Calls the given block with each successive codepoint from self; each codepoint is the integer value for a character; returns self:
'hello'.each_codepoint {|codepoint| print codepoint, ' ' } print "\n" 'тест'.each_codepoint {|codepoint| print codepoint, ' ' } print "\n" 'こんにちは'.each_codepoint {|codepoint| print codepoint, ' ' } print "\n"
Output:
104 101 108 108 111 1090 1077 1089 1090 12371 12435 12395 12385 12399
Returns an enumerator if no block is given.
Creates a new string of the given length and yields a zero-copy IO::Buffer instance to the block which uses the string as a source. The block is expected to write to the buffer and the string will be returned.
IO::Buffer.string(4) do |buffer| buffer.set_string("Ruby") end # => "Ruby"
Create a new repository for the given string.
Get SvcParam for the given key in this list.
Returns self interpreted as a Complex object; leading whitespace and trailing garbage are ignored:
'9'.to_c # => (9+0i) '2.5'.to_c # => (2.5+0i) '2.5/1'.to_c # => ((5/2)+0i) '-3/2'.to_c # => ((-3/2)+0i) '-i'.to_c # => (0-1i) '45i'.to_c # => (0+45i) '3-4i'.to_c # => (3-4i) '-4e2-4e-2i'.to_c # => (-400.0-0.04i) '-0.0-0.0i'.to_c # => (-0.0-0.0i) '1/2+3/4i'.to_c # => ((1/2)+(3/4)*i) '1.0@0'.to_c # => (1+0.0i) "1.0@#{Math::PI/2}".to_c # => (0.0+1i) "1.0@#{Math::PI}".to_c # => (-1+0.0i)
Returns Complex zero if the string cannot be converted:
'ruby'.to_c # => (0+0i)
See Kernel#Complex.
Returns the result of interpreting leading characters in str as a rational. Leading whitespace and extraneous characters past the end of a valid number are ignored. Digit sequences can be separated by an underscore. If there is not a valid number at the start of str, zero is returned. This method never raises an exception.
' 2 '.to_r #=> (2/1) '300/2'.to_r #=> (150/1) '-9.2'.to_r #=> (-46/5) '-9.2e2'.to_r #=> (-920/1) '1_234_567'.to_r #=> (1234567/1) '21 June 09'.to_r #=> (21/1) '21/06/09'.to_r #=> (7/2) 'BWV 1079'.to_r #=> (0/1)
NOTE: “0.3”.to_r isn’t the same as 0.3.to_r. The former is equivalent to “3/10”.to_r, but the latter isn’t so.
"0.3".to_r == 3/10r #=> true 0.3.to_r == 3/10r #=> false
See also Kernel#Rational.
Returns the result of interpreting leading characters in self as an integer in the given base (which must be in (0, 2..36)):
'123456'.to_i # => 123456 '123def'.to_i(16) # => 1195503
With base zero, string object may contain leading characters to specify the actual base:
'123def'.to_i(0) # => 123 '0123def'.to_i(0) # => 83 '0b123def'.to_i(0) # => 1 '0o123def'.to_i(0) # => 83 '0d123def'.to_i(0) # => 123 '0x123def'.to_i(0) # => 1195503
Characters past a leading valid number (in the given base) are ignored:
'12.345'.to_i # => 12 '12345'.to_i(2) # => 1
Returns zero if there is no leading valid number:
'abcdef'.to_i # => 0 '2'.to_i(2) # => 0
Returns the result of interpreting leading characters in self as a Float:
'3.14159'.to_f # => 3.14159 '1.234e-2'.to_f # => 0.01234
Characters past a leading valid number (in the given base) are ignored:
'3.14 (pi to two places)'.to_f # => 3.14
Returns zero if there is no leading valid number:
'abcdef'.to_f # => 0.0
Returns the Symbol corresponding to str, creating the symbol if it did not previously exist. See Symbol#id2name.
"Koala".intern #=> :Koala s = 'cat'.to_sym #=> :cat s == :cat #=> true s = '@cat'.to_sym #=> :@cat s == :@cat #=> true
This can also be used to create symbols that cannot be represented using the :xxx notation.
'cat and dog'.to_sym #=> :"cat and dog"
Returns whether self ends with any of the given strings.
Returns true if any given string matches the end, false otherwise:
'hello'.end_with?('ello') #=> true 'hello'.end_with?('heaven', 'ello') #=> true 'hello'.end_with?('heaven', 'paradise') #=> false 'тест'.end_with?('т') # => true 'こんにちは'.end_with?('は') # => true
Related: String#start_with?.
Returns a copy of self with leading substring prefix removed:
'hello'.delete_prefix('hel') # => "lo" 'hello'.delete_prefix('llo') # => "hello" 'тест'.delete_prefix('те') # => "ст" 'こんにちは'.delete_prefix('こん') # => "にちは"
Related: String#delete_prefix!, String#delete_suffix.
Returns a copy of self with trailing substring suffix removed:
'hello'.delete_suffix('llo') # => "he" 'hello'.delete_suffix('hel') # => "hello" 'тест'.delete_suffix('ст') # => "те" 'こんにちは'.delete_suffix('ちは') # => "こんに"
Related: String#delete_suffix!, String#delete_prefix.
Like String#delete_prefix, except that self is modified in place. Returns self if the prefix is removed, nil otherwise.
Like String#delete_suffix, except that self is modified in place. Returns self if the suffix is removed, nil otherwise.
Calls the given block with each successive byte from self; returns self:
'hello'.each_byte {|byte| print byte, ' ' } print "\n" 'тест'.each_byte {|byte| print byte, ' ' } print "\n" 'こんにちは'.each_byte {|byte| print byte, ' ' } print "\n"
Output:
104 101 108 108 111 209 130 208 181 209 129 209 130 227 129 147 227 130 147 227 129 171 227 129 161 227 129 175
Returns an enumerator if no block is given.
Calls the given block with each successive character from self; returns self:
'hello'.each_char {|char| print char, ' ' } print "\n" 'тест'.each_char {|char| print char, ' ' } print "\n" 'こんにちは'.each_char {|char| print char, ' ' } print "\n"
Output:
h e l l o т е с т こ ん に ち は
Returns an enumerator if no block is given.
Returns true if self contains only ASCII characters, false otherwise:
'abc'.ascii_only? # => true "abc\u{6666}".ascii_only? # => false
Returns a copy of self with Unicode normalization applied.
Argument form must be one of the following symbols (see Unicode normalization forms):
:nfc: Canonical decomposition, followed by canonical composition.
:nfd: Canonical decomposition.
:nfkc: Compatibility decomposition, followed by canonical composition.
:nfkd: Compatibility decomposition.
The encoding of self must be one of:
Encoding::UTF_8
Encoding::UTF_16BE
Encoding::UTF_16LE
Encoding::UTF_32BE
Encoding::UTF_32LE
Encoding::GB18030
Encoding::UCS_2BE
Encoding::UCS_4BE
Examples:
"a\u0300".unicode_normalize # => "a" "\u00E0".unicode_normalize(:nfd) # => "a "
Related: String#unicode_normalize!, String#unicode_normalized?.
Like String#unicode_normalize, except that the normalization is performed on self.
Related String#unicode_normalized?.
Returns true if self is in the given form of Unicode normalization, false otherwise. The form must be one of :nfc, :nfd, :nfkc, or :nfkd.
Examples:
"a\u0300".unicode_normalized? # => false "a\u0300".unicode_normalized?(:nfd) # => true "\u00E0".unicode_normalized? # => true "\u00E0".unicode_normalized?(:nfd) # => false
Raises an exception if self is not in a Unicode encoding:
s = "\xE0".force_encoding('ISO-8859-1') s.unicode_normalized? # Raises Encoding::CompatibilityError.
Related: String#unicode_normalize, String#unicode_normalize!.
Calls the given block with each successive grapheme cluster from self (see Unicode Grapheme Cluster Boundaries); returns self:
s = "\u0061\u0308-pqr-\u0062\u0308-xyz-\u0063\u0308" # => "ä-pqr-b̈-xyz-c̈" s.each_grapheme_cluster {|gc| print gc, ' ' }
Output:
ä - p q r - b̈ - x y z - c̈
Returns an enumerator if no block is given.
Format and print out counters as a String. This returns a non-empty content only when --yjit-stats is enabled.