WIN32OLE objects represent OLE Automation object in Ruby.
By using WIN32OLE, you can access OLE server like VBScript.
Here is sample script.
require 'win32ole' excel = WIN32OLE.new('Excel.Application') excel.visible = true workbook = excel.Workbooks.Add(); worksheet = workbook.Worksheets(1); worksheet.Range("A1:D1").value = ["North","South","East","West"]; worksheet.Range("A2:B2").value = [5.2, 10]; worksheet.Range("C2").value = 8; worksheet.Range("D2").value = 20; range = worksheet.Range("A1:D2"); range.select chart = workbook.Charts.Add; workbook.saved = true; excel.ActiveWorkbook.Close(0); excel.Quit();
Unfortunately, WIN32OLE doesn’t support the argument passed by reference directly. Instead, WIN32OLE provides WIN32OLE::ARGV or WIN32OLE::Variant object. If you want to get the result value of argument passed by reference, you can use WIN32OLE::ARGV or WIN32OLE::Variant.
oleobj.method(arg1, arg2, refargv3) puts WIN32OLE::ARGV[2] # the value of refargv3 after called oleobj.method
or
refargv3 = WIN32OLE::Variant.new(XXX, WIN32OLE::VARIANT::VT_BYREF|WIN32OLE::VARIANT::VT_XXX) oleobj.method(arg1, arg2, refargv3) p refargv3.value # the value of refargv3 after called oleobj.method.
OLEProperty is a helper class of Property with arguments, used by ‘olegen.rb`-generated files.
This library provides three different ways to delegate method calls to an object. The easiest to use is SimpleDelegator. Pass an object to the constructor and all methods supported by the object will be delegated. This object can be changed later.
Going a step further, the top level DelegateClass method allows you to easily setup delegation through class inheritance. This is considerably more flexible and thus probably the most common use for this library.
Finally, if you need full control over the delegation scheme, you can inherit from the abstract class Delegator and customize as needed. (If you find yourself needing this control, have a look at Forwardable which is also in the standard library. It may suit your needs better.)
SimpleDelegator’s implementation serves as a nice example of the use of Delegator:
require 'delegate' class SimpleDelegator < Delegator def __getobj__ @delegate_sd_obj # return object we are delegating to, required end def __setobj__(obj) @delegate_sd_obj = obj # change delegation object, # a feature we're providing end end
Be advised, RDoc will not detect delegated methods.
A utility class for managing temporary files. When you create a Tempfile object, it will create a temporary file with a unique filename. A Tempfile objects behaves just like a File object, and you can perform all the usual file operations on it: reading data, writing data, changing its permissions, etc. So although this class does not explicitly document all instance methods supported by File, you can in fact call any File instance method on a Tempfile object.
require 'tempfile' file = Tempfile.new('foo') file.path # => A unique filename in the OS's temp directory, # e.g.: "/tmp/foo.24722.0" # This filename contains 'foo' in its basename. file.write("hello world") file.rewind file.read # => "hello world" file.close file.unlink # deletes the temp file
When a Tempfile object is garbage collected, or when the Ruby interpreter exits, its associated temporary file is automatically deleted. This means that it’s unnecessary to explicitly delete a Tempfile after use, though it’s a good practice to do so: not explicitly deleting unused Tempfiles can potentially leave behind a large number of temp files on the filesystem until they’re garbage collected. The existence of these temp files can make it harder to determine a new Tempfile filename.
Therefore, one should always call unlink or close in an ensure block, like this:
file = Tempfile.new('foo') begin # ...do something with file... ensure file.close file.unlink # deletes the temp file end
Tempfile.create { … } exists for this purpose and is more convenient to use. Note that Tempfile.create returns a File instance instead of a Tempfile, which also avoids the overhead and complications of delegation.
Tempfile.create('foo') do |file| # ...do something with file... end
On POSIX systems, it’s possible to unlink a file right after creating it, and before closing it. This removes the filesystem entry without closing the file handle, so it ensures that only the processes that already had the file handle open can access the file’s contents. It’s strongly recommended that you do this if you do not want any other processes to be able to read from or write to the Tempfile, and you do not need to know the Tempfile’s filename either.
For example, a practical use case for unlink-after-creation would be this: you need a large byte buffer that’s too large to comfortably fit in RAM, e.g. when you’re writing a web server and you want to buffer the client’s file upload data.
Please refer to unlink for more information and a code example.
Tempfile’s filename picking method is both thread-safe and inter-process-safe: it guarantees that no other threads or processes will pick the same filename.
Tempfile itself however may not be entirely thread-safe. If you access the same Tempfile object from multiple threads then you should protect it with a mutex.
Method objects are created by Object#method, and are associated with a particular object (not just with a class). They may be used to invoke the method within the object, and as a block associated with an iterator. They may also be unbound from one object (creating an UnboundMethod) and bound to another.
class Thing def square(n) n*n end end thing = Thing.new meth = thing.method(:square) meth.call(9) #=> 81 [ 1, 2, 3 ].collect(&meth) #=> [1, 4, 9] [ 1, 2, 3 ].each(&method(:puts)) #=> prints 1, 2, 3 require 'date' %w[2017-03-01 2017-03-02].collect(&Date.method(:parse)) #=> [#<Date: 2017-03-01 ((2457814j,0s,0n),+0s,2299161j)>, #<Date: 2017-03-02 ((2457815j,0s,0n),+0s,2299161j)>]
The Comparable mixin is used by classes whose objects may be ordered. The class must define the <=> operator, which compares the receiver against another object, returning a value less than 0, returning 0, or returning a value greater than 0, depending on whether the receiver is less than, equal to, or greater than the other object. If the other object is not comparable then the <=> operator should return nil. Comparable uses <=> to implement the conventional comparison operators (<, <=, ==, >=, and >) and the method between?.
class StringSorter include Comparable attr :str def <=>(other) str.size <=> other.str.size end def initialize(str) @str = str end def inspect @str end end s1 = StringSorter.new("Z") s2 = StringSorter.new("YY") s3 = StringSorter.new("XXX") s4 = StringSorter.new("WWWW") s5 = StringSorter.new("VVVVV") s1 < s2 #=> true s4.between?(s1, s3) #=> false s4.between?(s3, s5) #=> true [ s3, s2, s5, s4, s1 ].sort #=> [Z, YY, XXX, WWWW, VVVVV]
Module Comparable provides these methods, all of which use method <=>:
<: Returns whether self is less than the given object.
<=: Returns whether self is less than or equal to the given object.
==: Returns whether self is equal to the given object.
>: Returns whether self is greater than the given object.
>=: Returns whether self is greater than or equal to the given object.
between?: Returns true if self is between two given objects.
clamp: For given objects min and max, or range (min..max), returns:
min if (self <=> min) < 0.
max if (self <=> max) > 0.
self otherwise.
Module Enumerable provides methods that are useful to a collection class for:
These methods return information about the Enumerable other than the elements themselves:
include?, member?: Returns true if self == object, false otherwise.
all?: Returns true if all elements meet a specified criterion; false otherwise.
any?: Returns true if any element meets a specified criterion; false otherwise.
none?: Returns true if no element meets a specified criterion; false otherwise.
one?: Returns true if exactly one element meets a specified criterion; false otherwise.
count: Returns the count of elements, based on an argument or block criterion, if given.
tally: Returns a new Hash containing the counts of occurrences of each element.
These methods return entries from the Enumerable, without modifying it:
Leading, trailing, or all elements:
first: Returns the first element or leading elements.
take: Returns a specified number of leading elements.
drop: Returns a specified number of trailing elements.
take_while: Returns leading elements as specified by the given block.
drop_while: Returns trailing elements as specified by the given block.
Minimum and maximum value elements:
min: Returns the elements whose values are smallest among the elements, as determined by <=> or a given block.
max: Returns the elements whose values are largest among the elements, as determined by <=> or a given block.
minmax: Returns a 2-element Array containing the smallest and largest elements.
min_by: Returns the smallest element, as determined by the given block.
max_by: Returns the largest element, as determined by the given block.
minmax_by: Returns the smallest and largest elements, as determined by the given block.
Groups, slices, and partitions:
group_by: Returns a Hash that partitions the elements into groups.
partition: Returns elements partitioned into two new Arrays, as determined by the given block.
slice_after: Returns a new Enumerator whose entries are a partition of self, based either on a given object or a given block.
slice_before: Returns a new Enumerator whose entries are a partition of self, based either on a given object or a given block.
slice_when: Returns a new Enumerator whose entries are a partition of self based on the given block.
chunk: Returns elements organized into chunks as specified by the given block.
chunk_while: Returns elements organized into chunks as specified by the given block.
These methods return elements that meet a specified criterion:
find_all, filter, select: Returns elements selected by the block.
find_index: Returns the index of an element selected by a given object or block.
reject: Returns elements not rejected by the block.
uniq: Returns elements that are not duplicates.
These methods return elements in sorted order:
sort: Returns the elements, sorted by <=> or the given block.
sort_by: Returns the elements, sorted by the given block.
each_entry: Calls the block with each successive element (slightly different from each).
each_with_index: Calls the block with each successive element and its index.
each_with_object: Calls the block with each successive element and a given object.
each_slice: Calls the block with successive non-overlapping slices.
each_cons: Calls the block with successive overlapping slices. (different from each_slice).
reverse_each: Calls the block with each successive element, in reverse order.
filter_map: Returns truthy objects returned by the block.
flat_map, collect_concat: Returns flattened objects returned by the block.
grep: Returns elements selected by a given object or objects returned by a given block.
grep_v: Returns elements selected by a given object or objects returned by a given block.
reduce, inject: Returns the object formed by combining all elements.
sum: Returns the sum of the elements, using method +.
zip: Combines each element with elements from other enumerables; returns the n-tuples or calls the block with each.
cycle: Calls the block with each element, cycling repeatedly.
To use module Enumerable in a collection class:
Include it:
include Enumerable
Implement method #each which must yield successive elements of the collection. The method will be called by almost any Enumerable method.
Example:
class Foo include Enumerable def each yield 1 yield 1, 2 yield end end Foo.new.each_entry{ |element| p element }
Output:
1 [1, 2] nil
These Ruby core classes include (or extend) Enumerable:
These Ruby standard library classes include Enumerable:
CSV
CSV::Table
CSV::Row
Virtually all methods in Enumerable call method #each in the including class:
Hash#each yields the next key-value pair as a 2-element Array.
Struct#each yields the next name-value pair as a 2-element Array.
For the other classes above, #each yields the next object from the collection.
The example code snippets for the Enumerable methods:
A libffi wrapper for Ruby.
Fiddle is an extension to translate a foreign function interface (FFI) with ruby.
It wraps libffi, a popular C library which provides a portable interface that allows code written in one language to call code written in another language.
Here we will use Fiddle::Function to wrap floor(3) from libm
require 'fiddle' libm = Fiddle.dlopen('/lib/libm.so.6') floor = Fiddle::Function.new( libm['floor'], [Fiddle::TYPE_DOUBLE], Fiddle::TYPE_DOUBLE ) puts floor.call(3.14159) #=> 3.0
FileTest implements file test operations similar to those used in File::Stat. It exists as a standalone module, and its methods are also insinuated into the File class. (Note that this is not done by inclusion: the interpreter cheats).
The Forwardable module provides delegation of specified methods to a designated object, using the methods def_delegator and def_delegators.
For example, say you have a class RecordCollection which contains an array @records. You could provide the lookup method record_number(), which simply calls [] on the @records array, like this:
require 'forwardable' class RecordCollection attr_accessor :records extend Forwardable def_delegator :@records, :[], :record_number end
We can use the lookup method like so:
r = RecordCollection.new r.records = [4,5,6] r.record_number(0) # => 4
Further, if you wish to provide the methods size, <<, and map, all of which delegate to @records, this is how you can do it:
class RecordCollection # re-open RecordCollection class def_delegators :@records, :size, :<<, :map end r = RecordCollection.new r.records = [1,2,3] r.record_number(0) # => 1 r.size # => 3 r << 4 # => [1, 2, 3, 4] r.map { |x| x * 2 } # => [2, 4, 6, 8]
You can even extend regular objects with Forwardable.
my_hash = Hash.new my_hash.extend Forwardable # prepare object for delegation my_hash.def_delegator "STDOUT", "puts" # add delegation for STDOUT.puts() my_hash.puts "Howdy!"
You could use Forwardable as an alternative to inheritance, when you don’t want to inherit all methods from the superclass. For instance, here is how you might add a range of Array instance methods to a new class Queue:
class Queue extend Forwardable def initialize @q = [ ] # prepare delegate object end # setup preferred interface, enq() and deq()... def_delegator :@q, :push, :enq def_delegator :@q, :shift, :deq # support some general Array methods that fit Queues well def_delegators :@q, :clear, :first, :push, :shift, :size end q = Thread::Queue.new q.enq 1, 2, 3, 4, 5 q.push 6 q.shift # => 1 while q.size > 0 puts q.deq end q.enq "Ruby", "Perl", "Python" puts q.first q.clear puts q.first
This should output:
2 3 4 5 6 Ruby nil
Be advised, RDoc will not detect delegated methods.
forwardable.rb provides single-method delegation via the def_delegator and def_delegators methods. For full-class delegation via DelegateClass, see delegate.rb.
mkmf.rb is used by Ruby C extensions to generate a Makefile which will correctly compile and link the C extension to Ruby and a third-party library.
Raised by Encoding and String methods when the source encoding is incompatible with the target encoding.
A base class for objects representing a C structure
Wrapper for arrays within a struct
The base exception for JSON errors.
This exception is raised if the nesting of parsed data structures is too deep.
This class is used as a return value from ObjectSpace::reachable_objects_from.
When ObjectSpace::reachable_objects_from returns an object with references to an internal object, an instance of this class is returned.
You can use the type method to check the type of the internal object.
Configuration for the openssl library.
Many system’s installation of openssl library will depend on your system configuration. See the value of OpenSSL::Config::DEFAULT_CONFIG_FILE for the location of the file for your host.
General error for openssl library configuration files. Including formatting, parsing errors, etc.
Subclasses ‘BadAlias` for backwards compatibility
Socket::AncillaryData represents the ancillary data (control information) used by sendmsg and recvmsg system call. It contains socket family, control message (cmsg) level, cmsg type and cmsg data.
Subclass of Zlib::Error
When zlib returns a Z_NEED_DICT if a preset dictionary is needed at this point.
Used by Zlib::Inflate.inflate and Zlib.inflate
Can be raised by IO operations when IO#timeout= is set.