Returns the hyperbolic tangent of z
, where z
is given in radians
CMath.tanh(1 + 1i) #=> (1.0839233273386943+0.27175258531951174i)
Returns the arc tangent of z
CMath.atan(1 + 1i) #=> (1.0172219678978514+0.4023594781085251i)
returns the arc tangent of y
divided by x
using the signs of y
and x
to determine the quadrant
CMath.atan2(1 + 1i, 0) #=> (1.5707963267948966+0.0i)
returns the inverse hyperbolic tangent of z
CMath.atanh(1 + 1i) #=> (0.4023594781085251+1.0172219678978514i)
Splits a string into an array of tokens in the same way the UNIX Bourne shell does.
argv = Shellwords.split('here are "two words"') argv #=> ["here", "are", "two words"]
Note, however, that this is not a command line parser. Shell
metacharacters except for the single and double quotes and backslash are not treated as such.
argv = Shellwords.split('ruby my_prog.rb | less') argv #=> ["ruby", "my_prog.rb", "|", "less"]
String#shellsplit
is a shortcut for this function.
argv = 'here are "two words"'.shellsplit argv #=> ["here", "are", "two words"]
Splits a string into an array of tokens in the same way the UNIX Bourne shell does.
argv = Shellwords.split('here are "two words"') argv #=> ["here", "are", "two words"]
Note, however, that this is not a command line parser. Shell
metacharacters except for the single and double quotes and backslash are not treated as such.
argv = Shellwords.split('ruby my_prog.rb | less') argv #=> ["ruby", "my_prog.rb", "|", "less"]
String#shellsplit
is a shortcut for this function.
argv = 'here are "two words"'.shellsplit argv #=> ["here", "are", "two words"]
Escapes a string so that it can be safely used in a Bourne shell command line. str
can be a non-string object that responds to to_s
.
Note that a resulted string should be used unquoted and is not intended for use in double quotes nor in single quotes.
argv = Shellwords.escape("It's better to give than to receive") argv #=> "It\\'s\\ better\\ to\\ give\\ than\\ to\\ receive"
String#shellescape
is a shorthand for this function.
argv = "It's better to give than to receive".shellescape argv #=> "It\\'s\\ better\\ to\\ give\\ than\\ to\\ receive" # Search files in lib for method definitions pattern = "^[ \t]*def " open("| grep -Ern #{pattern.shellescape} lib") { |grep| grep.each_line { |line| file, lineno, matched_line = line.split(':', 3) # ... } }
It is the caller’s responsibility to encode the string in the right encoding for the shell environment where this string is used.
Multibyte characters are treated as multibyte characters, not as bytes.
Returns an empty quoted String
if str
has a length of zero.
Escapes a string so that it can be safely used in a Bourne shell command line. str
can be a non-string object that responds to to_s
.
Note that a resulted string should be used unquoted and is not intended for use in double quotes nor in single quotes.
argv = Shellwords.escape("It's better to give than to receive") argv #=> "It\\'s\\ better\\ to\\ give\\ than\\ to\\ receive"
String#shellescape
is a shorthand for this function.
argv = "It's better to give than to receive".shellescape argv #=> "It\\'s\\ better\\ to\\ give\\ than\\ to\\ receive" # Search files in lib for method definitions pattern = "^[ \t]*def " open("| grep -Ern #{pattern.shellescape} lib") { |grep| grep.each_line { |line| file, lineno, matched_line = line.split(':', 3) # ... } }
It is the caller’s responsibility to encode the string in the right encoding for the shell environment where this string is used.
Multibyte characters are treated as multibyte characters, not as bytes.
Returns an empty quoted String
if str
has a length of zero.
Builds a command line string from an argument list, array
.
All elements are joined into a single string with fields separated by a space, where each element is escaped for the Bourne shell and stringified using to_s
.
ary = ["There's", "a", "time", "and", "place", "for", "everything"] argv = Shellwords.join(ary) argv #=> "There\\'s a time and place for everything"
Array#shelljoin
is a shortcut for this function.
ary = ["Don't", "rock", "the", "boat"] argv = ary.shelljoin argv #=> "Don\\'t rock the boat"
You can also mix non-string objects in the elements as allowed in Array#join
.
output = `#{['ps', '-p', $$].shelljoin}`
Builds a command line string from an argument list, array
.
All elements are joined into a single string with fields separated by a space, where each element is escaped for the Bourne shell and stringified using to_s
.
ary = ["There's", "a", "time", "and", "place", "for", "everything"] argv = Shellwords.join(ary) argv #=> "There\\'s a time and place for everything"
Array#shelljoin
is a shortcut for this function.
ary = ["Don't", "rock", "the", "boat"] argv = ary.shelljoin argv #=> "Don\\'t rock the boat"
You can also mix non-string objects in the elements as allowed in Array#join
.
output = `#{['ps', '-p', $$].shelljoin}`
Computes the arc tangent given y
and x
. Returns a Float
in the range -PI..PI. Return value is a angle in radians between the positive x-axis of cartesian plane and the point given by the coordinates (x
, y
) on it.
Domain: (-INFINITY, INFINITY)
Codomain: [-PI, PI]
Math.atan2(-0.0, -1.0) #=> -3.141592653589793 Math.atan2(-1.0, -1.0) #=> -2.356194490192345 Math.atan2(-1.0, 0.0) #=> -1.5707963267948966 Math.atan2(-1.0, 1.0) #=> -0.7853981633974483 Math.atan2(-0.0, 1.0) #=> -0.0 Math.atan2(0.0, 1.0) #=> 0.0 Math.atan2(1.0, 1.0) #=> 0.7853981633974483 Math.atan2(1.0, 0.0) #=> 1.5707963267948966 Math.atan2(1.0, -1.0) #=> 2.356194490192345 Math.atan2(0.0, -1.0) #=> 3.141592653589793 Math.atan2(INFINITY, INFINITY) #=> 0.7853981633974483 Math.atan2(INFINITY, -INFINITY) #=> 2.356194490192345 Math.atan2(-INFINITY, INFINITY) #=> -0.7853981633974483 Math.atan2(-INFINITY, -INFINITY) #=> -2.356194490192345
Computes the tangent of x
(expressed in radians).
Domain: (-INFINITY, INFINITY)
Codomain: (-INFINITY, INFINITY)
Math.tan(0) #=> 0.0
Computes the arc tangent of x
. Returns -PI/2..PI/2.
Domain: (-INFINITY, INFINITY)
Codomain: (-PI/2, PI/2)
Math.atan(0) #=> 0.0
Computes the hyperbolic tangent of x
(expressed in radians).
Domain: (-INFINITY, INFINITY)
Codomain: (-1, 1)
Math.tanh(0) #=> 0.0
Computes the inverse hyperbolic tangent of x
.
Domain: (-1, 1)
Codomain: (-INFINITY, INFINITY)
Math.atanh(1) #=> Infinity
Sends the given signal to the specified process id(s) if pid is positive. If pid is zero signal is sent to all processes whose group ID is equal to the group ID of the process. signal may be an integer signal number or a POSIX signal name (either with or without a SIG
prefix). If signal is negative (or starts with a minus sign), kills process groups instead of processes. Not all signals are available on all platforms. The keys and values of Signal.list
are known signal names and numbers, respectively.
pid = fork do Signal.trap("HUP") { puts "Ouch!"; exit } # ... do some work ... end # ... Process.kill("HUP", pid) Process.wait
produces:
Ouch!
If signal is an integer but wrong for signal, Errno::EINVAL
or RangeError
will be raised. Otherwise unless signal is a String
or a Symbol
, and a known signal name, ArgumentError
will be raised.
Also, Errno::ESRCH
or RangeError
for invalid pid, Errno::EPERM
when failed because of no privilege, will be raised. In these cases, signals may have been sent to preceding processes.
Some operating systems retain the status of terminated child processes until the parent collects that status (normally using some variant of wait()
). If the parent never collects this status, the child stays around as a zombie process. Process::detach
prevents this by setting up a separate Ruby thread whose sole job is to reap the status of the process pid when it terminates. Use detach
only when you do not intend to explicitly wait for the child to terminate.
The waiting thread returns the exit status of the detached process when it terminates, so you can use Thread#join
to know the result. If specified pid is not a valid child process ID, the thread returns nil
immediately.
The waiting thread has pid
method which returns the pid.
In this first example, we don’t reap the first child process, so it appears as a zombie in the process status display.
p1 = fork { sleep 0.1 } p2 = fork { sleep 0.2 } Process.waitpid(p2) sleep 2 system("ps -ho pid,state -p #{p1}")
produces:
27389 Z
In the next example, Process::detach
is used to reap the child automatically.
p1 = fork { sleep 0.1 } p2 = fork { sleep 0.2 } Process.detach(p1) Process.waitpid(p2) sleep 2 system("ps -ho pid,state -p #{p1}")
(produces no output)
Returns every spec that matches name
and optional requirements
.
Get all gem names from the command line.
wait for all jobs to terminate