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Mirror the Prism.parse_stream API by using the serialization API.

Mirror the Prism.parse_comments API by using the serialization API.

Mirror the Prism.parse_lex API by using the serialization API.

Mirror the Prism.parse_success? API by using the serialization API.

Mirror the Prism.parse_failure? API by using the serialization API.

Returns a clock time as determined by POSIX function clock_gettime():

Process.clock_gettime(:CLOCK_PROCESS_CPUTIME_ID) # => 198.650379677

Argument clock_id should be a symbol or a constant that specifies the clock whose time is to be returned; see below.

Optional argument unit should be a symbol that specifies the unit to be used in the returned clock time; see below.

Argument clock_id

Argument clock_id specifies the clock whose time is to be returned; it may be a constant such as Process::CLOCK_REALTIME, or a symbol shorthand such as :CLOCK_REALTIME.

The supported clocks depend on the underlying operating system; this method supports the following clocks on the indicated platforms (raises Errno::EINVAL if called with an unsupported clock):

• :CLOCK_BOOTTIME: Linux 2.6.39.

• :CLOCK_BOOTTIME_ALARM: Linux 3.0.

• :CLOCK_MONOTONIC: SUSv3 to 4, Linux 2.5.63, FreeBSD 3.0, NetBSD 2.0, OpenBSD 3.4, macOS 10.12, Windows-2000.

• :CLOCK_MONOTONIC_COARSE: Linux 2.6.32.

• :CLOCK_MONOTONIC_FAST: FreeBSD 8.1.

• :CLOCK_MONOTONIC_PRECISE: FreeBSD 8.1.

• :CLOCK_MONOTONIC_RAW: Linux 2.6.28, macOS 10.12.

• :CLOCK_MONOTONIC_RAW_APPROX: macOS 10.12.

• :CLOCK_PROCESS_CPUTIME_ID: SUSv3 to 4, Linux 2.5.63, FreeBSD 9.3, OpenBSD 5.4, macOS 10.12.

• :CLOCK_PROF: FreeBSD 3.0, OpenBSD 2.1.

• :CLOCK_REALTIME: SUSv2 to 4, Linux 2.5.63, FreeBSD 3.0, NetBSD 2.0, OpenBSD 2.1, macOS 10.12, Windows-8/Server-2012. Time.now is recommended over +:CLOCK_REALTIME:.

• :CLOCK_REALTIME_ALARM: Linux 3.0.

• :CLOCK_REALTIME_COARSE: Linux 2.6.32.

• :CLOCK_REALTIME_FAST: FreeBSD 8.1.

• :CLOCK_REALTIME_PRECISE: FreeBSD 8.1.

• :CLOCK_SECOND: FreeBSD 8.1.

• :CLOCK_TAI: Linux 3.10.

• :CLOCK_THREAD_CPUTIME_ID: SUSv3 to 4, Linux 2.5.63, FreeBSD 7.1, OpenBSD 5.4, macOS 10.12.

• :CLOCK_UPTIME: FreeBSD 7.0, OpenBSD 5.5.

• :CLOCK_UPTIME_FAST: FreeBSD 8.1.

• :CLOCK_UPTIME_PRECISE: FreeBSD 8.1.

• :CLOCK_UPTIME_RAW: macOS 10.12.

• :CLOCK_UPTIME_RAW_APPROX: macOS 10.12.

• :CLOCK_VIRTUAL: FreeBSD 3.0, OpenBSD 2.1.

Note that SUS stands for Single Unix Specification. SUS contains POSIX and clock_gettime is defined in the POSIX part. SUS defines :CLOCK_REALTIME as mandatory but :CLOCK_MONOTONIC, :CLOCK_PROCESS_CPUTIME_ID, and :CLOCK_THREAD_CPUTIME_ID are optional.

Certain emulations are used when the given clock_id is not supported directly:

• Emulations for :CLOCK_REALTIME:

  • :GETTIMEOFDAY_BASED_CLOCK_REALTIME: Use gettimeofday() defined by SUS (deprecated in SUSv4). The resolution is 1 microsecond.

  • :TIME_BASED_CLOCK_REALTIME: Use time() defined by ISO C. The resolution is 1 second.

• Emulations for :CLOCK_MONOTONIC:

  • :MACH_ABSOLUTE_TIME_BASED_CLOCK_MONOTONIC: Use mach_absolute_time(), available on Darwin. The resolution is CPU dependent.

  • :TIMES_BASED_CLOCK_MONOTONIC: Use the result value of times() defined by POSIX, thus:

    Upon successful completion, times() shall return the elapsed real time, in clock ticks, since an arbitrary point in the past (for example, system start-up time).

    For example, GNU/Linux returns a value based on jiffies and it is monotonic. However, 4.4BSD uses gettimeofday() and it is not monotonic. (FreeBSD uses :CLOCK_MONOTONIC instead, though.)

    The resolution is the clock tick. “getconf CLK_TCK” command shows the clock ticks per second. (The clock ticks-per-second is defined by HZ macro in older systems.) If it is 100 and clock_t is 32 bits integer type, the resolution is 10 millisecond and cannot represent over 497 days.

• Emulations for :CLOCK_PROCESS_CPUTIME_ID:

  • :GETRUSAGE_BASED_CLOCK_PROCESS_CPUTIME_ID: Use getrusage() defined by SUS. getrusage() is used with RUSAGE_SELF to obtain the time only for the calling process (excluding the time for child processes). The result is addition of user time (ru_utime) and system time (ru_stime). The resolution is 1 microsecond.

  • :TIMES_BASED_CLOCK_PROCESS_CPUTIME_ID: Use times() defined by POSIX. The result is addition of user time (tms_utime) and system time (tms_stime). tms_cutime and tms_cstime are ignored to exclude the time for child processes. The resolution is the clock tick. “getconf CLK_TCK” command shows the clock ticks per second. (The clock ticks per second is defined by HZ macro in older systems.) If it is 100, the resolution is 10 millisecond.

  • :CLOCK_BASED_CLOCK_PROCESS_CPUTIME_ID: Use clock() defined by ISO C. The resolution is 1/CLOCKS_PER_SEC. CLOCKS_PER_SEC is the C-level macro defined by time.h. SUS defines CLOCKS_PER_SEC as 1000000; other systems may define it differently. If CLOCKS_PER_SEC is 1000000 (as in SUS), the resolution is 1 microsecond. If CLOCKS_PER_SEC is 1000000 and clock_t is a 32-bit integer type, it cannot represent over 72 minutes.

Argument unit

Optional argument unit (default :float_second) specifies the unit for the returned value.

• :float_microsecond: Number of microseconds as a float.

• :float_millisecond: Number of milliseconds as a float.

• :float_second: Number of seconds as a float.

• :microsecond: Number of microseconds as an integer.

• :millisecond: Number of milliseconds as an integer.

• :nanosecond: Number of nanoseconds as an integer.

• ::second: Number of seconds as an integer.

Examples:

Process.clock_gettime(:CLOCK_PROCESS_CPUTIME_ID, :float_microsecond)
# => 203605054.825
Process.clock_gettime(:CLOCK_PROCESS_CPUTIME_ID, :float_millisecond)
# => 203643.696848
Process.clock_gettime(:CLOCK_PROCESS_CPUTIME_ID, :float_second)
# => 203.762181929
Process.clock_gettime(:CLOCK_PROCESS_CPUTIME_ID, :microsecond)
# => 204123212
Process.clock_gettime(:CLOCK_PROCESS_CPUTIME_ID, :millisecond)
# => 204298
Process.clock_gettime(:CLOCK_PROCESS_CPUTIME_ID, :nanosecond)
# => 204602286036
Process.clock_gettime(:CLOCK_PROCESS_CPUTIME_ID, :second)
# => 204

The underlying function, clock_gettime(), returns a number of nanoseconds. Float object (IEEE 754 double) is not enough to represent the return value for :CLOCK_REALTIME. If the exact nanoseconds value is required, use :nanosecond as the unit.

The origin (time zero) of the returned value is system-dependent, and may be, for example, system start up time, process start up time, the Epoch, etc.

The origin in :CLOCK_REALTIME is defined as the Epoch: 1970-01-01 00:00:00 UTC; some systems count leap seconds and others don’t, so the result may vary across systems.

Returns all certificate IDs in this request.

Returns the CertificateId for which this SingleResponse is.

Indicated whether this Cipher instance uses an Authenticated Encryption mode.

Parses a given string as a blob that contains configuration for OpenSSL.

Parse the YAML document contained in yaml. Events will be called on the handler set on the parser instance.

See Psych::Parser and Psych::Parser#handler

Starts the parser. init is a data accumulator and is passed to the next event handler (as of Enumerable#inject).

returns the timestamp as a time object.

ancillarydata should be one of following type:

• SOL_SOCKET/SCM_TIMESTAMP (microsecond) GNU/Linux, FreeBSD, NetBSD, OpenBSD, Solaris, MacOS X

• SOL_SOCKET/SCM_TIMESTAMPNS (nanosecond) GNU/Linux

• SOL_SOCKET/SCM_BINTIME (2**(-64) second) FreeBSD

  Addrinfo.udp(“127.0.0.1”, 0).bind {|s1|

  Addrinfo.udp("127.0.0.1", 0).bind {|s2|
    s1.setsockopt(:SOCKET, :TIMESTAMP, true)
    s2.send "a", 0, s1.local_address
    ctl = s1.recvmsg.last
    p ctl    #=> #<Socket::AncillaryData: INET SOCKET TIMESTAMP 2009-02-24 17:35:46.775581>
    t = ctl.timestamp
    p t      #=> 2009-02-24 17:35:46 +0900
    p t.usec #=> 775581
    p t.nsec #=> 775581000
  }
  

  }

returns array of WIN32OLE::Param object corresponding with method parameters.

tobj = WIN32OLE::Type.new('Microsoft Excel 9.0 Object Library', 'Workbook')
method = WIN32OLE::Method.new(tobj, 'SaveAs')
p method.params # => [Filename, FileFormat, Password, WriteResPassword,
                      ReadOnlyRecommended, CreateBackup, AccessMode,
                      ConflictResolution, AddToMru, TextCodepage,
                      TextVisualLayout]

Returns the type library version.

tlib = WIN32OLE::TypeLib.new('Microsoft Excel 9.0 Object Library')
puts tlib.version #-> "1.3"

Returns OLE variant type.

obj = WIN32OLE::Variant.new("string")
obj.vartype # => WIN32OLE::VARIANT::VT_BSTR

Changes the parameters of the deflate stream to allow changes between different types of data that require different types of compression. Any unprocessed data is flushed before changing the params.

See Zlib::Deflate.new for a description of level and strategy.

Returns last modification time recorded in the gzip file header.

Specify the modification time (mtime) in the gzip header. Using an Integer.

Setting the mtime in the gzip header does not effect the mtime of the file generated. Different utilities that expand the gzipped files may use the mtime header. For example the gunzip utility can use the ‘-N` flag which will set the resultant file’s mtime to the value in the header. By default many tools will set the mtime of the expanded file to the mtime of the gzipped file, not the mtime in the header.

If you do not set an mtime, the default value will be the time when compression started. Setting a value of 0 indicates no time stamp is available.

Returns the last access time for this file as an object of class Time.

File.stat("testfile").atime   #=> Wed Dec 31 18:00:00 CST 1969

Returns the modification time of stat.

File.stat("testfile").mtime   #=> Wed Apr 09 08:53:14 CDT 2003