Returns true for IPv6 unspecified address (::). It returns false otherwise.
Duplicates a StringScanner
object.
Scans the string until the pattern
is matched. Returns the substring up to and including the end of the match, advancing the scan pointer to that location. If there is no match, nil
is returned.
s = StringScanner.new("Fri Dec 12 1975 14:39") s.scan_until(/1/) # -> "Fri Dec 1" s.pre_match # -> "Fri Dec " s.scan_until(/XYZ/) # -> nil
Advances the scan pointer until pattern
is matched and consumed. Returns the number of bytes advanced, or nil
if no match was found.
Look ahead to match pattern
, and advance the scan pointer to the end of the match. Return the number of characters advanced, or nil
if the match was unsuccessful.
It’s similar to scan_until
, but without returning the intervening string.
s = StringScanner.new("Fri Dec 12 1975 14:39") s.skip_until /12/ # -> 10 s #
This returns the value that scan_until
would return, without advancing the scan pointer. The match register is affected, though.
s = StringScanner.new("Fri Dec 12 1975 14:39") s.check_until /12/ # -> "Fri Dec 12" s.pos # -> 0 s.matched # -> 12
Mnemonic: it “checks” to see whether a scan_until
will return a value.
Replaces the entire contents of self
with the contents of other_hash
; returns self
:
h = {foo: 0, bar: 1, baz: 2} h.replace({bat: 3, bam: 4}) # => {:bat=>3, :bam=>4}
Removes tracing for the specified command on the given global variable and returns nil
. If no command is specified, removes all tracing for that variable and returns an array containing the commands actually removed.
Creates an enumerator for each chunked elements. The beginnings of chunks are defined by the block.
This method splits each chunk using adjacent elements, elt_before and elt_after, in the receiver enumerator. This method split chunks between elt_before and elt_after where the block returns false
.
The block is called the length of the receiver enumerator minus one.
The result enumerator yields the chunked elements as an array. So each
method can be called as follows:
enum.chunk_while { |elt_before, elt_after| bool }.each { |ary| ... }
Other methods of the Enumerator
class and Enumerable
module, such as to_a
, map
, etc., are also usable.
For example, one-by-one increasing subsequence can be chunked as follows:
a = [1,2,4,9,10,11,12,15,16,19,20,21] b = a.chunk_while {|i, j| i+1 == j } p b.to_a #=> [[1, 2], [4], [9, 10, 11, 12], [15, 16], [19, 20, 21]] c = b.map {|a| a.length < 3 ? a : "#{a.first}-#{a.last}" } p c #=> [[1, 2], [4], "9-12", [15, 16], "19-21"] d = c.join(",") p d #=> "1,2,4,9-12,15,16,19-21"
Increasing (non-decreasing) subsequence can be chunked as follows:
a = [0, 9, 2, 2, 3, 2, 7, 5, 9, 5] p a.chunk_while {|i, j| i <= j }.to_a #=> [[0, 9], [2, 2, 3], [2, 7], [5, 9], [5]]
Adjacent evens and odds can be chunked as follows: (Enumerable#chunk
is another way to do it.)
a = [7, 5, 9, 2, 0, 7, 9, 4, 2, 0] p a.chunk_while {|i, j| i.even? == j.even? }.to_a #=> [[7, 5, 9], [2, 0], [7, 9], [4, 2, 0]]
Enumerable#slice_when
does the same, except splitting when the block returns true
instead of false
.
Enters exclusive section and executes the block. Leaves the exclusive section automatically when the block exits. See example under MonitorMixin
.
Initializes the MonitorMixin
after being included in a class or when an object has been extended with the MonitorMixin
Counts symbols for each Symbol
type.
This method is only for MRI developers interested in performance and memory usage of Ruby programs.
If the optional argument, result_hash, is given, it is overwritten and returned. This is intended to avoid probe effect.
Note: The contents of the returned hash is implementation defined. It may be changed in future.
This method is only expected to work with C Ruby.
On this version of MRI, they have 3 types of Symbols (and 1 total counts).
* mortal_dynamic_symbol: GC target symbols (collected by GC) * immortal_dynamic_symbol: Immortal symbols promoted from dynamic symbols (do not collected by GC) * immortal_static_symbol: Immortal symbols (do not collected by GC) * immortal_symbol: total immortal symbols (immortal_dynamic_symbol+immortal_static_symbol)
Counts nodes for each node type.
This method is only for MRI developers interested in performance and memory usage of Ruby programs.
It returns a hash as:
{:NODE_METHOD=>2027, :NODE_FBODY=>1927, :NODE_CFUNC=>1798, ...}
If the optional argument, result_hash, is given, it is overwritten and returned. This is intended to avoid probe effect.
Note: The contents of the returned hash is implementation defined. It may be changed in future.
This method is only expected to work with C Ruby.
Removes all finalizers for obj.
Counts all objects grouped by type.
It returns a hash, such as:
{ :TOTAL=>10000, :FREE=>3011, :T_OBJECT=>6, :T_CLASS=>404, # ... }
The contents of the returned hash are implementation specific. It may be changed in future.
The keys starting with :T_
means live objects. For example, :T_ARRAY
is the number of arrays. :FREE
means object slots which is not used now. :TOTAL
means sum of above.
If the optional argument result_hash
is given, it is overwritten and returned. This is intended to avoid probe effect.
h = {} ObjectSpace.count_objects(h) puts h # => { :TOTAL=>10000, :T_CLASS=>158280, :T_MODULE=>20672, :T_STRING=>527249 }
This method is only expected to work on C Ruby.
Load yaml
in to a Ruby data structure. If multiple documents are provided, the object contained in the first document will be returned. filename
will be used in the exception message if any exception is raised while parsing. If yaml
is empty, it returns the specified fallback
return value, which defaults to false
.
Raises a Psych::SyntaxError
when a YAML
syntax error is detected.
Example:
Psych.unsafe_load("--- a") # => 'a' Psych.unsafe_load("---\n - a\n - b") # => ['a', 'b'] begin Psych.unsafe_load("--- `", filename: "file.txt") rescue Psych::SyntaxError => ex ex.file # => 'file.txt' ex.message # => "(file.txt): found character that cannot start any token" end
When the optional symbolize_names
keyword argument is set to a true value, returns symbols for keys in Hash
objects (default: strings).
Psych.unsafe_load("---\n foo: bar") # => {"foo"=>"bar"} Psych.unsafe_load("---\n foo: bar", symbolize_names: true) # => {:foo=>"bar"}
Raises a TypeError
when ‘yaml` parameter is NilClass
NOTE: This method *should not* be used to parse untrusted documents, such as YAML
documents that are supplied via user input. Instead, please use the load method or the safe_load
method.
Returns whether or not the function func
can be found in the common header files, or within any headers
that you provide. If found, a macro is passed as a preprocessor constant to the compiler using the function name, in uppercase, prepended with HAVE_
.
To check functions in an additional library, you need to check that library first using have_library()
. The func
shall be either mere function name or function name with arguments.
For example, if have_func('foo')
returned true
, then the HAVE_FOO
preprocessor macro would be passed to the compiler.
Unpacks the SecurityBufferDesc structure into member variables. We only want to do this once per struct, so the struct is deleted after unpacking.
Parses a source buffer and returns the AST, the source code comments, and the tokens emitted by the lexer.
If there was a error generated during the parse, then raise an appropriate syntax error. Otherwise return the result.
This method is responsible for updating lineno and column information to reflect the current node.
This method could be drastically improved with some caching on the start of every line, but for now it’s good enough.
This method is called when strong warning is produced by the parser. fmt
and args
is printf style.