class ReduceCaller(CompoundTypeNode):
def __init__(self, frame, anchor, func, seq, initial):
self.frame = frame
self.anchor = anchor
self.received = set()
self.elem = IterElement(frame, anchor, seq)
self.result = CompoundTypeNode()
if initial:
initial.connect(self.result.recv)
else:
self.elem.connect(self.result.recv)
self.args = (self.result, self.elem)
CompoundTypeNode.__init__(self, [self.result])
func.connect(self.recv_func)
return
def recv_func(self, src):
for obj in src:
if obj in self.received: continue
self.received.add(obj)
try:
result = obj.call(self.frame, self.anchor, self.args, {})
result.connect(self.recv)
result.connect(self.result.recv)
except NodeTypeError:
self.frame.raise_expt(ErrorConfig.NotCallable(obj))
return
class ReduceCaller(CompoundTypeNode):
def __init__(self, frame, anchor, func, seq, initial):
self.frame = frame
self.anchor = anchor
self.received = set()
self.elem = IterElement(frame, anchor, seq)
self.result = CompoundTypeNode()
if initial:
initial.connect(self.result.recv)
else:
self.elem.connect(self.result.recv)
self.args = (self.result, self.elem)
CompoundTypeNode.__init__(self, [self.result])
func.connect(self.recv_func)
return
def recv_func(self, src):
for obj in src:
if obj in self.received: continue
self.received.add(obj)
try:
result = obj.call(self.frame, self.anchor, self.args, {})
result.connect(self.recv)
result.connect(self.result.recv)
except NodeTypeError:
self.frame.raise_expt(ErrorConfig.NotCallable(obj))
return
def accept_arg(self, frame, anchor, i, arg1):
if arg1 in self.cache_extend:
elem = self.cache_extend[arg1]
else:
elem = IterElement(frame, anchor, arg1)
self.cache_extend[arg1] = elem
elem.connect(self.target.elemall.recv)
return
def accept_arg(self, frame, anchor, i, arg1):
if arg1 in self.cache_extend:
elem = self.cache_extend[arg1]
else:
elem = IterElement(frame, anchor, arg1)
self.cache_extend[arg1] = elem
elem.connect(self.target.elemall.recv)
return
def __init__(self, frame, anchor, seq, initial):
self.frame = frame
self.anchor = anchor
self.received = set()
self.elem = IterElement(frame, anchor, seq)
self.result = CompoundTypeNode()
if initial:
initial.connect(self.result.recv)
else:
self.elem.connect(self.result.recv)
CompoundTypeNode.__init__(self, [self.result])
IterElement(frame, anchor, seq).connect(self.recv_elem)
return
def recv_pair(self, src):
for obj in src:
if obj.is_type(TupleType.get_typeobj()) and obj.elements:
if len(obj.elements) == 2:
(k,v) = obj.elements
k.connect(self.target.key.recv)
v.connect(self.target.value.recv)
else:
self.frame.raise_expt(ErrorConfig.NotConvertable('(key,value)'))
continue
elem = IterElement(self.frame, self.anchor, obj)
elem.connect(self.target.key.recv)
elem.connect(self.target.value.recv)
self.frame.raise_expt(ErrorConfig.NotConvertable('dict'))
return
def recv(self, src):
from pyntch.expression import IterElement
for obj in src:
if obj in self.received: continue
self.received.add(obj)
IterElement(self.parent_frame, self.anchor, obj).connect(self.elemchecker.recv)
return
def create_sequence(klass, frame, anchor, src):
k = ('sequence', anchor)
if k in klass.CACHE:
return klass.CACHE[k]
setobj = klass.create_set()
IterElement(frame, anchor, src).connect(setobj.elemall.recv)
klass.CACHE[k] = setobj
return setobj
def process_args(self, frame, anchor, args, kwargs):
if kwargs:
frame.raise_expt(ErrorConfig.NoKeywordArgs())
return UndefinedTypeNode.get_object()
elemall = TupleType.create_tuple(
[IntType.get_object(),
IterElement(frame, anchor, args[0])])
return IterObject(self.get_typeobj(), elemall=elemall)
def __init__(self, frame, anchor, func, seq):
self.frame = frame
self.anchor = anchor
self.received = set()
self.elem = IterElement(frame, anchor, seq)
CompoundTypeNode.__init__(self, [seq])
func.connect(self.recv_func)
return
def __init__(self, frame, anchor, func, objs):
self.frame = frame
self.anchor = anchor
self.received = set()
self.args = tuple(IterElement(frame, anchor, obj) for obj in objs)
self.listobj = ListType.create_list()
CompoundTypeNode.__init__(self, [self.listobj])
func.connect(self.recv_func)
return
def call(self, frame, anchor, args, kwargs):
if kwargs:
frame.raise_expt(ErrorConfig.NoKeywordArgs())
return UndefinedTypeNode.get_object()
elems = [CompoundTypeNode() for arg1 in args]
zipelem = TupleType.create_tuple(elements=elems)
seq = ListType.create_list(elemall=zipelem)
for (i, arg1) in enumerate(args):
IterElement(frame, anchor, arg1).connect(elems[i].recv)
return seq
def __init__(self, frame, anchor, seq, initial):
self.frame = frame
self.anchor = anchor
self.received = set()
self.elem = IterElement(frame, anchor, seq)
self.result = CompoundTypeNode()
if initial:
initial.connect(self.result.recv)
else:
self.elem.connect(self.result.recv)
CompoundTypeNode.__init__(self, [self.result])
IterElement(frame, anchor, seq).connect(self.recv_elem)
return
class SumCaller(CompoundTypeNode):
def __init__(self, frame, anchor, seq, initial):
self.frame = frame
self.anchor = anchor
self.received = set()
self.elem = IterElement(frame, anchor, seq)
self.result = CompoundTypeNode()
if initial:
initial.connect(self.result.recv)
else:
self.elem.connect(self.result.recv)
CompoundTypeNode.__init__(self, [self.result])
IterElement(frame, anchor, seq).connect(self.recv_elem)
return
def recv_elem(self, src):
for obj in src:
if obj in self.received: continue
self.received.add(obj)
BinaryOp(self.frame, self.anchor, 'Add', obj, self.result).connect(self.result.recv)
return
class SumCaller(CompoundTypeNode):
def __init__(self, frame, anchor, seq, initial):
self.frame = frame
self.anchor = anchor
self.received = set()
self.elem = IterElement(frame, anchor, seq)
self.result = CompoundTypeNode()
if initial:
initial.connect(self.result.recv)
else:
self.elem.connect(self.result.recv)
CompoundTypeNode.__init__(self, [self.result])
IterElement(frame, anchor, seq).connect(self.recv_elem)
return
def recv_elem(self, src):
for obj in src:
if obj in self.received: continue
self.received.add(obj)
BinaryOp(self.frame, self.anchor, 'Add', obj,
self.result).connect(self.result.recv)
return
def call(self, frame, anchor, args, kwargs):
if kwargs:
frame.raise_expt(ErrorConfig.NoKeywordArgs())
return UndefinedTypeNode.get_object()
retobj = CompoundTypeNode()
if len(args) == 1:
IterElement(frame, anchor, args[0]).connect(retobj.recv)
else:
for arg1 in args:
arg1.connect(retobj.recv)
if 'key' in kwargs:
IterFuncChecker(frame, anchor, retobj, kwargs['key'])
return retobj
def recv_pair(self, src):
for obj in src:
if obj.is_type(TupleType.get_typeobj()) and obj.elements:
if len(obj.elements) == 2:
(k, v) = obj.elements
k.connect(self.target.key.recv)
v.connect(self.target.value.recv)
else:
self.frame.raise_expt(
ErrorConfig.NotConvertable('(key,value)'))
continue
elem = IterElement(self.frame, self.anchor, obj)
elem.connect(self.target.key.recv)
elem.connect(self.target.value.recv)
self.frame.raise_expt(ErrorConfig.NotConvertable('dict'))
return
def recv2(self, src):
for obj in src:
IterElement(self.frame, self.anchor,
obj).connect(self.types2.recv)
self.update_intersection()
return
def recv(self, src):
for obj in src:
IterElement(self.frame, self.anchor,
obj).connect(self.recv_pair)
return
def process_args(self, frame, anchor, args, kwargs):
seq = ListType.create_list(elemall=IterElement(frame, anchor, args[0]))
ListObject.SortMethod('sorted',
seq).process_args(frame, anchor, args[1:],
kwargs)
return seq
def recv(self, src):
for obj in src:
IterElement(self.frame, self.anchor,
obj).connect(self.target.key.recv)
return
def accept_arg(self, frame, anchor, i, arg1):
IterElement(frame, anchor, arg1)
return
