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Jython is an implementation of the high-level, dynamic, object-oriented
language Python written in 100% Pure Java, and seamlessly integrated with
the Java platform. It thus allows you to run Python on any Java platform.
package org.python.modules.itertools;
import org.python.core.ArgParser;
import org.python.core.Py;
import org.python.core.PyInteger;
import org.python.core.PyNone;
import org.python.core.PyObject;
import org.python.core.PyString;
import org.python.core.PyType;
import org.python.expose.ExposedGet;
import org.python.expose.ExposedMethod;
import org.python.expose.ExposedNew;
import org.python.expose.ExposedType;
@ExposedType(name = "itertools.islice", base = PyObject.class)
public class islice extends PyObject {
public static final PyType TYPE = PyType.fromClass(islice.class);
private itertools.ItertoolsIterator iter;
@ExposedGet
public static PyString __doc__ = new PyString(
"islice(iterable, [start,] stop [, step]) --> islice object\n\n" +
"Return an iterator whose next() method returns selected values from an\n" +
"iterable. If start is specified, will skip all preceding elements;\n" +
"otherwise, start defaults to zero. Step defaults to one. If\n" +
"specified as another value, step determines how many values are \n" +
"skipped between successive calls. Works like a slice() on a list\n" +
"but returns an iterator.");
public islice() {
super();
}
public islice(PyType subType) {
super(subType);
}
/**
* @see #islice___init__(PyObject, PyObject, PyObject, PyObject) startObj defaults to 0 and stepObj to 1
*/
public islice(PyObject iterable, PyObject stopObj) {
super();
islice___init__(iterable, new PyInteger(0), stopObj, new PyInteger(1));
}
/**
* @see #islice___init__(PyObject, PyObject, PyObject, PyObject) stepObj defaults to 1
*/
public islice(PyObject iterable, PyObject start,
PyObject stopObj) {
super();
islice___init__(iterable, start, stopObj, new PyInteger(1));
}
@ExposedNew
@ExposedMethod
final void islice___init__(PyObject[] args, String[] kwds) {
ArgParser ap = new ArgParser("islice", args, kwds, new String[] {
"iterable", "start", "stop", "step"}, 2);
PyObject iterable = ap.getPyObject(0);
if (args.length == 2) {
PyObject stopObj = ap.getPyObject(1);
islice___init__(iterable, new PyInteger(0), stopObj, new PyInteger(1));
}
else {
PyObject startObj = ap.getPyObject(1);
PyObject stopObj = ap.getPyObject(2);
if (args.length == 3) {
islice___init__(iterable, startObj, stopObj, new PyInteger(1));
}
else {
PyObject stepObj = ap.getPyObject(3);
islice___init__(iterable, startObj, stopObj, stepObj);
}
}
}
/**
* Creates an iterator that returns selected values from an iterable.
*
* @param startObj
* the index of where in the iterable to start returning values
* @param stopObj
* the index of where in the iterable to stop returning values
* @param stepObj
* the number of steps to take between each call to next()
*/
private void islice___init__(final PyObject iterable, PyObject startObj,
PyObject stopObj, PyObject stepObj) {
final int start = itertools.py2int(startObj, 0, "Start argument must be a non-negative integer or None");
final int step = itertools.py2int(stepObj, 1, "Step argument must be a non-negative integer or None");
final int stopArg = itertools.py2int(stopObj, 0, "Stop argument must be a non-negative integer or None");
final int stop = stopObj instanceof PyNone ? Integer.MAX_VALUE : stopArg;
if (start < 0 || step < 0 || stop < 0) {
throw Py.ValueError("Indices for islice() must be non-negative integers");
}
if (step == 0) {
throw Py.ValueError("Step must be one or larger for islice()");
}
iter = new itertools.ItertoolsIterator() {
int counter = start;
int lastCount = 0;
PyObject iter = iterable.__iter__();
public PyObject __iternext__() {
PyObject result = null;
// ensure we never move the underlying iterator past 'stop'
while (lastCount < Math.min(counter + 1, stop)) {
result = nextElement(iter);
lastCount++;
}
if (lastCount - 1 == counter) {
counter += step;
return result;
}
return null;
}
};
}
@ExposedMethod
public PyObject __iter__() {
return iter;
}
@ExposedMethod
public PyObject next() {
return iter.next();
}
}