# HG changeset patch # Parent c600b1968ae7346312fb2f548e394001546fed45 diff --git a/CoreExposed.includes b/CoreExposed.includes --- a/CoreExposed.includes +++ b/CoreExposed.includes @@ -59,16 +59,17 @@ org/python/modules/_collections/PyDefaul org/python/modules/_collections/PyDeque.class org/python/modules/_csv/PyDialect.class org/python/modules/_csv/PyReader.class org/python/modules/_csv/PyWriter.class org/python/modules/_fileio/PyFileIO.class org/python/modules/_functools/PyPartial.class org/python/modules/_hashlib$Hash.class org/python/modules/itertools/chain.class +org/python/modules/itertools/cycle.class org/python/modules/itertools/ifilterfalse.class org/python/modules/itertools/ifilter.class org/python/modules/jffi/ArrayCData.class org/python/modules/jffi/ByReference.class org/python/modules/jffi/CData.class org/python/modules/jffi/CType.class org/python/modules/jffi/CType$Array.class org/python/modules/jffi/CType$Pointer.class diff --git a/src/org/python/modules/itertools/cycle.java b/src/org/python/modules/itertools/cycle.java new file mode 100644 --- /dev/null +++ b/src/org/python/modules/itertools/cycle.java @@ -0,0 +1,97 @@ +package org.python.modules.itertools; + +import org.python.core.ArgParser; +import org.python.core.PyIterator; +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; + +import java.util.ArrayList; +import java.util.List; + +@ExposedType(name = "itertools.count", base = PyObject.class) +public class cycle extends PyObject { + + public static final PyType TYPE = PyType.fromClass(cycle.class); + private PyIterator iter; + + @ExposedGet + public static PyString __doc__ = new PyString( + "cycle(iterable) --> cycle object\n\n" + + "Return elements from the iterable until it is exhausted.\n" + + "Then repeat the sequence indefinitely."); + + public cycle() { + super(); + } + + public cycle(PyType subType) { + super(subType); + } + + /** + * Creates an iterator that iterates over an iterable, saving the values for each iteration. + * When the iterable is exhausted continues to iterate over the saved values indefinitely. + */ + public cycle(PyObject sequence) { + super(); + cycle___init__(sequence); + } + + @ExposedNew + @ExposedMethod + final void cycle___init__(final PyObject[] args, String[] kwds) { + ArgParser ap = new ArgParser("cycle", args, kwds, new String[] {"iterable"}, 1); + ap.noKeywords(); + cycle___init__(ap.getPyObject(0)); + } + + private void cycle___init__(final PyObject sequence) { + iter = new itertools.ItertoolsIterator() { + List saved = new ArrayList(); + int counter = 0; + PyObject iterator = sequence.__iter__(); + + boolean save = true; + + public PyObject __iternext__() { + if (save) { + PyObject obj = nextElement(iterator); + if (obj != null) { + saved.add(obj); + return obj; + } else { + save = false; + } + } + if (saved.size() == 0) { + return null; + } + + // pick element from saved List + if (counter >= saved.size()) { + // start over again + counter = 0; + } + return saved.get(counter++); + } + + }; + } + + @ExposedMethod + public PyObject __iter__() { + return iter; + } + + @ExposedMethod + public PyObject next() { + return iter.next(); + } + +} + diff --git a/src/org/python/modules/itertools/cycleDerived.java b/src/org/python/modules/itertools/cycleDerived.java new file mode 100644 --- /dev/null +++ b/src/org/python/modules/itertools/cycleDerived.java @@ -0,0 +1,1125 @@ +/* Generated file, do not modify. See jython/src/templates/gderived.py. */ +package org.python.modules.itertools; + +import java.io.Serializable; +import org.python.core.*; + +public class cycleDerived extends cycle implements Slotted { + + public PyObject getSlot(int index) { + return slots[index]; + } + + public void setSlot(int index,PyObject value) { + slots[index]=value; + } + + private PyObject[]slots; + + private PyObject dict; + + public PyObject fastGetDict() { + return dict; + } + + public PyObject getDict() { + return dict; + } + + public void setDict(PyObject newDict) { + if (newDict instanceof PyStringMap||newDict instanceof PyDictionary) { + dict=newDict; + } else { + throw Py.TypeError("__dict__ must be set to a Dictionary "+newDict.getClass().getName()); + } + } + + public void delDict() { + // deleting an object's instance dict makes it grow a new one + dict=new PyStringMap(); + } + + public cycleDerived(PyType subtype) { + super(subtype); + slots=new PyObject[subtype.getNumSlots()]; + dict=subtype.instDict(); + } + + public PyString __str__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__str__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(); + if (res instanceof PyString) + return(PyString)res; + throw Py.TypeError("__str__"+" returned non-"+"string"+" (type "+res.getType().fastGetName()+")"); + } + return super.__str__(); + } + + public PyString __repr__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__repr__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(); + if (res instanceof PyString) + return(PyString)res; + throw Py.TypeError("__repr__"+" returned non-"+"string"+" (type "+res.getType().fastGetName()+")"); + } + return super.__repr__(); + } + + public PyString __hex__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__hex__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(); + if (res instanceof PyString) + return(PyString)res; + throw Py.TypeError("__hex__"+" returned non-"+"string"+" (type "+res.getType().fastGetName()+")"); + } + return super.__hex__(); + } + + public PyString __oct__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__oct__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(); + if (res instanceof PyString) + return(PyString)res; + throw Py.TypeError("__oct__"+" returned non-"+"string"+" (type "+res.getType().fastGetName()+")"); + } + return super.__oct__(); + } + + public PyFloat __float__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__float__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(); + if (res instanceof PyFloat) + return(PyFloat)res; + throw Py.TypeError("__float__"+" returned non-"+"float"+" (type "+res.getType().fastGetName()+")"); + } + return super.__float__(); + } + + public PyComplex __complex__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__complex__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(); + if (res instanceof PyComplex) + return(PyComplex)res; + throw Py.TypeError("__complex__"+" returned non-"+"complex"+" (type "+res.getType().fastGetName()+")"); + } + return super.__complex__(); + } + + public PyObject __pos__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__pos__"); + if (impl!=null) + return impl.__get__(this,self_type).__call__(); + return super.__pos__(); + } + + public PyObject __neg__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__neg__"); + if (impl!=null) + return impl.__get__(this,self_type).__call__(); + return super.__neg__(); + } + + public PyObject __abs__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__abs__"); + if (impl!=null) + return impl.__get__(this,self_type).__call__(); + return super.__abs__(); + } + + public PyObject __invert__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__invert__"); + if (impl!=null) + return impl.__get__(this,self_type).__call__(); + return super.__invert__(); + } + + public PyObject __reduce__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__reduce__"); + if (impl!=null) + return impl.__get__(this,self_type).__call__(); + return super.__reduce__(); + } + + public PyObject __dir__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__dir__"); + if (impl!=null) + return impl.__get__(this,self_type).__call__(); + return super.__dir__(); + } + + public PyObject __add__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__add__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__add__(other); + } + + public PyObject __radd__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__radd__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__radd__(other); + } + + public PyObject __sub__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__sub__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__sub__(other); + } + + public PyObject __rsub__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__rsub__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__rsub__(other); + } + + public PyObject __mul__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__mul__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__mul__(other); + } + + public PyObject __rmul__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__rmul__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__rmul__(other); + } + + public PyObject __div__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__div__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__div__(other); + } + + public PyObject __rdiv__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__rdiv__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__rdiv__(other); + } + + public PyObject __floordiv__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__floordiv__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__floordiv__(other); + } + + public PyObject __rfloordiv__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__rfloordiv__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__rfloordiv__(other); + } + + public PyObject __truediv__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__truediv__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__truediv__(other); + } + + public PyObject __rtruediv__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__rtruediv__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__rtruediv__(other); + } + + public PyObject __mod__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__mod__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__mod__(other); + } + + public PyObject __rmod__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__rmod__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__rmod__(other); + } + + public PyObject __divmod__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__divmod__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__divmod__(other); + } + + public PyObject __rdivmod__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__rdivmod__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__rdivmod__(other); + } + + public PyObject __rpow__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__rpow__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__rpow__(other); + } + + public PyObject __lshift__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__lshift__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__lshift__(other); + } + + public PyObject __rlshift__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__rlshift__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__rlshift__(other); + } + + public PyObject __rshift__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__rshift__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__rshift__(other); + } + + public PyObject __rrshift__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__rrshift__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__rrshift__(other); + } + + public PyObject __and__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__and__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__and__(other); + } + + public PyObject __rand__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__rand__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__rand__(other); + } + + public PyObject __or__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__or__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__or__(other); + } + + public PyObject __ror__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__ror__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__ror__(other); + } + + public PyObject __xor__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__xor__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__xor__(other); + } + + public PyObject __rxor__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__rxor__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__rxor__(other); + } + + public PyObject __lt__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__lt__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__lt__(other); + } + + public PyObject __le__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__le__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__le__(other); + } + + public PyObject __gt__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__gt__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__gt__(other); + } + + public PyObject __ge__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__ge__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__ge__(other); + } + + public PyObject __eq__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__eq__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__eq__(other); + } + + public PyObject __ne__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__ne__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__ne__(other); + } + + public PyObject __iadd__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__iadd__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__iadd__(other); + } + + public PyObject __isub__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__isub__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__isub__(other); + } + + public PyObject __imul__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__imul__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__imul__(other); + } + + public PyObject __idiv__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__idiv__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__idiv__(other); + } + + public PyObject __ifloordiv__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__ifloordiv__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__ifloordiv__(other); + } + + public PyObject __itruediv__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__itruediv__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__itruediv__(other); + } + + public PyObject __imod__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__imod__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__imod__(other); + } + + public PyObject __ipow__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__ipow__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__ipow__(other); + } + + public PyObject __ilshift__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__ilshift__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__ilshift__(other); + } + + public PyObject __irshift__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__irshift__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__irshift__(other); + } + + public PyObject __iand__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__iand__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__iand__(other); + } + + public PyObject __ior__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__ior__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__ior__(other); + } + + public PyObject __ixor__(PyObject other) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__ixor__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__ixor__(other); + } + + public PyObject __int__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__int__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(); + if (res instanceof PyInteger||res instanceof PyLong) + return res; + throw Py.TypeError("__int__"+" should return an integer"); + } + return super.__int__(); + } + + public PyObject __long__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__long__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(); + if (res instanceof PyLong||res instanceof PyInteger) + return res; + throw Py.TypeError("__long__"+" returned non-"+"long"+" (type "+res.getType().fastGetName()+")"); + } + return super.__long__(); + } + + public int hashCode() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__hash__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(); + if (res instanceof PyInteger) { + return((PyInteger)res).getValue(); + } else + if (res instanceof PyLong) { + return((PyLong)res).getValue().intValue(); + } + throw Py.TypeError("__hash__ should return a int"); + } + if (self_type.lookup("__eq__")!=null||self_type.lookup("__cmp__")!=null) { + throw Py.TypeError(String.format("unhashable type: '%.200s'",getType().fastGetName())); + } + return super.hashCode(); + } + + public PyUnicode __unicode__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__unicode__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(); + if (res instanceof PyUnicode) + return(PyUnicode)res; + if (res instanceof PyString) + return new PyUnicode((PyString)res); + throw Py.TypeError("__unicode__"+" should return a "+"unicode"); + } + return super.__unicode__(); + } + + public int __cmp__(PyObject other) { + PyType self_type=getType(); + PyObject[]where_type=new PyObject[1]; + PyObject impl=self_type.lookup_where("__cmp__",where_type); + // Full Compatibility with CPython __cmp__: + // If the derived type don't override __cmp__, the + // *internal* super().__cmp__ should be called, not the + // exposed one. The difference is that the exposed __cmp__ + // throws a TypeError if the argument is an instance of the same type. + if (impl==null||where_type[0]==TYPE||Py.isSubClass(TYPE,where_type[0])) { + return super.__cmp__(other); + } + PyObject res=impl.__get__(this,self_type).__call__(other); + if (res==Py.NotImplemented) { + return-2; + } + int c=res.asInt(); + return c<0?-1:c>0?1:0; + } + + public boolean __nonzero__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__nonzero__"); + if (impl==null) { + impl=self_type.lookup("__len__"); + if (impl==null) + return super.__nonzero__(); + } + PyObject o=impl.__get__(this,self_type).__call__(); + Class c=o.getClass(); + if (c!=PyInteger.class&&c!=PyBoolean.class) { + throw Py.TypeError(String.format("__nonzero__ should return bool or int, returned %s",self_type.getName())); + } + return o.__nonzero__(); + } + + public boolean __contains__(PyObject o) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__contains__"); + if (impl==null) + return super.__contains__(o); + return impl.__get__(this,self_type).__call__(o).__nonzero__(); + } + + public int __len__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__len__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(); + if (res instanceof PyInteger) + return((PyInteger)res).getValue(); + throw Py.TypeError("__len__ should return a int"); + } + return super.__len__(); + } + + public PyObject __iter__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__iter__"); + if (impl!=null) + return impl.__get__(this,self_type).__call__(); + impl=self_type.lookup("__getitem__"); + if (impl==null) + return super.__iter__(); + return new PySequenceIter(this); + } + + public PyObject __iternext__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("next"); + if (impl!=null) { + try { + return impl.__get__(this,self_type).__call__(); + } catch (PyException exc) { + if (exc.match(Py.StopIteration)) + return null; + throw exc; + } + } + return super.__iternext__(); // ??? + } + + public PyObject __finditem__(PyObject key) { // ??? + PyType self_type=getType(); + PyObject impl=self_type.lookup("__getitem__"); + if (impl!=null) + try { + return impl.__get__(this,self_type).__call__(key); + } catch (PyException exc) { + if (exc.match(Py.LookupError)) + return null; + throw exc; + } + return super.__finditem__(key); + } + + public PyObject __finditem__(int key) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__getitem__"); + if (impl!=null) + try { + return impl.__get__(this,self_type).__call__(new PyInteger(key)); + } catch (PyException exc) { + if (exc.match(Py.LookupError)) + return null; + throw exc; + } + return super.__finditem__(key); + } + + public PyObject __getitem__(PyObject key) { + // Same as __finditem__, without swallowing LookupErrors. This allows + // __getitem__ implementations written in Python to raise custom + // exceptions (such as subclasses of KeyError). + // + // We are forced to duplicate the code, instead of defining __finditem__ + // in terms of __getitem__. That's because PyObject defines __getitem__ + // in terms of __finditem__. Therefore, we would end with an infinite + // loop when self_type.lookup("__getitem__") returns null: + // + // __getitem__ -> super.__getitem__ -> __finditem__ -> __getitem__ + // + // By duplicating the (short) lookup and call code, we are safe, because + // the call chains will be: + // + // __finditem__ -> super.__finditem__ + // + // __getitem__ -> super.__getitem__ -> __finditem__ -> super.__finditem__ + + PyType self_type=getType(); + PyObject impl=self_type.lookup("__getitem__"); + if (impl!=null) + return impl.__get__(this,self_type).__call__(key); + return super.__getitem__(key); + } + + public void __setitem__(PyObject key,PyObject value) { // ??? + PyType self_type=getType(); + PyObject impl=self_type.lookup("__setitem__"); + if (impl!=null) { + impl.__get__(this,self_type).__call__(key,value); + return; + } + super.__setitem__(key,value); + } + + public PyObject __getslice__(PyObject start,PyObject stop,PyObject step) { // ??? + if (step!=null) { + return __getitem__(new PySlice(start,stop,step)); + } + PyType self_type=getType(); + PyObject impl=self_type.lookup("__getslice__"); + if (impl!=null) { + PyObject[]indices=PySlice.indices2(this,start,stop); + return impl.__get__(this,self_type).__call__(indices[0],indices[1]); + } + return super.__getslice__(start,stop,step); + } + + public void __setslice__(PyObject start,PyObject stop,PyObject step,PyObject value) { + if (step!=null) { + __setitem__(new PySlice(start,stop,step),value); + return; + } + PyType self_type=getType(); + PyObject impl=self_type.lookup("__setslice__"); + if (impl!=null) { + PyObject[]indices=PySlice.indices2(this,start,stop); + impl.__get__(this,self_type).__call__(indices[0],indices[1],value); + return; + } + super.__setslice__(start,stop,step,value); + } + + public void __delslice__(PyObject start,PyObject stop,PyObject step) { + if (step!=null) { + __delitem__(new PySlice(start,stop,step)); + return; + } + PyType self_type=getType(); + PyObject impl=self_type.lookup("__delslice__"); + if (impl!=null) { + PyObject[]indices=PySlice.indices2(this,start,stop); + impl.__get__(this,self_type).__call__(indices[0],indices[1]); + return; + } + super.__delslice__(start,stop,step); + } + + public void __delitem__(PyObject key) { // ??? + PyType self_type=getType(); + PyObject impl=self_type.lookup("__delitem__"); + if (impl!=null) { + impl.__get__(this,self_type).__call__(key); + return; + } + super.__delitem__(key); + } + + public PyObject __call__(PyObject args[],String keywords[]) { + ThreadState ts=Py.getThreadState(); + if (ts.recursion_depth++>ts.systemState.getrecursionlimit()) + throw Py.RuntimeError("maximum __call__ recursion depth exceeded"); + try { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__call__"); + if (impl!=null) + return impl.__get__(this,self_type).__call__(args,keywords); + return super.__call__(args,keywords); + } finally { + --ts.recursion_depth; + } + } + + public PyObject __findattr_ex__(String name) { + return Deriveds.__findattr_ex__(this,name); + } + + public void __setattr__(String name,PyObject value) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__setattr__"); + if (impl!=null) { + impl.__get__(this,self_type).__call__(PyString.fromInterned(name),value); + return; + } + super.__setattr__(name,value); + } + + public void __delattr__(String name) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__delattr__"); + if (impl!=null) { + impl.__get__(this,self_type).__call__(PyString.fromInterned(name)); + return; + } + super.__delattr__(name); + } + + public PyObject __get__(PyObject obj,PyObject type) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__get__"); + if (impl!=null) { + if (obj==null) + obj=Py.None; + if (type==null) + type=Py.None; + return impl.__get__(this,self_type).__call__(obj,type); + } + return super.__get__(obj,type); + } + + public void __set__(PyObject obj,PyObject value) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__set__"); + if (impl!=null) { + impl.__get__(this,self_type).__call__(obj,value); + return; + } + super.__set__(obj,value); + } + + public void __delete__(PyObject obj) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__delete__"); + if (impl!=null) { + impl.__get__(this,self_type).__call__(obj); + return; + } + super.__delete__(obj); + } + + public PyObject __pow__(PyObject other,PyObject modulo) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__pow__"); + if (impl!=null) { + PyObject res; + if (modulo==null) { + res=impl.__get__(this,self_type).__call__(other); + } else { + res=impl.__get__(this,self_type).__call__(other,modulo); + } + if (res==Py.NotImplemented) + return null; + return res; + } + return super.__pow__(other,modulo); + } + + public void dispatch__init__(PyObject[]args,String[]keywords) { + Deriveds.dispatch__init__(this,args,keywords); + } + + public PyObject __index__() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__index__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(); + if (res instanceof PyInteger||res instanceof PyLong) { + return res; + } + throw Py.TypeError(String.format("__index__ returned non-(int,long) (type %s)",res.getType().fastGetName())); + } + return super.__index__(); + } + + public Object __tojava__(Class c) { + // If we are not being asked by the "default" conversion to java, then + // we can provide this as the result, as long as it is a instance of the + // specified class. Without this, derived.__tojava__(PyObject.class) + // would broke. (And that's not pure speculation: PyReflectedFunction's + // ReflectedArgs asks for things like that). + if ((c!=Object.class)&&(c!=Serializable.class)&&(c.isInstance(this))) { + return this; + } + // Otherwise, we call the derived __tojava__, if it exists: + PyType self_type=getType(); + PyObject impl=self_type.lookup("__tojava__"); + if (impl!=null) + return impl.__get__(this,self_type).__call__(Py.java2py(c)).__tojava__(Object.class); + return super.__tojava__(c); + } + + public Object __coerce_ex__(PyObject o) { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__coerce__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(o); + if (res==Py.NotImplemented) + return Py.None; + if (!(res instanceof PyTuple)) + throw Py.TypeError("__coerce__ didn't return a 2-tuple"); + return((PyTuple)res).getArray(); + } + return super.__coerce_ex__(o); + } + + public String toString() { + PyType self_type=getType(); + PyObject impl=self_type.lookup("__repr__"); + if (impl!=null) { + PyObject res=impl.__get__(this,self_type).__call__(); + if (!(res instanceof PyString)) + throw Py.TypeError("__repr__ returned non-string (type "+res.getType().fastGetName()+")"); + return((PyString)res).toString(); + } + return super.toString(); + } + +} diff --git a/src/org/python/modules/itertools/itertools.java b/src/org/python/modules/itertools/itertools.java --- a/src/org/python/modules/itertools/itertools.java +++ b/src/org/python/modules/itertools/itertools.java @@ -78,16 +78,17 @@ public class itertools implements ClassD return element; } } public static void classDictInit(PyObject dict) { dict.__setitem__("__name__", new PyString("itertools")); dict.__setitem__("__doc__", __doc__); dict.__setitem__("chain", chain.TYPE); + dict.__setitem__("cycle", cycle.TYPE); dict.__setitem__("imap", imap.TYPE); dict.__setitem__("ifilter", ifilter.TYPE); dict.__setitem__("ifilterfalse", ifilterfalse.TYPE); dict.__setitem__("izip", izip.TYPE); // Hide from Python dict.__setitem__("classDictInit", null); dict.__setitem__("initClassExceptions", null); @@ -137,58 +138,16 @@ public class itertools implements ClassD /** * Creates an iterator that returns consecutive integers starting at 0. */ public static PyIterator count() { return itertools.count(0); } - - public static PyString __doc__cycle = new PyString( - "cycle(iterable) --> cycle object\n\nReturn elements from the iterable " - + "until itis exhausted.\nThen repeat the sequence indefinitely."); - - /** - * Returns an iterator that iterates over an iterable, saving the values for each iteration. - * When the iterable is exhausted continues to iterate over the saved values indefinitely. - */ - public static PyIterator cycle(final PyObject sequence) { - return new ItertoolsIterator() { - List saved = new ArrayList(); - int counter = 0; - PyObject iter = sequence.__iter__(); - - boolean save = true; - - public PyObject __iternext__() { - if (save) { - PyObject obj = nextElement(iter); - if (obj != null) { - saved.add(obj); - return obj; - } else { - save = false; - } - } - if (saved.size() == 0) { - return null; - } - - // pick element from saved List - if (counter >= saved.size()) { - // start over again - counter = 0; - } - return saved.get(counter++); - } - - }; - } - public static PyString __doc__repeat = new PyString( "'repeat(element [,times]) -> create an iterator which returns the element\n" + "for the specified number of times. If not specified, returns the element\nendlessly."); /** * Creates an iterator that returns the same object the number of times given by * times. */ diff --git a/src/templates/chain.derived b/src/templates/cycle.derived copy from src/templates/chain.derived copy to src/templates/cycle.derived --- a/src/templates/chain.derived +++ b/src/templates/cycle.derived @@ -1,4 +1,4 @@ -base_class: chain +base_class: cycle want_dict: true ctr: incl: object diff --git a/src/templates/mappings b/src/templates/mappings --- a/src/templates/mappings +++ b/src/templates/mappings @@ -9,16 +9,17 @@ BaseException.derived:org.python.core.PyBaseExceptionDerived ClasspathPyImporter.derived:org.python.core.ClasspathPyImporterDerived PyFileIO.derived:org.python.modules._fileio.PyFileIODerived array.derived:org.python.core.PyArrayDerived bytearray.derived:org.python.core.PyByteArrayDerived classmethod.derived:org.python.core.PyClassMethodDerived complex.derived:org.python.core.PyComplexDerived chain.derived:org.python.modules.itertools.chainDerived +cycle.derived:org.python.modules.itertools.cycleDerived defaultdict.derived:org.python.modules._collections.PyDefaultDictDerived deque.derived:org.python.modules._collections.PyDequeDerived dialect.derived:org.python.modules._csv.PyDialectDerived dict.derived:org.python.core.PyDictionaryDerived enumerate.derived:org.python.core.PyEnumerateDerived file.derived:org.python.core.PyFileDerived float.derived:org.python.core.PyFloatDerived frozenset.derived:org.python.core.PyFrozenSetDerived