| """Utility functions, node construction macros, etc.""" |
| # Author: Collin Winter |
| |
| from itertools import islice |
| |
| # Local imports |
| from .pgen2 import token |
| from .pytree import Leaf, Node |
| from .pygram import python_symbols as syms |
| from . import patcomp |
| |
| |
| ########################################################### |
| ### Common node-construction "macros" |
| ########################################################### |
| |
| def KeywordArg(keyword, value): |
| return Node(syms.argument, |
| [keyword, Leaf(token.EQUAL, "="), value]) |
| |
| def LParen(): |
| return Leaf(token.LPAR, "(") |
| |
| def RParen(): |
| return Leaf(token.RPAR, ")") |
| |
| def Assign(target, source): |
| """Build an assignment statement""" |
| if not isinstance(target, list): |
| target = [target] |
| if not isinstance(source, list): |
| source.prefix = " " |
| source = [source] |
| |
| return Node(syms.atom, |
| target + [Leaf(token.EQUAL, "=", prefix=" ")] + source) |
| |
| def Name(name, prefix=None): |
| """Return a NAME leaf""" |
| return Leaf(token.NAME, name, prefix=prefix) |
| |
| def Attr(obj, attr): |
| """A node tuple for obj.attr""" |
| return [obj, Node(syms.trailer, [Dot(), attr])] |
| |
| def Comma(): |
| """A comma leaf""" |
| return Leaf(token.COMMA, ",") |
| |
| def Dot(): |
| """A period (.) leaf""" |
| return Leaf(token.DOT, ".") |
| |
| def ArgList(args, lparen=LParen(), rparen=RParen()): |
| """A parenthesised argument list, used by Call()""" |
| node = Node(syms.trailer, [lparen.clone(), rparen.clone()]) |
| if args: |
| node.insert_child(1, Node(syms.arglist, args)) |
| return node |
| |
| def Call(func_name, args=None, prefix=None): |
| """A function call""" |
| node = Node(syms.power, [func_name, ArgList(args)]) |
| if prefix is not None: |
| node.prefix = prefix |
| return node |
| |
| def Newline(): |
| """A newline literal""" |
| return Leaf(token.NEWLINE, "\n") |
| |
| def BlankLine(): |
| """A blank line""" |
| return Leaf(token.NEWLINE, "") |
| |
| def Number(n, prefix=None): |
| return Leaf(token.NUMBER, n, prefix=prefix) |
| |
| def Subscript(index_node): |
| """A numeric or string subscript""" |
| return Node(syms.trailer, [Leaf(token.LBRACE, "["), |
| index_node, |
| Leaf(token.RBRACE, "]")]) |
| |
| def String(string, prefix=None): |
| """A string leaf""" |
| return Leaf(token.STRING, string, prefix=prefix) |
| |
| def ListComp(xp, fp, it, test=None): |
| """A list comprehension of the form [xp for fp in it if test]. |
| |
| If test is None, the "if test" part is omitted. |
| """ |
| xp.prefix = "" |
| fp.prefix = " " |
| it.prefix = " " |
| for_leaf = Leaf(token.NAME, "for") |
| for_leaf.prefix = " " |
| in_leaf = Leaf(token.NAME, "in") |
| in_leaf.prefix = " " |
| inner_args = [for_leaf, fp, in_leaf, it] |
| if test: |
| test.prefix = " " |
| if_leaf = Leaf(token.NAME, "if") |
| if_leaf.prefix = " " |
| inner_args.append(Node(syms.comp_if, [if_leaf, test])) |
| inner = Node(syms.listmaker, [xp, Node(syms.comp_for, inner_args)]) |
| return Node(syms.atom, |
| [Leaf(token.LBRACE, "["), |
| inner, |
| Leaf(token.RBRACE, "]")]) |
| |
| def FromImport(package_name, name_leafs): |
| """ Return an import statement in the form: |
| from package import name_leafs""" |
| # XXX: May not handle dotted imports properly (eg, package_name='foo.bar') |
| #assert package_name == '.' or '.' not in package_name, "FromImport has "\ |
| # "not been tested with dotted package names -- use at your own "\ |
| # "peril!" |
| |
| for leaf in name_leafs: |
| # Pull the leaves out of their old tree |
| leaf.remove() |
| |
| children = [Leaf(token.NAME, "from"), |
| Leaf(token.NAME, package_name, prefix=" "), |
| Leaf(token.NAME, "import", prefix=" "), |
| Node(syms.import_as_names, name_leafs)] |
| imp = Node(syms.import_from, children) |
| return imp |
| |
| def ImportAndCall(node, results, names): |
| """Returns an import statement and calls a method |
| of the module: |
| |
| import module |
| module.name()""" |
| obj = results["obj"].clone() |
| if obj.type == syms.arglist: |
| newarglist = obj.clone() |
| else: |
| newarglist = Node(syms.arglist, [obj.clone()]) |
| after = results["after"] |
| if after: |
| after = [n.clone() for n in after] |
| new = Node(syms.power, |
| Attr(Name(names[0]), Name(names[1])) + |
| [Node(syms.trailer, |
| [results["lpar"].clone(), |
| newarglist, |
| results["rpar"].clone()])] + after) |
| new.prefix = node.prefix |
| return new |
| |
| |
| ########################################################### |
| ### Determine whether a node represents a given literal |
| ########################################################### |
| |
| def is_tuple(node): |
| """Does the node represent a tuple literal?""" |
| if isinstance(node, Node) and node.children == [LParen(), RParen()]: |
| return True |
| return (isinstance(node, Node) |
| and len(node.children) == 3 |
| and isinstance(node.children[0], Leaf) |
| and isinstance(node.children[1], Node) |
| and isinstance(node.children[2], Leaf) |
| and node.children[0].value == "(" |
| and node.children[2].value == ")") |
| |
| def is_list(node): |
| """Does the node represent a list literal?""" |
| return (isinstance(node, Node) |
| and len(node.children) > 1 |
| and isinstance(node.children[0], Leaf) |
| and isinstance(node.children[-1], Leaf) |
| and node.children[0].value == "[" |
| and node.children[-1].value == "]") |
| |
| |
| ########################################################### |
| ### Misc |
| ########################################################### |
| |
| def parenthesize(node): |
| return Node(syms.atom, [LParen(), node, RParen()]) |
| |
| |
| consuming_calls = {"sorted", "list", "set", "any", "all", "tuple", "sum", |
| "min", "max", "enumerate"} |
| |
| def attr_chain(obj, attr): |
| """Follow an attribute chain. |
| |
| If you have a chain of objects where a.foo -> b, b.foo-> c, etc, |
| use this to iterate over all objects in the chain. Iteration is |
| terminated by getattr(x, attr) is None. |
| |
| Args: |
| obj: the starting object |
| attr: the name of the chaining attribute |
| |
| Yields: |
| Each successive object in the chain. |
| """ |
| next = getattr(obj, attr) |
| while next: |
| yield next |
| next = getattr(next, attr) |
| |
| p0 = """for_stmt< 'for' any 'in' node=any ':' any* > |
| | comp_for< 'for' any 'in' node=any any* > |
| """ |
| p1 = """ |
| power< |
| ( 'iter' | 'list' | 'tuple' | 'sorted' | 'set' | 'sum' | |
| 'any' | 'all' | 'enumerate' | (any* trailer< '.' 'join' >) ) |
| trailer< '(' node=any ')' > |
| any* |
| > |
| """ |
| p2 = """ |
| power< |
| ( 'sorted' | 'enumerate' ) |
| trailer< '(' arglist<node=any any*> ')' > |
| any* |
| > |
| """ |
| pats_built = False |
| def in_special_context(node): |
| """ Returns true if node is in an environment where all that is required |
| of it is being iterable (ie, it doesn't matter if it returns a list |
| or an iterator). |
| See test_map_nochange in test_fixers.py for some examples and tests. |
| """ |
| global p0, p1, p2, pats_built |
| if not pats_built: |
| p0 = patcomp.compile_pattern(p0) |
| p1 = patcomp.compile_pattern(p1) |
| p2 = patcomp.compile_pattern(p2) |
| pats_built = True |
| patterns = [p0, p1, p2] |
| for pattern, parent in zip(patterns, attr_chain(node, "parent")): |
| results = {} |
| if pattern.match(parent, results) and results["node"] is node: |
| return True |
| return False |
| |
| def is_probably_builtin(node): |
| """ |
| Check that something isn't an attribute or function name etc. |
| """ |
| prev = node.prev_sibling |
| if prev is not None and prev.type == token.DOT: |
| # Attribute lookup. |
| return False |
| parent = node.parent |
| if parent.type in (syms.funcdef, syms.classdef): |
| return False |
| if parent.type == syms.expr_stmt and parent.children[0] is node: |
| # Assignment. |
| return False |
| if parent.type == syms.parameters or \ |
| (parent.type == syms.typedargslist and ( |
| (prev is not None and prev.type == token.COMMA) or |
| parent.children[0] is node |
| )): |
| # The name of an argument. |
| return False |
| return True |
| |
| def find_indentation(node): |
| """Find the indentation of *node*.""" |
| while node is not None: |
| if node.type == syms.suite and len(node.children) > 2: |
| indent = node.children[1] |
| if indent.type == token.INDENT: |
| return indent.value |
| node = node.parent |
| return "" |
| |
| ########################################################### |
| ### The following functions are to find bindings in a suite |
| ########################################################### |
| |
| def make_suite(node): |
| if node.type == syms.suite: |
| return node |
| node = node.clone() |
| parent, node.parent = node.parent, None |
| suite = Node(syms.suite, [node]) |
| suite.parent = parent |
| return suite |
| |
| def find_root(node): |
| """Find the top level namespace.""" |
| # Scamper up to the top level namespace |
| while node.type != syms.file_input: |
| node = node.parent |
| if not node: |
| raise ValueError("root found before file_input node was found.") |
| return node |
| |
| def does_tree_import(package, name, node): |
| """ Returns true if name is imported from package at the |
| top level of the tree which node belongs to. |
| To cover the case of an import like 'import foo', use |
| None for the package and 'foo' for the name. """ |
| binding = find_binding(name, find_root(node), package) |
| return bool(binding) |
| |
| def is_import(node): |
| """Returns true if the node is an import statement.""" |
| return node.type in (syms.import_name, syms.import_from) |
| |
| def touch_import(package, name, node): |
| """ Works like `does_tree_import` but adds an import statement |
| if it was not imported. """ |
| def is_import_stmt(node): |
| return (node.type == syms.simple_stmt and node.children and |
| is_import(node.children[0])) |
| |
| root = find_root(node) |
| |
| if does_tree_import(package, name, root): |
| return |
| |
| # figure out where to insert the new import. First try to find |
| # the first import and then skip to the last one. |
| insert_pos = offset = 0 |
| for idx, node in enumerate(root.children): |
| if not is_import_stmt(node): |
| continue |
| for offset, node2 in enumerate(root.children[idx:]): |
| if not is_import_stmt(node2): |
| break |
| insert_pos = idx + offset |
| break |
| |
| # if there are no imports where we can insert, find the docstring. |
| # if that also fails, we stick to the beginning of the file |
| if insert_pos == 0: |
| for idx, node in enumerate(root.children): |
| if (node.type == syms.simple_stmt and node.children and |
| node.children[0].type == token.STRING): |
| insert_pos = idx + 1 |
| break |
| |
| if package is None: |
| import_ = Node(syms.import_name, [ |
| Leaf(token.NAME, "import"), |
| Leaf(token.NAME, name, prefix=" ") |
| ]) |
| else: |
| import_ = FromImport(package, [Leaf(token.NAME, name, prefix=" ")]) |
| |
| children = [import_, Newline()] |
| root.insert_child(insert_pos, Node(syms.simple_stmt, children)) |
| |
| |
| _def_syms = {syms.classdef, syms.funcdef} |
| def find_binding(name, node, package=None): |
| """ Returns the node which binds variable name, otherwise None. |
| If optional argument package is supplied, only imports will |
| be returned. |
| See test cases for examples.""" |
| for child in node.children: |
| ret = None |
| if child.type == syms.for_stmt: |
| if _find(name, child.children[1]): |
| return child |
| n = find_binding(name, make_suite(child.children[-1]), package) |
| if n: ret = n |
| elif child.type in (syms.if_stmt, syms.while_stmt): |
| n = find_binding(name, make_suite(child.children[-1]), package) |
| if n: ret = n |
| elif child.type == syms.try_stmt: |
| n = find_binding(name, make_suite(child.children[2]), package) |
| if n: |
| ret = n |
| else: |
| for i, kid in enumerate(child.children[3:]): |
| if kid.type == token.COLON and kid.value == ":": |
| # i+3 is the colon, i+4 is the suite |
| n = find_binding(name, make_suite(child.children[i+4]), package) |
| if n: ret = n |
| elif child.type in _def_syms and child.children[1].value == name: |
| ret = child |
| elif _is_import_binding(child, name, package): |
| ret = child |
| elif child.type == syms.simple_stmt: |
| ret = find_binding(name, child, package) |
| elif child.type == syms.expr_stmt: |
| if _find(name, child.children[0]): |
| ret = child |
| |
| if ret: |
| if not package: |
| return ret |
| if is_import(ret): |
| return ret |
| return None |
| |
| _block_syms = {syms.funcdef, syms.classdef, syms.trailer} |
| def _find(name, node): |
| nodes = [node] |
| while nodes: |
| node = nodes.pop() |
| if node.type > 256 and node.type not in _block_syms: |
| nodes.extend(node.children) |
| elif node.type == token.NAME and node.value == name: |
| return node |
| return None |
| |
| def _is_import_binding(node, name, package=None): |
| """ Will reuturn node if node will import name, or node |
| will import * from package. None is returned otherwise. |
| See test cases for examples. """ |
| |
| if node.type == syms.import_name and not package: |
| imp = node.children[1] |
| if imp.type == syms.dotted_as_names: |
| for child in imp.children: |
| if child.type == syms.dotted_as_name: |
| if child.children[2].value == name: |
| return node |
| elif child.type == token.NAME and child.value == name: |
| return node |
| elif imp.type == syms.dotted_as_name: |
| last = imp.children[-1] |
| if last.type == token.NAME and last.value == name: |
| return node |
| elif imp.type == token.NAME and imp.value == name: |
| return node |
| elif node.type == syms.import_from: |
| # str(...) is used to make life easier here, because |
| # from a.b import parses to ['import', ['a', '.', 'b'], ...] |
| if package and str(node.children[1]).strip() != package: |
| return None |
| n = node.children[3] |
| if package and _find("as", n): |
| # See test_from_import_as for explanation |
| return None |
| elif n.type == syms.import_as_names and _find(name, n): |
| return node |
| elif n.type == syms.import_as_name: |
| child = n.children[2] |
| if child.type == token.NAME and child.value == name: |
| return node |
| elif n.type == token.NAME and n.value == name: |
| return node |
| elif package and n.type == token.STAR: |
| return node |
| return None |