# Copyright (c) 2022-2024 by Rocky Bernstein # # This program is free software: you can redistribute it and/or modify # it under the terms of the GNU General Public License as published by # the Free Software Foundation, either version 3 of the License, or # (at your option) any later version. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License # along with this program. If not, see . """ Custom Nonterminal action functions. See NonterminalActions docstring. """ from uncompyle6.parsers.treenode import SyntaxTree from uncompyle6.scanners.tok import Token from uncompyle6.semantics.consts import ( INDENT_PER_LEVEL, NO_PARENTHESIS_EVER, NONE, PARENTHESIS_ALWAYS, PRECEDENCE, minint, ) from uncompyle6.semantics.helper import find_code_node, flatten_list, print_docstring from uncompyle6.util import better_repr, get_code_name class NonterminalActions: """ Methods here all start with n_ and the remaining portion should be a nonterminal name defined by some rule. These methods take priority over names defined in table constants. All of the methods should have the same signature: (self, node) and return None. node is the subtree of the parse tree the that nonterminal name as the root. """ def __init__(self): # Precedence is used to determine when an expression needs # parenthesis surrounding it. A high value indicates no # parenthesis are needed. self.prec = 1000 self.in_format_string = False def n_alias(self, node: SyntaxTree): if self.version <= (2, 1): if len(node) == 2: store = node[1] assert store == "store" if store[0].pattr == node[0].pattr: self.write("import %s\n" % node[0].pattr) else: self.write("import %s as %s\n" % (node[0].pattr, store[0].pattr)) pass pass self.prune() # stop recursing store_node = node[-1][-1] assert store_node.kind.startswith("STORE_") iname = node[0].pattr # import name sname = store_node.pattr # store_name if iname and iname == sname or iname.startswith(sname + "."): self.write(iname) else: self.write(iname, " as ", sname) self.prune() # stop recursing n_alias37 = n_alias def n_assign(self, node: SyntaxTree): # A horrible hack for Python 3.0 .. 3.2 if (3, 0) <= self.version <= (3, 2) and len(node) == 2: if ( node[0][0] == "LOAD_FAST" and node[0][0].pattr == "__locals__" and node[1][0].kind == "STORE_LOCALS" ): self.prune() self.default(node) def n_assign2(self, node: SyntaxTree): for n in node[-2:]: if n[0] == "unpack": n[0].kind = "unpack_w_parens" self.default(node) def n_assign3(self, node: SyntaxTree): for n in node[-3:]: if n[0] == "unpack": n[0].kind = "unpack_w_parens" self.default(node) def n_attribute(self, node: SyntaxTree): if node[0] == "LOAD_CONST" or node[0] == "expr" and node[0][0] == "LOAD_CONST": # FIXME: I didn't record which constants parenthesis is # necessary. However, I suspect that we could further # refine this by looking at operator precedence and # eval'ing the constant value (pattr) and comparing with # the type of the constant. node.kind = "attribute_w_parens" self.default(node) def n_bin_op(self, node: SyntaxTree): """bin_op (formerly "binary_expr") is the Python AST BinOp""" self.preorder(node[0]) self.write(" ") self.preorder(node[-1]) self.write(" ") # Try to avoid a trailing parentheses by lowering the priority a little self.prec -= 1 self.preorder(node[1]) self.prec += 1 self.prune() def n_build_slice2(self, node: SyntaxTree): p = self.prec self.prec = NO_PARENTHESIS_EVER if not node[0].isNone(): self.preorder(node[0]) self.write(":") if not node[1].isNone(): self.preorder(node[1]) self.prec = p self.prune() # stop recursing def n_build_slice3(self, node: SyntaxTree): p = self.prec self.prec = NO_PARENTHESIS_EVER if not node[0].isNone(): self.preorder(node[0]) self.write(":") if not node[1].isNone(): self.preorder(node[1]) self.write(":") if not node[2].isNone(): self.preorder(node[2]) self.prec = p self.prune() # stop recursing def n_classdef(self, node: SyntaxTree): if self.version >= (3, 6): self.n_classdef36(node) elif self.version >= (3, 0): self.n_classdef3(node) # class definition ('class X(A,B,C):') cclass = self.currentclass # Pick out various needed bits of information # * class_name - the name of the class # * subclass_info - the parameters to the class e.g. # class Foo(bar, baz) # ------------ # * subclass_code - the code for the subclass body if node == "classdefdeco2": build_class = node else: build_class = node[0] build_list = build_class[1][0] if hasattr(build_class[-3][0], "attr"): subclass_code = build_class[-3][0].attr class_name = build_class[0].pattr elif ( build_class[-3] == "mkfunc" and node == "classdefdeco2" and build_class[-3][0] == "load_closure" ): subclass_code = build_class[-3][1].attr class_name = build_class[-3][0][0].pattr elif hasattr(node[0][0], "pattr"): subclass_code = build_class[-3][1].attr class_name = node[0][0].pattr else: raise RuntimeError("Internal Error n_classdef: cannot find class name") if node == "classdefdeco2": self.write("\n") else: self.write("\n\n") self.currentclass = str(class_name) self.write(self.indent, "class ", self.currentclass) self.print_super_classes(build_list) self.println(":") # class body self.indent_more() self.build_class(subclass_code) self.indent_less() self.currentclass = cclass if len(self.param_stack) > 1: self.write("\n\n") else: self.write("\n\n\n") self.prune() n_classdefdeco2 = n_classdef def n_const_list(self, node: SyntaxTree): """ prettyprint a constant dict, list, set or tuple. """ p = self.prec lastnodetype = node[2].kind flat_elems = node[1] is_dict = lastnodetype.endswith("DICT") if lastnodetype.endswith("LIST"): self.write("[") endchar = "]" elif lastnodetype.endswith("SET") or is_dict: self.write("{") endchar = "}" else: # from trepan.api import debug; debug() raise TypeError( ( "Internal Error: n_const_list expects dict, list set, or set; got " f"{lastnodetype}" ) ) self.indent_more(INDENT_PER_LEVEL) sep = "" line_len = len(self.indent) if is_dict: keys = flat_elems[-1].attr assert isinstance(keys, tuple) assert len(keys) == len(flat_elems) - 1 for i, elem in enumerate(flat_elems[:-1]): assert elem.kind == "ADD_VALUE" if elem.optype in ("local", "name"): value = elem.attr elif elem.optype == "const" and not isinstance(elem.attr, str): value = elem.attr else: try: value = "%r" % elem.pattr except Exception: value = elem.pattr if elem.linestart is not None: if elem.linestart != self.line_number: next_indent = self.indent + INDENT_PER_LEVEL[:-1] line_len = len(next_indent) sep += "\n" + next_indent self.line_number = elem.linestart else: if sep != "": sep += ", " elif line_len > 80: next_indent = self.indent + INDENT_PER_LEVEL[:-1] line_len = len(next_indent) sep += "\n" + next_indent sep_key_value = f"{sep}{repr(keys[i])}: {value}" line_len += len(sep_key_value) self.write(sep_key_value) sep = ", " else: for elem in flat_elems: if elem == "add_value": elem = elem[0] if elem == "ADD_VALUE": if elem.optype in ("local", "name"): value = elem.attr elif elem.optype == "const" and not isinstance(elem.attr, str): value = elem.attr else: value = "%s" % repr(elem.attr) else: assert elem.kind == "ADD_VALUE_VAR" value = "%s" % elem.pattr if elem.linestart is not None: if elem.linestart != self.line_number: next_indent = self.indent + INDENT_PER_LEVEL[:-1] line_len += len(next_indent) sep += "\n" + next_indent self.line_number = elem.linestart else: if sep != "": sep += " " line_len += len(sep) elif line_len > 80: next_indent = self.indent + INDENT_PER_LEVEL[:-1] line_len = len(next_indent) sep += "\n" + next_indent line_len += len(sep) + len(str(value)) + 1 self.write(sep, value) sep = ", " self.write(endchar) self.indent_less(INDENT_PER_LEVEL) self.prec = p self.prune() return def n_delete_subscript(self, node: SyntaxTree): if node[-2][0] == "build_list" and node[-2][0][-1].kind.startswith( "BUILD_TUPLE" ): if node[-2][0][-1] != "BUILD_TUPLE_0": node[-2][0].kind = "build_tuple2" self.default(node) n_store_subscript = n_subscript = n_delete_subscript def n_dict(self, node: SyntaxTree): """ Prettyprint a dict. 'dict' is something like k = {'a': 1, 'b': 42}" We will use source-code line breaks to guide us when to break. """ if len(node) == 1 and node[0] == "const_list": self.preorder(node[0]) self.prune() return p = self.prec self.prec = PRECEDENCE["dict"] self.indent_more(INDENT_PER_LEVEL) sep = INDENT_PER_LEVEL[:-1] if node[0] != "dict_entry": self.write("{") line_number = self.line_number if self.version >= (3, 0) and not self.is_pypy: if node[0].kind.startswith("kvlist"): # Python 3.5+ style key/value list in dict kv_node = node[0] ll = list(kv_node) length = len(ll) if kv_node[-1].kind.startswith("BUILD_MAP"): length -= 1 i = 0 # Respect line breaks from source while i < length: self.write(sep) name = self.traverse(ll[i], indent="") if i > 0: line_number = self.indent_if_source_nl( line_number, self.indent + INDENT_PER_LEVEL[:-1] ) line_number = self.line_number self.write(name, ": ") value = self.traverse( ll[i + 1], indent=self.indent + (len(name) + 2) * " " ) self.write(value) sep = ", " if line_number != self.line_number: sep += "\n" + self.indent + INDENT_PER_LEVEL[:-1] line_number = self.line_number i += 2 pass pass elif len(node) > 1 and node[1].kind.startswith("kvlist"): # Python 3.0..3.4 style key/value list in dict kv_node = node[1] ll = list(kv_node) if len(ll) > 0 and ll[0].kind == "kv3": # Python 3.2 does this kv_node = node[1][0] ll = list(kv_node) i = 0 while i < len(ll): self.write(sep) name = self.traverse(ll[i + 1], indent="") if i > 0: line_number = self.indent_if_source_nl( line_number, self.indent + INDENT_PER_LEVEL[:-1] ) pass line_number = self.line_number self.write(name, ": ") value = self.traverse( ll[i], indent=self.indent + (len(name) + 2) * " " ) self.write(value) sep = ", " if line_number != self.line_number: sep += "\n" + self.indent + INDENT_PER_LEVEL[:-1] line_number = self.line_number else: sep += " " i += 3 pass pass elif node[-1].kind.startswith("BUILD_CONST_KEY_MAP"): # Python 3.6+ style const map keys = node[-2].pattr values = node[:-2] # FIXME: Line numbers? for key, value in zip(keys, values): self.write(sep) self.write(repr(key)) line_number = self.line_number self.write(":") self.write(self.traverse(value[0])) sep = ", " if line_number != self.line_number: sep += "\n" + self.indent + INDENT_PER_LEVEL[:-1] line_number = self.line_number else: sep += " " pass pass if sep.startswith(",\n"): self.write(sep[1:]) pass elif node[0].kind.startswith("dict_entry"): assert self.version >= (3, 5) template = ("%C", (0, len(node[0]), ", **")) self.template_engine(template, node[0]) sep = "" elif node[-1].kind.startswith("BUILD_MAP_UNPACK") or node[ -1 ].kind.startswith("dict_entry"): assert self.version >= (3, 5) # FIXME: I think we can intermingle dict_comp's with other # dictionary kinds of things. The most common though is # a sequence of dict_comp's kwargs = node[-1].attr template = ("**%C", (0, kwargs, ", **")) self.template_engine(template, node) sep = "" if node[0].kind == "COLLECTION_START": key_value_pairs = node[1] for key_value_pair in key_value_pairs: key, value = key_value_pair if key.linestart is not None: line_number = key.linestart if line_number != self.line_number: sep += "\n" + self.indent + INDENT_PER_LEVEL[:-1] self.line_number = line_number self.write(sep) self.write(key.pattr) self.write(": ") if value.linestart is not None: line_number = value.linestart if line_number != self.line_number: sep += "\n" + self.indent + INDENT_PER_LEVEL[:-1] self.line_number = line_number else: sep += " " pass self.write(value.pattr) sep = ", " pass if sep.startswith(",\n"): self.write(sep[1:]) pass pass else: # Python 2 style kvlist. Find beginning of kvlist. indent = self.indent + " " line_number = self.line_number if node[0].kind.startswith("BUILD_MAP"): if len(node) > 1 and node[1].kind in ("kvlist", "kvlist_n"): kv_node = node[1] else: kv_node = node[1:] self.kv_map(kv_node, sep, line_number, indent) else: sep = "" opname = node[-1].kind if self.is_pypy and self.version >= (3, 5): if opname.startswith("BUILD_CONST_KEY_MAP"): keys = node[-2].attr # FIXME: DRY this and the above for i in range(len(keys)): key = keys[i] value = self.traverse(node[i], indent="") self.write(sep, key, ": ", value) sep = ", " if line_number != self.line_number: sep += "\n" + self.indent + " " line_number = self.line_number pass pass pass else: if opname.startswith("kvlist"): list_node = node[0] else: list_node = node assert list_node[-1].kind.startswith("BUILD_MAP") for i in range(0, len(list_node) - 1, 2): key = self.traverse(list_node[i], indent="") value = self.traverse(list_node[i + 1], indent="") self.write(sep, key, ": ", value) sep = ", " if line_number != self.line_number: sep += "\n" + self.indent + " " line_number = self.line_number pass pass pass elif opname.startswith("kvlist"): kv_node = node[-1] self.kv_map(node[-1], sep, line_number, indent) pass pass if sep.startswith(",\n"): self.write(sep[1:]) if node[0] != "dict_entry": self.write("}") self.indent_less(INDENT_PER_LEVEL) self.prec = p self.prune() def n_docstring(self, node): indent = self.indent doc_node = node[0] if doc_node.attr: docstring = doc_node.attr if not isinstance(docstring, str): # FIXME: we have mistakenly tagged something as a doc # string in transform when it isn't one. # The rule in n_mkfunc is pretty flaky. self.prune() return else: docstring = node[0].pattr print_docstring(self, indent, docstring) self.prune() def n_elifelsestmtr(self, node: SyntaxTree): if node[2] == "COME_FROM": return_stmts_node = node[3] node.kind = "elifelsestmtr2" else: return_stmts_node = node[2] if len(return_stmts_node) != 2: self.default(node) for n in return_stmts_node[0]: if not (n[0] == "ifstmt" and n[0][1][0] == "return_if_stmts"): self.default(node) return self.write(self.indent, "elif ") self.preorder(node[0]) self.println(":") self.indent_more() self.preorder(node[1]) self.indent_less() for n in return_stmts_node[0]: n[0].kind = "elifstmt" self.preorder(n) self.println(self.indent, "else:") self.indent_more() self.preorder(return_stmts_node[1]) self.indent_less() self.prune() def n_except_cond2(self, node: SyntaxTree): if node[-1] == "come_from_opt": unpack_node = -3 else: unpack_node = -2 if node[unpack_node][0] == "unpack": node[unpack_node][0].kind = "unpack_w_parens" self.default(node) # Note: this node is only in Python 2.x # FIXME: figure out how to get this into customization # put so that we can get access via super from # the fragments routine. def n_exec_stmt(self, node: SyntaxTree): """ exec_stmt ::= expr exprlist DUP_TOP EXEC_STMT exec_stmt ::= expr exprlist EXEC_STMT """ self.write(self.indent, "exec ") self.preorder(node[0]) if not node[1][0].isNone(): sep = " in " for subnode in node[1]: self.write(sep) sep = ", " self.preorder(subnode) self.println() self.prune() # stop recursing def n_expr(self, node): first_child = node[0] if first_child == "_lambda_body" and self.in_format_string: p = -2 else: p = self.prec if first_child.kind.startswith("bin_op"): n = node[0][-1][0] else: n = node[0] # if (hasattr(n, 'linestart') and n.linestart and # hasattr(self, 'current_line_number')): # self.source_linemap[self.current_line_number] = n.linestart if n.kind != "expr": self.prec = PRECEDENCE.get(n.kind, PARENTHESIS_ALWAYS) if n == "LOAD_CONST" and repr(n.pattr)[0] == "-": self.prec = 6 # print("XXX", n.kind, p, "<", self.prec) # print(self.f.getvalue()) if p < self.prec: # print(f"PREC {p}, {node[0].kind}") self.write("(") self.preorder(node[0]) self.write(")") else: self.preorder(node[0]) self.prec = p self.prune() n_return_expr_or_cond = n_expr def n_generator_exp(self, node): self.write("(") iter_index = 3 if self.version > (3, 2): if self.version >= (3, 3): if node[0].kind in ( "load_closure", "load_genexpr", ) and self.version >= (3, 8): code_index = -6 is_lambda = self.is_lambda if node[0].kind == "load_genexpr": self.is_lambda = False self.closure_walk(node, collection_index=4) self.is_lambda = is_lambda else: # Python 3.7+ adds optional "come_froms" at node[0] so count from # the end. if node == "generator_exp_async" and self.version[:2] == (3, 6): code_index = 0 else: code_index = -6 iter_index = ( 4 if self.version < (3, 8) and not isinstance(node[4], Token) else 3 ) self.comprehension_walk( node, iter_index=iter_index, code_index=code_index ) pass pass else: code_index = -5 self.comprehension_walk(node, iter_index=iter_index, code_index=code_index) self.write(")") self.prune() n_genexpr_func = n_generator_exp_async = n_generator_exp def n_ifelsestmtr(self, node): if node[2] == "COME_FROM": return_stmts_node = node[3] node.kind = "ifelsestmtr2" else: return_stmts_node = node[2] if len(return_stmts_node) != 2: self.default(node) if not ( return_stmts_node[0][0][0] == "ifstmt" and return_stmts_node[0][0][0][1][0] == "return_if_stmts" ) and not ( return_stmts_node[0][-1][0] == "ifstmt" and return_stmts_node[0][-1][0][1][0] == "return_if_stmts" ): self.default(node) return self.write(self.indent, "if ") self.preorder(node[0]) self.println(":") self.indent_more() self.preorder(node[1]) self.indent_less() if_ret_at_end = False if len(return_stmts_node[0]) >= 3: if ( return_stmts_node[0][-1][0] == "ifstmt" and return_stmts_node[0][-1][0][1][0] == "return_if_stmts" ): if_ret_at_end = True past_else = False prev_stmt_is_if_ret = True for n in return_stmts_node[0]: if n[0] == "ifstmt" and n[0][1][0] == "return_if_stmts": if prev_stmt_is_if_ret: n[0].kind = "elifstmt" prev_stmt_is_if_ret = True else: prev_stmt_is_if_ret = False if not past_else and not if_ret_at_end: self.println(self.indent, "else:") self.indent_more() past_else = True self.preorder(n) if not past_else or if_ret_at_end: self.println(self.indent, "else:") self.indent_more() self.preorder(return_stmts_node[1]) self.indent_less() self.prune() n_ifelsestmtr2 = n_ifelsestmtr def n_import_from(self, node): relative_path_index = 0 if self.version >= (2, 5): if node[relative_path_index].pattr > 0: node[2].pattr = ("." * node[relative_path_index].attr) + node[2].pattr if self.version > (2, 7): if isinstance(node[1].pattr, tuple): imports = node[1].pattr for pattr in imports: node[1].pattr = pattr self.default(node) return pass self.default(node) n_import_from_star = n_import_from def n_lambda_body(self, node): self.make_function(node, is_lambda=True, code_node=node[-2]) self.prune() # stop recursing def n_list(self, node: SyntaxTree): """ prettyprint a dict, list, set or tuple. """ if len(node) == 1 and node[0] == "const_list": self.preorder(node[0]) self.prune() return p = self.prec self.prec = PRECEDENCE["yield"] - 1 lastnode = node[-1] node = node[:-1] lastnodetype = lastnode.kind # If this build list is inside a CALL_FUNCTION_VAR, # then the first * has already been printed. # Until I have a better way to check for CALL_FUNCTION_VAR, # will assume that if the text ends in *. last_was_star = self.f.getvalue().endswith("*") if lastnodetype.endswith("UNPACK"): # FIXME: need to handle range of BUILD_LIST_UNPACK have_star = True # endchar = '' else: have_star = False if lastnodetype.startswith("BUILD_LIST"): self.write("[") endchar = "]" elif lastnodetype.startswith("BUILD_MAP_UNPACK"): self.write("{*") endchar = "}" elif lastnodetype.startswith("BUILD_SET"): self.write("{") endchar = "}" elif lastnodetype.startswith("BUILD_TUPLE") or node == "tuple": # Tuples can appear places that can NOT # have parenthesis around them, like array # subscripts. We check for that by seeing # if a tuple item is some sort of slice. no_parens = False for n in node: if n == "expr" and n[0].kind.startswith("build_slice"): no_parens = True break pass if no_parens: endchar = "" else: self.write("(") endchar = ")" pass elif lastnodetype.startswith("ROT_TWO"): self.write("(") endchar = ")" else: raise TypeError( "Internal Error: n_build_list expects list, tuple, set, or unpack" ) flat_elems = flatten_list(node) self.indent_more(INDENT_PER_LEVEL) sep = "" for elem in flat_elems: if elem in ("ROT_THREE", "EXTENDED_ARG"): continue assert elem == "expr" line_number = self.line_number value = self.traverse(elem) if line_number != self.line_number: sep += "\n" + self.indent + INDENT_PER_LEVEL[:-1] else: if sep != "": sep += " " if not last_was_star: if have_star: sep += "*" pass pass else: last_was_star = False self.write(sep, value) sep = "," if lastnode.attr == 1 and lastnodetype.startswith("BUILD_TUPLE"): self.write(",") self.write(endchar) self.indent_less(INDENT_PER_LEVEL) self.prec = p self.prune() return n_set = n_build_set = n_tuple = n_list def n_list_comp(self, node): self.write("[") if node[0].kind == "load_closure": assert self.version >= (3, 0) self.listcomp_closure3(node) else: if node == "listcomp_async": list_iter_index = 5 else: list_iter_index = 1 self.comprehension_walk_newer(node, list_iter_index, 0) self.write("]") self.prune() def n_list_comp_pypy27(self, node): """List comprehensions in PYPY.""" p = self.prec self.prec = 27 if node[-1].kind == "list_iter": n = node[-1] elif self.is_pypy and node[-1] == "JUMP_BACK": n = node[-2] list_expr = node[1] if len(node) >= 3: store = node[3] elif self.is_pypy and n[0] == "list_for": store = n[0][2] assert n == "list_iter" assert store == "store" # Find the list comprehension body. It is the inner-most # node. # FIXME: DRY with other use while n == "list_iter": n = n[0] # iterate one nesting deeper if n == "list_for": n = n[3] elif n == "list_if": n = n[2] elif n == "list_if_not": n = n[2] assert n == "lc_body" self.write("[ ") expr = n[0] if self.is_pypy and node[-1] == "JUMP_BACK": list_iter = node[-2] else: list_iter = node[-1] assert expr == "expr" assert list_iter == "list_iter" # FIXME: use source line numbers for directing line breaks self.preorder(expr) self.preorder(list_expr) self.write(" ]") self.prec = p self.prune() # stop recursing def n_mkfunc(self, node): code_node = find_code_node(node, -2) code = code_node.attr self.write(get_code_name(code)) self.indent_more() self.make_function(node, is_lambda=False, code_node=code_node) if len(self.param_stack) > 1: self.write("\n\n") else: self.write("\n\n\n") self.indent_less() self.prune() # stop recursing def n_return(self, node): if self.params["is_lambda"]: self.preorder(node[0]) self.prune() else: # One reason we worry over whether we use "return None" or "return" # is that inside a generator, "return None" is illegal. # Thank you, Python! if self.return_none or not self.is_return_none(node): self.default(node) else: self.template_engine(("%|return\n",), node) self.prune() # stop recursing def n_return_expr(self, node): if len(node) == 1 and node[0] == "expr": # If expr is yield we want parens. self.prec = PRECEDENCE["yield"] - 1 self.n_expr(node[0]) else: self.n_expr(node) # Python 3.x can have dead code as a result of its optimization? # So we'll add a # at the end of the return lambda so the rest is ignored def n_return_expr_lambda(self, node): if 1 <= len(node) <= 2: self.preorder(node[0]) self.write(" # Avoid dead code: ") self.prune() else: # We can't comment out like above because there may be a trailing ')' # that needs to be written assert len(node) == 3 and node[2] in ( "RETURN_VALUE_LAMBDA", "LAMBDA_MARKER", ) self.preorder(node[0]) self.prune() def n_return_if_stmt(self, node): if self.params["is_lambda"]: self.write(" return ") self.preorder(node[0]) self.prune() else: self.write(self.indent, "return") if self.return_none or not self.is_return_none(node): self.write(" ") self.preorder(node[0]) self.println() self.prune() # stop recursing def n_set_comp(self, node): self.write("{") if node[0] in ["LOAD_SETCOMP", "LOAD_DICTCOMP"]: if self.version == (3, 0): if len(node) >= 6: iter_index = 6 else: assert node[1].kind.startswith("MAKE_FUNCTION") iter_index = 2 pass else: iter_index = 1 self.comprehension_walk_newer(node, iter_index=iter_index, code_index=0) elif node[0].kind == "load_closure" and self.version >= (3, 0): self.closure_walk(node, collection_index=4) else: self.comprehension_walk(node, iter_index=4) self.write("}") self.prune() n_dict_comp = n_set_comp # In the old days this node would never get called because # it was embedded inside some sort of comprehension # Nowadays, we allow starting any code object, not just # a top-level module. In doing so we can # now encounter this outside of the embedding of # a comprehension. def n_set_comp_async(self, node): self.write("{") if node[0] in ["BUILD_SET_0", "BUILD_MAP_0"]: self.comprehension_walk_newer(node[1], 3, 0, collection_node=node[1]) if node[0] in ["LOAD_SETCOMP", "LOAD_DICTCOMP"]: get_aiter = node[3] assert get_aiter == "get_aiter", node.kind self.comprehension_walk_newer(node, 1, 0, collection_node=get_aiter[0]) self.write("}") self.prune() n_dict_comp_async = n_set_comp_async def n_str(self, node): self.write(node[0].pattr) self.prune() def n_store(self, node): expr = node[0] if expr == "expr" and expr[0] == "LOAD_CONST" and node[1] == "STORE_ATTR": # FIXME: I didn't record which constants parenthesis is # necessary. However, I suspect that we could further # refine this by looking at operator precedence and # eval'ing the constant value (pattr) and comparing with # the type of the constant. node.kind = "store_w_parens" self.default(node) def n_unpack(self, node): if node[0].kind.startswith("UNPACK_EX"): # Python 3+ before_count, after_count = node[0].attr for i in range(before_count + 1): self.preorder(node[i]) if i != 0: self.write(", ") self.write("*") for i in range(1, after_count + 2): self.preorder(node[before_count + i]) if i != after_count + 1: self.write(", ") self.prune() return if node[0] == "UNPACK_SEQUENCE_0": self.write("[]") self.prune() return for n in node[1:]: if n[0].kind == "unpack": n[0].kind = "unpack_w_parens" # In Python 2.4, unpack is used in (a, b, c) of: # except RuntimeError, (a, b, c): if self.version < (2, 7): node.kind = "unpack_w_parens" self.default(node) n_unpack_w_parens = n_unpack def n_yield(self, node): if node != SyntaxTree("yield", [NONE, Token("YIELD_VALUE")]): self.template_engine(("yield %c", 0), node) elif self.version <= (2, 4): # Early versions of Python don't allow a plain "yield" self.write("yield None") else: self.write("yield") self.prune() # stop recursing def n_LOAD_CONST(self, node): attr = node.attr data = node.pattr datatype = type(data) if isinstance(data, float): self.write(better_repr(data, self.version)) elif isinstance(data, complex): self.write(better_repr(data, self.version)) elif isinstance(datatype, int) and data == minint: # convert to hex, since decimal representation # would result in 'LOAD_CONST; UNARY_NEGATIVE' # change:hG/2002-02-07: this was done for all negative integers # todo: check whether this is necessary in Python 2.1 self.write(hex(data)) elif datatype is type(Ellipsis): self.write("...") elif attr is None: # LOAD_CONST 'None' only occurs, when None is # implicit e.g. in 'return' w/o params # pass self.write("None") elif isinstance(data, tuple): self.pp_tuple(data) elif isinstance(attr, bool): self.write(repr(attr)) elif self.FUTURE_UNICODE_LITERALS: # The FUTURE_UNICODE_LITERALS compiler flag # in 2.6 on change the way # strings are interpreted: # u'xxx' -> 'xxx' # xxx' -> b'xxx' if isinstance(data, str): self.write("b" + repr(data)) else: self.write(repr(data)) else: self.write(repr(data)) # LOAD_CONST is a terminal, so stop processing/recursing early self.prune()