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497 lines
14 KiB
Text
497 lines
14 KiB
Text
= Literals
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Literals create objects you can use in your program. Literals include:
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* {Boolean and Nil Literals}[#label-Boolean+and+Nil+Literals]
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* {Number Literals}[#label-Number+Literals]
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* {Integer Literals}[#label-Integer+Literals]
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* {Float Literals}[#label-Float+Literals]
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* {Rational Literals}[#label-Rational+Literals]
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* {Complex Literals}[#label-Complex+Literals]
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* {String Literals}[#label-String+Literals]
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* {Here Document Literals}[#label-Here+Document+Literals]
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* {Symbol Literals}[#label-Symbol+Literals]
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* {Array Literals}[#label-Array+Literals]
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* {Hash Literals}[#label-Hash+Literals]
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* {Range Literals}[#label-Range+Literals]
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* {Regexp Literals}[#label-Regexp+Literals]
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* {Lambda Proc Literals}[#label-Lambda+Proc+Literals]
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* {Percent Literals}[#label-Percent+Literals]
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* {%q: Non-Interpolable String Literals}[#label-25q-3A+Non-Interpolable+String+Literals]
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* {% and %Q: Interpolable String Literals}[#label-25+and+-25Q-3A+Interpolable+String+Literals]
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* {%w and %W: String-Array Literals}[#label-25w+and+-25W-3A+String-Array+Literals]
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* {%i and %I: Symbol-Array Literals}[#label-25i+and+-25I-3A+Symbol-Array+Literals]
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* {%r: Regexp Literals}[#label-25r-3A+Regexp+Literals]
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* {%s: Symbol Literals}[#label-25s-3A+Symbol+Literals]
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* {%x: Backtick Literals}[#label-25x-3A+Backtick+Literals]
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== Boolean and Nil Literals
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+nil+ and +false+ are both false values. +nil+ is sometimes used to indicate
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"no value" or "unknown" but evaluates to +false+ in conditional expressions.
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+true+ is a true value. All objects except +nil+ and +false+ evaluate to a
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true value in conditional expressions.
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== Number Literals
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=== \Integer Literals
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You can write integers of any size as follows:
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1234
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1_234
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These numbers have the same value, 1,234. The underscore may be used to
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enhance readability for humans. You may place an underscore anywhere in the
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number.
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You can use a special prefix to write numbers in decimal, hexadecimal, octal
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or binary formats. For decimal numbers use a prefix of <tt>0d</tt>, for
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hexadecimal numbers use a prefix of <tt>0x</tt>, for octal numbers use a
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prefix of <tt>0</tt> or <tt>0o</tt>, for binary numbers use a prefix of
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<tt>0b</tt>. The alphabetic component of the number is not case-sensitive.
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Examples:
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0d170
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0D170
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0xaa
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0xAa
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0xAA
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0Xaa
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0XAa
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0XaA
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0252
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0o252
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0O252
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0b10101010
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0B10101010
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All these numbers have the same decimal value, 170. Like integers and floats
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you may use an underscore for readability.
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=== \Float Literals
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Floating-point numbers may be written as follows:
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12.34
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1234e-2
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1.234E1
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These numbers have the same value, 12.34. You may use underscores in floating
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point numbers as well.
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=== \Rational Literals
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You can write a Rational number as follows (suffixed +r+):
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12r #=> (12/1)
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12.3r #=> (123/10)
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A \Rational number is exact, whereas a \Float number may be inexact.
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0.1r + 0.2r #=> (3/10)
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0.1 + 0.2 #=> 0.30000000000000004
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=== \Complex Literals
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You can write a Complex number as follows (suffixed +i+):
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1i #=> (0+1i)
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1i * 1i #=> (-1+0i)
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Also \Rational numbers may be imaginary numbers.
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12.3ri #=> (0+(123/10)*i)
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+i+ must be placed after +r+; the opposite is not allowed.
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12.3ir #=> Syntax error
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== Strings
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=== \String Literals
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The most common way of writing strings is using <tt>"</tt>:
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"This is a string."
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The string may be many lines long.
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Any internal <tt>"</tt> must be escaped:
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"This string has a quote: \". As you can see, it is escaped"
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Double-quote strings allow escaped characters such as <tt>\n</tt> for
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newline, <tt>\t</tt> for tab, etc. The full list of supported escape
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sequences are as follows:
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\a bell, ASCII 07h (BEL)
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\b backspace, ASCII 08h (BS)
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\t horizontal tab, ASCII 09h (TAB)
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\n newline (line feed), ASCII 0Ah (LF)
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\v vertical tab, ASCII 0Bh (VT)
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\f form feed, ASCII 0Ch (FF)
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\r carriage return, ASCII 0Dh (CR)
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\e escape, ASCII 1Bh (ESC)
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\s space, ASCII 20h (SPC)
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\\ backslash, \
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\nnn octal bit pattern, where nnn is 1-3 octal digits ([0-7])
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\xnn hexadecimal bit pattern, where nn is 1-2 hexadecimal digits ([0-9a-fA-F])
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\unnnn Unicode character, where nnnn is exactly 4 hexadecimal digits ([0-9a-fA-F])
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\u{nnnn ...} Unicode character(s), where each nnnn is 1-6 hexadecimal digits ([0-9a-fA-F])
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\cx or \C-x control character, where x is an ASCII printable character
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\M-x meta character, where x is an ASCII printable character
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\M-\C-x meta control character, where x is an ASCII printable character
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\M-\cx same as above
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\c\M-x same as above
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\c? or \C-? delete, ASCII 7Fh (DEL)
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Any other character following a backslash is interpreted as the
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character itself.
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Double-quote strings allow interpolation of other values using
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<tt>#{...}</tt>:
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"One plus one is two: #{1 + 1}"
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Any expression may be placed inside the interpolated section, but it's best to
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keep the expression small for readability.
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You can also use <tt>#@foo</tt>, <tt>#@@foo</tt> and <tt>#$foo</tt> as a
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shorthand for, respectively, <tt>#{ @foo }</tt>, <tt>#{ @@foo }</tt> and
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<tt>#{ $foo }</tt>.
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Interpolation may be disabled by escaping the "#" character or using
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single-quote strings:
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'#{1 + 1}' #=> "\#{1 + 1}"
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In addition to disabling interpolation, single-quoted strings also disable all
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escape sequences except for the single-quote (<tt>\'</tt>) and backslash
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(<tt>\\\\</tt>).
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Adjacent string literals are automatically concatenated by the interpreter:
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"con" "cat" "en" "at" "ion" #=> "concatenation"
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"This string contains "\
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"no newlines." #=> "This string contains no newlines."
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Any combination of adjacent single-quote, double-quote, percent strings will
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be concatenated as long as a percent-string is not last.
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%q{a} 'b' "c" #=> "abc"
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"a" 'b' %q{c} #=> NameError: uninitialized constant q
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There is also a character literal notation to represent single
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character strings, which syntax is a question mark (<tt>?</tt>)
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followed by a single character or escape sequence that corresponds to
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a single codepoint in the script encoding:
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?a #=> "a"
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?abc #=> SyntaxError
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?\n #=> "\n"
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?\s #=> " "
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?\\ #=> "\\"
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?\u{41} #=> "A"
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?\C-a #=> "\x01"
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?\M-a #=> "\xE1"
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?\M-\C-a #=> "\x81"
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?\C-\M-a #=> "\x81", same as above
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?あ #=> "あ"
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See also:
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* {%q: Non-Interpolable String Literals}[#label-25q-3A+Non-Interpolable+String+Literals]
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* {% and %Q: Interpolable String Literals}[#label-25+and+-25Q-3A+Interpolable+String+Literals]
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=== Here Document Literals
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If you are writing a large block of text you may use a "here document" or
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"heredoc":
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expected_result = <<HEREDOC
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This would contain specially formatted text.
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That might span many lines
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HEREDOC
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The heredoc starts on the line following <tt><<HEREDOC</tt> and ends with the
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next line that starts with <tt>HEREDOC</tt>. The result includes the ending
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newline.
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You may use any identifier with a heredoc, but all-uppercase identifiers are
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typically used.
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You may indent the ending identifier if you place a "-" after <tt><<</tt>:
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expected_result = <<-INDENTED_HEREDOC
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This would contain specially formatted text.
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That might span many lines
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INDENTED_HEREDOC
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Note that while the closing identifier may be indented, the content is
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always treated as if it is flush left. If you indent the content those spaces
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will appear in the output.
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To have indented content as well as an indented closing identifier, you can use
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a "squiggly" heredoc, which uses a "~" instead of a "-" after <tt><<</tt>:
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expected_result = <<~SQUIGGLY_HEREDOC
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This would contain specially formatted text.
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That might span many lines
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SQUIGGLY_HEREDOC
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The indentation of the least-indented line will be removed from each line of
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the content. Note that empty lines and lines consisting solely of literal tabs
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and spaces will be ignored for the purposes of determining indentation, but
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escaped tabs and spaces are considered non-indentation characters.
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A heredoc allows interpolation and escaped characters. You may disable
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interpolation and escaping by surrounding the opening identifier with single
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quotes:
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expected_result = <<-'EXPECTED'
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One plus one is #{1 + 1}
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EXPECTED
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p expected_result # prints: "One plus one is \#{1 + 1}\n"
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The identifier may also be surrounded with double quotes (which is the same as
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no quotes) or with backticks. When surrounded by backticks the HEREDOC
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behaves like Kernel#`:
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puts <<-`HEREDOC`
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cat #{__FILE__}
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HEREDOC
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When surrounding with quotes, any character but that quote and newline
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(CR and/or LF) can be used as the identifier.
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To call a method on a heredoc place it after the opening identifier:
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expected_result = <<-EXPECTED.chomp
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One plus one is #{1 + 1}
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EXPECTED
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You may open multiple heredocs on the same line, but this can be difficult to
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read:
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puts(<<-ONE, <<-TWO)
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content for heredoc one
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ONE
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content for heredoc two
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TWO
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== \Symbol Literals
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A Symbol represents a name inside the ruby interpreter. See Symbol for more
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details on what symbols are and when ruby creates them internally.
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You may reference a symbol using a colon: <tt>:my_symbol</tt>.
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You may also create symbols by interpolation:
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:"my_symbol1"
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:"my_symbol#{1 + 1}"
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Like strings, a single-quote may be used to disable interpolation:
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:'my_symbol#{1 + 1}' #=> :"my_symbol\#{1 + 1}"
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When creating a Hash, there is a special syntax for referencing a Symbol as
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well.
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See also:
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* {%s: Symbol Literals}[#label-25s-3A+Symbol+Literals]
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== \Array Literals
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An array is created using the objects between <tt>[</tt> and <tt>]</tt>:
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[1, 2, 3]
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You may place expressions inside the array:
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[1, 1 + 1, 1 + 2]
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[1, [1 + 1, [1 + 2]]]
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See also:
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* {%w and %W: String-Array Literals}[#label-25w+and+-25W-3A+String-Array+Literals]
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* {%i and %I: Symbol-Array Literals}[#label-25i+and+-25I-3A+Symbol-Array+Literals]
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See Array for the methods you may use with an array.
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== \Hash Literals
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A hash is created using key-value pairs between <tt>{</tt> and <tt>}</tt>:
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{ "a" => 1, "b" => 2 }
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Both the key and value may be any object.
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You can create a hash using symbol keys with the following syntax:
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{ a: 1, b: 2 }
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This same syntax is used for keyword arguments for a method.
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Like Symbol literals, you can quote symbol keys.
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{ "a 1": 1, "b #{1 + 1}": 2 }
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is equal to
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{ :"a 1" => 1, :"b 2" => 2 }
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Hash values can be omitted, meaning that value will be fetched from the context
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by the name of the key:
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x = 100
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y = 200
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h = { x:, y: }
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#=> {:x=>100, :y=>200}
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See Hash for the methods you may use with a hash.
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== \Range Literals
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A range represents an interval of values. The range may include or exclude
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its ending value.
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(1..2) # includes its ending value
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(1...2) # excludes its ending value
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(1..) # endless range, representing infinite sequence from 1 to Infinity
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(..1) # beginless range, representing infinite sequence from -Infinity to 1
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You may create a range of any object. See the Range documentation for details
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on the methods you need to implement.
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== \Regexp Literals
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A regular expression is created using "/":
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/my regular expression/
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The regular expression may be followed by flags which adjust the matching
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behavior of the regular expression. The "i" flag makes the regular expression
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case-insensitive:
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/my regular expression/i
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Interpolation may be used inside regular expressions along with escaped
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characters. Note that a regular expression may require additional escaped
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characters than a string.
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See also:
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* {%r: Regexp Literals}[#label-25r-3A+Regexp+Literals]
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See Regexp for a description of the syntax of regular expressions.
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== Lambda Proc Literals
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A lambda proc can be created with <tt>-></tt>:
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-> { 1 + 1 }
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Calling the above proc will give a result of <tt>2</tt>.
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You can require arguments for the proc as follows:
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->(v) { 1 + v }
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This proc will add one to its argument.
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== Percent Literals
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Each of the literals in described in this section
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may use these paired delimiters:
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* <tt>[</tt> and </tt>]</tt>.
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* <tt>(</tt> and </tt>)</tt>.
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* <tt>{</tt> and </tt>}</tt>.
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* <tt><</tt> and </tt>></tt>.
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* Any other character, as both beginning and ending delimiters.
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These are demonstrated in the next section.
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=== <tt>%q</tt>: Non-Interpolable String Literals
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You can write a non-interpolable string with <tt>%q</tt>.
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The created string is the same as if you created it with single quotes:
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%[foo bar baz] # => "foo bar baz" # Using [].
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%(foo bar baz) # => "foo bar baz" # Using ().
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%{foo bar baz} # => "foo bar baz" # Using {}.
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%<foo bar baz> # => "foo bar baz" # Using <>.
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%|foo bar baz| # => "foo bar baz" # Using two |.
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%:foo bar baz: # => "foo bar baz" # Using two :.
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%q(1 + 1 is #{1 + 1}) # => "1 + 1 is \#{1 + 1}" # No interpolation.
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=== <tt>% and %Q</tt>: Interpolable String Literals
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You can write an interpolable string with <tt>%Q</tt>
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or with its alias <tt>%</tt>:
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%[foo bar baz] # => "foo bar baz"
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%(1 + 1 is #{1 + 1}) # => "1 + 1 is 2" # Interpolation.
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=== <tt>%w and %W</tt>: String-Array Literals
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You can write an array of strings with <tt>%w</tt> (non-interpolable)
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or <tt>%W</tt> (interpolable):
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%w[foo bar baz] # => ["foo", "bar", "baz"]
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%w[1 % *] # => ["1", "%", "*"]
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# Use backslash to embed spaces in the strings.
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%w[foo\ bar baz\ bat] # => ["foo bar", "baz bat"]
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%w(#{1 + 1}) # => ["\#{1", "+", "1}"]
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%W(#{1 + 1}) # => ["2"]
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=== <tt>%i and %I</tt>: Symbol-Array Literals
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You can write an array of symbols with <tt>%i</tt> (non-interpolable)
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or <tt>%I</tt> (interpolable):
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%i[foo bar baz] # => [:foo, :bar, :baz]
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%i[1 % *] # => [:"1", :%, :*]
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# Use backslash to embed spaces in the symbols.
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%i[foo\ bar baz\ bat] # => [:"foo bar", :"baz bat"]
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%i(#{1 + 1}) # => [:"\#{1", :+, :"1}"]
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%I(#{1 + 1}) # => [:"2"]
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=== <tt>%s</tt>: Symbol Literals
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You can write a symbol with <tt>%s</tt>:
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%s[foo] # => :foo
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%s[foo bar] # => :"foo bar"
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=== <tt>%r</tt>: Regexp Literals
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You can write a regular expression with <tt>%r</tt>:
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r = %r[foo\sbar] # => /foo\sbar/
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'foo bar'.match(r) # => #<MatchData "foo bar">
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r = %r[foo\sbar]i # => /foo\sbar/i
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'FOO BAR'.match(r) # => #<MatchData "FOO BAR">
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=== <tt>%x</tt>: Backtick Literals
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You can write and execute a shell command with <tt>%x</tt>:
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%x(echo 1) # => "1\n"
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