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Top 10 Examples of "gast in functional component" in Python

Dive into secure and efficient coding practices with our curated list of the top 10 examples showcasing 'gast' in functional components in Python. Our advanced machine learning engine meticulously scans each line of code, cross-referencing millions of open source libraries to ensure your implementation is not just functional, but also robust and secure. Elevate your React applications to new heights by mastering the art of handling side effects, API calls, and asynchronous operations with confidence and precision.

"""Generate an If node."""
    test = self.generate_Compare()

    # Generate true branch statements
    body = self.sample_node_list(
        low=1,
        high=N_CONTROLFLOW_STATEMENTS // 2,
        generator=self.generate_statement)

    # Generate false branch statements
    orelse = self.sample_node_list(
        low=1,
        high=N_CONTROLFLOW_STATEMENTS // 2,
        generator=self.generate_statement)

    node = gast.If(test, body, orelse)
    return node
def checkLocals(self, code, ref):
        node = ast.parse(code)
        c = StrictDefUseChains()
        c.visit(node)
        functions = [n for n in node.body if isinstance(n, ast.FunctionDef)]
        assert len(functions) == 1, "only one top-level function per test case"
        f = functions[0]
        self.assertEqual(c.dump_definitions(f), ref)
def check_unbound_identifier_message(self, code, expected_messages, filename=None):
        node = ast.parse(code)
        c = beniget.DefUseChains(filename)
        with captured_output() as (out, err):
            c.visit(node)
        produced_messages = out.getvalue().strip().split("\n")

        self.assertEqual(len(expected_messages), len(produced_messages))
        for expected, produced in zip(expected_messages, produced_messages):
            self.assertIn(expected, produced, "actual message contains expected message")
def generate_Assign(self):
    """Generate an Assign node."""
    # Generate left-hand side
    target_node = self.generate_Name(gast.Store())
    # Generate right-hand side
    value_node = self.generate_expression()
    # Put it all together
    node = gast.Assign(targets=[target_node], value=value_node)
    return node
        low=2, high=10, generator=lambda: self.generate_Name(gast.Param()))
    args = gast.arguments(arg_vars, None, [], [], None, [])
def test_statement_replace():
  def f(body):
    body

  body = [gast.Expr(value=gast.Name(id=var, ctx=gast.Load(), annotation=None))
          for var in 'xy']
  new_body = template.replace(f, body=body)
  assert len(new_body) == 2
  assert isinstance(new_body[0], gast.Expr)
  compile_.compile_function(_wrap(new_body))
def test_statement_replace():
  def f(body):
    body

  body = [gast.Expr(value=gast.Name(id=var, ctx=gast.Load(), annotation=None))
          for var in 'xy']
  new_body = template.replace(f, body=body)
  assert len(new_body) == 2
  assert isinstance(new_body[0], gast.Expr)
  compile_.compile_function(_wrap(new_body))
if node in self.optimizable_comprehension:
            self.update = True
            self.generic_visit(node)

            iters = [self.make_Iterator(gen) for gen in node.generators]
            variables = [ast.Name(gen.target.id, ast.Param(), None, None)
                         for gen in node.generators]

            # If dim = 1, product is useless
            if len(iters) == 1:
                iterAST = iters[0]
                varAST = ast.arguments([variables[0]], [], None, [], [], None, [])
            else:
                self.use_itertools = True
                prodName = ast.Attribute(
                    value=ast.Name(id=mangle('itertools'),
                                   ctx=ast.Load(),
                                   annotation=None, type_comment=None),
                    attr='product', ctx=ast.Load())

                varid = variables[0].id  # retarget this id, it's free
                renamings = {v.id: (i,) for i, v in enumerate(variables)}
                node.elt = ConvertToTuple(varid, renamings).visit(node.elt)
                iterAST = ast.Call(prodName, iters, [])
                varAST = ast.arguments([ast.Name(varid, ast.Param(), None, None)],
                                       [], None, [], [], None, [])

            ldBodymap = node.elt
            ldmap = ast.Lambda(varAST, ldBodymap)

            return make_attr(ldmap, iterAST)
def visit_FunctionDef(self, node):
    self.generic_visit(node)
    kept_decorators = []
    for dec in node.decorator_list:
      if isinstance(dec, gast.Call):
        dec_func = dec.func
      else:
        dec_func = dec

      # Special cases.
      # TODO(mdan): Is there any way we can treat these more generically?
      # We may want to forego using decorators altogether if we can't
      # properly support them.
      if isinstance(dec_func, gast.Name) and dec_func.id in ('classmethod',):
        # Assumption: decorators are only visible in the AST when converting
        # a function inline (via another decorator).
        # In that case, the converted function is no longer part of the
        # original object that it was declared into.
        # This is currently verified by tests.
        continue

      if not anno.hasanno(dec_func, 'live_val'):
        raise ValueError(
            'Could not resolve decorator: %s' % pretty_printer.fmt(dec_func))

      dec_value = anno.getanno(dec_func, 'live_val')
      if dec_value not in self.remove_decorators:
        kept_decorators.append((dec, dec_value))

    for _, dec_value in kept_decorators:
def _process(self, node):
    qn = anno.getanno(node, anno.Basic.QN)
    if qn in self.name_map:
      return gast.Name(str(self.name_map[qn]), node.ctx, None)
    return self.generic_visit(node)

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