ruby
— Interpreted
object-oriented scripting language
ruby |
[--copyright ]
[--version ]
[-SUacdlnpswvy ]
[-0 [octal]]
[-C directory]
[-E
external[:internal]]
[-F [pattern]]
[-I directory]
[-K [c]]
[-T [level]]
[-W [level]]
[-e command]
[-i [extension]]
[-r library]
[-x [directory]]
[-- {enable |disable }-FEATURE]
[--dump =target]
[--verbose ] [-- ]
[program_file] [argument
...] |
Ruby is an interpreted scripting language for quick and easy
object-oriented programming. It has many features to process text files and
to do system management tasks (like in Perl). It is simple,
straight-forward, and extensible.
If you want a language for easy object-oriented programming, or
you don't like the Perl ugliness, or you do like the concept of LISP, but
don't like too many parentheses, Ruby might be your language of choice.
Ruby's features are as follows:
- Interpretive
- Ruby is an interpreted language, so you don't have to recompile programs
written in Ruby to execute them.
- Variables
have no type (dynamic typing)
- Variables in Ruby can contain data of any type. You don't have to worry
about variable typing. Consequently, it has a weaker compile time
check.
- No declaration
needed
- You can use variables in your Ruby programs without any declarations.
Variable names denote their scope - global, class, instance, or
local.
- Simple
syntax
- Ruby has a simple syntax influenced slightly from Eiffel.
- No user-level
memory management
- Ruby has automatic memory management. Objects no longer referenced from
anywhere are automatically collected by the garbage collector built into
the interpreter.
- Everything
is an object
- Ruby is a purely object-oriented language, and was so since its creation.
Even such basic data as integers are seen as objects.
- Class,
inheritance, and methods
- Being an object-oriented language, Ruby naturally has basic features like
classes, inheritance, and methods.
- Singleton
methods
- Ruby has the ability to define methods for certain objects. For example,
you can define a press-button action for certain widget by defining a
singleton method for the button. Or, you can make up your own prototype
based object system using singleton methods, if you want to.
- Mix-in by
modules
- Ruby intentionally does not have the multiple inheritance as it is a
source of confusion. Instead, Ruby has the ability to share
implementations across the inheritance tree. This is often called a
‘Mix-in’.
- Iterators
- Ruby has iterators for loop abstraction.
- Closures
- In Ruby, you can objectify the procedure.
- Text processing
and regular expressions
- Ruby has a bunch of text processing features like in Perl.
- M17N,
character set independent
- Ruby supports multilingualized programming. Easy to process texts written
in many different natural languages and encoded in many different
character encodings, without dependence on Unicode.
- Bignums
- With built-in bignums, you can for example calculate factorial(400).
- Reflection
and domain specific languages
- Class is also an instance of the Class class. Definition of classes and
methods is an expression just as 1+1 is. So your programs can even write
and modify programs. Thus you can write your application in your own
programming language on top of Ruby.
- Exception
handling
- As in Java(tm).
- Direct
access to the OS
- Ruby can use most UNIX system calls, often used in
system programming.
- Dynamic
loading
- On most UNIX systems, you can load object files
into the Ruby interpreter on-the-fly.
- Rich
libraries
- In addition to the “builtin libraries” and “standard
libraries” that are bundled with Ruby, a vast amount of third-party
libraries (“gems”) are available via the package management
system called ‘RubyGems’, namely the
gem(1) command. Visit RubyGems.org
(https://rubygems.org/) to
find the gems you need, and explore GitHub
(https://github.com/) to see
how they are being developed and used.
The Ruby interpreter accepts the following command-line options
(switches). They are quite similar to those of
perl(1).
--copyright
- Prints the copyright notice, and quits immediately without running any
script.
--version
- Prints the version of the Ruby interpreter, and quits immediately without
running any script.
-0
[octal]
- (The digit “zero”.) Specifies the input record separator
(
$/
) as an octal number. If no digit is given, the
null character is taken as the separator. Other switches may follow the
digits. -00
turns Ruby into paragraph mode.
-0777
makes Ruby read whole file at once as a
single string since there is no legal character with that value.
-C
directory
-
-X
directory
- Causes Ruby to switch to the directory.
-E
external[:internal]
-
--encoding
external[:internal]
- Specifies the default value(s) for external encodings and internal
encoding. Values should be separated with colon (:).
You can omit the one for internal encodings, then the value
(Encoding.default_internal
)
will be nil.
--external-encoding
=encoding
-
--internal-encoding
=encoding
- Specify the default external or internal character encoding
-F
pattern
- Specifies input field separator (
$;
).
-I
directory
- Used to tell Ruby where to load the library scripts. Directory path will
be added to the load-path variable (
$:
).
-K
kcode
- Specifies KANJI (Japanese) encoding. The default value for script
encodings (
__ENCODING__
) and
external encodings
(Encoding.default_external
) will
be the specified one.
kcode can be one of
- e
- EUC-JP
- s
- Windows-31J (CP932)
- u
- UTF-8
- n
- ASCII-8BIT (BINARY)
-S
- Makes Ruby use the
PATH
environment variable to
search for script, unless its name begins with a slash. This is used to
emulate #!
on machines that don't support it, in
the following manner:
#! /usr/local/bin/ruby
# This line makes the next one a comment in Ruby \
exec /usr/local/bin/ruby -S $0 $*
On some systems $0
does not always
contain the full pathname, so you need the -S
switch to tell Ruby to search for the script if necessary (to handle
embedded spaces and such). A better construct than
$*
would be
${1+"$@"}
, but it does not work if the
script is being interpreted by csh(1).
-T
[level=1]
- Turns on taint checks at the specified level (default 1).
-U
- Sets the default value for internal encodings
(
Encoding.default_internal
) to
UTF-8.
-W
[level=2]
- Turns on verbose mode at the specified level without printing the version
message at the beginning. The level can be;
- 0
- Verbose mode is "silence". It sets the
$VERBOSE
to nil.
- 1
- Verbose mode is "medium". It sets the
$VERBOSE
to false.
- 2 (default)
- Verbose mode is "verbose". It sets the
$VERBOSE
to true. -W
2
is same as -w
-a
- Turns on auto-split mode when used with
-n
or
-p
. In auto-split mode, Ruby executes
$F = $_.split
at beginning of each loop.
-c
- Causes Ruby to check the syntax of the script and exit without executing.
If there are no syntax errors, Ruby will print “Syntax OK”
to the standard output.
-d
-
--debug
- Turns on debug mode.
$DEBUG
will be set to true.
-e
command
- Specifies script from command-line while telling Ruby not to search the
rest of the arguments for a script file name.
-h
-
--help
- Prints a summary of the options.
-i
extension
- Specifies in-place-edit mode. The extension, if specified, is added to old
file name to make a backup copy. For example:
% echo matz > /tmp/junk
% cat /tmp/junk
matz
% ruby -p -i.bak -e '$_.upcase!' /tmp/junk
% cat /tmp/junk
MATZ
% cat /tmp/junk.bak
matz
-l
- (The lowercase letter “ell”.) Enables automatic line-ending
processing, which means to firstly set
$\
to the
value of $/
, and secondly chops every line read
using chop!
.
-n
- Causes Ruby to assume the following loop around your script, which makes
it iterate over file name arguments somewhat like
sed
-n
or
awk
.
-p
- Acts mostly same as -n switch, but print the value of variable
$_
at the each end of the loop. For example:
% echo matz | ruby -p -e '$_.tr! "a-z", "A-Z"'
MATZ
-r
library
- Causes Ruby to load the library using require. It is useful when using
-n
or -p
.
-s
- Enables some switch parsing for switches after script name but before any
file name arguments (or before a
--
). Any switches
found there are removed from ARGV
and set the
corresponding variable in the script. For example:
#! /usr/local/bin/ruby -s
# prints "true" if invoked with `-xyz' switch.
print "true\n" if $xyz
-v
- Enables verbose mode. Ruby will print its version at the beginning and set
the variable
$VERBOSE
to true. Some methods print
extra messages if this variable is true. If this switch is given, and no
other switches are present, Ruby quits after printing its version.
-w
- Enables verbose mode without printing version message at the beginning. It
sets the
$VERBOSE
variable to true.
-x
[directory]
- Tells Ruby that the script is embedded in a message. Leading garbage will
be discarded until the first line that starts with “#!” and
contains the string, “ruby”. Any meaningful switches on that
line will be applied. The end of the script must be specified with either
EOF
, ^D
(control-D
), ^Z
(control-Z
), or the reserved word
__END__
. If the directory name is specified, Ruby
will switch to that directory before executing script.
-y
-
--yydebug
- DO NOT USE.
Turns on compiler debug mode. Ruby will print a bunch of
internal state messages during compilation. Only specify this switch you
are going to debug the Ruby interpreter.
--disable-
FEATURE
-
--enable-
FEATURE
- Disables (or enables) the specified FEATURE.
--disable-gems
-
--enable-gems
- Disables (or enables) RubyGems libraries. By default, Ruby will load
the latest version of each installed gem. The
Gem
constant is true if RubyGems is enabled,
false if otherwise.
--disable-rubyopt
-
--enable-rubyopt
- Ignores (or considers) the
RUBYOPT
environment
variable. By default, Ruby considers the variable.
--disable-all
-
--enable-all
- Disables (or enables) all features.
--dump
=target
- Dump some informations.
Prints the specified target. target can
be one of;
- version
- version description same as
--version
- usage
- brief usage message same as
-h
- help
- Show long help message same as
--help
- syntax
- check of syntax same as
-c
--yydebug
- yydebug
- compiler debug mode, same as
--yydebug
Only specify this switch if you are going to debug the
Ruby interpreter.
- parsetree
- AST nodes tree
Only specify this switch if you are going to debug the
Ruby interpreter.
- insns
- disassembled instructions
Only specify this switch if you are going to debug the
Ruby interpreter.
--verbose
- Enables verbose mode without printing version message at the beginning. It
sets the
$VERBOSE
variable to true. If this switch
is given, and no script arguments (script file or
-e
options) are present, Ruby quits
immediately.
RUBYLIB
- A colon-separated list of directories that are added to Ruby's library
load path (
$:
). Directories from
this environment variable are searched
before the standard load
path is searched.
e.g.:
RUBYLIB="$HOME/lib/ruby:$HOME/lib/rubyext"
RUBYOPT
- Additional Ruby options.
e.g.
RUBYOPT="-w
-Ke"
Note that RUBYOPT can contain only -d
,
-E
, -I
,
-K
, -r
,
-T
, -U
,
-v
, -w
,
-W,
--debug
,
--disable-
FEATURE and
--enable-
FEATURE.
RUBYPATH
- A colon-separated list of directories that Ruby searches for Ruby programs
when the
-S
flag is specified. This variable
precedes the PATH
environment variable.
RUBYSHELL
- The path to the system shell command. This environment variable is enabled
for only mswin32, mingw32, and OS/2 platforms. If this variable is not
defined, Ruby refers to
COMSPEC
.
PATH
- Ruby refers to the
PATH
environment variable on
calling Kernel#system.
And Ruby depends on some RubyGems related environment variables
unless RubyGems is disabled. See the help of gem(1) as
below.
The Ruby garbage collector (GC) tracks objects in fixed-sized
slots, but each object may have auxiliary memory allocations handled by the
malloc family of C standard library calls ( malloc(3),
calloc(3), and realloc(3)). In this
documentatation, the "heap" refers to the Ruby object heap of
fixed-sized slots, while "malloc" refers to auxiliary allocations
commonly referred to as the "process heap". Thus there are at
least two possible ways to trigger GC:
- 1
- Reaching the object limit.
- 2
- Reaching the malloc limit.
In Ruby 2.1, the generational GC was introduced and the limits are
divided into young and old generations, providing two additional ways to
trigger a GC:
- 3
- Reaching the old object limit.
- 4
- Reaching the old malloc limit.
There are currently 4 possible areas where the GC may be tuned by
the following 11 environment variables:
RUBY_GC_HEAP_INIT_SLOTS
- Initial allocation slots. Introduced in Ruby 2.1, default: 10000.
RUBY_GC_HEAP_FREE_SLOTS
- Prepare at least this amount of slots after GC. Allocate this number slots
if there are not enough slots. Introduced in Ruby 2.1, default: 4096
RUBY_GC_HEAP_GROWTH_FACTOR
- Increase allocation rate of heap slots by this factor. Introduced in Ruby
2.1, default: 1.8, minimum: 1.0 (no growth)
RUBY_GC_HEAP_GROWTH_MAX_SLOTS
- Allocation rate is limited to this number of slots, preventing excessive
allocation due to RUBY_GC_HEAP_GROWTH_FACTOR. Introduced in Ruby 2.1,
default: 0 (no limit)
RUBY_GC_HEAP_OLDOBJECT_LIMIT_FACTOR
- Perform a full GC when the number of old objects is more than R * N, where
R is this factor and N is the number of old objects after the last full
GC. Introduced in Ruby 2.1.1, default: 2.0
RUBY_GC_MALLOC_LIMIT
- The initial limit of young generation allocation from the malloc-family.
GC will start when this limit is reached. Default: 16MB
RUBY_GC_MALLOC_LIMIT_MAX
- The maximum limit of young generation allocation from malloc before GC
starts. Prevents excessive malloc growth due to
RUBY_GC_MALLOC_LIMIT_GROWTH_FACTOR. Introduced in Ruby 2.1, default: 32MB.
RUBY_GC_MALLOC_LIMIT_GROWTH_FACTOR
- Increases the limit of young generation malloc calls, reducing GC
frequency but increasing malloc growth until RUBY_GC_MALLOC_LIMIT_MAX is
reached. Introduced in Ruby 2.1, default: 1.4, minimum: 1.0 (no growth)
RUBY_GC_OLDMALLOC_LIMIT
- The initial limit of old generation allocation from malloc, a full GC will
start when this limit is reached. Introduced in Ruby 2.1, default: 16MB
RUBY_GC_OLDMALLOC_LIMIT_MAX
- The maximum limit of old generation allocation from malloc before a full
GC starts. Prevents excessive malloc growth due to
RUBY_GC_OLDMALLOC_LIMIT_GROWTH_FACTOR. Introduced in Ruby 2.1, default:
128MB
RUBY_GC_OLDMALLOC_LIMIT_GROWTH_FACTOR
- Increases the limit of old generation malloc allocation, reducing full GC
frequency but increasing malloc growth until RUBY_GC_OLDMALLOC_LIMIT_MAX
is reached. Introduced in Ruby 2.1, default: 1.2, minimum: 1.0 (no
growth)
Stack size environment variables are implementation-dependent and
subject to change with different versions of Ruby. The VM stack is used for
pure-Ruby code and managed by the virtual machine. Machine stack is used by
the operating system and its usage is dependent on C extensions as well as C
compiler options. Using lower values for these may allow applications to
keep more Fibers or Threads running; but increases the chance of
SystemStackError exceptions and segmentation faults (SIGSEGV). These
environment variables are available since Ruby 2.0.0. All values are
specified in bytes.
RUBY_THREAD_VM_STACK_SIZE
- VM stack size used at thread creation. default: 131072 (32-bit CPU) or
262144 (64-bit)
RUBY_THREAD_MACHINE_STACK_SIZE
- Machine stack size used at thread creation. default: 524288 or 1048575
RUBY_FIBER_VM_STACK_SIZE
- VM stack size used at fiber creation. default: 65536 or 131072
RUBY_FIBER_MACHINE_STACK_SIZE
- Machine stack size used at fiber creation. default: 262144 or 524288
- Security vulnerabilities should be reported via an email to
security@ruby-lang.org.
Reported problems will be published after being fixed.
- Other bugs and feature requests can be reported via the Ruby Issue
Tracking System
(https://bugs.ruby-lang.org/).
Do not report security vulnerabilities via this system because it
publishes the vulnerabilities immediately.