klassemetoder
|
Array
|
Array( arg ) -> anArray
|
|
Returns arg
.to_a .
Array(1..5)
|
» |
[1, 2, 3, 4, 5]
|
|
Float
|
Float( arg ) -> aFloat
|
|
Returns arg converted to a float. Numeric types are
converted directly, nil is converted to 0.0 , and
the rest are converted using arg.to_f.
Float(1)
|
» |
1.0
|
Float(nil)
|
» |
0.0
|
Float("123.456")
|
» |
123.456
|
|
Integer
|
Integer( arg ) -> anInteger
|
|
Converts arg to a Fixnum or Bignum . Numeric types
are converted directly (with floating point numbers being
truncated). If arg is a String , leading radix
indicators (0 , 0b , and 0x ) are honored. This
behavior is different from that of
String#to_i
.
Integer(123.999)
|
» |
123
|
Integer("0x1a")
|
» |
26
|
Integer(Time.new)
|
» |
1006753857
|
|
String
|
String( arg ) -> aString
|
|
Converts arg to a String by calling its
to_s method.
String(self)
|
» |
"main"
|
String(self.type)
|
» |
"Object"
|
String(123456)
|
» |
"123456"
|
|
` (backquote)
|
`cmd` -> aString
|
|
Returns the standard output of running cmd in a
subshell. The built-in syntax %x{...}
described
on page 73 uses this method.
`date`
|
» |
"Sun Nov 25 23:50:57 CST 2001\n"
|
`ls testdir`.split[1]
|
» |
"main.rb"
|
|
abort
|
abort
|
|
Terminate execution immediately, effectively by calling
Kernel.exit(1) .
|
at_exit
|
at_exit { block }
-> aProc
|
|
Converts block to a Proc object (and therefore binds
it at the point of call) and registers it for
execution when the program exits. If multiple handlers are
registered, they are executed in reverse order of registration.
def do_at_exit(str1)
at_exit { print str1 }
end
at_exit { puts "cruel world" }
do_at_exit("goodbye ")
exit
|
produces:
|
autoload
|
autoload( aModule, aFile )
-> nil
|
|
Registers aFile to be loaded (using
Kernel::require
) the first time that aModule (which
may be a String or a symbol) is accessed.
autoload :MyModule, "/usr/local/lib/modules/my_module.rb"
|
|
binding
|
binding -> aBinding
|
|
Returns a Binding object, describing the variable and method
bindings at the point of call. This object can be used when calling
eval to execute the evaluated command in this
environment. Also see the description of Binding
beginning on page 291.
def getBinding(param)
|
return binding
|
end
|
b = getBinding("hello")
|
eval "param", b
|
» |
"hello"
|
|
block_given?
|
block_given? -> true or false
|
|
Returns true if yield would execute a block
in the current context.
def try
|
if block_given?
|
yield
|
else
|
"no block"
|
end
|
end
|
try
|
» |
"no block"
|
try { "hello" }
|
» |
"hello"
|
try do
|
"hello"
|
end
|
|
callcc
|
callcc {| cont | block }
-> anObject
|
|
Generates a Continuation object, which it passes to the associated
block. Performing a cont
.call will cause the
callcc to return (as will falling through the end of
the block). The value returned by the callcc is the
value of the block, or the value passed to
cont
.call . See Continuation
on page 294 for more details. Also see
Kernel::throw
for an alternative mechanism for unwinding a
call stack.
|
caller
|
caller( [
anInteger
] )
-> anArray
|
|
Returns the current execution
stack---an array containing strings in the form
``file:line'' or ``file:line: in `method'''. The
optional anInteger parameter determines the number of
initial stack entries to omit from the result.
def a(skip)
|
caller(skip)
|
end
|
def b(skip)
|
a(skip)
|
end
|
def c(skip)
|
b(skip)
|
end
|
c(0)
|
» |
["prog:2:in `a'", "prog:5:in `b'", "prog:8:in `c'", "prog:10"]
|
c(1)
|
» |
["prog:5:in `b'", "prog:8:in `c'", "prog:11"]
|
c(2)
|
» |
["prog:8:in `c'", "prog:12"]
|
c(3)
|
» |
["prog:13"]
|
|
catch
|
catch( symbol ) {| | block }
-> anObject
|
|
catch executes its block. If a throw is
executed, Ruby searches up its stack for a catch block with a tag
corresponding to the throw 's symbol. If found, that block is
terminated, and catch returns the value given to
throw . If throw is not called,
the block terminates normally, and
the value of catch is the value of the last expression
evaluated. catch expressions may be nested, and the
throw call need not be in lexical scope.
def routine(n)
puts n
throw :done if n <= 0
routine(n-1)
end
catch(:done) { routine(3) }
|
produces:
|
chomp
|
chomp( [
aString
] )
-> $_ or aString
|
|
Equivalent to
$_ = $_.chomp(aString) .
See
String#chomp
on page 367.
$_ = "now\n"
|
chomp
|
» |
"now"
|
$_
|
» |
"now"
|
chomp "ow"
|
» |
"n"
|
$_
|
» |
"n"
|
chomp "xxx"
|
» |
"n"
|
$_
|
» |
"n"
|
|
chomp!
|
chomp!( [
aString
] )
-> $_ or nil
|
|
Equivalent to $_.chomp!(aString) .
See
String#chomp!
$_ = "now\n"
|
chomp!
|
» |
"now"
|
$_
|
» |
"now"
|
chomp! "x"
|
» |
nil
|
$_
|
» |
"now"
|
|
chop
|
chop -> aString
|
|
Equivalent to
($_.dup).chop! , except nil is never
returned.
See
String#chop!
on page 367.
a = "now\r\n"
|
$_ = a
|
chop
|
» |
"now"
|
$_
|
» |
"now"
|
chop
|
» |
"no"
|
chop
|
» |
"n"
|
chop
|
» |
""
|
chop
|
» |
""
|
a
|
» |
"now\r\n"
|
|
chop!
|
chop! -> $_ or nil
|
|
Equivalent to $_.chop! .
a = "now\r\n"
|
$_ = a
|
chop!
|
» |
"now"
|
chop!
|
» |
"no"
|
chop!
|
» |
"n"
|
chop!
|
» |
""
|
chop!
|
» |
nil
|
$_
|
» |
""
|
a
|
» |
""
|
|
eval
|
eval( aString
[, aBinding [
file [
line
]
]
])
-> anObject
|
|
Evaluates the Ruby expression(s) in aString. If
aBinding is given, the evaluation is performed in its
context.
The binding may be a Binding object or a Proc
object. If the optional file and line parameters
are present, they will be used when reporting syntax errors.
def getBinding(str)
|
return binding
|
end
|
str = "hello"
|
eval "str + ' Fred'"
|
» |
"hello Fred"
|
eval "str + ' Fred'", getBinding("bye")
|
» |
"bye Fred"
|
|
exec
|
exec( command [, args
])
|
|
Replaces the current process by running the given external
command.
If exec is given a single
argument, that argument is taken as a line that is subject to
shell expansion before being executed. If multiple arguments are
given, the second and subsequent arguments are passed as
parameters to command with no shell expansion. If the
first argument is a two-element array, the first element is the
command to be executed, and the second argument is used as the
argv[0] value, which may show up in process listings. In MSDOS
environments, the command is executed in a subshell; otherwise,
one of the exec(2) system calls is used, so the running
command may inherit some of the environment of the original
program (including open file descriptors).
exec "echo *" # echoes list of files in current directory
# never get here
exec "echo", "*" # echoes an asterisk
# never get here
|
|
exit
|
exit( anInteger=0 )
|
|
Initiates the termination of the Ruby script by raising the
SystemExit exception. This exception may be caught. The
optional parameter is used to return a status code to the
invoking environment.
begin
exit
puts "never get here"
rescue SystemExit
puts "rescued a SystemExit exception"
end
puts "after begin block"
|
produces:
rescued a SystemExit exception
after begin block
|
Just prior to termination, Ruby executes
any at_exit functions and runs any object finalizers (see
ObjectSpace beginning on page 430).
at_exit { puts "at_exit function" }
ObjectSpace.define_finalizer(self, proc { puts "in finalizer" })
exit
|
produces:
|
exit!
|
exit!( anInteger=-1 )
|
|
Similar to
Kernel::exit
, but exception handling,
at_exit functions, and finalizers are bypassed.
|
fail
|
fail fail( aString ) fail( anException [, aString
[
anArray
]
] )
|
|
Synonym for
Kernel::raise
.
|
fork
|
fork [{ block }
] -> aFixnum
or nil
|
|
Creates a subshell. If a block is specified, that block is run
in the subshell, and the subshell terminates with a status of
zero. Otherwise, the fork call returns twice, once in
the parent, returning the process id of the child, and once in
the child, returning nil . The child process can
exit using
Kernel::exit!
to avoid running any
at_exit functions. The parent process should use
Process::wait
to collect the termination statuses of its
children; otherwise, the operating system may accumulate zombie
processes.
fork do
3.times {|i| puts "Child: #{i}" }
end
3.times {|i| puts "Parent: #{i}" }
Process.wait
|
produces:
Child: 0
Parent: 0
Parent: 1
Child: 1
Child: 2
Parent: 2
|
|
format
|
format( aString [,
anObject
]*
) -> aString
|
|
Synonym for
Kernel::sprintf
.
|
gets
|
gets( aString=$/ )
-> aString or nil
|
|
Returns (and assigns to $_ ) the next line from
the list of files in ARGV (or $* ), or
from standard input if no files are present on the command line.
Returns nil at end of file.
The optional argument specifies the
record separator. The separator is
included with the contents of each record. A separator of nil
reads the entire contents, and a zero-length separator reads the
input one paragraph at a time, where paragraphs are divided
by two consecutive newlines. If multiple filenames are
present in ARGV , gets(nil) will read the
contents one file at a time.
ARGV << "testfile"
print while gets
|
produces:
This is line one
This is line two
This is line three
And so on...
|
|
global_variables
|
global_variables
-> anArray
|
|
Returns an array of the names of global variables.
global_variables.grep /std/
|
» |
["$stderr", "$stdout", "$stdin"]
|
|
gsub
|
gsub( pattern, replacement )
-> aString
gsub( pattern ) {| | block }
-> aString
|
|
Equivalent to $_.gsub... , except that $_
receives the modified result.
$_ = "quick brown fox"
|
gsub /[aeiou]/, '*'
|
» |
"q**ck br*wn f*x"
|
$_
|
» |
"q**ck br*wn f*x"
|
|
gsub!
|
gsub!( pattern, replacement )
-> aString or nil
gsub!( pattern ) {| | block }
-> aString or nil
|
|
Equivalent to
Kernel::gsub
, except nil is returned if
$_ is not modified.
$_ = "quick brown fox"
|
gsub! /cat/, '*'
|
» |
nil
|
$_
|
» |
"quick brown fox"
|
|
iterator?
|
iterator? -> true or false
|
|
Synonym for
Kernel::block_given?
. The iterator?
method will be removed in Ruby 1.8.
|
lambda
|
lambda {| | block }
-> aProc
|
|
Synonym for
Kernel::proc
.
|
load
|
load( aFileName,
wrap=false ) -> true
|
|
Loads and executes the Ruby program in the file
aFileName. If the filename does not resolve to an absolute path, the
file is searched for in the library directories listed in
$: . If the optional wrap parameter is
true , the loaded script will be executed under an
anonymous module, protecting the calling program's global
namespace. Any local variables in the loaded file will not be
propagated to the loading environment.
|
local_variables
|
local_variables
-> anArray
|
|
Returns the names of the current local variables.
fred = 1
|
for i in 1..10
|
# ...
|
end
|
local_variables
|
» |
["fred", "i"]
|
|
loop
|
loop {| | block }
|
|
Repeatedly executes the block.
loop {
print "Input: "
break if !gets or $_ =~ /^qQ/
# ...
}
|
|
open
|
open( aString
[, aMode [
perm
]
] )
-> anIO or nil
open( aString
[, aMode [
perm
]
] ) {| anIO | block }
-> nil
|
|
Creates an IO object connected to the given stream, file,
or subprocess.
If aString does not start with a pipe character
(``| ''), treat it as the name of a file to open using the
specified mode defaulting to ``r '' (see the table of
valid modes on page 326). If a file is being
created, its initial permissions may be set using the integer
third parameter.
If a block is specified, it will be invoked with the File
object as a parameter, and the file will be automatically
closed when the block terminates. The call always returns
nil in this case.
If aString starts with a pipe character, a subprocess
is created, connected to the caller by a pair of pipes. The
returned IO object may be used to write to the standard
input and read from the standard output of this subprocess.
If the command following the ``| '' is a single minus sign,
Ruby forks, and this subprocess is connected to the parent.
In the subprocess, the open call returns nil . If
the command is not ``- '', the subprocess runs the command. If
a block is associated with an open("|-") call, that
block will be run twice---once in the parent and once in the
child. The block parameter will be an IO object in the
parent and nil in the child. The parent's IO object will
be connected to the child's $stdin and $stdout .
The subprocess will be terminated at the end of the
block.
open("testfile") do |f|
print f.gets
end
|
produces:
Open a subprocess and read its output:
cmd = open("|date")
print cmd.gets
cmd.close
|
produces:
Sun Nov 25 23:50:58 CST 2001
|
Open a subprocess running the same Ruby program:
f = open("|-", "w+")
if f == nil
puts "in Child"
exit
else
puts "Got: #{f.gets}"
end
|
produces:
Open a subprocess using a block to receive the I/O object:
open("|-") do |f|
if f == nil
puts "in Child"
else
puts "Got: #{f.gets}"
end
end
|
produces:
|
p
|
p( [
anObject
]+
)
-> nil
|
|
For each object, directly writes
anObject.inspect followed by
the current output record separator to the program's standard
output. p bypasses the Ruby I/O libraries.
produces:
|
print
|
print( [
anObject
]*
)
-> nil
|
|
Prints each object in turn to $defout . If the
output field separator ($, )
is not nil , its contents will appear
between each field.
If the output record separator
($\ )
is not nil , it will be appended to the output. If
no arguments are given, prints $_ . Objects that aren't
strings will be converted by calling their to_s
method.
print "cat", [1,2,3], 99, "\n"
$, = ", "
$\ = "\n"
print "cat", [1,2,3], 99
|
produces:
cat12399
cat, 1, 2, 3, 99
|
|
printf
|
printf( anIO, aString [, anObject
]*
)
-> nil
printf( aString [, anObject
]*
)
-> nil
|
|
Equivalent to:
anIO.
write sprintf(
aString, anObject
...)
or
$defout.write sprintf(
aString, anObject
...)
|
proc
|
proc { block }
-> aProc
|
|
Creates a new procedure object from the given block. Equivalent
to
Proc.new
.
aProc = proc { "hello" }
|
aProc.call
|
» |
"hello"
|
|
putc
|
putc( anInteger ) -> anInteger
|
|
Equivalent to $defout.putc(
anInteger
) .
|
puts
|
puts( [
args
]*
) -> nil
|
|
Equivalent to $defout.puts(
args
) .
|
raise
|
raise raise( aString ) raise( anException [, aString
[
anArray
]
] )
|
|
With no arguments, raises the
exception in $! or raises a
RuntimeError if $! is nil .
With a single String argument, raises a
RuntimeError with the string as a message. Otherwise, the
first parameter should be the name of an Exception class
(or an object that returns an Exception when sent
exception ). The
optional second parameter sets the message associated with the
exception, and the third parameter is an array of callback
information. Exceptions are caught by the rescue clause of
begin...end blocks.
raise "Failed to create socket"
raise ArgumentError, "No parameters", caller
|
|
rand
|
rand( max=0 )
-> aNumber
|
|
Converts max to an integer using max1 =
max.to_i.abs .
If the result is zero, returns a pseudorandom floating point
number greater than or equal to 0.0 and less than
1.0. Otherwise, returns a pseudorandom integer greater than or
equal to zero and less than max1.
Kernel::srand
may be
used to ensure repeatable sequences of random numbers between
different runs of the program.
srand 1234
|
» |
0
|
[ rand, rand ]
|
» |
[0.7408769294, 0.2145348572]
|
[ rand(10), rand(1000) ]
|
» |
[3, 323]
|
srand 1234
|
» |
1234
|
[ rand, rand ]
|
» |
[0.7408769294, 0.2145348572]
|
|
readline
|
readline( [
aString=$/
] )
-> aString
|
|
Equivalent to
Kernel::gets
, except readline raises
EOFError at end of file.
|
readlines
|
readlines( [
aString=$/
] )
-> anArray
|
|
Returns an array containing the lines returned by
calling Kernel.gets(aString) until the end of file.
|
require
|
require( aString )
-> true or false
|
|
Ruby tries to load the library named aString, returning
true if successful. If the filename does not resolve to an
absolute path, it will be searched for in the directories listed
in $: . If the file has the extension
``.rb'', it is loaded as a source file; if the extension is
``.so'', ``.o'', or ``.dll'',[Or whatever the default
shared library extension is on the current platform.] Ruby
loads the shared library as a Ruby extension. Otherwise, Ruby
tries adding ``.rb'', ``.so'', and so on to the name. The name
of the loaded feature is added to the array in $" . A
feature will not be loaded if it already appears in $" .
require returns true if the feature was
successfully loaded.
require "my-library.rb"
require "db-driver"
|
|
scan
|
scan( pattern ) -> anArray
scan( pattern ) {| | block }
-> $_
|
|
Equivalent to calling $_.scan . See
String#scan
on page 373.
|
select
|
select( readArray [,
writeArray
[
errorArray [
timeout
]
]
] )
-> anArray or nil
|
|
Performs
a low-level select call, which waits for data to
become available from input/output devices. The first three
parameters are arrays of IO objects or nil . The last is a
timeout in seconds, which should be an Integer or a
Float . The call waits for data to become available for any
of the IO objects in readArray, for buffers to have
cleared sufficiently to enable writing to any of the devices in
writeArray, or for an error to occur on the devices in
errorArray. If one or more of these conditions are met, the
call returns a three-element array containing arrays of the
IO objects that were ready. Otherwise, if there is no
change in status for timeout seconds, the call returns
nil . If all parameters are nil , the current thread sleeps forever.
select( [$stdin], nil, nil, 1.5 )
|
» |
[[#<IO:0x401b8090>], [], []]
|
|
set_trace_func
|
set_trace_func( aProc ) -> aProc
set_trace_func( nil ) -> nil
|
|
Establishes aProc as the handler for tracing, or disables
tracing if the parameter is nil . aProc
takes up to six parameters: an event name, a filename, a line
number, an object id, a binding, and the name of a
class. aProc is invoked whenever an event
occurs. Events are:
c-call (call a C-language routine),
c-return (return from a C-language routine),
call (call a Ruby method),
class (start a class or module definition),
end (finish a class or module definition),
line (execute code on a new line),
raise (raise an exception), and
return (return from a Ruby method).
Tracing is disabled within the context of aProc.
See the example starting on page 267 for more
information.
|
singleton_method_added
|
singleton_method_added( aFixnum ) -> nil
|
|
Invoked with a symbol id whenever a singleton method is added to
a module or a class. The default implementation in Kernel
ignores this, but subclasses may override the method to provide
specialized functionality.
class Test
def Test.singleton_method_added(id)
puts "Added #{id.id2name} to Test"
end
def a() end
def Test.b() end
end
def Test.c() end
|
produces:
Added singleton_method_added to Test
Added b to Test
Added c to Test
|
|
sleep
|
sleep( [
aNumeric
] )
-> aFixnum
|
|
Suspends the current thread for aNumber seconds (which may be a Float
with fractional seconds). Returns the actual number of seconds
slept (rounded), which may be less than that asked for if the
thread was interrupted by a
SIGALRM , or if another thread
calls
Thread#run
. An argument of zero causes sleep
to sleep forever.
Time.new
|
» |
Sun Nov 25 23:50:59 CST 2001
|
sleep 1.2
|
» |
1
|
Time.new
|
» |
Sun Nov 25 23:51:00 CST 2001
|
sleep 1.9
|
» |
2
|
Time.new
|
» |
Sun Nov 25 23:51:02 CST 2001
|
|
split
|
split( [
pattern
[
limit
]
] ) -> anArray
|
|
Equivalent to
$_.split(pattern, limit) . See
String#split
on page 374.
|
sprintf
|
sprintf( aFormatString
[, arguments
]*
) -> aString
|
|
Returns the string resulting
from applying aFormatString to any additional arguments.
Within the format string, any characters other than format
sequences are copied to the result.
A format sequence consists of a percent sign, followed by
optional flags, width, and precision indicators, then terminated
with a field type character. The field type controls how the
corresponding sprintf argument is to be interpreted,
while the flags modify that interpretation.
The flag characters are shown in Table
23.1 on page 424, and the field type characters are listed
in Table 23.2.
The field width is an optional integer, followed optionally by a
period and a precision. The width specifies the minimum number
of characters that will be written to the result for this
field. For numeric fields, the precision controls the number of
decimal places displayed. For string fields, the precision
determines the maximum number of characters to be copied from
the string. (Thus, the format sequence %10.10s will always
contribute exactly ten characters to the result.)
sprintf flag characters
Flag
|
Applies to
|
Meaning
|
(space) |
bdeEfgGioxXu |
Leave a
space at the start of positive numbers. |
#
|
beEfgGoxX |
Use an alternative format. For the
conversions `o', `x', `X', and `b', prefix the result with
``0'', ``0x'', ``0X'', and ``0b'', respectively. For `e',
`E', `f', `g', and 'G', force a decimal point to be added,
even if no digits follow. For `g' and 'G', do not remove
trailing zeros. |
+
|
bdeEfgGioxXu |
Add a leading plus sign to
positive numbers. |
-
|
all |
Left-justify the result of this conversion. |
0 (zero) |
all |
Pad with zeros, not spaces. |
*
|
all |
Use the next argument as the field width. If
negative, left-justify the result. If the asterisk is
followed by a number and a dollar sign, use
the indicated argument as the width. |
|
|
sprintf field types
Field
|
Conversion
|
b |
Convert argument as a binary number. |
c |
Argument is the numeric code for a single character. |
d |
Convert argument as a decimal number. |
E |
Equivalent to `e', but uses an uppercase E to indicate
the exponent. |
e |
Convert floating point argument into exponential notation
with one digit before the decimal point. The precision
determines the number of fractional digits (defaulting to six). |
f |
Convert floating point argument as [-]ddd.ddd ,
where the precision determines the number of digits after
the decimal point. |
G |
Equivalent to `g', but use an uppercase `E' in exponent
form. |
g |
Convert a floating point number using exponential form
if the exponent is less than -4 or greater than or
equal to the precision, or in d.dddd form otherwise. |
i |
Identical to `d'. |
o |
Convert argument as an octal number. |
s |
Argument is a string to be substituted. If the format
sequence contains a precision, at most that many characters
will be copied. |
u |
Treat argument as an unsigned decimal number. |
X |
Convert argument as a hexadecimal number using uppercase letters. |
x |
Convert argument as a hexadecimal number. |
|
|
sprintf("%d %04x", 123, 123)
|
» |
"123007b"
|
sprintf("%08b '%4s'", 123, 123)
|
» |
"01111011'123'"
|
sprintf("%*2$s %d", "hello", 10)
|
» |
"hello10"
|
sprintf("%*2$s %d", "hello", -10)
|
» |
"hello-10"
|
sprintf("%+g:% g:%-g", 1.23, 1.23, 1.23)
|
» |
"+1.23:1.23:1.23"
|
|
srand
|
srand( [
aNumber
] )
-> oldSeed
|
|
Seeds the pseudorandom number generator to the value of
aNumber.to_i.abs . If aNumber is omitted or zero,
seeds the generator using a combination of the time, the process
id, and a sequence number. (This is also the behavior if
Kernel::rand
is called without previously calling
srand , but without the sequence.)
By setting the seed to a known value, scripts can be made
deterministic during testing. The previous seed value is
returned. Also see
Kernel::rand
on page 421.
|
sub
|
sub( pattern, replacement )
-> $_ sub( pattern ) { block }
-> $_
|
|
Equivalent to $_.sub(args) , except that $_
will be updated if substitution occurs.
|
sub!
|
sub!( pattern, replacement )
-> $_ or nil
sub!( pattern ) { block }
-> $_ or nil
|
|
Equivalent to $_.sub!(args) .
|
syscall
|
syscall( aFixnum
[, args
]*
)
-> anInteger
|
|
Calls the operating system function identified by aFixnum,
passing in the arguments, which must be either String objects, or
Integer objects that ultimately fit within a native long .
Up to nine parameters may be passed (14 on the
Atari-ST). The function identified
by Fixnum is system dependent. On some Unix systems, the
numbers may be obtained from a header file called
syscall.h .
syscall 4, 1, "hello\n", 6 # '4' is write(2) on our box
|
produces:
|
system
|
system( aCmd [, args
]*
)
-> true or false
|
|
Executes aCmd in a subshell, returning true if the
command was found and ran successfully, false
otherwise. A detailed error code is available in $? . The
arguments are processed in the same way as for
Kernel::exec
on page 415.
system("echo *")
system("echo", "*")
|
produces:
|
test
|
test(aCmd, file1 [, file2
] )
-> anObject
|
|
Uses the integer aCmd to perform various tests on
file1 (Table 23.3 on page 426) or on file1 and
file2 (Table 23.4).
File tests with a single argument
Integer
|
Description
|
Returns
|
?A |
Last access time for file1
|
Time |
?b |
True if file1 is a block device |
true or false
|
?c |
True if file1 is a character device |
true or false
|
?C |
Last change time for file1
|
Time |
?d |
True if file1 exists and is a directory |
true or false
|
?e |
True if file1 exists |
true or false
|
?f |
True if file1 exists and is a regular file |
true or false
|
?g |
True if file1 has the setgid bit set (false under
NT) |
true or false
|
?G |
True if file1 exists and has a group ownership equal to
the caller's group |
true or false
|
?k |
True if file1 exists and has the sticky bit set |
true or false
|
?l |
True if file1 exists and is a symbolic link |
true or false
|
?M |
Last modification time for file1
|
Time |
?o |
True if file1 exists and is owned by the caller's
effective uid |
true or false
|
?O |
True if file1 exists and is owned by the caller's
real uid |
true or false
|
?p |
True if file1 exists and is a fifo |
true or false
|
?r |
True if file is readable by the effective uid/gid of the
caller |
true or false
|
?R |
True if file is readable by the real uid/gid of the
caller |
true or false
|
?s |
If file1 has nonzero size, return the size, otherwise
return nil
|
Integer or nil
|
?S |
True if file1 exists and is a socket |
true or false
|
?u |
True if file1 has the setuid bit set |
true or false
|
?w |
True if file1 exists and is writable by the effective
uid/gid |
true or false
|
?W |
True if file1 exists and is writable by the real
uid/gid |
true or false
|
?x |
True if file1 exists and is executable by the effective
uid/gid |
true or false
|
?X |
True if file1 exists and is executable by the real
uid/gid |
true or false
|
?z |
True if file1 exists and has a zero length |
true or false
|
|
|
File tests with two arguments
Integer
|
Description
|
?- |
True if file1 is a hard link to file2
|
?= |
True if the modification times of file1 and file2 are
equal |
?< |
True if the modification time of file1 is prior to that
of file2
|
?> |
True if the modification time of file1 is after that
of file2
|
|
|
|
throw
|
throw( aSymbol
[, anObject
] )
|
|
Transfers control to the end of the active catch block
waiting for aSymbol. Raises NameError if
there is no catch block
for the symbol. The optional second
parameter supplies a return value for the catch block,
which otherwise defaults to nil . For examples, see
Kernel::catch
on page 413.
|
trace_var
|
trace_var( aSymbol, aCmd ) -> nil
trace_var( aSymbol ) {| val | block }
-> nil
|
|
Controls tracing of assignments to global variables. The
parameter aSymbol identifies the variable (as either a
string name or a symbol identifier).
cmd (which may be a string or a Proc object) or block
is executed whenever the variable is assigned. The block or
Proc object receives the variable's new value as a
parameter. Also see
Kernel::untrace_var
.
trace_var :$_, proc {|v| puts "$_ is now '#{v}'" }
$_ = "hello"
$_ = ' there'
|
produces:
$_ is now 'hello'
$_ is now ' there'
|
|
trap
|
trap( signal, cmd ) -> anObject
trap( signal ) {| | block }
-> anObject
|
|
Specifies the handling of signals. The first parameter is a
signal name (a string such as ``SIGALRM'', ``SIGUSR1'', and so on)
or a signal number. The characters ``SIG'' may be omitted from
the signal name. The command or block specifies code to be run
when the signal is raised. If the command is the string
``IGNORE'' or ``SIG_IGN'', the signal will be ignored. If the
command is ``DEFAULT'' or ``SIG_DFL'', the operating system's
default handler will be invoked. If the command is ``EXIT'', the
script will be terminated by the signal. Otherwise, the given
command or block will be run.
The special signal name ``EXIT'' or signal
number zero will be invoked just prior to program termination.
trap returns the previous handler for the given signal.
trap 0, proc { puts "Terminating: #{$$}" }
trap("CLD") { puts "Child died" }
fork && Process.wait
|
produces:
Terminating: 21214
Child died
Terminating: 21213
|
|
untrace_var
|
untrace_var( aSymbol [,
aCmd
] ) -> anArray or nil
|
|
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.
|