J {rJava} | R Documentation |
J
creates a Java class reference or calls a Java method
J(class, method, ..., class.loader=.rJava.class.loader)
class |
java object reference or fully qualified class name in JNI notation (e.g "java/lang/String" ) or standard java notation (e.g "java.lang.String") |
method |
if present then |
... |
optional parameters that will be passed to the method (if the
|
class.loader |
optional, custom loader to use if a class look-up
is necessary (i.e., if |
J
is the high-level access to Java.
If the method
argument is missing then code
must be a
class name and J
creates a class name reference that can be
used either in a call to new
to create a new Java object
(e.g. new(J("java.lang.String"), "foo")
) or with $
operator to call a static method
(e.g. J("java.lang.Double")$parseDouble("10.2")
.)
If the method
argument is present then it must be a string
vector of length one which defines the method to be called on the
object.
If method
is missing the the returned value is an object of
the class jclassName
. Otherwise the value is the result of
the method invocation. In the latter case Java exceptions may be
thrown and the function doesn't return.
J
is a high-level API which is slower than .jnew
or .jcall
since it has to use reflection to find the
most suitable method.
if (!nzchar(Sys.getenv("NOAWT"))) {
f <- new(J("java.awt.Frame"), "Hello")
f$setVisible(TRUE)
}
J("java.lang.Double")$parseDouble("10.2")
J("java.lang.Double", "parseDouble", "10.2" )
Double <- J("java.lang.Double")
Double$parseDouble( "10.2")
# String[] strings = new String[]{ "string", "array" } ;
strings <- .jarray( c("string", "array") )
# this uses the JList( Object[] ) constructor
# even though the "strings" parameter is a String[]
l <- new( J("javax.swing.JList"), strings)