert(!isOctalDigit(c));
 }


 /++
     Params: c = The character to test.
     Returns: Whether `c` is a digit in base 16 (0 .. 9, A .. F, a .. f).
   +/
 bool isHexDigit(dchar c) @safe pure nothrow @nogc
 {
     return c <= 'f' && c >= '0' && (c <= '9' || c >= 'a' || (c >= 'A' && c <= 'F'));
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     assert( isHexDigit('0'));
     assert( isHexDigit('A'));
     assert( isHexDigit('f')); // lowercase hex digits are accepted
     assert(!isHexDigit('g'));
     assert(!isHexDigit('G'));
     assert(!isHexDigit('#'));
 }

 @safe unittest
 {
     import std.range;
     foreach (c; fullHexDigits)
         assert(isHexDigit(c));

     foreach (c; chain(lowercase[6 .. $], uppercase[6 .. $], whitespace))
         assert(!isHexDigit(c));
 }


 /++
     Params: c = The character to test.
     Returns: Whether or not `c` is a whitespace character. That includes the
     space, tab, vertical tab, form feed, carriage return, and linefeed
     characters.
   +/
 bool isWhite(dchar c) @safe pure nothrow @nogc
 {
     return c == ' ' || (c >= 0x09 && c <= 0x0D);
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     assert( isWhite(' '));
     assert( isWhite('\t'));
     assert( isWhite('\n'));
     assert(!isWhite('1'));
     assert(!isWhite('a'));
     assert(!isWhite('#'));

     // N.B.: Does not return true for non-ASCII Unicode whitespace characters.
     static import std.uni;
     assert(std.uni.isWhite('\u00A0'));
     assert(!isWhite('\u00A0')); // std.ascii.isWhite
 }

 @safe unittest
 {
     import std.range;
     foreach (c; whitespace)
         assert(isWhite(c));

     foreach (c; chain(digits, letters))
         assert(!isWhite(c));
 }


 /++
     Params: c = The character to test.
     Returns: Whether `c` is a control character.
   +/
 bool isControl(dchar c) @safe pure nothrow @nogc
 {
     return c < 0x20 || c == 0x7F;
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     assert( isControl('\0'));
     assert( isControl('\022'));
     assert( isControl('\n')); // newline is both whitespace and control
     assert(!isControl(' '));
     assert(!isControl('1'));
     assert(!isControl('a'));
     assert(!isControl('#'));

     // N.B.: non-ASCII Unicode control characters are not recognized:
     assert(!isControl('\u0080'));
     assert(!isControl('\u2028'));
     assert(!isControl('\u2029'));
 }

 @safe unittest
 {
     import std.range;
     foreach (dchar c; 0 .. 32)
         assert(isControl(c));
     assert(isControl(127));

     foreach (c; chain(digits, letters, [' ']))
         assert(!isControl(c));
 }


 /++
     Params: c = The character to test.
     Returns: Whether or not `c` is a punctuation character. That includes
     all ASCII characters which are not control characters, letters, digits, or
     whitespace.
   +/
 bool isPunctuation(dchar c) @safe pure nothrow @nogc
 {
     return c <= '~' && c >= '!' && !isAlphaNum(c);
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     assert( isPunctuation('.'));
     assert( isPunctuation(','));
     assert( isPunctuation(':'));
     assert( isPunctuation('!'));
     assert( isPunctuation('#'));
     assert( isPunctuation('~'));
     assert( isPunctuation('+'));
     assert( isPunctuation('_'));

     assert(!isPunctuation('1'));
     assert(!isPunctuation('a'));
     assert(!isPunctuation(' '));
     assert(!isPunctuation('\n'));
     assert(!isPunctuation('\0'));

     // N.B.: Non-ASCII Unicode punctuation characters are not recognized.
     assert(!isPunctuation('\u2012')); // (U+2012 = en-dash)
 }

 @safe unittest
 {
     foreach (dchar c; 0 .. 128)
     {
         if (isControl(c) || isAlphaNum(c) || c == ' ')
             assert(!isPunctuation(c));
         else
             assert(isPunctuation(c));
     }
 }


 /++
     Params: c = The character to test.
     Returns: Whether or not `c` is a printable character other than the
     space character.
   +/
 bool isGraphical(dchar c) @safe pure nothrow @nogc
 {
     return '!' <= c && c <= '~';
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     assert( isGraphical('1'));
     assert( isGraphical('a'));
     assert( isGraphical('#'));
     assert(!isGraphical(' ')); // whitespace is not graphical
     assert(!isGraphical('\n'));
     assert(!isGraphical('\0'));

     // N.B.: Unicode graphical characters are not regarded as such.
     assert(!isGraphical('á'));
 }

 @safe unittest
 {
     foreach (dchar c; 0 .. 128)
     {
         if (isControl(c) || c == ' ')
             assert(!isGraphical(c));
         else
             assert(isGraphical(c));
     }
 }


 /++
     Params: c = The character to test.
     Returns: Whether or not `c` is a printable character - including the
     space character.
   +/
 bool isPrintable(dchar c) @safe pure nothrow @nogc
 {
     return c >= ' ' && c <= '~';
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     assert( isPrintable(' '));  // whitespace is printable
     assert( isPrintable('1'));
     assert( isPrintable('a'));
     assert( isPrintable('#'));
     assert(!isPrintable('\0')); // control characters are not printable

     // N.B.: Printable non-ASCII Unicode characters are not recognized.
     assert(!isPrintable('á'));
 }

 @safe unittest
 {
     foreach (dchar c; 0 .. 128)
     {
         if (isControl(c))
             assert(!isPrintable(c));
         else
             assert(isPrintable(c));
     }
 }


 /++
     Params: c = The character to test.
     Returns: Whether or not `c` is in the ASCII character set - i.e. in the
     range 0 .. 0x7F.
   +/
 pragma(inline, true)
 bool isASCII(dchar c) @safe pure nothrow @nogc
 {
     return c <= 0x7F;
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     assert( isASCII('a'));
     assert(!isASCII('á'));
 }

 @safe unittest
 {
     foreach (dchar c; 0 .. 128)
         assert(isASCII(c));

     assert(!isASCII(128));
 }


 /++
     Converts an ASCII letter to lowercase.

     Params: c = A character of any type that implicitly converts to `dchar`.
     In the case where it's a built-in type, or an enum of a built-in type,
     `Unqual!(OriginalType!C)` is returned, whereas if it's a user-defined
     type, `dchar` is returned.

     Returns: The corresponding lowercase letter, if `c` is an uppercase
     ASCII character, otherwise `c` itself.
   +/
 auto toLower(C)(C c)
 if (is(C : dchar))
 {
     import std.traits : OriginalType;

     static if (!__traits(isScalar, C))
         alias R = dchar;
     else static if (is(immutable OriginalType!C == immutable OC, OC))
         alias R = OC;

     return isUpper(c) ? cast(R)(cast(R) c + 'a' - 'A') : cast(R) c;
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     assert(toLower('a') == 'a');
     assert(toLower('A') == 'a');
     assert(toLower('#') == '#');

     // N.B.: Non-ASCII Unicode uppercase letters are not converted.
     assert(toLower('Á') == 'Á');
 }

 @safe pure nothrow unittest
 {

     import std.meta;
     static foreach (C; AliasSeq!(char, wchar, dchar, immutable char, ubyte))
     {
         foreach (i, c; uppercase)
             assert(toLower(cast(C) c) == lowercase[i]);

         foreach (C c; 0 .. 128)
         {
             if (c < 'A' || c > 'Z')
                 assert(toLower(c) == c);
             else
                 assert(toLower(c) != c);
         }

         foreach (C c; 128 .. C.max)
             assert(toLower(c) == c);

         //CTFE
         static assert(toLower(cast(C)'a') == 'a');
         static assert(toLower(cast(C)'A') == 'a');
     }
 }


 /++
     Converts an ASCII letter to uppercase.

     Params: c = Any type which implicitly converts to `dchar`. In the case
     where it's a built-in type, or an enum of a built-in type,
     `Unqual!(OriginalType!C)` is returned, whereas if it's a user-defined
     type, `dchar` is returned.

     Returns: The corresponding uppercase letter, if `c` is a lowercase ASCII
     character, otherwise `c` itself.
   +/
 auto toUpper(C)(C c)
 if (is(C : dchar))
 {
     import std.traits : OriginalType;

     static if (!__traits(isScalar, C))
         alias R = dchar;
     else static if (is(immutable OriginalType!C == immutable OC, OC))
         alias R = OC;

     return isLower(c) ? cast(R)(cast(R) c - ('a' - 'A')) : cast(R) c;
 }

 ///
 @safe pure nothrow @nogc unittest
 {
     assert(toUpper('a') == 'A');
     assert(toUpper('A') == 'A');
     assert(toUpper('#') == '#');

     // N.B.: Non-ASCII Unicode lowercase letters are not converted.
     assert(toUpper('á') == 'á');
 }

 @safe pure nothrow unittest
 {
     import std.meta;
     static foreach (C; AliasSeq!(char, wchar, dchar, immutable char, ubyte))
     {
         foreach (i, c; lowercase)
             assert(toUpper(cast(C) c) == uppercase[i]);

         foreach (C c; 0 .. 128)
         {
             if (c < 'a' || c > 'z')
                 assert(toUpper(c) == c);
             else
                 assert(toUpper(c) != c);
         }

         foreach (C c; 128 .. C.max)
             assert(toUpper(c) == c);

         //CTFE
         static assert(toUpper(cast(C)'a') == 'A');
         static assert(toUpper(cast(C)'A') == 'A');
     }
 }


 @safe unittest //Test both toUpper and toLower with non-builtin
 {
     import std.meta;
     import std.traits;

     //User Defined [Char|Wchar|Dchar]
     static struct UDC {  char c; alias c this; }
     static struct UDW { wchar c; alias c this; }
     static struct UDD { dchar c; alias c this; }
     //[Char|Wchar|Dchar] Enum
     enum CE :  char {a = 'a', A = 'A'}
     enum WE : wchar {a = 'a', A = 'A'}
     enum DE : dchar {a = 'a', A = 'A'}
     //User Defined [Char|Wchar|Dchar] Enum
     enum UDCE : UDC {a = UDC('a'), A = UDC('A')}
     enum UDWE : UDW {a = UDW('a'), A = UDW('A')}
     enum UDDE : UDD {a = UDD('a'), A = UDD('A')}

     //User defined types with implicit cast to dchar test.
     static foreach (Char; AliasSeq!(UDC, UDW, UDD))
     {
         assert(toLower(Char('a')) == 'a');
         assert(toLower(Char('A')) == 'a');
         static assert(toLower(Char('a')) == 'a');
         static assert(toLower(Char('A')) == 'a');
         static assert(toUpper(Char('a')) == 'A');
         static assert(toUpper(Char('A')) == 'A');
     }

     //Various enum tests.
     static foreach (Enum; AliasSeq!(CE, WE, DE, UDCE, UDWE, UDDE))
     {
         assert(toLower(Enum.a) == 'a');
         assert(toLower(Enum.A) == 'a');
         assert(toUpper(Enum.a) == 'A');
         assert(toUpper(Enum.A) == 'A');
         static assert(toLower(Enum.a) == 'a');
         static assert(toLower(Enum.A) == 'a');
         static assert(toUpper(Enum.a) == 'A');
         static assert(toUpper(Enum.A) == 'A');
     }

     //Return value type tests for enum of non-UDT. These should be the original type.
     static foreach (T; AliasSeq!(CE, WE, DE))
     {{
         alias C = OriginalType!T;
         static assert(is(typeof(toLower(T.init)) == C));
         static assert(is(typeof(toUpper(T.init)) == C));
     }}

     //Return value tests for UDT and enum of UDT. These should be dchar
     static foreach (T; AliasSeq!(UDC, UDW, UDD, UDCE, UDWE, UDDE))
     {
         static assert(is(typeof(toLower(T.init)) == dchar));
         static assert(is(typeof(toUpper(T.init)) == dchar));
     }
 }
	// Written in the D programming language.

	/++
	Functions which operate on ASCII characters.

	All of the functions in std.ascii accept Unicode characters but
	effectively ignore them if they're not ASCII. All `isX` functions return
	`false` for non-ASCII characters, and all `toX` functions do nothing
	to non-ASCII characters.

	For functions which operate on Unicode characters, see
	$(MREF std, uni).

	$(SCRIPT inhibitQuickIndex = 1;)
	$(DIVC quickindex,
	$(BOOKTABLE,
	$(TR $(TH Category) $(TH Functions))
	$(TR $(TD Validation) $(TD
	$(LREF isAlpha)
	$(LREF isAlphaNum)
	$(LREF isASCII)
	$(LREF isControl)
	$(LREF isDigit)
	$(LREF isGraphical)
	$(LREF isHexDigit)
	$(LREF isOctalDigit)
	$(LREF isPrintable)
	$(LREF isPunctuation)
	$(LREF isUpper)
	$(LREF isWhite)
	))
	$(TR $(TD Conversions) $(TD
	$(LREF toLower)
	$(LREF toUpper)
	))
	$(TR $(TD Constants) $(TD
	$(LREF digits)
	$(LREF fullHexDigits)
	$(LREF hexDigits)
	$(LREF letters)
	$(LREF lowercase)
	$(LREF lowerHexDigits)
	$(LREF newline)
	$(LREF octalDigits)
	$(LREF uppercase)
	$(LREF whitespace)
	))
	$(TR $(TD Enums) $(TD
	$(LREF ControlChar)
	$(LREF LetterCase)
	))
	))
	References:
	$(LINK2 http://www.digitalmars.com/d/ascii-table.html, ASCII Table),
	$(HTTP en.wikipedia.org/wiki/Ascii, Wikipedia)

	License: $(HTTP www.boost.org/LICENSE_1_0.txt, Boost License 1.0).
	Authors: $(HTTP digitalmars.com, Walter Bright) and
	$(HTTP jmdavisprog.com, Jonathan M Davis)
	Source: $(PHOBOSSRC std/ascii.d)
	+/
	module std.ascii;

	immutable fullHexDigits = "0123456789ABCDEFabcdef"; /// 0 .. 9A .. Fa .. f
	immutable hexDigits = fullHexDigits[0 .. 16]; /// 0 .. 9A .. F
	immutable lowerHexDigits = "0123456789abcdef"; /// 0 .. 9a .. f
	immutable digits = hexDigits[0 .. 10]; /// 0 .. 9
	immutable octalDigits = digits[0 .. 8]; /// 0 .. 7
	immutable letters = "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz"; /// A .. Za .. z
	immutable uppercase = letters[0 .. 26]; /// A .. Z
	immutable lowercase = letters[26 .. 52]; /// a .. z
	immutable whitespace = " \t\v\r\n\f"; /// ASCII _whitespace

	/++
	Letter case specifier.
	+/
	enum LetterCase : bool
	{
	upper, /// Upper case letters
	lower /// Lower case letters
	}

	///
	@safe unittest
	{
	import std.conv : to;

	assert(42.to!string(16, LetterCase.upper) == "2A");
	assert(42.to!string(16, LetterCase.lower) == "2a");
	}

	///
	@safe unittest
	{
	import std.digest.hmac : hmac;
	import std.digest : toHexString;
	import std.digest.sha : SHA1;
	import std.string : representation;

	const sha1HMAC = "A very long phrase".representation
	.hmac!SHA1("secret".representation)
	.toHexString!(LetterCase.lower);
	assert(sha1HMAC == "49f2073c7bf58577e8c9ae59fe8cfd37c9ab94e5");
	}

	/++
	All control characters in the ASCII table ($(HTTPS www.asciitable.com, source)).
	+/
	enum ControlChar : char
	{
	nul = '\x00', /// Null
	soh = '\x01', /// Start of heading
	stx = '\x02', /// Start of text
	etx = '\x03', /// End of text
	eot = '\x04', /// End of transmission
	enq = '\x05', /// Enquiry
	ack = '\x06', /// Acknowledge
	bel = '\x07', /// Bell
	bs = '\x08', /// Backspace
	tab = '\x09', /// Horizontal tab
	lf = '\x0A', /// NL line feed, new line
	vt = '\x0B', /// Vertical tab
	ff = '\x0C', /// NP form feed, new page
	cr = '\x0D', /// Carriage return
	so = '\x0E', /// Shift out
	si = '\x0F', /// Shift in
	dle = '\x10', /// Data link escape
	dc1 = '\x11', /// Device control 1
	dc2 = '\x12', /// Device control 2
	dc3 = '\x13', /// Device control 3
	dc4 = '\x14', /// Device control 4
	nak = '\x15', /// Negative acknowledge
	syn = '\x16', /// Synchronous idle
	etb = '\x17', /// End of transmission block
	can = '\x18', /// Cancel
	em = '\x19', /// End of medium
	sub = '\x1A', /// Substitute
	esc = '\x1B', /// Escape
	fs = '\x1C', /// File separator
	gs = '\x1D', /// Group separator
	rs = '\x1E', /// Record separator
	us = '\x1F', /// Unit separator
	del = '\x7F' /// Delete
	}

	///
	@safe pure nothrow @nogc unittest
	{
	import std.algorithm.comparison, std.algorithm.searching, std.range, std.traits;

	// Because all ASCII characters fit in char, so do these
	static assert(ControlChar.ack.sizeof == 1);

	// All control characters except del are in row starting from 0
	static assert(EnumMembers!ControlChar.only.until(ControlChar.del).equal(iota(32)));

	static assert(ControlChar.nul == '\0');
	static assert(ControlChar.bel == '\a');
	static assert(ControlChar.bs == '\b');
	static assert(ControlChar.ff == '\f');
	static assert(ControlChar.lf == '\n');
	static assert(ControlChar.cr == '\r');
	static assert(ControlChar.tab == '\t');
	static assert(ControlChar.vt == '\v');
	}

	///
	@safe pure nothrow unittest
	{
	import std.conv;
	//Control character table can be used in place of hexcodes.
	with (ControlChar) assert(text("Phobos", us, "Deimos", us, "Tango", rs) == "Phobos\x1FDeimos\x1FTango\x1E");
	}

	/// Newline sequence for this system.
	version (Windows)
	immutable newline = "\r\n";
	else version (Posix)
	immutable newline = "\n";
	else
	static assert(0, "Unsupported OS");


	/++
	Params: c = The character to test.
	Returns: Whether `c` is a letter or a number (0 .. 9, a .. z, A .. Z).
	+/
	bool isAlphaNum(dchar c) @safe pure nothrow @nogc
	{
	return c <= 'z' && c >= '0' && (c <= '9' \|\| c >= 'a' \|\| (c >= 'A' && c <= 'Z'));
	}

	///
	@safe pure nothrow @nogc unittest
	{
	assert( isAlphaNum('A'));
	assert( isAlphaNum('1'));
	assert(!isAlphaNum('#'));

	// N.B.: does not return true for non-ASCII Unicode alphanumerics:
	assert(!isAlphaNum('á'));
	}

	@safe unittest
	{
	import std.range;
	foreach (c; chain(digits, octalDigits, fullHexDigits, letters, lowercase, uppercase))
	assert(isAlphaNum(c));

	foreach (c; whitespace)
	assert(!isAlphaNum(c));
	}


	/++
	Params: c = The character to test.
	Returns: Whether `c` is an ASCII letter (A .. Z, a .. z).
	+/
	bool isAlpha(dchar c) @safe pure nothrow @nogc
	{
	// Optimizer can turn this into a bitmask operation on 64 bit code
	return (c >= 'A' && c <= 'Z') \|\| (c >= 'a' && c <= 'z');
	}

	///
	@safe pure nothrow @nogc unittest
	{
	assert( isAlpha('A'));
	assert(!isAlpha('1'));
	assert(!isAlpha('#'));

	// N.B.: does not return true for non-ASCII Unicode alphabetic characters:
	assert(!isAlpha('á'));
	}

	@safe unittest
	{
	import std.range;
	foreach (c; chain(letters, lowercase, uppercase))
	assert(isAlpha(c));

	foreach (c; chain(digits, octalDigits, whitespace))
	assert(!isAlpha(c));
	}


	/++
	Params: c = The character to test.
	Returns: Whether `c` is a lowercase ASCII letter (a .. z).
	+/
	bool isLower(dchar c) @safe pure nothrow @nogc
	{
	return c >= 'a' && c <= 'z';
	}

	///
	@safe pure nothrow @nogc unittest
	{
	assert( isLower('a'));
	assert(!isLower('A'));
	assert(!isLower('#'));

	// N.B.: does not return true for non-ASCII Unicode lowercase letters
	assert(!isLower('á'));
	assert(!isLower('Á'));
	}

	@safe unittest
	{
	import std.range;
	foreach (c; lowercase)
	assert(isLower(c));

	foreach (c; chain(digits, uppercase, whitespace))
	assert(!isLower(c));
	}


	/++
	Params: c = The character to test.
	Returns: Whether `c` is an uppercase ASCII letter (A .. Z).
	+/
	bool isUpper(dchar c) @safe pure nothrow @nogc
	{
	return c <= 'Z' && 'A' <= c;
	}

	///
	@safe pure nothrow @nogc unittest
	{
	assert( isUpper('A'));
	assert(!isUpper('a'));
	assert(!isUpper('#'));

	// N.B.: does not return true for non-ASCII Unicode uppercase letters
	assert(!isUpper('á'));
	assert(!isUpper('Á'));
	}

	@safe unittest
	{
	import std.range;
	foreach (c; uppercase)
	assert(isUpper(c));

	foreach (c; chain(digits, lowercase, whitespace))
	assert(!isUpper(c));
	}


	/++
	Params: c = The character to test.
	Returns: Whether `c` is a digit (0 .. 9).
	+/
	bool isDigit(dchar c) @safe pure nothrow @nogc
	{
	return '0' <= c && c <= '9';
	}

	///
	@safe pure nothrow @nogc unittest
	{
	assert( isDigit('3'));
	assert( isDigit('8'));
	assert(!isDigit('B'));
	assert(!isDigit('#'));

	// N.B.: does not return true for non-ASCII Unicode numbers
	assert(!isDigit('０')); // full-width digit zero (U+FF10)
	assert(!isDigit('４')); // full-width digit four (U+FF14)
	}

	@safe unittest
	{
	import std.range;
	foreach (c; digits)
	assert(isDigit(c));

	foreach (c; chain(letters, whitespace))
	assert(!isDigit(c));
	}


	/++
	Params: c = The character to test.
	Returns: Whether `c` is a digit in base 8 (0 .. 7).
	+/
	bool isOctalDigit(dchar c) @safe pure nothrow @nogc
	{
	return c >= '0' && c <= '7';
	}

	///
	@safe pure nothrow @nogc unittest
	{
	assert( isOctalDigit('0'));
	assert( isOctalDigit('7'));
	assert(!isOctalDigit('8'));
	assert(!isOctalDigit('A'));
	assert(!isOctalDigit('#'));
	}

	@safe unittest
	{
	import std.range;
	foreach (c; octalDigits)
	assert(isOctalDigit(c));

	foreach (c; chain(letters, ['8', '9'], whitespace))
	assert(!isOctalDigit(c));
	}


	/++
	Params: c = The character to test.
	Returns: Whether `c` is a digit in base 16 (0 .. 9, A .. F, a .. f).
	+/
	bool isHexDigit(dchar c) @safe pure nothrow @nogc
	{
	return c <= 'f' && c >= '0' && (c <= '9' \|\| c >= 'a' \|\| (c >= 'A' && c <= 'F'));
	}

	///
	@safe pure nothrow @nogc unittest
	{
	assert( isHexDigit('0'));
	assert( isHexDigit('A'));
	assert( isHexDigit('f')); // lowercase hex digits are accepted
	assert(!isHexDigit('g'));
	assert(!isHexDigit('G'));
	assert(!isHexDigit('#'));
	}

	@safe unittest
	{
	import std.range;
	foreach (c; fullHexDigits)
	assert(isHexDigit(c));

	foreach (c; chain(lowercase[6 .. $], uppercase[6 .. $], whitespace))
	assert(!isHexDigit(c));
	}


	/++
	Params: c = The character to test.
	Returns: Whether or not `c` is a whitespace character. That includes the
	space, tab, vertical tab, form feed, carriage return, and linefeed
	characters.
	+/
	bool isWhite(dchar c) @safe pure nothrow @nogc
	{
	return c == ' ' \|\| (c >= 0x09 && c <= 0x0D);
	}

	///
	@safe pure nothrow @nogc unittest
	{
	assert( isWhite(' '));
	assert( isWhite('\t'));
	assert( isWhite('\n'));
	assert(!isWhite('1'));
	assert(!isWhite('a'));
	assert(!isWhite('#'));

	// N.B.: Does not return true for non-ASCII Unicode whitespace characters.
	static import std.uni;
	assert(std.uni.isWhite('\u00A0'));
	assert(!isWhite('\u00A0')); // std.ascii.isWhite
	}

	@safe unittest
	{
	import std.range;
	foreach (c; whitespace)
	assert(isWhite(c));

	foreach (c; chain(digits, letters))
	assert(!isWhite(c));
	}


	/++
	Params: c = The character to test.
	Returns: Whether `c` is a control character.
	+/
	bool isControl(dchar c) @safe pure nothrow @nogc
	{
	return c < 0x20 \|\| c == 0x7F;
	}

	///
	@safe pure nothrow @nogc unittest
	{
	assert( isControl('\0'));
	assert( isControl('\022'));
	assert( isControl('\n')); // newline is both whitespace and control
	assert(!isControl(' '));
	assert(!isControl('1'));
	assert(!isControl('a'));
	assert(!isControl('#'));

	// N.B.: non-ASCII Unicode control characters are not recognized:
	assert(!isControl('\u0080'));
	assert(!isControl('\u2028'));
	assert(!isControl('\u2029'));
	}

	@safe unittest
	{
	import std.range;
	foreach (dchar c; 0 .. 32)
	assert(isControl(c));
	assert(isControl(127));

	foreach (c; chain(digits, letters, [' ']))
	assert(!isControl(c));
	}


	/++
	Params: c = The character to test.
	Returns: Whether or not `c` is a punctuation character. That includes
	all ASCII characters which are not control characters, letters, digits, or
	whitespace.
	+/
	bool isPunctuation(dchar c) @safe pure nothrow @nogc
	{
	return c <= '~' && c >= '!' && !isAlphaNum(c);
	}

	///
	@safe pure nothrow @nogc unittest
	{
	assert( isPunctuation('.'));
	assert( isPunctuation(','));
	assert( isPunctuation(':'));
	assert( isPunctuation('!'));
	assert( isPunctuation('#'));
	assert( isPunctuation('~'));
	assert( isPunctuation('+'));
	assert( isPunctuation('_'));

	assert(!isPunctuation('1'));
	assert(!isPunctuation('a'));
	assert(!isPunctuation(' '));
	assert(!isPunctuation('\n'));
	assert(!isPunctuation('\0'));

	// N.B.: Non-ASCII Unicode punctuation characters are not recognized.
	assert(!isPunctuation('\u2012')); // (U+2012 = en-dash)
	}

	@safe unittest
	{
	foreach (dchar c; 0 .. 128)
	{
	if (isControl(c) \|\| isAlphaNum(c) \|\| c == ' ')
	assert(!isPunctuation(c));
	else
	assert(isPunctuation(c));
	}
	}


	/++
	Params: c = The character to test.
	Returns: Whether or not `c` is a printable character other than the
	space character.
	+/
	bool isGraphical(dchar c) @safe pure nothrow @nogc
	{
	return '!' <= c && c <= '~';
	}

	///
	@safe pure nothrow @nogc unittest
	{
	assert( isGraphical('1'));
	assert( isGraphical('a'));
	assert( isGraphical('#'));
	assert(!isGraphical(' ')); // whitespace is not graphical
	assert(!isGraphical('\n'));
	assert(!isGraphical('\0'));

	// N.B.: Unicode graphical characters are not regarded as such.
	assert(!isGraphical('á'));
	}

	@safe unittest
	{
	foreach (dchar c; 0 .. 128)
	{
	if (isControl(c) \|\| c == ' ')
	assert(!isGraphical(c));
	else
	assert(isGraphical(c));
	}
	}


	/++
	Params: c = The character to test.
	Returns: Whether or not `c` is a printable character - including the
	space character.
	+/
	bool isPrintable(dchar c) @safe pure nothrow @nogc
	{
	return c >= ' ' && c <= '~';
	}

	///
	@safe pure nothrow @nogc unittest
	{
	assert( isPrintable(' ')); // whitespace is printable
	assert( isPrintable('1'));
	assert( isPrintable('a'));
	assert( isPrintable('#'));
	assert(!isPrintable('\0')); // control characters are not printable

	// N.B.: Printable non-ASCII Unicode characters are not recognized.
	assert(!isPrintable('á'));
	}

	@safe unittest
	{
	foreach (dchar c; 0 .. 128)
	{
	if (isControl(c))
	assert(!isPrintable(c));
	else
	assert(isPrintable(c));
	}
	}


	/++
	Params: c = The character to test.
	Returns: Whether or not `c` is in the ASCII character set - i.e. in the
	range 0 .. 0x7F.
	+/
	pragma(inline, true)
	bool isASCII(dchar c) @safe pure nothrow @nogc
	{
	return c <= 0x7F;
	}

	///
	@safe pure nothrow @nogc unittest
	{
	assert( isASCII('a'));
	assert(!isASCII('á'));
	}

	@safe unittest
	{
	foreach (dchar c; 0 .. 128)
	assert(isASCII(c));

	assert(!isASCII(128));
	}


	/++
	Converts an ASCII letter to lowercase.

	Params: c = A character of any type that implicitly converts to `dchar`.
	In the case where it's a built-in type, or an enum of a built-in type,
	`Unqual!(OriginalType!C)` is returned, whereas if it's a user-defined
	type, `dchar` is returned.

	Returns: The corresponding lowercase letter, if `c` is an uppercase
	ASCII character, otherwise `c` itself.
	+/
	auto toLower(C)(C c)
	if (is(C : dchar))
	{
	import std.traits : OriginalType;

	static if (!__traits(isScalar, C))
	alias R = dchar;
	else static if (is(immutable OriginalType!C == immutable OC, OC))
	alias R = OC;

	return isUpper(c) ? cast(R)(cast(R) c + 'a' - 'A') : cast(R) c;
	}

	///
	@safe pure nothrow @nogc unittest
	{
	assert(toLower('a') == 'a');
	assert(toLower('A') == 'a');
	assert(toLower('#') == '#');

	// N.B.: Non-ASCII Unicode uppercase letters are not converted.
	assert(toLower('Á') == 'Á');
	}

	@safe pure nothrow unittest
	{

	import std.meta;
	static foreach (C; AliasSeq!(char, wchar, dchar, immutable char, ubyte))
	{
	foreach (i, c; uppercase)
	assert(toLower(cast(C) c) == lowercase[i]);

	foreach (C c; 0 .. 128)
	{
	if (c < 'A' \|\| c > 'Z')
	assert(toLower(c) == c);
	else
	assert(toLower(c) != c);
	}

	foreach (C c; 128 .. C.max)
	assert(toLower(c) == c);

	//CTFE
	static assert(toLower(cast(C)'a') == 'a');
	static assert(toLower(cast(C)'A') == 'a');
	}
	}


	/++
	Converts an ASCII letter to uppercase.

	Params: c = Any type which implicitly converts to `dchar`. In the case
	where it's a built-in type, or an enum of a built-in type,
	`Unqual!(OriginalType!C)` is returned, whereas if it's a user-defined
	type, `dchar` is returned.

	Returns: The corresponding uppercase letter, if `c` is a lowercase ASCII
	character, otherwise `c` itself.
	+/
	auto toUpper(C)(C c)
	if (is(C : dchar))
	{
	import std.traits : OriginalType;

	static if (!__traits(isScalar, C))
	alias R = dchar;
	else static if (is(immutable OriginalType!C == immutable OC, OC))
	alias R = OC;

	return isLower(c) ? cast(R)(cast(R) c - ('a' - 'A')) : cast(R) c;
	}

	///
	@safe pure nothrow @nogc unittest
	{
	assert(toUpper('a') == 'A');
	assert(toUpper('A') == 'A');
	assert(toUpper('#') == '#');

	// N.B.: Non-ASCII Unicode lowercase letters are not converted.
	assert(toUpper('á') == 'á');
	}

	@safe pure nothrow unittest
	{
	import std.meta;
	static foreach (C; AliasSeq!(char, wchar, dchar, immutable char, ubyte))
	{
	foreach (i, c; lowercase)
	assert(toUpper(cast(C) c) == uppercase[i]);

	foreach (C c; 0 .. 128)
	{
	if (c < 'a' \|\| c > 'z')
	assert(toUpper(c) == c);
	else
	assert(toUpper(c) != c);
	}

	foreach (C c; 128 .. C.max)
	assert(toUpper(c) == c);

	//CTFE
	static assert(toUpper(cast(C)'a') == 'A');
	static assert(toUpper(cast(C)'A') == 'A');
	}
	}


	@safe unittest //Test both toUpper and toLower with non-builtin
	{
	import std.meta;
	import std.traits;

	//User Defined [Char\|Wchar\|Dchar]
	static struct UDC { char c; alias c this; }
	static struct UDW { wchar c; alias c this; }
	static struct UDD { dchar c; alias c this; }
	//[Char\|Wchar\|Dchar] Enum
	enum CE : char {a = 'a', A = 'A'}
	enum WE : wchar {a = 'a', A = 'A'}
	enum DE : dchar {a = 'a', A = 'A'}
	//User Defined [Char\|Wchar\|Dchar] Enum
	enum UDCE : UDC {a = UDC('a'), A = UDC('A')}
	enum UDWE : UDW {a = UDW('a'), A = UDW('A')}
	enum UDDE : UDD {a = UDD('a'), A = UDD('A')}

	//User defined types with implicit cast to dchar test.
	static foreach (Char; AliasSeq!(UDC, UDW, UDD))
	{
	assert(toLower(Char('a')) == 'a');
	assert(toLower(Char('A')) == 'a');
	static assert(toLower(Char('a')) == 'a');
	static assert(toLower(Char('A')) == 'a');
	static assert(toUpper(Char('a')) == 'A');
	static assert(toUpper(Char('A')) == 'A');
	}

	//Various enum tests.
	static foreach (Enum; AliasSeq!(CE, WE, DE, UDCE, UDWE, UDDE))
	{
	assert(toLower(Enum.a) == 'a');
	assert(toLower(Enum.A) == 'a');
	assert(toUpper(Enum.a) == 'A');
	assert(toUpper(Enum.A) == 'A');
	static assert(toLower(Enum.a) == 'a');
	static assert(toLower(Enum.A) == 'a');
	static assert(toUpper(Enum.a) == 'A');
	static assert(toUpper(Enum.A) == 'A');
	}

	//Return value type tests for enum of non-UDT. These should be the original type.
	static foreach (T; AliasSeq!(CE, WE, DE))
	{{
	alias C = OriginalType!T;
	static assert(is(typeof(toLower(T.init)) == C));
	static assert(is(typeof(toUpper(T.init)) == C));
	}}

	//Return value tests for UDT and enum of UDT. These should be dchar
	static foreach (T; AliasSeq!(UDC, UDW, UDD, UDCE, UDWE, UDDE))
	{
	static assert(is(typeof(toLower(T.init)) == dchar));
	static assert(is(typeof(toUpper(T.init)) == dchar));
	}
	}