Given a String of C type ty, returns the corresponding Fiddle constant.
ty can also accept an Array of C type Strings, and will be returned in a corresponding Array.
If Hash tymap is provided, ty is expected to be the key, and the value will be the C type to be looked up.
Example:
require 'fiddle/import' include Fiddle::CParser #=> Object parse_ctype('int') #=> Fiddle::TYPE_INT parse_ctype('double diff') #=> Fiddle::TYPE_DOUBLE parse_ctype('unsigned char byte') #=> -Fiddle::TYPE_CHAR parse_ctype('const char* const argv[]') #=> -Fiddle::TYPE_VOIDP
Mixes the bytes from str into the Pseudo Random Number Generator(PRNG) state.
Thus, if the data from str are unpredictable to an adversary, this increases the uncertainty about the state and makes the PRNG output less predictable.
The entropy argument is (the lower bound of) an estimate of how much randomness is contained in str, measured in bytes.
pid = $$ now = Time.now ary = [now.to_i, now.nsec, 1000, pid] OpenSSL::Random.add(ary.join, 0.0) OpenSSL::Random.seed(ary.join)
Generates a String with length number of cryptographically strong pseudo-random bytes.
OpenSSL::Random.random_bytes(12) #=> "..."
Get the raw cookies as a string.
Get the raw RFC2965 cookies as a string.
Parses multipart form elements according to
http://www.w3.org/TR/html401/interact/forms.html#h-17.13.4.2
Returns a hash of multipart form parameters with bodies of type StringIO or Tempfile depending on whether the multipart form element exceeds 10 KB
params[name => body]
Generate a Form element with multipart encoding as a String.
Multipart encoding is used for forms that include file uploads.
action is the action to perform. enctype is the encoding type, which defaults to “multipart/form-data”.
Alternatively, the attributes can be specified as a hash.
multipart_form{ "string" } # <FORM METHOD="post" ENCTYPE="multipart/form-data">string</FORM> multipart_form("url") { "string" } # <FORM METHOD="post" ACTION="url" ENCTYPE="multipart/form-data">string</FORM>
Generates a radio-button Input element.
name is the name of the input field. value is the value of the field if checked. checked specifies whether the field starts off checked.
Alternatively, the attributes can be specified as a hash.
radio_button("name", "value") # <INPUT TYPE="radio" NAME="name" VALUE="value"> radio_button("name", "value", true) # <INPUT TYPE="radio" NAME="name" VALUE="value" CHECKED> radio_button("NAME" => "name", "VALUE" => "value", "ID" => "foo") # <INPUT TYPE="radio" NAME="name" VALUE="value" ID="foo">
Generate a sequence of radio button Input elements, as a String.
This works the same as checkbox_group(). However, it is not valid to have more than one radiobutton in a group checked.
radio_group("name", "foo", "bar", "baz") # <INPUT TYPE="radio" NAME="name" VALUE="foo">foo # <INPUT TYPE="radio" NAME="name" VALUE="bar">bar # <INPUT TYPE="radio" NAME="name" VALUE="baz">baz radio_group("name", ["foo"], ["bar", true], "baz") # <INPUT TYPE="radio" NAME="name" VALUE="foo">foo # <INPUT TYPE="radio" CHECKED NAME="name" VALUE="bar">bar # <INPUT TYPE="radio" NAME="name" VALUE="baz">baz radio_group("name", ["1", "Foo"], ["2", "Bar", true], "Baz") # <INPUT TYPE="radio" NAME="name" VALUE="1">Foo # <INPUT TYPE="radio" CHECKED NAME="name" VALUE="2">Bar # <INPUT TYPE="radio" NAME="name" VALUE="Baz">Baz radio_group("NAME" => "name", "VALUES" => ["foo", "bar", "baz"]) radio_group("NAME" => "name", "VALUES" => [["foo"], ["bar", true], "baz"]) radio_group("NAME" => "name", "VALUES" => [["1", "Foo"], ["2", "Bar", true], "Baz"])
Sets the value for field 'Range'; see Range request header:
With argument length:
req = Net::HTTP::Get.new(uri) req.set_range(100) # => 100 req['Range'] # => "bytes=0-99"
With arguments offset and length:
req.set_range(100, 100) # => 100...200 req['Range'] # => "bytes=100-199"
With argument range:
req.set_range(100..199) # => 100..199 req['Range'] # => "bytes=100-199"
Net::HTTPHeader#range= is an alias for Net::HTTPHeader#set_range.
Returns a Range object representing the value of field 'Content-Range', or nil if no such field exists; see Content-Range response header:
res = Net::HTTP.get_response(hostname, '/todos/1') res['Content-Range'] # => nil res['Content-Range'] = 'bytes 0-499/1000' res['Content-Range'] # => "bytes 0-499/1000" res.content_range # => 0..499
Returns the integer representing length of the value of field 'Content-Range', or nil if no such field exists; see Content-Range response header:
res = Net::HTTP.get_response(hostname, '/todos/1') res['Content-Range'] # => nil res['Content-Range'] = 'bytes 0-499/1000' res.range_length # => 500
Returns whether the HTTP session is to be closed.
Create a new ArgumentsNode node.
Create a new DefinedNode node.
Create a new ImaginaryNode node.
Create a new NextNode node.
Create a new ParenthesesNode node.
Create a new ProgramNode node.
Create a new RangeNode node.
Create a new RationalNode node.
Retrieve the value of one of the RangeFlags flags.
Generate a random binary string.
The argument n specifies the length of the result string.
If n is not specified or is nil, 16 is assumed. It may be larger in future.
The result may contain any byte: “x00” - “xff”.
require 'random/formatter' Random.random_bytes #=> "\xD8\\\xE0\xF4\r\xB2\xFC*WM\xFF\x83\x18\xF45\xB6" # or prng = Random.new prng.random_bytes #=> "m\xDC\xFC/\a\x00Uf\xB2\xB2P\xBD\xFF6S\x97"