зеркало из https://github.com/github/ruby.git
160 строки
5.3 KiB
Ruby
160 строки
5.3 KiB
Ruby
class Thread
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MUTEX_FOR_THREAD_EXCLUSIVE = Thread::Mutex.new # :nodoc:
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private_constant :MUTEX_FOR_THREAD_EXCLUSIVE
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# call-seq:
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# Thread.exclusive { block } => obj
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#
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# Wraps the block in a single, VM-global Mutex.synchronize, returning the
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# value of the block. A thread executing inside the exclusive section will
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# only block other threads which also use the Thread.exclusive mechanism.
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def self.exclusive
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warn "Thread.exclusive is deprecated, use Thread::Mutex", caller
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MUTEX_FOR_THREAD_EXCLUSIVE.synchronize{
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yield
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}
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end
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end
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class IO
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# call-seq:
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# ios.read_nonblock(maxlen [, options]) -> string
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# ios.read_nonblock(maxlen, outbuf [, options]) -> outbuf
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#
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# Reads at most <i>maxlen</i> bytes from <em>ios</em> using
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# the read(2) system call after O_NONBLOCK is set for
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# the underlying file descriptor.
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#
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# If the optional <i>outbuf</i> argument is present,
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# it must reference a String, which will receive the data.
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# The <i>outbuf</i> will contain only the received data after the method call
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# even if it is not empty at the beginning.
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#
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# read_nonblock just calls the read(2) system call.
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# It causes all errors the read(2) system call causes: Errno::EWOULDBLOCK, Errno::EINTR, etc.
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# The caller should care such errors.
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#
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# If the exception is Errno::EWOULDBLOCK or Errno::EAGAIN,
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# it is extended by IO::WaitReadable.
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# So IO::WaitReadable can be used to rescue the exceptions for retrying
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# read_nonblock.
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#
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# read_nonblock causes EOFError on EOF.
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#
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# If the read byte buffer is not empty,
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# read_nonblock reads from the buffer like readpartial.
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# In this case, the read(2) system call is not called.
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#
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# When read_nonblock raises an exception kind of IO::WaitReadable,
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# read_nonblock should not be called
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# until io is readable for avoiding busy loop.
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# This can be done as follows.
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#
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# # emulates blocking read (readpartial).
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# begin
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# result = io.read_nonblock(maxlen)
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# rescue IO::WaitReadable
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# IO.select([io])
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# retry
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# end
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#
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# Although IO#read_nonblock doesn't raise IO::WaitWritable.
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# OpenSSL::Buffering#read_nonblock can raise IO::WaitWritable.
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# If IO and SSL should be used polymorphically,
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# IO::WaitWritable should be rescued too.
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# See the document of OpenSSL::Buffering#read_nonblock for sample code.
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#
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# Note that this method is identical to readpartial
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# except the non-blocking flag is set.
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#
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# By specifying a keyword argument _exception_ to +false+, you can indicate
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# that read_nonblock should not raise an IO::WaitReadable exception, but
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# return the symbol +:wait_readable+ instead. At EOF, it will return nil
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# instead of raising EOFError.
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def read_nonblock(len, buf = nil, exception: true)
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__read_nonblock(len, buf, exception)
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end
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# call-seq:
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# ios.write_nonblock(string) -> integer
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# ios.write_nonblock(string [, options]) -> integer
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#
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# Writes the given string to <em>ios</em> using
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# the write(2) system call after O_NONBLOCK is set for
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# the underlying file descriptor.
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#
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# It returns the number of bytes written.
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#
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# write_nonblock just calls the write(2) system call.
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# It causes all errors the write(2) system call causes: Errno::EWOULDBLOCK, Errno::EINTR, etc.
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# The result may also be smaller than string.length (partial write).
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# The caller should care such errors and partial write.
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#
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# If the exception is Errno::EWOULDBLOCK or Errno::EAGAIN,
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# it is extended by IO::WaitWritable.
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# So IO::WaitWritable can be used to rescue the exceptions for retrying write_nonblock.
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#
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# # Creates a pipe.
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# r, w = IO.pipe
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#
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# # write_nonblock writes only 65536 bytes and return 65536.
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# # (The pipe size is 65536 bytes on this environment.)
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# s = "a" * 100000
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# p w.write_nonblock(s) #=> 65536
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#
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# # write_nonblock cannot write a byte and raise EWOULDBLOCK (EAGAIN).
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# p w.write_nonblock("b") # Resource temporarily unavailable (Errno::EAGAIN)
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#
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# If the write buffer is not empty, it is flushed at first.
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#
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# When write_nonblock raises an exception kind of IO::WaitWritable,
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# write_nonblock should not be called
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# until io is writable for avoiding busy loop.
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# This can be done as follows.
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#
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# begin
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# result = io.write_nonblock(string)
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# rescue IO::WaitWritable, Errno::EINTR
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# IO.select(nil, [io])
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# retry
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# end
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#
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# Note that this doesn't guarantee to write all data in string.
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# The length written is reported as result and it should be checked later.
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#
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# On some platforms such as Windows, write_nonblock is not supported
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# according to the kind of the IO object.
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# In such cases, write_nonblock raises <code>Errno::EBADF</code>.
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#
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# By specifying a keyword argument _exception_ to +false+, you can indicate
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# that write_nonblock should not raise an IO::WaitWritable exception, but
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# return the symbol +:wait_writable+ instead.
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def write_nonblock(buf, exception: true)
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__write_nonblock(buf, exception)
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end
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end
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class Binding
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def irb
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require 'irb'
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irb
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end
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# suppress redefinition warning
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alias irb irb # :nodoc:
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end
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module Kernel
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# prints arguments in pretty form.
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#
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# pp returns argument(s).
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def pp(*objs)
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require 'pp'
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pp(*objs)
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end
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# suppress redefinition warning
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alias pp pp # :nodoc:
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end
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