Esempio n. 1
0
def test_SVar():
    sv = SVar()
    assert not sv.matches(1)
    assert not sv.matches((1, 2))
    assert sv.matches(Seq((1, )))
    ssv = str(sv)
    assert ssv == f'*{sv.tag}'
    assert repr(sv) == f'SVar({sv.tag})'
    sv2 = SVar(var(filter=(True, False, 0, 1)))
    assert sv.matches(sv2)
    assert sv2.matches(Seq((True, False, 1)))
    assert not sv2.matches(Seq((1, 2)))
Esempio n. 2
0
    def graph_display(self, gprint, node, g, cl):
        """Display a node in cytoscape graph."""
        if gprint.function_in_node and self.on_edge:
            lbl = gprint.label(node, '')
            gprint.cynode(id=node, label=lbl, parent=g, classes=cl)
            gprint.process_edges([(node, (self.label, 'fn-edge'),
                                   node.inputs[1])])
        else:
            gprint.process_node_generic(node, g, cl)


make_tuple = GraphCosmeticPrimitive('(...)')

X = Var('X')
Y = Var('Y')
Xs = SVar(Var())
V = var(lambda x: x.is_constant())
V1 = var(lambda x: x.is_constant())
V2 = var(lambda x: x.is_constant())
L = var(lambda x: x.is_constant_graph())


@pattern_replacer(primops.make_tuple, Xs)
def _opt_fancy_make_tuple(optimizer, node, equiv):
    xs = equiv[Xs]
    ct = Constant(GraphCosmeticPrimitive('(...)'))
    with About(node.debug, 'cosmetic'):
        return Apply([ct, *xs], node.graph)


@pattern_replacer(primops.tuple_getitem, X, V)