from asdl import pybase from mycpp import mops from typing import Optional, List, Tuple, Dict, Any, cast, TYPE_CHECKING if TYPE_CHECKING: from _devbuild.gen.value_asdl import value_t from _devbuild.gen.id_kind_asdl import Id_t from _devbuild.gen.id_kind_asdl import Id_str from asdl import runtime # For runtime.NO_SPID from asdl.runtime import NewRecord, NewLeaf, TraversalState from _devbuild.gen.hnode_asdl import color_e, hnode, hnode_e, hnode_t, Field class parse_result_e(object): EmptyLine = 1 Eof = 2 Node = 3 _parse_result_str = { 1: 'EmptyLine', 2: 'Eof', 3: 'Node', } def parse_result_str(tag, dot=True): # type: (int, bool) -> str v = _parse_result_str[tag] if dot: return "parse_result.%s" % v else: return v class parse_result_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class parse_result__EmptyLine(parse_result_t): _type_tag = 1 __slots__ = () def __init__(self, ): # type: () -> None pass def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('parse_result__EmptyLine') L = out_node.fields return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('parse_result__EmptyLine') L = out_node.fields return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class parse_result__Eof(parse_result_t): _type_tag = 2 __slots__ = () def __init__(self, ): # type: () -> None pass def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('parse_result__Eof') L = out_node.fields return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('parse_result__Eof') L = out_node.fields return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class parse_result(object): EmptyLine = parse_result__EmptyLine() Eof = parse_result__Eof() class Node(parse_result_t): _type_tag = 3 __slots__ = ('cmd',) def __init__(self, cmd): # type: (command_t) -> None self.cmd = cmd @staticmethod def CreateNull(alloc_lists=False): # type: () -> parse_result.Node return parse_result.Node(cast(command_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('parse_result.Node') L = out_node.fields assert self.cmd is not None x0 = self.cmd.PrettyTree(trav=trav) L.append(Field('cmd', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('parse_result.Node') L = out_node.fields assert self.cmd is not None x0 = self.cmd.AbbreviatedTree(trav=trav) L.append(Field('cmd', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class source_e(object): Interactive = 1 Headless = 2 Unused = 3 CFlag = 4 Stdin = 5 MainFile = 6 SourcedFile = 7 ArgvWord = 8 Variable = 9 VarRef = 10 Alias = 11 Reparsed = 12 Synthetic = 13 _source_str = { 1: 'Interactive', 2: 'Headless', 3: 'Unused', 4: 'CFlag', 5: 'Stdin', 6: 'MainFile', 7: 'SourcedFile', 8: 'ArgvWord', 9: 'Variable', 10: 'VarRef', 11: 'Alias', 12: 'Reparsed', 13: 'Synthetic', } def source_str(tag, dot=True): # type: (int, bool) -> str v = _source_str[tag] if dot: return "source.%s" % v else: return v class source_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class source__Interactive(source_t): _type_tag = 1 __slots__ = () def __init__(self, ): # type: () -> None pass def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source__Interactive') L = out_node.fields return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source__Interactive') L = out_node.fields return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class source__Headless(source_t): _type_tag = 2 __slots__ = () def __init__(self, ): # type: () -> None pass def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source__Headless') L = out_node.fields return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source__Headless') L = out_node.fields return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class source__CFlag(source_t): _type_tag = 4 __slots__ = () def __init__(self, ): # type: () -> None pass def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source__CFlag') L = out_node.fields return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source__CFlag') L = out_node.fields return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class source(object): Interactive = source__Interactive() Headless = source__Headless() class Unused(source_t): _type_tag = 3 __slots__ = ('comment',) def __init__(self, comment): # type: (str) -> None self.comment = comment @staticmethod def CreateNull(alloc_lists=False): # type: () -> source.Unused return source.Unused('') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.Unused') L = out_node.fields x0 = NewLeaf(self.comment, color_e.StringConst) L.append(Field('comment', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.Unused') L = out_node.fields x0 = NewLeaf(self.comment, color_e.StringConst) L.append(Field('comment', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) CFlag = source__CFlag() class Stdin(source_t): _type_tag = 5 __slots__ = ('comment',) def __init__(self, comment): # type: (str) -> None self.comment = comment @staticmethod def CreateNull(alloc_lists=False): # type: () -> source.Stdin return source.Stdin('') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.Stdin') L = out_node.fields x0 = NewLeaf(self.comment, color_e.StringConst) L.append(Field('comment', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.Stdin') L = out_node.fields x0 = NewLeaf(self.comment, color_e.StringConst) L.append(Field('comment', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class MainFile(source_t): _type_tag = 6 __slots__ = ('path',) def __init__(self, path): # type: (str) -> None self.path = path @staticmethod def CreateNull(alloc_lists=False): # type: () -> source.MainFile return source.MainFile('') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.MainFile') L = out_node.fields x0 = NewLeaf(self.path, color_e.StringConst) L.append(Field('path', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.MainFile') L = out_node.fields x0 = NewLeaf(self.path, color_e.StringConst) L.append(Field('path', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class SourcedFile(source_t): _type_tag = 7 __slots__ = ('path', 'location') def __init__(self, path, location): # type: (str, loc_t) -> None self.path = path self.location = location @staticmethod def CreateNull(alloc_lists=False): # type: () -> source.SourcedFile return source.SourcedFile('', cast(loc_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.SourcedFile') L = out_node.fields x0 = NewLeaf(self.path, color_e.StringConst) L.append(Field('path', x0)) assert self.location is not None x1 = self.location.PrettyTree(trav=trav) L.append(Field('location', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.SourcedFile') L = out_node.fields x0 = NewLeaf(self.path, color_e.StringConst) L.append(Field('path', x0)) assert self.location is not None x1 = self.location.AbbreviatedTree(trav=trav) L.append(Field('location', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ArgvWord(source_t): _type_tag = 8 __slots__ = ('what', 'location') def __init__(self, what, location): # type: (str, loc_t) -> None self.what = what self.location = location @staticmethod def CreateNull(alloc_lists=False): # type: () -> source.ArgvWord return source.ArgvWord('', cast(loc_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.ArgvWord') L = out_node.fields x0 = NewLeaf(self.what, color_e.StringConst) L.append(Field('what', x0)) assert self.location is not None x1 = self.location.PrettyTree(trav=trav) L.append(Field('location', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.ArgvWord') L = out_node.fields x0 = NewLeaf(self.what, color_e.StringConst) L.append(Field('what', x0)) assert self.location is not None x1 = self.location.AbbreviatedTree(trav=trav) L.append(Field('location', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Variable(source_t): _type_tag = 9 __slots__ = ('var_name', 'location') def __init__(self, var_name, location): # type: (str, loc_t) -> None self.var_name = var_name self.location = location @staticmethod def CreateNull(alloc_lists=False): # type: () -> source.Variable return source.Variable('', cast(loc_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.Variable') L = out_node.fields x0 = NewLeaf(self.var_name, color_e.StringConst) L.append(Field('var_name', x0)) assert self.location is not None x1 = self.location.PrettyTree(trav=trav) L.append(Field('location', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.Variable') L = out_node.fields x0 = NewLeaf(self.var_name, color_e.StringConst) L.append(Field('var_name', x0)) assert self.location is not None x1 = self.location.AbbreviatedTree(trav=trav) L.append(Field('location', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class VarRef(source_t): _type_tag = 10 __slots__ = ('orig_tok',) def __init__(self, orig_tok): # type: (Token) -> None self.orig_tok = orig_tok @staticmethod def CreateNull(alloc_lists=False): # type: () -> source.VarRef return source.VarRef(cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.VarRef') L = out_node.fields assert self.orig_tok is not None x0 = self.orig_tok.PrettyTree(trav=trav) L.append(Field('orig_tok', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.VarRef') L = out_node.fields assert self.orig_tok is not None x0 = self.orig_tok.AbbreviatedTree(trav=trav) L.append(Field('orig_tok', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Alias(source_t): _type_tag = 11 __slots__ = ('argv0', 'argv0_loc') def __init__(self, argv0, argv0_loc): # type: (str, loc_t) -> None self.argv0 = argv0 self.argv0_loc = argv0_loc @staticmethod def CreateNull(alloc_lists=False): # type: () -> source.Alias return source.Alias('', cast(loc_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.Alias') L = out_node.fields x0 = NewLeaf(self.argv0, color_e.StringConst) L.append(Field('argv0', x0)) assert self.argv0_loc is not None x1 = self.argv0_loc.PrettyTree(trav=trav) L.append(Field('argv0_loc', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.Alias') L = out_node.fields x0 = NewLeaf(self.argv0, color_e.StringConst) L.append(Field('argv0', x0)) assert self.argv0_loc is not None x1 = self.argv0_loc.AbbreviatedTree(trav=trav) L.append(Field('argv0_loc', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Reparsed(source_t): _type_tag = 12 __slots__ = ('what', 'left_token', 'right_token') def __init__(self, what, left_token, right_token): # type: (str, Token, Token) -> None self.what = what self.left_token = left_token self.right_token = right_token @staticmethod def CreateNull(alloc_lists=False): # type: () -> source.Reparsed return source.Reparsed('', cast(Token, None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.Reparsed') L = out_node.fields x0 = NewLeaf(self.what, color_e.StringConst) L.append(Field('what', x0)) assert self.left_token is not None x1 = self.left_token.PrettyTree(trav=trav) L.append(Field('left_token', x1)) assert self.right_token is not None x2 = self.right_token.PrettyTree(trav=trav) L.append(Field('right_token', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.Reparsed') L = out_node.fields x0 = NewLeaf(self.what, color_e.StringConst) L.append(Field('what', x0)) assert self.left_token is not None x1 = self.left_token.AbbreviatedTree(trav=trav) L.append(Field('left_token', x1)) assert self.right_token is not None x2 = self.right_token.AbbreviatedTree(trav=trav) L.append(Field('right_token', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Synthetic(source_t): _type_tag = 13 __slots__ = ('s',) def __init__(self, s): # type: (str) -> None self.s = s @staticmethod def CreateNull(alloc_lists=False): # type: () -> source.Synthetic return source.Synthetic('') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.Synthetic') L = out_node.fields x0 = NewLeaf(self.s, color_e.StringConst) L.append(Field('s', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('source.Synthetic') L = out_node.fields x0 = NewLeaf(self.s, color_e.StringConst) L.append(Field('s', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class loc_e(object): Missing = 1 Token = 67 ArgWord = 68 WordPart = 4 Word = 5 Arith = 6 Command = 7 TokenTooLong = 8 _loc_str = { 1: 'Missing', 4: 'WordPart', 5: 'Word', 6: 'Arith', 7: 'Command', 8: 'TokenTooLong', 67: 'Token', 68: 'ArgWord', } def loc_str(tag, dot=True): # type: (int, bool) -> str v = _loc_str[tag] if dot: return "loc.%s" % v else: return v class loc_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class loc__Missing(loc_t): _type_tag = 1 __slots__ = () def __init__(self, ): # type: () -> None pass def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('loc__Missing') L = out_node.fields return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('loc__Missing') L = out_node.fields return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class loc(object): Missing = loc__Missing() class WordPart(loc_t): _type_tag = 4 __slots__ = ('p',) def __init__(self, p): # type: (word_part_t) -> None self.p = p @staticmethod def CreateNull(alloc_lists=False): # type: () -> loc.WordPart return loc.WordPart(cast(word_part_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('loc.WordPart') L = out_node.fields assert self.p is not None x0 = self.p.PrettyTree(trav=trav) L.append(Field('p', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('loc.WordPart') L = out_node.fields assert self.p is not None x0 = self.p.AbbreviatedTree(trav=trav) L.append(Field('p', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Word(loc_t): _type_tag = 5 __slots__ = ('w',) def __init__(self, w): # type: (word_t) -> None self.w = w @staticmethod def CreateNull(alloc_lists=False): # type: () -> loc.Word return loc.Word(cast(word_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('loc.Word') L = out_node.fields assert self.w is not None x0 = self.w.PrettyTree(trav=trav) L.append(Field('w', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('loc.Word') L = out_node.fields assert self.w is not None x0 = self.w.AbbreviatedTree(trav=trav) L.append(Field('w', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Arith(loc_t): _type_tag = 6 __slots__ = ('a',) def __init__(self, a): # type: (arith_expr_t) -> None self.a = a @staticmethod def CreateNull(alloc_lists=False): # type: () -> loc.Arith return loc.Arith(cast(arith_expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('loc.Arith') L = out_node.fields assert self.a is not None x0 = self.a.PrettyTree(trav=trav) L.append(Field('a', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('loc.Arith') L = out_node.fields assert self.a is not None x0 = self.a.AbbreviatedTree(trav=trav) L.append(Field('a', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Command(loc_t): _type_tag = 7 __slots__ = ('c',) def __init__(self, c): # type: (command_t) -> None self.c = c @staticmethod def CreateNull(alloc_lists=False): # type: () -> loc.Command return loc.Command(cast(command_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('loc.Command') L = out_node.fields assert self.c is not None x0 = self.c.PrettyTree(trav=trav) L.append(Field('c', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('loc.Command') L = out_node.fields assert self.c is not None x0 = self.c.AbbreviatedTree(trav=trav) L.append(Field('c', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class TokenTooLong(loc_t): _type_tag = 8 __slots__ = ('line', 'id', 'length', 'col') def __init__(self, line, id, length, col): # type: (SourceLine, Id_t, int, int) -> None self.line = line self.id = id self.length = length self.col = col @staticmethod def CreateNull(alloc_lists=False): # type: () -> loc.TokenTooLong return loc.TokenTooLong(cast(SourceLine, None), -1, -1, -1) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('loc.TokenTooLong') L = out_node.fields assert self.line is not None x0 = self.line.PrettyTree(trav=trav) L.append(Field('line', x0)) x1 = hnode.Leaf(Id_str(self.id), color_e.UserType) L.append(Field('id', x1)) x2 = hnode.Leaf(str(self.length), color_e.OtherConst) L.append(Field('length', x2)) x3 = hnode.Leaf(str(self.col), color_e.OtherConst) L.append(Field('col', x3)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('loc.TokenTooLong') L = out_node.fields assert self.line is not None x0 = self.line.AbbreviatedTree(trav=trav) L.append(Field('line', x0)) x1 = hnode.Leaf(Id_str(self.id), color_e.UserType) L.append(Field('id', x1)) x2 = hnode.Leaf(str(self.length), color_e.OtherConst) L.append(Field('length', x2)) x3 = hnode.Leaf(str(self.col), color_e.OtherConst) L.append(Field('col', x3)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class debug_frame_e(object): Main = 1 Source = 2 Call = 3 _debug_frame_str = { 1: 'Main', 2: 'Source', 3: 'Call', } def debug_frame_str(tag, dot=True): # type: (int, bool) -> str v = _debug_frame_str[tag] if dot: return "debug_frame.%s" % v else: return v class debug_frame_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class debug_frame(object): class Main(debug_frame_t): _type_tag = 1 __slots__ = ('dollar0',) def __init__(self, dollar0): # type: (str) -> None self.dollar0 = dollar0 @staticmethod def CreateNull(alloc_lists=False): # type: () -> debug_frame.Main return debug_frame.Main('') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('debug_frame.Main') L = out_node.fields x0 = NewLeaf(self.dollar0, color_e.StringConst) L.append(Field('dollar0', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('debug_frame.Main') L = out_node.fields x0 = NewLeaf(self.dollar0, color_e.StringConst) L.append(Field('dollar0', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Source(debug_frame_t): _type_tag = 2 __slots__ = ('call_tok', 'source_name') def __init__(self, call_tok, source_name): # type: (Optional[Token], str) -> None self.call_tok = call_tok self.source_name = source_name @staticmethod def CreateNull(alloc_lists=False): # type: () -> debug_frame.Source return debug_frame.Source(cast('Optional[Token]', None), '') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('debug_frame.Source') L = out_node.fields if self.call_tok is not None: # Optional x0 = self.call_tok.PrettyTree(trav=trav) L.append(Field('call_tok', x0)) x1 = NewLeaf(self.source_name, color_e.StringConst) L.append(Field('source_name', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('debug_frame.Source') L = out_node.fields if self.call_tok is not None: # Optional x0 = self.call_tok.AbbreviatedTree(trav=trav) L.append(Field('call_tok', x0)) x1 = NewLeaf(self.source_name, color_e.StringConst) L.append(Field('source_name', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Call(debug_frame_t): _type_tag = 3 __slots__ = ('call_tok', 'def_tok', 'func_name') def __init__(self, call_tok, def_tok, func_name): # type: (Optional[Token], Token, str) -> None self.call_tok = call_tok self.def_tok = def_tok self.func_name = func_name @staticmethod def CreateNull(alloc_lists=False): # type: () -> debug_frame.Call return debug_frame.Call(cast('Optional[Token]', None), cast(Token, None), '') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('debug_frame.Call') L = out_node.fields if self.call_tok is not None: # Optional x0 = self.call_tok.PrettyTree(trav=trav) L.append(Field('call_tok', x0)) assert self.def_tok is not None x1 = self.def_tok.PrettyTree(trav=trav) L.append(Field('def_tok', x1)) x2 = NewLeaf(self.func_name, color_e.StringConst) L.append(Field('func_name', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('debug_frame.Call') L = out_node.fields if self.call_tok is not None: # Optional x0 = self.call_tok.AbbreviatedTree(trav=trav) L.append(Field('call_tok', x0)) assert self.def_tok is not None x1 = self.def_tok.AbbreviatedTree(trav=trav) L.append(Field('def_tok', x1)) x2 = NewLeaf(self.func_name, color_e.StringConst) L.append(Field('func_name', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class bracket_op_e(object): WholeArray = 1 ArrayIndex = 2 _bracket_op_str = { 1: 'WholeArray', 2: 'ArrayIndex', } def bracket_op_str(tag, dot=True): # type: (int, bool) -> str v = _bracket_op_str[tag] if dot: return "bracket_op.%s" % v else: return v class bracket_op_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class bracket_op(object): class WholeArray(bracket_op_t): _type_tag = 1 __slots__ = ('op_id',) def __init__(self, op_id): # type: (Id_t) -> None self.op_id = op_id @staticmethod def CreateNull(alloc_lists=False): # type: () -> bracket_op.WholeArray return bracket_op.WholeArray(-1) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bracket_op.WholeArray') L = out_node.fields x0 = hnode.Leaf(Id_str(self.op_id), color_e.UserType) L.append(Field('op_id', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bracket_op.WholeArray') L = out_node.fields x0 = hnode.Leaf(Id_str(self.op_id), color_e.UserType) L.append(Field('op_id', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ArrayIndex(bracket_op_t): _type_tag = 2 __slots__ = ('expr',) def __init__(self, expr): # type: (arith_expr_t) -> None self.expr = expr @staticmethod def CreateNull(alloc_lists=False): # type: () -> bracket_op.ArrayIndex return bracket_op.ArrayIndex(cast(arith_expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bracket_op.ArrayIndex') L = out_node.fields assert self.expr is not None x0 = self.expr.PrettyTree(trav=trav) L.append(Field('expr', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bracket_op.ArrayIndex') L = out_node.fields assert self.expr is not None x0 = self.expr.AbbreviatedTree(trav=trav) L.append(Field('expr', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class suffix_op_e(object): Nullary = 67 Unary = 2 Static = 3 PatSub = 4 Slice = 5 _suffix_op_str = { 2: 'Unary', 3: 'Static', 4: 'PatSub', 5: 'Slice', 67: 'Nullary', } def suffix_op_str(tag, dot=True): # type: (int, bool) -> str v = _suffix_op_str[tag] if dot: return "suffix_op.%s" % v else: return v class suffix_op_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class suffix_op(object): class Unary(suffix_op_t): _type_tag = 2 __slots__ = ('op', 'arg_word') def __init__(self, op, arg_word): # type: (Token, rhs_word_t) -> None self.op = op self.arg_word = arg_word @staticmethod def CreateNull(alloc_lists=False): # type: () -> suffix_op.Unary return suffix_op.Unary(cast(Token, None), cast(rhs_word_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('suffix_op.Unary') L = out_node.fields assert self.op is not None x0 = self.op.PrettyTree(trav=trav) L.append(Field('op', x0)) assert self.arg_word is not None x1 = self.arg_word.PrettyTree(trav=trav) L.append(Field('arg_word', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('suffix_op.Unary') L = out_node.fields assert self.op is not None x0 = self.op.AbbreviatedTree(trav=trav) L.append(Field('op', x0)) assert self.arg_word is not None x1 = self.arg_word.AbbreviatedTree(trav=trav) L.append(Field('arg_word', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Static(suffix_op_t): _type_tag = 3 __slots__ = ('tok', 'arg') def __init__(self, tok, arg): # type: (Token, str) -> None self.tok = tok self.arg = arg @staticmethod def CreateNull(alloc_lists=False): # type: () -> suffix_op.Static return suffix_op.Static(cast(Token, None), '') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('suffix_op.Static') L = out_node.fields assert self.tok is not None x0 = self.tok.PrettyTree(trav=trav) L.append(Field('tok', x0)) x1 = NewLeaf(self.arg, color_e.StringConst) L.append(Field('arg', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('suffix_op.Static') L = out_node.fields assert self.tok is not None x0 = self.tok.AbbreviatedTree(trav=trav) L.append(Field('tok', x0)) x1 = NewLeaf(self.arg, color_e.StringConst) L.append(Field('arg', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class PatSub(suffix_op_t): _type_tag = 4 __slots__ = ('pat', 'replace', 'replace_mode', 'slash_tok') def __init__(self, pat, replace, replace_mode, slash_tok): # type: (CompoundWord, rhs_word_t, Id_t, Token) -> None self.pat = pat self.replace = replace self.replace_mode = replace_mode self.slash_tok = slash_tok @staticmethod def CreateNull(alloc_lists=False): # type: () -> suffix_op.PatSub return suffix_op.PatSub(cast(CompoundWord, None), cast(rhs_word_t, None), -1, cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('suffix_op.PatSub') L = out_node.fields assert self.pat is not None x0 = self.pat.PrettyTree(trav=trav) L.append(Field('pat', x0)) assert self.replace is not None x1 = self.replace.PrettyTree(trav=trav) L.append(Field('replace', x1)) x2 = hnode.Leaf(Id_str(self.replace_mode), color_e.UserType) L.append(Field('replace_mode', x2)) assert self.slash_tok is not None x3 = self.slash_tok.PrettyTree(trav=trav) L.append(Field('slash_tok', x3)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('suffix_op.PatSub') L = out_node.fields assert self.pat is not None x0 = self.pat.AbbreviatedTree(trav=trav) L.append(Field('pat', x0)) assert self.replace is not None x1 = self.replace.AbbreviatedTree(trav=trav) L.append(Field('replace', x1)) x2 = hnode.Leaf(Id_str(self.replace_mode), color_e.UserType) L.append(Field('replace_mode', x2)) assert self.slash_tok is not None x3 = self.slash_tok.AbbreviatedTree(trav=trav) L.append(Field('slash_tok', x3)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Slice(suffix_op_t): _type_tag = 5 __slots__ = ('begin', 'length') def __init__(self, begin, length): # type: (arith_expr_t, Optional[arith_expr_t]) -> None self.begin = begin self.length = length @staticmethod def CreateNull(alloc_lists=False): # type: () -> suffix_op.Slice return suffix_op.Slice(cast(arith_expr_t, None), cast('Optional[arith_expr_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('suffix_op.Slice') L = out_node.fields assert self.begin is not None x0 = self.begin.PrettyTree(trav=trav) L.append(Field('begin', x0)) if self.length is not None: # Optional x1 = self.length.PrettyTree(trav=trav) L.append(Field('length', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('suffix_op.Slice') L = out_node.fields assert self.begin is not None x0 = self.begin.AbbreviatedTree(trav=trav) L.append(Field('begin', x0)) if self.length is not None: # Optional x1 = self.length.AbbreviatedTree(trav=trav) L.append(Field('length', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class word_part_e(object): ShArrayLiteral = 74 BashAssocLiteral = 2 Literal = 67 EscapedLiteral = 4 SingleQuoted = 71 DoubleQuoted = 70 SimpleVarSub = 72 BracedVarSub = 69 ZshVarSub = 9 CommandSub = 73 TildeSub = 11 ArithSub = 12 BracedTuple = 13 BracedRange = 14 ExtGlob = 15 BashRegexGroup = 16 Splice = 17 ExprSub = 18 _word_part_str = { 2: 'BashAssocLiteral', 4: 'EscapedLiteral', 9: 'ZshVarSub', 11: 'TildeSub', 12: 'ArithSub', 13: 'BracedTuple', 14: 'BracedRange', 15: 'ExtGlob', 16: 'BashRegexGroup', 17: 'Splice', 18: 'ExprSub', 67: 'Literal', 69: 'BracedVarSub', 70: 'DoubleQuoted', 71: 'SingleQuoted', 72: 'SimpleVarSub', 73: 'CommandSub', 74: 'ShArrayLiteral', } def word_part_str(tag, dot=True): # type: (int, bool) -> str v = _word_part_str[tag] if dot: return "word_part.%s" % v else: return v class word_part_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class word_part(object): class BashAssocLiteral(word_part_t): _type_tag = 2 __slots__ = ('left', 'pairs', 'right') def __init__(self, left, pairs, right): # type: (Token, List[AssocPair], Token) -> None self.left = left self.pairs = pairs self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> word_part.BashAssocLiteral return word_part.BashAssocLiteral(cast(Token, None), [] if alloc_lists else cast('List[AssocPair]', None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.BashAssocLiteral') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) if self.pairs is not None: # List x1 = hnode.Array([]) for i1 in self.pairs: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('pairs', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.BashAssocLiteral') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) if self.pairs is not None: # List x1 = hnode.Array([]) for i1 in self.pairs: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('pairs', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class EscapedLiteral(word_part_t): _type_tag = 4 __slots__ = ('token', 'ch') def __init__(self, token, ch): # type: (Token, str) -> None self.token = token self.ch = ch @staticmethod def CreateNull(alloc_lists=False): # type: () -> word_part.EscapedLiteral return word_part.EscapedLiteral(cast(Token, None), '') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.EscapedLiteral') L = out_node.fields assert self.token is not None x0 = self.token.PrettyTree(trav=trav) L.append(Field('token', x0)) x1 = NewLeaf(self.ch, color_e.StringConst) L.append(Field('ch', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.EscapedLiteral') L = out_node.fields assert self.token is not None x0 = self.token.AbbreviatedTree(trav=trav) L.append(Field('token', x0)) x1 = NewLeaf(self.ch, color_e.StringConst) L.append(Field('ch', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ZshVarSub(word_part_t): _type_tag = 9 __slots__ = ('left', 'ignored', 'right') def __init__(self, left, ignored, right): # type: (Token, CompoundWord, Token) -> None self.left = left self.ignored = ignored self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> word_part.ZshVarSub return word_part.ZshVarSub(cast(Token, None), cast(CompoundWord, None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.ZshVarSub') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.ignored is not None x1 = self.ignored.PrettyTree(trav=trav) L.append(Field('ignored', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.ZshVarSub') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.ignored is not None x1 = self.ignored.AbbreviatedTree(trav=trav) L.append(Field('ignored', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class TildeSub(word_part_t): _type_tag = 11 __slots__ = ('left', 'name', 'user_name') def __init__(self, left, name, user_name): # type: (Token, Optional[Token], Optional[str]) -> None self.left = left self.name = name self.user_name = user_name @staticmethod def CreateNull(alloc_lists=False): # type: () -> word_part.TildeSub return word_part.TildeSub(cast(Token, None), cast('Optional[Token]', None), cast('Optional[str]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.TildeSub') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) if self.name is not None: # Optional x1 = self.name.PrettyTree(trav=trav) L.append(Field('name', x1)) if self.user_name is not None: # Optional x2 = NewLeaf(self.user_name, color_e.StringConst) L.append(Field('user_name', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.TildeSub') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) if self.name is not None: # Optional x1 = self.name.AbbreviatedTree(trav=trav) L.append(Field('name', x1)) if self.user_name is not None: # Optional x2 = NewLeaf(self.user_name, color_e.StringConst) L.append(Field('user_name', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ArithSub(word_part_t): _type_tag = 12 __slots__ = ('left', 'anode', 'right') def __init__(self, left, anode, right): # type: (Token, arith_expr_t, Token) -> None self.left = left self.anode = anode self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> word_part.ArithSub return word_part.ArithSub(cast(Token, None), cast(arith_expr_t, None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.ArithSub') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.anode is not None x1 = self.anode.PrettyTree(trav=trav) L.append(Field('anode', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.ArithSub') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.anode is not None x1 = self.anode.AbbreviatedTree(trav=trav) L.append(Field('anode', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class BracedTuple(word_part_t): _type_tag = 13 __slots__ = ('words',) def __init__(self, words): # type: (List[CompoundWord]) -> None self.words = words @staticmethod def CreateNull(alloc_lists=False): # type: () -> word_part.BracedTuple return word_part.BracedTuple([] if alloc_lists else cast('List[CompoundWord]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.BracedTuple') L = out_node.fields if self.words is not None: # List x0 = hnode.Array([]) for i0 in self.words: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.PrettyTree(trav=trav)) x0.children.append(h) L.append(Field('words', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.BracedTuple') L = out_node.fields if self.words is not None: # List x0 = hnode.Array([]) for i0 in self.words: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.AbbreviatedTree(trav=trav)) x0.children.append(h) L.append(Field('words', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class BracedRange(word_part_t): _type_tag = 14 __slots__ = ('blame_tok', 'kind', 'start', 'end', 'step') def __init__(self, blame_tok, kind, start, end, step): # type: (Token, Id_t, str, str, int) -> None self.blame_tok = blame_tok self.kind = kind self.start = start self.end = end self.step = step @staticmethod def CreateNull(alloc_lists=False): # type: () -> word_part.BracedRange return word_part.BracedRange(cast(Token, None), -1, '', '', -1) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.BracedRange') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.PrettyTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = hnode.Leaf(Id_str(self.kind), color_e.UserType) L.append(Field('kind', x1)) x2 = NewLeaf(self.start, color_e.StringConst) L.append(Field('start', x2)) x3 = NewLeaf(self.end, color_e.StringConst) L.append(Field('end', x3)) x4 = hnode.Leaf(str(self.step), color_e.OtherConst) L.append(Field('step', x4)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.BracedRange') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.AbbreviatedTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = hnode.Leaf(Id_str(self.kind), color_e.UserType) L.append(Field('kind', x1)) x2 = NewLeaf(self.start, color_e.StringConst) L.append(Field('start', x2)) x3 = NewLeaf(self.end, color_e.StringConst) L.append(Field('end', x3)) x4 = hnode.Leaf(str(self.step), color_e.OtherConst) L.append(Field('step', x4)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ExtGlob(word_part_t): _type_tag = 15 __slots__ = ('op', 'arms', 'right') def __init__(self, op, arms, right): # type: (Token, List[CompoundWord], Token) -> None self.op = op self.arms = arms self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> word_part.ExtGlob return word_part.ExtGlob(cast(Token, None), [] if alloc_lists else cast('List[CompoundWord]', None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.ExtGlob') L = out_node.fields assert self.op is not None x0 = self.op.PrettyTree(trav=trav) L.append(Field('op', x0)) if self.arms is not None: # List x1 = hnode.Array([]) for i1 in self.arms: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('arms', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.ExtGlob') L = out_node.fields assert self.op is not None x0 = self.op.AbbreviatedTree(trav=trav) L.append(Field('op', x0)) if self.arms is not None: # List x1 = hnode.Array([]) for i1 in self.arms: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('arms', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class BashRegexGroup(word_part_t): _type_tag = 16 __slots__ = ('left', 'child', 'right') def __init__(self, left, child, right): # type: (Token, Optional[CompoundWord], Token) -> None self.left = left self.child = child self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> word_part.BashRegexGroup return word_part.BashRegexGroup(cast(Token, None), cast('Optional[CompoundWord]', None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.BashRegexGroup') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) if self.child is not None: # Optional x1 = self.child.PrettyTree(trav=trav) L.append(Field('child', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.BashRegexGroup') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) if self.child is not None: # Optional x1 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Splice(word_part_t): _type_tag = 17 __slots__ = ('blame_tok', 'var_name') def __init__(self, blame_tok, var_name): # type: (Token, str) -> None self.blame_tok = blame_tok self.var_name = var_name @staticmethod def CreateNull(alloc_lists=False): # type: () -> word_part.Splice return word_part.Splice(cast(Token, None), '') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.Splice') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.PrettyTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = NewLeaf(self.var_name, color_e.StringConst) L.append(Field('var_name', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.Splice') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.AbbreviatedTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = NewLeaf(self.var_name, color_e.StringConst) L.append(Field('var_name', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ExprSub(word_part_t): _type_tag = 18 __slots__ = ('left', 'child', 'right') def __init__(self, left, child, right): # type: (Token, expr_t, Token) -> None self.left = left self.child = child self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> word_part.ExprSub return word_part.ExprSub(cast(Token, None), cast(expr_t, None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.ExprSub') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.child is not None x1 = self.child.PrettyTree(trav=trav) L.append(Field('child', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word_part.ExprSub') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.child is not None x1 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class rhs_word_e(object): Empty = 1 Compound = 68 _rhs_word_str = { 1: 'Empty', 68: 'Compound', } def rhs_word_str(tag, dot=True): # type: (int, bool) -> str v = _rhs_word_str[tag] if dot: return "rhs_word.%s" % v else: return v class rhs_word_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class rhs_word__Empty(rhs_word_t): _type_tag = 1 __slots__ = () def __init__(self, ): # type: () -> None pass def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('rhs_word__Empty') L = out_node.fields return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('rhs_word__Empty') L = out_node.fields return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class rhs_word(object): Empty = rhs_word__Empty() pass class word_e(object): Operator = 67 Compound = 68 BracedTree = 3 String = 4 _word_str = { 3: 'BracedTree', 4: 'String', 67: 'Operator', 68: 'Compound', } def word_str(tag, dot=True): # type: (int, bool) -> str v = _word_str[tag] if dot: return "word.%s" % v else: return v class word_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class word(object): class BracedTree(word_t): _type_tag = 3 __slots__ = ('parts',) def __init__(self, parts): # type: (List[word_part_t]) -> None self.parts = parts @staticmethod def CreateNull(alloc_lists=False): # type: () -> word.BracedTree return word.BracedTree([] if alloc_lists else cast('List[word_part_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word.BracedTree') L = out_node.fields if self.parts is not None: # List x0 = hnode.Array([]) for i0 in self.parts: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.PrettyTree(trav=trav)) x0.children.append(h) L.append(Field('parts', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word.BracedTree') L = out_node.fields if self.parts is not None: # List x0 = hnode.Array([]) for i0 in self.parts: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.AbbreviatedTree(trav=trav)) x0.children.append(h) L.append(Field('parts', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class String(word_t): _type_tag = 4 __slots__ = ('id', 's', 'blame_loc') def __init__(self, id, s, blame_loc): # type: (Id_t, str, Optional[CompoundWord]) -> None self.id = id self.s = s self.blame_loc = blame_loc @staticmethod def CreateNull(alloc_lists=False): # type: () -> word.String return word.String(-1, '', cast('Optional[CompoundWord]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word.String') L = out_node.fields x0 = hnode.Leaf(Id_str(self.id), color_e.UserType) L.append(Field('id', x0)) x1 = NewLeaf(self.s, color_e.StringConst) L.append(Field('s', x1)) if self.blame_loc is not None: # Optional x2 = self.blame_loc.PrettyTree(trav=trav) L.append(Field('blame_loc', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('word.String') L = out_node.fields x0 = hnode.Leaf(Id_str(self.id), color_e.UserType) L.append(Field('id', x0)) x1 = NewLeaf(self.s, color_e.StringConst) L.append(Field('s', x1)) if self.blame_loc is not None: # Optional x2 = self.blame_loc.AbbreviatedTree(trav=trav) L.append(Field('blame_loc', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class sh_lhs_e(object): Name = 1 IndexedName = 2 UnparsedIndex = 3 _sh_lhs_str = { 1: 'Name', 2: 'IndexedName', 3: 'UnparsedIndex', } def sh_lhs_str(tag, dot=True): # type: (int, bool) -> str v = _sh_lhs_str[tag] if dot: return "sh_lhs.%s" % v else: return v class sh_lhs_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class sh_lhs(object): class Name(sh_lhs_t): _type_tag = 1 __slots__ = ('left', 'name') def __init__(self, left, name): # type: (Token, str) -> None self.left = left self.name = name @staticmethod def CreateNull(alloc_lists=False): # type: () -> sh_lhs.Name return sh_lhs.Name(cast(Token, None), '') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('sh_lhs.Name') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('sh_lhs.Name') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class IndexedName(sh_lhs_t): _type_tag = 2 __slots__ = ('left', 'name', 'index') def __init__(self, left, name, index): # type: (Token, str, arith_expr_t) -> None self.left = left self.name = name self.index = index @staticmethod def CreateNull(alloc_lists=False): # type: () -> sh_lhs.IndexedName return sh_lhs.IndexedName(cast(Token, None), '', cast(arith_expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('sh_lhs.IndexedName') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) assert self.index is not None x2 = self.index.PrettyTree(trav=trav) L.append(Field('index', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('sh_lhs.IndexedName') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) assert self.index is not None x2 = self.index.AbbreviatedTree(trav=trav) L.append(Field('index', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class UnparsedIndex(sh_lhs_t): _type_tag = 3 __slots__ = ('left', 'name', 'index') def __init__(self, left, name, index): # type: (Token, str, str) -> None self.left = left self.name = name self.index = index @staticmethod def CreateNull(alloc_lists=False): # type: () -> sh_lhs.UnparsedIndex return sh_lhs.UnparsedIndex(cast(Token, None), '', '') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('sh_lhs.UnparsedIndex') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) x2 = NewLeaf(self.index, color_e.StringConst) L.append(Field('index', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('sh_lhs.UnparsedIndex') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) x2 = NewLeaf(self.index, color_e.StringConst) L.append(Field('index', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class arith_expr_e(object): EmptyZero = 1 EmptyOne = 2 VarSub = 67 Word = 68 UnaryAssign = 5 BinaryAssign = 6 Unary = 7 Binary = 8 TernaryOp = 9 _arith_expr_str = { 1: 'EmptyZero', 2: 'EmptyOne', 5: 'UnaryAssign', 6: 'BinaryAssign', 7: 'Unary', 8: 'Binary', 9: 'TernaryOp', 67: 'VarSub', 68: 'Word', } def arith_expr_str(tag, dot=True): # type: (int, bool) -> str v = _arith_expr_str[tag] if dot: return "arith_expr.%s" % v else: return v class arith_expr_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class arith_expr__EmptyZero(arith_expr_t): _type_tag = 1 __slots__ = () def __init__(self, ): # type: () -> None pass def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('arith_expr__EmptyZero') L = out_node.fields return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('arith_expr__EmptyZero') L = out_node.fields return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class arith_expr__EmptyOne(arith_expr_t): _type_tag = 2 __slots__ = () def __init__(self, ): # type: () -> None pass def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('arith_expr__EmptyOne') L = out_node.fields return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('arith_expr__EmptyOne') L = out_node.fields return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class arith_expr(object): EmptyZero = arith_expr__EmptyZero() EmptyOne = arith_expr__EmptyOne() class UnaryAssign(arith_expr_t): _type_tag = 5 __slots__ = ('op_id', 'child') def __init__(self, op_id, child): # type: (Id_t, arith_expr_t) -> None self.op_id = op_id self.child = child @staticmethod def CreateNull(alloc_lists=False): # type: () -> arith_expr.UnaryAssign return arith_expr.UnaryAssign(-1, cast(arith_expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('arith_expr.UnaryAssign') L = out_node.fields x0 = hnode.Leaf(Id_str(self.op_id), color_e.UserType) L.append(Field('op_id', x0)) assert self.child is not None x1 = self.child.PrettyTree(trav=trav) L.append(Field('child', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('arith_expr.UnaryAssign') L = out_node.fields x0 = hnode.Leaf(Id_str(self.op_id), color_e.UserType) L.append(Field('op_id', x0)) assert self.child is not None x1 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class BinaryAssign(arith_expr_t): _type_tag = 6 __slots__ = ('op_id', 'left', 'right') def __init__(self, op_id, left, right): # type: (Id_t, arith_expr_t, arith_expr_t) -> None self.op_id = op_id self.left = left self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> arith_expr.BinaryAssign return arith_expr.BinaryAssign(-1, cast(arith_expr_t, None), cast(arith_expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('arith_expr.BinaryAssign') L = out_node.fields x0 = hnode.Leaf(Id_str(self.op_id), color_e.UserType) L.append(Field('op_id', x0)) assert self.left is not None x1 = self.left.PrettyTree(trav=trav) L.append(Field('left', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('arith_expr.BinaryAssign') L = out_node.fields x0 = hnode.Leaf(Id_str(self.op_id), color_e.UserType) L.append(Field('op_id', x0)) assert self.left is not None x1 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Unary(arith_expr_t): _type_tag = 7 __slots__ = ('op_id', 'child') def __init__(self, op_id, child): # type: (Id_t, arith_expr_t) -> None self.op_id = op_id self.child = child @staticmethod def CreateNull(alloc_lists=False): # type: () -> arith_expr.Unary return arith_expr.Unary(-1, cast(arith_expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('arith_expr.Unary') L = out_node.fields x0 = hnode.Leaf(Id_str(self.op_id), color_e.UserType) L.append(Field('op_id', x0)) assert self.child is not None x1 = self.child.PrettyTree(trav=trav) L.append(Field('child', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('arith_expr.Unary') L = out_node.fields x0 = hnode.Leaf(Id_str(self.op_id), color_e.UserType) L.append(Field('op_id', x0)) assert self.child is not None x1 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Binary(arith_expr_t): _type_tag = 8 __slots__ = ('op', 'left', 'right') def __init__(self, op, left, right): # type: (Token, arith_expr_t, arith_expr_t) -> None self.op = op self.left = left self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> arith_expr.Binary return arith_expr.Binary(cast(Token, None), cast(arith_expr_t, None), cast(arith_expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('arith_expr.Binary') L = out_node.fields assert self.op is not None x0 = self.op.PrettyTree(trav=trav) L.append(Field('op', x0)) assert self.left is not None x1 = self.left.PrettyTree(trav=trav) L.append(Field('left', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('arith_expr.Binary') L = out_node.fields assert self.op is not None x0 = self.op.AbbreviatedTree(trav=trav) L.append(Field('op', x0)) assert self.left is not None x1 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class TernaryOp(arith_expr_t): _type_tag = 9 __slots__ = ('cond', 'true_expr', 'false_expr') def __init__(self, cond, true_expr, false_expr): # type: (arith_expr_t, arith_expr_t, arith_expr_t) -> None self.cond = cond self.true_expr = true_expr self.false_expr = false_expr @staticmethod def CreateNull(alloc_lists=False): # type: () -> arith_expr.TernaryOp return arith_expr.TernaryOp(cast(arith_expr_t, None), cast(arith_expr_t, None), cast(arith_expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('arith_expr.TernaryOp') L = out_node.fields assert self.cond is not None x0 = self.cond.PrettyTree(trav=trav) L.append(Field('cond', x0)) assert self.true_expr is not None x1 = self.true_expr.PrettyTree(trav=trav) L.append(Field('true_expr', x1)) assert self.false_expr is not None x2 = self.false_expr.PrettyTree(trav=trav) L.append(Field('false_expr', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('arith_expr.TernaryOp') L = out_node.fields assert self.cond is not None x0 = self.cond.AbbreviatedTree(trav=trav) L.append(Field('cond', x0)) assert self.true_expr is not None x1 = self.true_expr.AbbreviatedTree(trav=trav) L.append(Field('true_expr', x1)) assert self.false_expr is not None x2 = self.false_expr.AbbreviatedTree(trav=trav) L.append(Field('false_expr', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class bool_expr_e(object): WordTest = 1 Binary = 2 Unary = 3 LogicalNot = 4 LogicalAnd = 5 LogicalOr = 6 _bool_expr_str = { 1: 'WordTest', 2: 'Binary', 3: 'Unary', 4: 'LogicalNot', 5: 'LogicalAnd', 6: 'LogicalOr', } def bool_expr_str(tag, dot=True): # type: (int, bool) -> str v = _bool_expr_str[tag] if dot: return "bool_expr.%s" % v else: return v class bool_expr_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class bool_expr(object): class WordTest(bool_expr_t): _type_tag = 1 __slots__ = ('w',) def __init__(self, w): # type: (word_t) -> None self.w = w @staticmethod def CreateNull(alloc_lists=False): # type: () -> bool_expr.WordTest return bool_expr.WordTest(cast(word_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bool_expr.WordTest') L = out_node.fields assert self.w is not None x0 = self.w.PrettyTree(trav=trav) L.append(Field('w', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bool_expr.WordTest') L = out_node.fields assert self.w is not None x0 = self.w.AbbreviatedTree(trav=trav) L.append(Field('w', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Binary(bool_expr_t): _type_tag = 2 __slots__ = ('op_id', 'left', 'right') def __init__(self, op_id, left, right): # type: (Id_t, word_t, word_t) -> None self.op_id = op_id self.left = left self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> bool_expr.Binary return bool_expr.Binary(-1, cast(word_t, None), cast(word_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bool_expr.Binary') L = out_node.fields x0 = hnode.Leaf(Id_str(self.op_id), color_e.UserType) L.append(Field('op_id', x0)) assert self.left is not None x1 = self.left.PrettyTree(trav=trav) L.append(Field('left', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bool_expr.Binary') L = out_node.fields x0 = hnode.Leaf(Id_str(self.op_id), color_e.UserType) L.append(Field('op_id', x0)) assert self.left is not None x1 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Unary(bool_expr_t): _type_tag = 3 __slots__ = ('op_id', 'child') def __init__(self, op_id, child): # type: (Id_t, word_t) -> None self.op_id = op_id self.child = child @staticmethod def CreateNull(alloc_lists=False): # type: () -> bool_expr.Unary return bool_expr.Unary(-1, cast(word_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bool_expr.Unary') L = out_node.fields x0 = hnode.Leaf(Id_str(self.op_id), color_e.UserType) L.append(Field('op_id', x0)) assert self.child is not None x1 = self.child.PrettyTree(trav=trav) L.append(Field('child', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bool_expr.Unary') L = out_node.fields x0 = hnode.Leaf(Id_str(self.op_id), color_e.UserType) L.append(Field('op_id', x0)) assert self.child is not None x1 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class LogicalNot(bool_expr_t): _type_tag = 4 __slots__ = ('child',) def __init__(self, child): # type: (bool_expr_t) -> None self.child = child @staticmethod def CreateNull(alloc_lists=False): # type: () -> bool_expr.LogicalNot return bool_expr.LogicalNot(cast(bool_expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bool_expr.LogicalNot') L = out_node.fields assert self.child is not None x0 = self.child.PrettyTree(trav=trav) L.append(Field('child', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bool_expr.LogicalNot') L = out_node.fields assert self.child is not None x0 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class LogicalAnd(bool_expr_t): _type_tag = 5 __slots__ = ('left', 'right') def __init__(self, left, right): # type: (bool_expr_t, bool_expr_t) -> None self.left = left self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> bool_expr.LogicalAnd return bool_expr.LogicalAnd(cast(bool_expr_t, None), cast(bool_expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bool_expr.LogicalAnd') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.right is not None x1 = self.right.PrettyTree(trav=trav) L.append(Field('right', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bool_expr.LogicalAnd') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.right is not None x1 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class LogicalOr(bool_expr_t): _type_tag = 6 __slots__ = ('left', 'right') def __init__(self, left, right): # type: (bool_expr_t, bool_expr_t) -> None self.left = left self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> bool_expr.LogicalOr return bool_expr.LogicalOr(cast(bool_expr_t, None), cast(bool_expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bool_expr.LogicalOr') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.right is not None x1 = self.right.PrettyTree(trav=trav) L.append(Field('right', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('bool_expr.LogicalOr') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.right is not None x1 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class redir_loc_e(object): Fd = 1 VarName = 2 _redir_loc_str = { 1: 'Fd', 2: 'VarName', } def redir_loc_str(tag, dot=True): # type: (int, bool) -> str v = _redir_loc_str[tag] if dot: return "redir_loc.%s" % v else: return v class redir_loc_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class redir_loc(object): class Fd(redir_loc_t): _type_tag = 1 __slots__ = ('fd',) def __init__(self, fd): # type: (int) -> None self.fd = fd @staticmethod def CreateNull(alloc_lists=False): # type: () -> redir_loc.Fd return redir_loc.Fd(-1) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('redir_loc.Fd') L = out_node.fields x0 = hnode.Leaf(str(self.fd), color_e.OtherConst) L.append(Field('fd', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('redir_loc.Fd') L = out_node.fields x0 = hnode.Leaf(str(self.fd), color_e.OtherConst) L.append(Field('fd', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class VarName(redir_loc_t): _type_tag = 2 __slots__ = ('name',) def __init__(self, name): # type: (str) -> None self.name = name @staticmethod def CreateNull(alloc_lists=False): # type: () -> redir_loc.VarName return redir_loc.VarName('') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('redir_loc.VarName') L = out_node.fields x0 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('redir_loc.VarName') L = out_node.fields x0 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class redir_param_e(object): Word = 68 HereDoc = 2 _redir_param_str = { 2: 'HereDoc', 68: 'Word', } def redir_param_str(tag, dot=True): # type: (int, bool) -> str v = _redir_param_str[tag] if dot: return "redir_param.%s" % v else: return v class redir_param_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class redir_param(object): class HereDoc(redir_param_t): _type_tag = 2 __slots__ = ('here_begin', 'here_end_tok', 'stdin_parts') def __init__(self, here_begin, here_end_tok, stdin_parts): # type: (word_t, Optional[Token], List[word_part_t]) -> None self.here_begin = here_begin self.here_end_tok = here_end_tok self.stdin_parts = stdin_parts @staticmethod def CreateNull(alloc_lists=False): # type: () -> redir_param.HereDoc return redir_param.HereDoc(cast(word_t, None), cast('Optional[Token]', None), [] if alloc_lists else cast('List[word_part_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('redir_param.HereDoc') L = out_node.fields assert self.here_begin is not None x0 = self.here_begin.PrettyTree(trav=trav) L.append(Field('here_begin', x0)) if self.here_end_tok is not None: # Optional x1 = self.here_end_tok.PrettyTree(trav=trav) L.append(Field('here_end_tok', x1)) if self.stdin_parts is not None: # List x2 = hnode.Array([]) for i2 in self.stdin_parts: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.PrettyTree(trav=trav)) x2.children.append(h) L.append(Field('stdin_parts', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('redir_param.HereDoc') L = out_node.fields assert self.here_begin is not None x0 = self.here_begin.AbbreviatedTree(trav=trav) L.append(Field('here_begin', x0)) if self.here_end_tok is not None: # Optional x1 = self.here_end_tok.AbbreviatedTree(trav=trav) L.append(Field('here_end_tok', x1)) if self.stdin_parts is not None: # List x2 = hnode.Array([]) for i2 in self.stdin_parts: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.AbbreviatedTree(trav=trav)) x2.children.append(h) L.append(Field('stdin_parts', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class assign_op_t(pybase.SimpleObj): pass class assign_op_e(object): Equal = assign_op_t(1) PlusEqual = assign_op_t(2) _assign_op_str = { 1: 'assign_op.Equal', 2: 'assign_op.PlusEqual', } def assign_op_str(val): # type: (assign_op_t) -> str return _assign_op_str[val] class condition_e(object): Shell = 1 YshExpr = 2 _condition_str = { 1: 'Shell', 2: 'YshExpr', } def condition_str(tag, dot=True): # type: (int, bool) -> str v = _condition_str[tag] if dot: return "condition.%s" % v else: return v class condition_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class condition(object): class Shell(condition_t): _type_tag = 1 __slots__ = ('commands',) def __init__(self, commands): # type: (List[command_t]) -> None self.commands = commands @staticmethod def CreateNull(alloc_lists=False): # type: () -> condition.Shell return condition.Shell([] if alloc_lists else cast('List[command_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('condition.Shell') L = out_node.fields if self.commands is not None: # List x0 = hnode.Array([]) for i0 in self.commands: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.PrettyTree(trav=trav)) x0.children.append(h) L.append(Field('commands', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('condition.Shell') L = out_node.fields if self.commands is not None: # List x0 = hnode.Array([]) for i0 in self.commands: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.AbbreviatedTree(trav=trav)) x0.children.append(h) L.append(Field('commands', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class YshExpr(condition_t): _type_tag = 2 __slots__ = ('e',) def __init__(self, e): # type: (expr_t) -> None self.e = e @staticmethod def CreateNull(alloc_lists=False): # type: () -> condition.YshExpr return condition.YshExpr(cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('condition.YshExpr') L = out_node.fields assert self.e is not None x0 = self.e.PrettyTree(trav=trav) L.append(Field('e', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('condition.YshExpr') L = out_node.fields assert self.e is not None x0 = self.e.AbbreviatedTree(trav=trav) L.append(Field('e', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class case_arg_e(object): Word = 1 YshExpr = 2 _case_arg_str = { 1: 'Word', 2: 'YshExpr', } def case_arg_str(tag, dot=True): # type: (int, bool) -> str v = _case_arg_str[tag] if dot: return "case_arg.%s" % v else: return v class case_arg_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class case_arg(object): class Word(case_arg_t): _type_tag = 1 __slots__ = ('w',) def __init__(self, w): # type: (word_t) -> None self.w = w @staticmethod def CreateNull(alloc_lists=False): # type: () -> case_arg.Word return case_arg.Word(cast(word_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('case_arg.Word') L = out_node.fields assert self.w is not None x0 = self.w.PrettyTree(trav=trav) L.append(Field('w', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('case_arg.Word') L = out_node.fields assert self.w is not None x0 = self.w.AbbreviatedTree(trav=trav) L.append(Field('w', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class YshExpr(case_arg_t): _type_tag = 2 __slots__ = ('e',) def __init__(self, e): # type: (expr_t) -> None self.e = e @staticmethod def CreateNull(alloc_lists=False): # type: () -> case_arg.YshExpr return case_arg.YshExpr(cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('case_arg.YshExpr') L = out_node.fields assert self.e is not None x0 = self.e.PrettyTree(trav=trav) L.append(Field('e', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('case_arg.YshExpr') L = out_node.fields assert self.e is not None x0 = self.e.AbbreviatedTree(trav=trav) L.append(Field('e', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class pat_e(object): Else = 1 Words = 2 YshExprs = 3 Eggex = 82 _pat_str = { 1: 'Else', 2: 'Words', 3: 'YshExprs', 82: 'Eggex', } def pat_str(tag, dot=True): # type: (int, bool) -> str v = _pat_str[tag] if dot: return "pat.%s" % v else: return v class pat_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class pat__Else(pat_t): _type_tag = 1 __slots__ = () def __init__(self, ): # type: () -> None pass def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('pat__Else') L = out_node.fields return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('pat__Else') L = out_node.fields return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class pat(object): Else = pat__Else() class Words(pat_t): _type_tag = 2 __slots__ = ('words',) def __init__(self, words): # type: (List[word_t]) -> None self.words = words @staticmethod def CreateNull(alloc_lists=False): # type: () -> pat.Words return pat.Words([] if alloc_lists else cast('List[word_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('pat.Words') L = out_node.fields if self.words is not None: # List x0 = hnode.Array([]) for i0 in self.words: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.PrettyTree(trav=trav)) x0.children.append(h) L.append(Field('words', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('pat.Words') L = out_node.fields if self.words is not None: # List x0 = hnode.Array([]) for i0 in self.words: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.AbbreviatedTree(trav=trav)) x0.children.append(h) L.append(Field('words', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class YshExprs(pat_t): _type_tag = 3 __slots__ = ('exprs',) def __init__(self, exprs): # type: (List[expr_t]) -> None self.exprs = exprs @staticmethod def CreateNull(alloc_lists=False): # type: () -> pat.YshExprs return pat.YshExprs([] if alloc_lists else cast('List[expr_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('pat.YshExprs') L = out_node.fields if self.exprs is not None: # List x0 = hnode.Array([]) for i0 in self.exprs: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.PrettyTree(trav=trav)) x0.children.append(h) L.append(Field('exprs', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('pat.YshExprs') L = out_node.fields if self.exprs is not None: # List x0 = hnode.Array([]) for i0 in self.exprs: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.AbbreviatedTree(trav=trav)) x0.children.append(h) L.append(Field('exprs', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class for_iter_e(object): Args = 1 Words = 2 YshExpr = 3 _for_iter_str = { 1: 'Args', 2: 'Words', 3: 'YshExpr', } def for_iter_str(tag, dot=True): # type: (int, bool) -> str v = _for_iter_str[tag] if dot: return "for_iter.%s" % v else: return v class for_iter_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class for_iter__Args(for_iter_t): _type_tag = 1 __slots__ = () def __init__(self, ): # type: () -> None pass def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('for_iter__Args') L = out_node.fields return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('for_iter__Args') L = out_node.fields return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class for_iter(object): Args = for_iter__Args() class Words(for_iter_t): _type_tag = 2 __slots__ = ('words',) def __init__(self, words): # type: (List[word_t]) -> None self.words = words @staticmethod def CreateNull(alloc_lists=False): # type: () -> for_iter.Words return for_iter.Words([] if alloc_lists else cast('List[word_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('for_iter.Words') L = out_node.fields if self.words is not None: # List x0 = hnode.Array([]) for i0 in self.words: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.PrettyTree(trav=trav)) x0.children.append(h) L.append(Field('words', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('for_iter.Words') L = out_node.fields if self.words is not None: # List x0 = hnode.Array([]) for i0 in self.words: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.AbbreviatedTree(trav=trav)) x0.children.append(h) L.append(Field('words', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class YshExpr(for_iter_t): _type_tag = 3 __slots__ = ('e', 'blame') def __init__(self, e, blame): # type: (expr_t, Token) -> None self.e = e self.blame = blame @staticmethod def CreateNull(alloc_lists=False): # type: () -> for_iter.YshExpr return for_iter.YshExpr(cast(expr_t, None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('for_iter.YshExpr') L = out_node.fields assert self.e is not None x0 = self.e.PrettyTree(trav=trav) L.append(Field('e', x0)) assert self.blame is not None x1 = self.blame.PrettyTree(trav=trav) L.append(Field('blame', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('for_iter.YshExpr') L = out_node.fields assert self.e is not None x0 = self.e.AbbreviatedTree(trav=trav) L.append(Field('e', x0)) assert self.blame is not None x1 = self.blame.AbbreviatedTree(trav=trav) L.append(Field('blame', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class proc_sig_e(object): Open = 1 Closed = 2 _proc_sig_str = { 1: 'Open', 2: 'Closed', } def proc_sig_str(tag, dot=True): # type: (int, bool) -> str v = _proc_sig_str[tag] if dot: return "proc_sig.%s" % v else: return v class proc_sig_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class proc_sig__Open(proc_sig_t): _type_tag = 1 __slots__ = () def __init__(self, ): # type: () -> None pass def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('proc_sig__Open') L = out_node.fields return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('proc_sig__Open') L = out_node.fields return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class proc_sig(object): Open = proc_sig__Open() class Closed(proc_sig_t): _type_tag = 2 __slots__ = ('word', 'positional', 'named', 'block_param') def __init__(self, word, positional, named, block_param): # type: (Optional[ParamGroup], Optional[ParamGroup], Optional[ParamGroup], Optional[Param]) -> None self.word = word self.positional = positional self.named = named self.block_param = block_param @staticmethod def CreateNull(alloc_lists=False): # type: () -> proc_sig.Closed return proc_sig.Closed(cast('Optional[ParamGroup]', None), cast('Optional[ParamGroup]', None), cast('Optional[ParamGroup]', None), cast('Optional[Param]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('proc_sig.Closed') L = out_node.fields if self.word is not None: # Optional x0 = self.word.PrettyTree(trav=trav) L.append(Field('word', x0)) if self.positional is not None: # Optional x1 = self.positional.PrettyTree(trav=trav) L.append(Field('positional', x1)) if self.named is not None: # Optional x2 = self.named.PrettyTree(trav=trav) L.append(Field('named', x2)) if self.block_param is not None: # Optional x3 = self.block_param.PrettyTree(trav=trav) L.append(Field('block_param', x3)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('proc_sig.Closed') L = out_node.fields if self.word is not None: # Optional x0 = self.word.AbbreviatedTree(trav=trav) L.append(Field('word', x0)) if self.positional is not None: # Optional x1 = self.positional.AbbreviatedTree(trav=trav) L.append(Field('positional', x1)) if self.named is not None: # Optional x2 = self.named.AbbreviatedTree(trav=trav) L.append(Field('named', x2)) if self.block_param is not None: # Optional x3 = self.block_param.AbbreviatedTree(trav=trav) L.append(Field('block_param', x3)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class command_e(object): NoOp = 1 Redirect = 2 Simple = 3 ExpandedAlias = 4 Sentence = 5 ShAssignment = 6 ControlFlow = 7 Pipeline = 8 AndOr = 9 DoGroup = 10 BraceGroup = 84 Subshell = 12 DParen = 13 DBracket = 14 ForEach = 15 ForExpr = 16 WhileUntil = 17 If = 18 Case = 19 ShFunction = 20 TimeBlock = 21 CommandList = 22 VarDecl = 23 BareDecl = 24 Mutation = 25 Expr = 26 Proc = 88 Func = 89 Retval = 29 _command_str = { 1: 'NoOp', 2: 'Redirect', 3: 'Simple', 4: 'ExpandedAlias', 5: 'Sentence', 6: 'ShAssignment', 7: 'ControlFlow', 8: 'Pipeline', 9: 'AndOr', 10: 'DoGroup', 12: 'Subshell', 13: 'DParen', 14: 'DBracket', 15: 'ForEach', 16: 'ForExpr', 17: 'WhileUntil', 18: 'If', 19: 'Case', 20: 'ShFunction', 21: 'TimeBlock', 22: 'CommandList', 23: 'VarDecl', 24: 'BareDecl', 25: 'Mutation', 26: 'Expr', 29: 'Retval', 84: 'BraceGroup', 88: 'Proc', 89: 'Func', } def command_str(tag, dot=True): # type: (int, bool) -> str v = _command_str[tag] if dot: return "command.%s" % v else: return v class command_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class command__NoOp(command_t): _type_tag = 1 __slots__ = () def __init__(self, ): # type: () -> None pass def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command__NoOp') L = out_node.fields return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command__NoOp') L = out_node.fields return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class command(object): NoOp = command__NoOp() class Redirect(command_t): _type_tag = 2 __slots__ = ('child', 'redirects') def __init__(self, child, redirects): # type: (command_t, List[Redir]) -> None self.child = child self.redirects = redirects @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.Redirect return command.Redirect(cast(command_t, None), [] if alloc_lists else cast('List[Redir]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Redirect') L = out_node.fields assert self.child is not None x0 = self.child.PrettyTree(trav=trav) L.append(Field('child', x0)) if self.redirects is not None: # List x1 = hnode.Array([]) for i1 in self.redirects: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('redirects', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Redirect') L = out_node.fields assert self.child is not None x0 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x0)) if self.redirects is not None: # List x1 = hnode.Array([]) for i1 in self.redirects: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('redirects', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Simple(command_t): _type_tag = 3 __slots__ = ('blame_tok', 'more_env', 'words', 'typed_args', 'block', 'do_fork') def __init__(self, blame_tok, more_env, words, typed_args, block, do_fork): # type: (Optional[Token], List[EnvPair], List[word_t], Optional[ArgList], Optional[LiteralBlock], bool) -> None self.blame_tok = blame_tok self.more_env = more_env self.words = words self.typed_args = typed_args self.block = block self.do_fork = do_fork @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.Simple return command.Simple(cast('Optional[Token]', None), [] if alloc_lists else cast('List[EnvPair]', None), [] if alloc_lists else cast('List[word_t]', None), cast('Optional[ArgList]', None), cast('Optional[LiteralBlock]', None), False) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Simple') L = out_node.fields if self.blame_tok is not None: # Optional x0 = self.blame_tok.PrettyTree(trav=trav) L.append(Field('blame_tok', x0)) if self.more_env is not None: # List x1 = hnode.Array([]) for i1 in self.more_env: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('more_env', x1)) if self.words is not None: # List x2 = hnode.Array([]) for i2 in self.words: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.PrettyTree(trav=trav)) x2.children.append(h) L.append(Field('words', x2)) if self.typed_args is not None: # Optional x3 = self.typed_args.PrettyTree(trav=trav) L.append(Field('typed_args', x3)) if self.block is not None: # Optional x4 = self.block.PrettyTree(trav=trav) L.append(Field('block', x4)) x5 = hnode.Leaf('T' if self.do_fork else 'F', color_e.OtherConst) L.append(Field('do_fork', x5)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Simple') L = out_node.fields if self.blame_tok is not None: # Optional x0 = self.blame_tok.AbbreviatedTree(trav=trav) L.append(Field('blame_tok', x0)) if self.more_env is not None: # List x1 = hnode.Array([]) for i1 in self.more_env: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('more_env', x1)) if self.words is not None: # List x2 = hnode.Array([]) for i2 in self.words: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.AbbreviatedTree(trav=trav)) x2.children.append(h) L.append(Field('words', x2)) if self.typed_args is not None: # Optional x3 = self.typed_args.AbbreviatedTree(trav=trav) L.append(Field('typed_args', x3)) if self.block is not None: # Optional x4 = self.block.AbbreviatedTree(trav=trav) L.append(Field('block', x4)) x5 = hnode.Leaf('T' if self.do_fork else 'F', color_e.OtherConst) L.append(Field('do_fork', x5)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ExpandedAlias(command_t): _type_tag = 4 __slots__ = ('child', 'more_env') def __init__(self, child, more_env): # type: (command_t, List[EnvPair]) -> None self.child = child self.more_env = more_env @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.ExpandedAlias return command.ExpandedAlias(cast(command_t, None), [] if alloc_lists else cast('List[EnvPair]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.ExpandedAlias') L = out_node.fields assert self.child is not None x0 = self.child.PrettyTree(trav=trav) L.append(Field('child', x0)) if self.more_env is not None: # List x1 = hnode.Array([]) for i1 in self.more_env: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('more_env', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.ExpandedAlias') L = out_node.fields assert self.child is not None x0 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x0)) if self.more_env is not None: # List x1 = hnode.Array([]) for i1 in self.more_env: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('more_env', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Sentence(command_t): _type_tag = 5 __slots__ = ('child', 'terminator') def __init__(self, child, terminator): # type: (command_t, Token) -> None self.child = child self.terminator = terminator @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.Sentence return command.Sentence(cast(command_t, None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Sentence') L = out_node.fields assert self.child is not None x0 = self.child.PrettyTree(trav=trav) L.append(Field('child', x0)) assert self.terminator is not None x1 = self.terminator.PrettyTree(trav=trav) L.append(Field('terminator', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Sentence') L = out_node.fields assert self.child is not None x0 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x0)) assert self.terminator is not None x1 = self.terminator.AbbreviatedTree(trav=trav) L.append(Field('terminator', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ShAssignment(command_t): _type_tag = 6 __slots__ = ('left', 'pairs') def __init__(self, left, pairs): # type: (Token, List[AssignPair]) -> None self.left = left self.pairs = pairs @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.ShAssignment return command.ShAssignment(cast(Token, None), [] if alloc_lists else cast('List[AssignPair]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.ShAssignment') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) if self.pairs is not None: # List x1 = hnode.Array([]) for i1 in self.pairs: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('pairs', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.ShAssignment') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) if self.pairs is not None: # List x1 = hnode.Array([]) for i1 in self.pairs: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('pairs', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ControlFlow(command_t): _type_tag = 7 __slots__ = ('keyword', 'arg_word') def __init__(self, keyword, arg_word): # type: (Token, Optional[word_t]) -> None self.keyword = keyword self.arg_word = arg_word @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.ControlFlow return command.ControlFlow(cast(Token, None), cast('Optional[word_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.ControlFlow') L = out_node.fields assert self.keyword is not None x0 = self.keyword.PrettyTree(trav=trav) L.append(Field('keyword', x0)) if self.arg_word is not None: # Optional x1 = self.arg_word.PrettyTree(trav=trav) L.append(Field('arg_word', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.ControlFlow') L = out_node.fields assert self.keyword is not None x0 = self.keyword.AbbreviatedTree(trav=trav) L.append(Field('keyword', x0)) if self.arg_word is not None: # Optional x1 = self.arg_word.AbbreviatedTree(trav=trav) L.append(Field('arg_word', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Pipeline(command_t): _type_tag = 8 __slots__ = ('negated', 'children', 'ops') def __init__(self, negated, children, ops): # type: (Optional[Token], List[command_t], List[Token]) -> None self.negated = negated self.children = children self.ops = ops @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.Pipeline return command.Pipeline(cast('Optional[Token]', None), [] if alloc_lists else cast('List[command_t]', None), [] if alloc_lists else cast('List[Token]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Pipeline') L = out_node.fields if self.negated is not None: # Optional x0 = self.negated.PrettyTree(trav=trav) L.append(Field('negated', x0)) if self.children is not None: # List x1 = hnode.Array([]) for i1 in self.children: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('children', x1)) if self.ops is not None: # List x2 = hnode.Array([]) for i2 in self.ops: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.PrettyTree(trav=trav)) x2.children.append(h) L.append(Field('ops', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Pipeline') L = out_node.fields if self.negated is not None: # Optional x0 = self.negated.AbbreviatedTree(trav=trav) L.append(Field('negated', x0)) if self.children is not None: # List x1 = hnode.Array([]) for i1 in self.children: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('children', x1)) if self.ops is not None: # List x2 = hnode.Array([]) for i2 in self.ops: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.AbbreviatedTree(trav=trav)) x2.children.append(h) L.append(Field('ops', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class AndOr(command_t): _type_tag = 9 __slots__ = ('children', 'ops') def __init__(self, children, ops): # type: (List[command_t], List[Token]) -> None self.children = children self.ops = ops @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.AndOr return command.AndOr([] if alloc_lists else cast('List[command_t]', None), [] if alloc_lists else cast('List[Token]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.AndOr') L = out_node.fields if self.children is not None: # List x0 = hnode.Array([]) for i0 in self.children: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.PrettyTree(trav=trav)) x0.children.append(h) L.append(Field('children', x0)) if self.ops is not None: # List x1 = hnode.Array([]) for i1 in self.ops: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('ops', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.AndOr') L = out_node.fields if self.children is not None: # List x0 = hnode.Array([]) for i0 in self.children: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.AbbreviatedTree(trav=trav)) x0.children.append(h) L.append(Field('children', x0)) if self.ops is not None: # List x1 = hnode.Array([]) for i1 in self.ops: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('ops', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class DoGroup(command_t): _type_tag = 10 __slots__ = ('left', 'children', 'right') def __init__(self, left, children, right): # type: (Token, List[command_t], Token) -> None self.left = left self.children = children self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.DoGroup return command.DoGroup(cast(Token, None), [] if alloc_lists else cast('List[command_t]', None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.DoGroup') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) if self.children is not None: # List x1 = hnode.Array([]) for i1 in self.children: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('children', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.DoGroup') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) if self.children is not None: # List x1 = hnode.Array([]) for i1 in self.children: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('children', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Subshell(command_t): _type_tag = 12 __slots__ = ('left', 'child', 'right') def __init__(self, left, child, right): # type: (Token, command_t, Token) -> None self.left = left self.child = child self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.Subshell return command.Subshell(cast(Token, None), cast(command_t, None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Subshell') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.child is not None x1 = self.child.PrettyTree(trav=trav) L.append(Field('child', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Subshell') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.child is not None x1 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class DParen(command_t): _type_tag = 13 __slots__ = ('left', 'child', 'right') def __init__(self, left, child, right): # type: (Token, arith_expr_t, Token) -> None self.left = left self.child = child self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.DParen return command.DParen(cast(Token, None), cast(arith_expr_t, None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.DParen') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.child is not None x1 = self.child.PrettyTree(trav=trav) L.append(Field('child', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.DParen') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.child is not None x1 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class DBracket(command_t): _type_tag = 14 __slots__ = ('left', 'expr', 'right') def __init__(self, left, expr, right): # type: (Token, bool_expr_t, Token) -> None self.left = left self.expr = expr self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.DBracket return command.DBracket(cast(Token, None), cast(bool_expr_t, None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.DBracket') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.expr is not None x1 = self.expr.PrettyTree(trav=trav) L.append(Field('expr', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.DBracket') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.expr is not None x1 = self.expr.AbbreviatedTree(trav=trav) L.append(Field('expr', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ForEach(command_t): _type_tag = 15 __slots__ = ('keyword', 'iter_names', 'iterable', 'semi_tok', 'body') def __init__(self, keyword, iter_names, iterable, semi_tok, body): # type: (Token, List[str], for_iter_t, Optional[Token], command_t) -> None self.keyword = keyword self.iter_names = iter_names self.iterable = iterable self.semi_tok = semi_tok self.body = body @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.ForEach return command.ForEach(cast(Token, None), [] if alloc_lists else cast('List[str]', None), cast(for_iter_t, None), cast('Optional[Token]', None), cast(command_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.ForEach') L = out_node.fields assert self.keyword is not None x0 = self.keyword.PrettyTree(trav=trav) L.append(Field('keyword', x0)) if self.iter_names is not None: # List x1 = hnode.Array([]) for i1 in self.iter_names: x1.children.append(NewLeaf(i1, color_e.StringConst)) L.append(Field('iter_names', x1)) assert self.iterable is not None x2 = self.iterable.PrettyTree(trav=trav) L.append(Field('iterable', x2)) if self.semi_tok is not None: # Optional x3 = self.semi_tok.PrettyTree(trav=trav) L.append(Field('semi_tok', x3)) assert self.body is not None x4 = self.body.PrettyTree(trav=trav) L.append(Field('body', x4)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.ForEach') L = out_node.fields assert self.keyword is not None x0 = self.keyword.AbbreviatedTree(trav=trav) L.append(Field('keyword', x0)) if self.iter_names is not None: # List x1 = hnode.Array([]) for i1 in self.iter_names: x1.children.append(NewLeaf(i1, color_e.StringConst)) L.append(Field('iter_names', x1)) assert self.iterable is not None x2 = self.iterable.AbbreviatedTree(trav=trav) L.append(Field('iterable', x2)) if self.semi_tok is not None: # Optional x3 = self.semi_tok.AbbreviatedTree(trav=trav) L.append(Field('semi_tok', x3)) assert self.body is not None x4 = self.body.AbbreviatedTree(trav=trav) L.append(Field('body', x4)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ForExpr(command_t): _type_tag = 16 __slots__ = ('keyword', 'init', 'cond', 'update', 'body') def __init__(self, keyword, init, cond, update, body): # type: (Token, Optional[arith_expr_t], Optional[arith_expr_t], Optional[arith_expr_t], Optional[command_t]) -> None self.keyword = keyword self.init = init self.cond = cond self.update = update self.body = body @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.ForExpr return command.ForExpr(cast(Token, None), cast('Optional[arith_expr_t]', None), cast('Optional[arith_expr_t]', None), cast('Optional[arith_expr_t]', None), cast('Optional[command_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.ForExpr') L = out_node.fields assert self.keyword is not None x0 = self.keyword.PrettyTree(trav=trav) L.append(Field('keyword', x0)) if self.init is not None: # Optional x1 = self.init.PrettyTree(trav=trav) L.append(Field('init', x1)) if self.cond is not None: # Optional x2 = self.cond.PrettyTree(trav=trav) L.append(Field('cond', x2)) if self.update is not None: # Optional x3 = self.update.PrettyTree(trav=trav) L.append(Field('update', x3)) if self.body is not None: # Optional x4 = self.body.PrettyTree(trav=trav) L.append(Field('body', x4)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.ForExpr') L = out_node.fields assert self.keyword is not None x0 = self.keyword.AbbreviatedTree(trav=trav) L.append(Field('keyword', x0)) if self.init is not None: # Optional x1 = self.init.AbbreviatedTree(trav=trav) L.append(Field('init', x1)) if self.cond is not None: # Optional x2 = self.cond.AbbreviatedTree(trav=trav) L.append(Field('cond', x2)) if self.update is not None: # Optional x3 = self.update.AbbreviatedTree(trav=trav) L.append(Field('update', x3)) if self.body is not None: # Optional x4 = self.body.AbbreviatedTree(trav=trav) L.append(Field('body', x4)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class WhileUntil(command_t): _type_tag = 17 __slots__ = ('keyword', 'cond', 'body') def __init__(self, keyword, cond, body): # type: (Token, condition_t, command_t) -> None self.keyword = keyword self.cond = cond self.body = body @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.WhileUntil return command.WhileUntil(cast(Token, None), cast(condition_t, None), cast(command_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.WhileUntil') L = out_node.fields assert self.keyword is not None x0 = self.keyword.PrettyTree(trav=trav) L.append(Field('keyword', x0)) assert self.cond is not None x1 = self.cond.PrettyTree(trav=trav) L.append(Field('cond', x1)) assert self.body is not None x2 = self.body.PrettyTree(trav=trav) L.append(Field('body', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.WhileUntil') L = out_node.fields assert self.keyword is not None x0 = self.keyword.AbbreviatedTree(trav=trav) L.append(Field('keyword', x0)) assert self.cond is not None x1 = self.cond.AbbreviatedTree(trav=trav) L.append(Field('cond', x1)) assert self.body is not None x2 = self.body.AbbreviatedTree(trav=trav) L.append(Field('body', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class If(command_t): _type_tag = 18 __slots__ = ('if_kw', 'arms', 'else_kw', 'else_action', 'fi_kw') def __init__(self, if_kw, arms, else_kw, else_action, fi_kw): # type: (Token, List[IfArm], Optional[Token], List[command_t], Optional[Token]) -> None self.if_kw = if_kw self.arms = arms self.else_kw = else_kw self.else_action = else_action self.fi_kw = fi_kw @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.If return command.If(cast(Token, None), [] if alloc_lists else cast('List[IfArm]', None), cast('Optional[Token]', None), [] if alloc_lists else cast('List[command_t]', None), cast('Optional[Token]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.If') L = out_node.fields assert self.if_kw is not None x0 = self.if_kw.PrettyTree(trav=trav) L.append(Field('if_kw', x0)) if self.arms is not None: # List x1 = hnode.Array([]) for i1 in self.arms: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('arms', x1)) if self.else_kw is not None: # Optional x2 = self.else_kw.PrettyTree(trav=trav) L.append(Field('else_kw', x2)) if self.else_action is not None: # List x3 = hnode.Array([]) for i3 in self.else_action: h = (hnode.Leaf("_", color_e.OtherConst) if i3 is None else i3.PrettyTree(trav=trav)) x3.children.append(h) L.append(Field('else_action', x3)) if self.fi_kw is not None: # Optional x4 = self.fi_kw.PrettyTree(trav=trav) L.append(Field('fi_kw', x4)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.If') L = out_node.fields assert self.if_kw is not None x0 = self.if_kw.AbbreviatedTree(trav=trav) L.append(Field('if_kw', x0)) if self.arms is not None: # List x1 = hnode.Array([]) for i1 in self.arms: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('arms', x1)) if self.else_kw is not None: # Optional x2 = self.else_kw.AbbreviatedTree(trav=trav) L.append(Field('else_kw', x2)) if self.else_action is not None: # List x3 = hnode.Array([]) for i3 in self.else_action: h = (hnode.Leaf("_", color_e.OtherConst) if i3 is None else i3.AbbreviatedTree(trav=trav)) x3.children.append(h) L.append(Field('else_action', x3)) if self.fi_kw is not None: # Optional x4 = self.fi_kw.AbbreviatedTree(trav=trav) L.append(Field('fi_kw', x4)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Case(command_t): _type_tag = 19 __slots__ = ('case_kw', 'to_match', 'arms_start', 'arms', 'arms_end') def __init__(self, case_kw, to_match, arms_start, arms, arms_end): # type: (Token, case_arg_t, Token, List[CaseArm], Token) -> None self.case_kw = case_kw self.to_match = to_match self.arms_start = arms_start self.arms = arms self.arms_end = arms_end @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.Case return command.Case(cast(Token, None), cast(case_arg_t, None), cast(Token, None), [] if alloc_lists else cast('List[CaseArm]', None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Case') L = out_node.fields assert self.case_kw is not None x0 = self.case_kw.PrettyTree(trav=trav) L.append(Field('case_kw', x0)) assert self.to_match is not None x1 = self.to_match.PrettyTree(trav=trav) L.append(Field('to_match', x1)) assert self.arms_start is not None x2 = self.arms_start.PrettyTree(trav=trav) L.append(Field('arms_start', x2)) if self.arms is not None: # List x3 = hnode.Array([]) for i3 in self.arms: h = (hnode.Leaf("_", color_e.OtherConst) if i3 is None else i3.PrettyTree(trav=trav)) x3.children.append(h) L.append(Field('arms', x3)) assert self.arms_end is not None x4 = self.arms_end.PrettyTree(trav=trav) L.append(Field('arms_end', x4)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Case') L = out_node.fields assert self.case_kw is not None x0 = self.case_kw.AbbreviatedTree(trav=trav) L.append(Field('case_kw', x0)) assert self.to_match is not None x1 = self.to_match.AbbreviatedTree(trav=trav) L.append(Field('to_match', x1)) assert self.arms_start is not None x2 = self.arms_start.AbbreviatedTree(trav=trav) L.append(Field('arms_start', x2)) if self.arms is not None: # List x3 = hnode.Array([]) for i3 in self.arms: h = (hnode.Leaf("_", color_e.OtherConst) if i3 is None else i3.AbbreviatedTree(trav=trav)) x3.children.append(h) L.append(Field('arms', x3)) assert self.arms_end is not None x4 = self.arms_end.AbbreviatedTree(trav=trav) L.append(Field('arms_end', x4)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ShFunction(command_t): _type_tag = 20 __slots__ = ('keyword', 'name_tok', 'name', 'body') def __init__(self, keyword, name_tok, name, body): # type: (Optional[Token], Token, str, command_t) -> None self.keyword = keyword self.name_tok = name_tok self.name = name self.body = body @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.ShFunction return command.ShFunction(cast('Optional[Token]', None), cast(Token, None), '', cast(command_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.ShFunction') L = out_node.fields if self.keyword is not None: # Optional x0 = self.keyword.PrettyTree(trav=trav) L.append(Field('keyword', x0)) assert self.name_tok is not None x1 = self.name_tok.PrettyTree(trav=trav) L.append(Field('name_tok', x1)) x2 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x2)) assert self.body is not None x3 = self.body.PrettyTree(trav=trav) L.append(Field('body', x3)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.ShFunction') L = out_node.fields if self.keyword is not None: # Optional x0 = self.keyword.AbbreviatedTree(trav=trav) L.append(Field('keyword', x0)) assert self.name_tok is not None x1 = self.name_tok.AbbreviatedTree(trav=trav) L.append(Field('name_tok', x1)) x2 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x2)) assert self.body is not None x3 = self.body.AbbreviatedTree(trav=trav) L.append(Field('body', x3)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class TimeBlock(command_t): _type_tag = 21 __slots__ = ('keyword', 'pipeline') def __init__(self, keyword, pipeline): # type: (Token, command_t) -> None self.keyword = keyword self.pipeline = pipeline @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.TimeBlock return command.TimeBlock(cast(Token, None), cast(command_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.TimeBlock') L = out_node.fields assert self.keyword is not None x0 = self.keyword.PrettyTree(trav=trav) L.append(Field('keyword', x0)) assert self.pipeline is not None x1 = self.pipeline.PrettyTree(trav=trav) L.append(Field('pipeline', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.TimeBlock') L = out_node.fields assert self.keyword is not None x0 = self.keyword.AbbreviatedTree(trav=trav) L.append(Field('keyword', x0)) assert self.pipeline is not None x1 = self.pipeline.AbbreviatedTree(trav=trav) L.append(Field('pipeline', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class CommandList(command_t): _type_tag = 22 __slots__ = ('children',) def __init__(self, children): # type: (List[command_t]) -> None self.children = children @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.CommandList return command.CommandList([] if alloc_lists else cast('List[command_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.CommandList') L = out_node.fields if self.children is not None: # List x0 = hnode.Array([]) for i0 in self.children: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.PrettyTree(trav=trav)) x0.children.append(h) L.append(Field('children', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.CommandList') L = out_node.fields if self.children is not None: # List x0 = hnode.Array([]) for i0 in self.children: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.AbbreviatedTree(trav=trav)) x0.children.append(h) L.append(Field('children', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class VarDecl(command_t): _type_tag = 23 __slots__ = ('keyword', 'lhs', 'rhs') def __init__(self, keyword, lhs, rhs): # type: (Optional[Token], List[NameType], Optional[expr_t]) -> None self.keyword = keyword self.lhs = lhs self.rhs = rhs @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.VarDecl return command.VarDecl(cast('Optional[Token]', None), [] if alloc_lists else cast('List[NameType]', None), cast('Optional[expr_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.VarDecl') L = out_node.fields if self.keyword is not None: # Optional x0 = self.keyword.PrettyTree(trav=trav) L.append(Field('keyword', x0)) if self.lhs is not None: # List x1 = hnode.Array([]) for i1 in self.lhs: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('lhs', x1)) if self.rhs is not None: # Optional x2 = self.rhs.PrettyTree(trav=trav) L.append(Field('rhs', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.VarDecl') L = out_node.fields if self.keyword is not None: # Optional x0 = self.keyword.AbbreviatedTree(trav=trav) L.append(Field('keyword', x0)) if self.lhs is not None: # List x1 = hnode.Array([]) for i1 in self.lhs: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('lhs', x1)) if self.rhs is not None: # Optional x2 = self.rhs.AbbreviatedTree(trav=trav) L.append(Field('rhs', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class BareDecl(command_t): _type_tag = 24 __slots__ = ('lhs', 'rhs') def __init__(self, lhs, rhs): # type: (Token, expr_t) -> None self.lhs = lhs self.rhs = rhs @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.BareDecl return command.BareDecl(cast(Token, None), cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.BareDecl') L = out_node.fields assert self.lhs is not None x0 = self.lhs.PrettyTree(trav=trav) L.append(Field('lhs', x0)) assert self.rhs is not None x1 = self.rhs.PrettyTree(trav=trav) L.append(Field('rhs', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.BareDecl') L = out_node.fields assert self.lhs is not None x0 = self.lhs.AbbreviatedTree(trav=trav) L.append(Field('lhs', x0)) assert self.rhs is not None x1 = self.rhs.AbbreviatedTree(trav=trav) L.append(Field('rhs', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Mutation(command_t): _type_tag = 25 __slots__ = ('keyword', 'lhs', 'op', 'rhs') def __init__(self, keyword, lhs, op, rhs): # type: (Token, List[y_lhs_t], Token, expr_t) -> None self.keyword = keyword self.lhs = lhs self.op = op self.rhs = rhs @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.Mutation return command.Mutation(cast(Token, None), [] if alloc_lists else cast('List[y_lhs_t]', None), cast(Token, None), cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Mutation') L = out_node.fields assert self.keyword is not None x0 = self.keyword.PrettyTree(trav=trav) L.append(Field('keyword', x0)) if self.lhs is not None: # List x1 = hnode.Array([]) for i1 in self.lhs: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('lhs', x1)) assert self.op is not None x2 = self.op.PrettyTree(trav=trav) L.append(Field('op', x2)) assert self.rhs is not None x3 = self.rhs.PrettyTree(trav=trav) L.append(Field('rhs', x3)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Mutation') L = out_node.fields assert self.keyword is not None x0 = self.keyword.AbbreviatedTree(trav=trav) L.append(Field('keyword', x0)) if self.lhs is not None: # List x1 = hnode.Array([]) for i1 in self.lhs: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('lhs', x1)) assert self.op is not None x2 = self.op.AbbreviatedTree(trav=trav) L.append(Field('op', x2)) assert self.rhs is not None x3 = self.rhs.AbbreviatedTree(trav=trav) L.append(Field('rhs', x3)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Expr(command_t): _type_tag = 26 __slots__ = ('keyword', 'e') def __init__(self, keyword, e): # type: (Token, expr_t) -> None self.keyword = keyword self.e = e @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.Expr return command.Expr(cast(Token, None), cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Expr') L = out_node.fields assert self.keyword is not None x0 = self.keyword.PrettyTree(trav=trav) L.append(Field('keyword', x0)) assert self.e is not None x1 = self.e.PrettyTree(trav=trav) L.append(Field('e', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Expr') L = out_node.fields assert self.keyword is not None x0 = self.keyword.AbbreviatedTree(trav=trav) L.append(Field('keyword', x0)) assert self.e is not None x1 = self.e.AbbreviatedTree(trav=trav) L.append(Field('e', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Retval(command_t): _type_tag = 29 __slots__ = ('keyword', 'val') def __init__(self, keyword, val): # type: (Token, expr_t) -> None self.keyword = keyword self.val = val @staticmethod def CreateNull(alloc_lists=False): # type: () -> command.Retval return command.Retval(cast(Token, None), cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Retval') L = out_node.fields assert self.keyword is not None x0 = self.keyword.PrettyTree(trav=trav) L.append(Field('keyword', x0)) assert self.val is not None x1 = self.val.PrettyTree(trav=trav) L.append(Field('val', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('command.Retval') L = out_node.fields assert self.keyword is not None x0 = self.keyword.AbbreviatedTree(trav=trav) L.append(Field('keyword', x0)) assert self.val is not None x1 = self.val.AbbreviatedTree(trav=trav) L.append(Field('val', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class glob_part_e(object): Literal = 1 Operator = 2 CharClass = 3 _glob_part_str = { 1: 'Literal', 2: 'Operator', 3: 'CharClass', } def glob_part_str(tag, dot=True): # type: (int, bool) -> str v = _glob_part_str[tag] if dot: return "glob_part.%s" % v else: return v class glob_part_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class glob_part(object): class Literal(glob_part_t): _type_tag = 1 __slots__ = ('id', 's') def __init__(self, id, s): # type: (Id_t, str) -> None self.id = id self.s = s @staticmethod def CreateNull(alloc_lists=False): # type: () -> glob_part.Literal return glob_part.Literal(-1, '') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('glob_part.Literal') L = out_node.fields x0 = hnode.Leaf(Id_str(self.id), color_e.UserType) L.append(Field('id', x0)) x1 = NewLeaf(self.s, color_e.StringConst) L.append(Field('s', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('glob_part.Literal') L = out_node.fields x0 = hnode.Leaf(Id_str(self.id), color_e.UserType) L.append(Field('id', x0)) x1 = NewLeaf(self.s, color_e.StringConst) L.append(Field('s', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Operator(glob_part_t): _type_tag = 2 __slots__ = ('op_id',) def __init__(self, op_id): # type: (Id_t) -> None self.op_id = op_id @staticmethod def CreateNull(alloc_lists=False): # type: () -> glob_part.Operator return glob_part.Operator(-1) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('glob_part.Operator') L = out_node.fields x0 = hnode.Leaf(Id_str(self.op_id), color_e.UserType) L.append(Field('op_id', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('glob_part.Operator') L = out_node.fields x0 = hnode.Leaf(Id_str(self.op_id), color_e.UserType) L.append(Field('op_id', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class CharClass(glob_part_t): _type_tag = 3 __slots__ = ('negated', 'strs') def __init__(self, negated, strs): # type: (bool, List[str]) -> None self.negated = negated self.strs = strs @staticmethod def CreateNull(alloc_lists=False): # type: () -> glob_part.CharClass return glob_part.CharClass(False, [] if alloc_lists else cast('List[str]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('glob_part.CharClass') L = out_node.fields x0 = hnode.Leaf('T' if self.negated else 'F', color_e.OtherConst) L.append(Field('negated', x0)) if self.strs is not None: # List x1 = hnode.Array([]) for i1 in self.strs: x1.children.append(NewLeaf(i1, color_e.StringConst)) L.append(Field('strs', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('glob_part.CharClass') L = out_node.fields x0 = hnode.Leaf('T' if self.negated else 'F', color_e.OtherConst) L.append(Field('negated', x0)) if self.strs is not None: # List x1 = hnode.Array([]) for i1 in self.strs: x1.children.append(NewLeaf(i1, color_e.StringConst)) L.append(Field('strs', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class printf_part_e(object): Literal = 67 Percent = 2 _printf_part_str = { 2: 'Percent', 67: 'Literal', } def printf_part_str(tag, dot=True): # type: (int, bool) -> str v = _printf_part_str[tag] if dot: return "printf_part.%s" % v else: return v class printf_part_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class printf_part(object): class Percent(printf_part_t): _type_tag = 2 __slots__ = ('flags', 'width', 'precision', 'type') def __init__(self, flags, width, precision, type): # type: (List[Token], Optional[Token], Optional[Token], Token) -> None self.flags = flags self.width = width self.precision = precision self.type = type @staticmethod def CreateNull(alloc_lists=False): # type: () -> printf_part.Percent return printf_part.Percent([] if alloc_lists else cast('List[Token]', None), cast('Optional[Token]', None), cast('Optional[Token]', None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('printf_part.Percent') L = out_node.fields if self.flags is not None: # List x0 = hnode.Array([]) for i0 in self.flags: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.PrettyTree(trav=trav)) x0.children.append(h) L.append(Field('flags', x0)) if self.width is not None: # Optional x1 = self.width.PrettyTree(trav=trav) L.append(Field('width', x1)) if self.precision is not None: # Optional x2 = self.precision.PrettyTree(trav=trav) L.append(Field('precision', x2)) assert self.type is not None x3 = self.type.PrettyTree(trav=trav) L.append(Field('type', x3)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('printf_part.Percent') L = out_node.fields if self.flags is not None: # List x0 = hnode.Array([]) for i0 in self.flags: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.AbbreviatedTree(trav=trav)) x0.children.append(h) L.append(Field('flags', x0)) if self.width is not None: # Optional x1 = self.width.AbbreviatedTree(trav=trav) L.append(Field('width', x1)) if self.precision is not None: # Optional x2 = self.precision.AbbreviatedTree(trav=trav) L.append(Field('precision', x2)) assert self.type is not None x3 = self.type.AbbreviatedTree(trav=trav) L.append(Field('type', x3)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class expr_context_t(pybase.SimpleObj): pass class expr_context_e(object): Load = expr_context_t(1) Store = expr_context_t(2) Del = expr_context_t(3) AugLoad = expr_context_t(4) AugStore = expr_context_t(5) Param = expr_context_t(6) _expr_context_str = { 1: 'expr_context.Load', 2: 'expr_context.Store', 3: 'expr_context.Del', 4: 'expr_context.AugLoad', 5: 'expr_context.AugStore', 6: 'expr_context.Param', } def expr_context_str(val): # type: (expr_context_t) -> str return _expr_context_str[val] class y_lhs_e(object): Var = 67 Subscript = 96 Attribute = 97 _y_lhs_str = { 67: 'Var', 96: 'Subscript', 97: 'Attribute', } def y_lhs_str(tag, dot=True): # type: (int, bool) -> str v = _y_lhs_str[tag] if dot: return "y_lhs.%s" % v else: return v class y_lhs_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class y_lhs(object): pass class place_op_e(object): Subscript = 1 Attribute = 2 _place_op_str = { 1: 'Subscript', 2: 'Attribute', } def place_op_str(tag, dot=True): # type: (int, bool) -> str v = _place_op_str[tag] if dot: return "place_op.%s" % v else: return v class place_op_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class place_op(object): class Subscript(place_op_t): _type_tag = 1 __slots__ = ('op', 'index') def __init__(self, op, index): # type: (Token, expr_t) -> None self.op = op self.index = index @staticmethod def CreateNull(alloc_lists=False): # type: () -> place_op.Subscript return place_op.Subscript(cast(Token, None), cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('place_op.Subscript') L = out_node.fields assert self.op is not None x0 = self.op.PrettyTree(trav=trav) L.append(Field('op', x0)) assert self.index is not None x1 = self.index.PrettyTree(trav=trav) L.append(Field('index', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('place_op.Subscript') L = out_node.fields assert self.op is not None x0 = self.op.AbbreviatedTree(trav=trav) L.append(Field('op', x0)) assert self.index is not None x1 = self.index.AbbreviatedTree(trav=trav) L.append(Field('index', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Attribute(place_op_t): _type_tag = 2 __slots__ = ('op', 'attr') def __init__(self, op, attr): # type: (Token, Token) -> None self.op = op self.attr = attr @staticmethod def CreateNull(alloc_lists=False): # type: () -> place_op.Attribute return place_op.Attribute(cast(Token, None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('place_op.Attribute') L = out_node.fields assert self.op is not None x0 = self.op.PrettyTree(trav=trav) L.append(Field('op', x0)) assert self.attr is not None x1 = self.attr.PrettyTree(trav=trav) L.append(Field('attr', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('place_op.Attribute') L = out_node.fields assert self.op is not None x0 = self.op.AbbreviatedTree(trav=trav) L.append(Field('op', x0)) assert self.attr is not None x1 = self.attr.AbbreviatedTree(trav=trav) L.append(Field('attr', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class expr_e(object): Var = 1 Const = 2 Place = 3 ShArrayLiteral = 74 Eggex = 82 SimpleVarSub = 72 BracedVarSub = 69 CommandSub = 73 SingleQuoted = 71 DoubleQuoted = 70 Literal = 11 Lambda = 12 Unary = 13 Binary = 14 Compare = 15 FuncCall = 16 IfExp = 17 Tuple = 18 List = 19 Dict = 20 Implicit = 21 ListComp = 22 DictComp = 23 GeneratorExp = 24 Range = 25 Slice = 26 Subscript = 96 Attribute = 97 Spread = 29 _expr_str = { 1: 'Var', 2: 'Const', 3: 'Place', 11: 'Literal', 12: 'Lambda', 13: 'Unary', 14: 'Binary', 15: 'Compare', 16: 'FuncCall', 17: 'IfExp', 18: 'Tuple', 19: 'List', 20: 'Dict', 21: 'Implicit', 22: 'ListComp', 23: 'DictComp', 24: 'GeneratorExp', 25: 'Range', 26: 'Slice', 29: 'Spread', 69: 'BracedVarSub', 70: 'DoubleQuoted', 71: 'SingleQuoted', 72: 'SimpleVarSub', 73: 'CommandSub', 74: 'ShArrayLiteral', 82: 'Eggex', 96: 'Subscript', 97: 'Attribute', } def expr_str(tag, dot=True): # type: (int, bool) -> str v = _expr_str[tag] if dot: return "expr.%s" % v else: return v class expr_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class expr__Implicit(expr_t): _type_tag = 21 __slots__ = () def __init__(self, ): # type: () -> None pass def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr__Implicit') L = out_node.fields return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr__Implicit') L = out_node.fields return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class expr(object): class Var(expr_t): _type_tag = 1 __slots__ = ('left', 'name') def __init__(self, left, name): # type: (Token, str) -> None self.left = left self.name = name @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.Var return expr.Var(cast(Token, None), '') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Var') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Var') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Const(expr_t): _type_tag = 2 __slots__ = ('c', 'val') def __init__(self, c, val): # type: (Token, value_t) -> None self.c = c self.val = val @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.Const return expr.Const(cast(Token, None), cast(value_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Const') L = out_node.fields assert self.c is not None x0 = self.c.PrettyTree(trav=trav) L.append(Field('c', x0)) assert self.val is not None x1 = self.val.PrettyTree(trav=trav) L.append(Field('val', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Const') L = out_node.fields assert self.c is not None x0 = self.c.AbbreviatedTree(trav=trav) L.append(Field('c', x0)) assert self.val is not None x1 = self.val.AbbreviatedTree(trav=trav) L.append(Field('val', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Place(expr_t): _type_tag = 3 __slots__ = ('blame_tok', 'var_name', 'ops') def __init__(self, blame_tok, var_name, ops): # type: (Token, str, List[place_op_t]) -> None self.blame_tok = blame_tok self.var_name = var_name self.ops = ops @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.Place return expr.Place(cast(Token, None), '', [] if alloc_lists else cast('List[place_op_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Place') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.PrettyTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = NewLeaf(self.var_name, color_e.StringConst) L.append(Field('var_name', x1)) if self.ops is not None: # List x2 = hnode.Array([]) for i2 in self.ops: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.PrettyTree(trav=trav)) x2.children.append(h) L.append(Field('ops', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Place') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.AbbreviatedTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = NewLeaf(self.var_name, color_e.StringConst) L.append(Field('var_name', x1)) if self.ops is not None: # List x2 = hnode.Array([]) for i2 in self.ops: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.AbbreviatedTree(trav=trav)) x2.children.append(h) L.append(Field('ops', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Literal(expr_t): _type_tag = 11 __slots__ = ('inner',) def __init__(self, inner): # type: (expr_t) -> None self.inner = inner @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.Literal return expr.Literal(cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Literal') L = out_node.fields assert self.inner is not None x0 = self.inner.PrettyTree(trav=trav) L.append(Field('inner', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Literal') L = out_node.fields assert self.inner is not None x0 = self.inner.AbbreviatedTree(trav=trav) L.append(Field('inner', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Lambda(expr_t): _type_tag = 12 __slots__ = ('params', 'body') def __init__(self, params, body): # type: (List[NameType], expr_t) -> None self.params = params self.body = body @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.Lambda return expr.Lambda([] if alloc_lists else cast('List[NameType]', None), cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Lambda') L = out_node.fields if self.params is not None: # List x0 = hnode.Array([]) for i0 in self.params: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.PrettyTree(trav=trav)) x0.children.append(h) L.append(Field('params', x0)) assert self.body is not None x1 = self.body.PrettyTree(trav=trav) L.append(Field('body', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Lambda') L = out_node.fields if self.params is not None: # List x0 = hnode.Array([]) for i0 in self.params: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.AbbreviatedTree(trav=trav)) x0.children.append(h) L.append(Field('params', x0)) assert self.body is not None x1 = self.body.AbbreviatedTree(trav=trav) L.append(Field('body', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Unary(expr_t): _type_tag = 13 __slots__ = ('op', 'child') def __init__(self, op, child): # type: (Token, expr_t) -> None self.op = op self.child = child @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.Unary return expr.Unary(cast(Token, None), cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Unary') L = out_node.fields assert self.op is not None x0 = self.op.PrettyTree(trav=trav) L.append(Field('op', x0)) assert self.child is not None x1 = self.child.PrettyTree(trav=trav) L.append(Field('child', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Unary') L = out_node.fields assert self.op is not None x0 = self.op.AbbreviatedTree(trav=trav) L.append(Field('op', x0)) assert self.child is not None x1 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Binary(expr_t): _type_tag = 14 __slots__ = ('op', 'left', 'right') def __init__(self, op, left, right): # type: (Token, expr_t, expr_t) -> None self.op = op self.left = left self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.Binary return expr.Binary(cast(Token, None), cast(expr_t, None), cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Binary') L = out_node.fields assert self.op is not None x0 = self.op.PrettyTree(trav=trav) L.append(Field('op', x0)) assert self.left is not None x1 = self.left.PrettyTree(trav=trav) L.append(Field('left', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Binary') L = out_node.fields assert self.op is not None x0 = self.op.AbbreviatedTree(trav=trav) L.append(Field('op', x0)) assert self.left is not None x1 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Compare(expr_t): _type_tag = 15 __slots__ = ('left', 'ops', 'comparators') def __init__(self, left, ops, comparators): # type: (expr_t, List[Token], List[expr_t]) -> None self.left = left self.ops = ops self.comparators = comparators @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.Compare return expr.Compare(cast(expr_t, None), [] if alloc_lists else cast('List[Token]', None), [] if alloc_lists else cast('List[expr_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Compare') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) if self.ops is not None: # List x1 = hnode.Array([]) for i1 in self.ops: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('ops', x1)) if self.comparators is not None: # List x2 = hnode.Array([]) for i2 in self.comparators: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.PrettyTree(trav=trav)) x2.children.append(h) L.append(Field('comparators', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Compare') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) if self.ops is not None: # List x1 = hnode.Array([]) for i1 in self.ops: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('ops', x1)) if self.comparators is not None: # List x2 = hnode.Array([]) for i2 in self.comparators: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.AbbreviatedTree(trav=trav)) x2.children.append(h) L.append(Field('comparators', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class FuncCall(expr_t): _type_tag = 16 __slots__ = ('func', 'args') def __init__(self, func, args): # type: (expr_t, ArgList) -> None self.func = func self.args = args @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.FuncCall return expr.FuncCall(cast(expr_t, None), cast(ArgList, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.FuncCall') L = out_node.fields assert self.func is not None x0 = self.func.PrettyTree(trav=trav) L.append(Field('func', x0)) assert self.args is not None x1 = self.args.PrettyTree(trav=trav) L.append(Field('args', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.FuncCall') L = out_node.fields assert self.func is not None x0 = self.func.AbbreviatedTree(trav=trav) L.append(Field('func', x0)) assert self.args is not None x1 = self.args.AbbreviatedTree(trav=trav) L.append(Field('args', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class IfExp(expr_t): _type_tag = 17 __slots__ = ('test', 'body', 'orelse') def __init__(self, test, body, orelse): # type: (expr_t, expr_t, expr_t) -> None self.test = test self.body = body self.orelse = orelse @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.IfExp return expr.IfExp(cast(expr_t, None), cast(expr_t, None), cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.IfExp') L = out_node.fields assert self.test is not None x0 = self.test.PrettyTree(trav=trav) L.append(Field('test', x0)) assert self.body is not None x1 = self.body.PrettyTree(trav=trav) L.append(Field('body', x1)) assert self.orelse is not None x2 = self.orelse.PrettyTree(trav=trav) L.append(Field('orelse', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.IfExp') L = out_node.fields assert self.test is not None x0 = self.test.AbbreviatedTree(trav=trav) L.append(Field('test', x0)) assert self.body is not None x1 = self.body.AbbreviatedTree(trav=trav) L.append(Field('body', x1)) assert self.orelse is not None x2 = self.orelse.AbbreviatedTree(trav=trav) L.append(Field('orelse', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Tuple(expr_t): _type_tag = 18 __slots__ = ('left', 'elts', 'ctx') def __init__(self, left, elts, ctx): # type: (Token, List[expr_t], expr_context_t) -> None self.left = left self.elts = elts self.ctx = ctx @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.Tuple return expr.Tuple(cast(Token, None), [] if alloc_lists else cast('List[expr_t]', None), expr_context_e.Load) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Tuple') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) if self.elts is not None: # List x1 = hnode.Array([]) for i1 in self.elts: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('elts', x1)) x2 = hnode.Leaf(expr_context_str(self.ctx), color_e.TypeName) L.append(Field('ctx', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Tuple') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) if self.elts is not None: # List x1 = hnode.Array([]) for i1 in self.elts: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('elts', x1)) x2 = hnode.Leaf(expr_context_str(self.ctx), color_e.TypeName) L.append(Field('ctx', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class List(expr_t): _type_tag = 19 __slots__ = ('left', 'elts', 'ctx') def __init__(self, left, elts, ctx): # type: (Token, List[expr_t], expr_context_t) -> None self.left = left self.elts = elts self.ctx = ctx @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.List return expr.List(cast(Token, None), [] if alloc_lists else cast('List[expr_t]', None), expr_context_e.Load) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.List') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) if self.elts is not None: # List x1 = hnode.Array([]) for i1 in self.elts: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('elts', x1)) x2 = hnode.Leaf(expr_context_str(self.ctx), color_e.TypeName) L.append(Field('ctx', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.List') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) if self.elts is not None: # List x1 = hnode.Array([]) for i1 in self.elts: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('elts', x1)) x2 = hnode.Leaf(expr_context_str(self.ctx), color_e.TypeName) L.append(Field('ctx', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Dict(expr_t): _type_tag = 20 __slots__ = ('left', 'keys', 'values') def __init__(self, left, keys, values): # type: (Token, List[expr_t], List[expr_t]) -> None self.left = left self.keys = keys self.values = values @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.Dict return expr.Dict(cast(Token, None), [] if alloc_lists else cast('List[expr_t]', None), [] if alloc_lists else cast('List[expr_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Dict') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) if self.keys is not None: # List x1 = hnode.Array([]) for i1 in self.keys: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('keys', x1)) if self.values is not None: # List x2 = hnode.Array([]) for i2 in self.values: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.PrettyTree(trav=trav)) x2.children.append(h) L.append(Field('values', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Dict') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) if self.keys is not None: # List x1 = hnode.Array([]) for i1 in self.keys: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('keys', x1)) if self.values is not None: # List x2 = hnode.Array([]) for i2 in self.values: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.AbbreviatedTree(trav=trav)) x2.children.append(h) L.append(Field('values', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) Implicit = expr__Implicit() class ListComp(expr_t): _type_tag = 22 __slots__ = ('left', 'elt', 'generators') def __init__(self, left, elt, generators): # type: (Token, expr_t, List[Comprehension]) -> None self.left = left self.elt = elt self.generators = generators @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.ListComp return expr.ListComp(cast(Token, None), cast(expr_t, None), [] if alloc_lists else cast('List[Comprehension]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.ListComp') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.elt is not None x1 = self.elt.PrettyTree(trav=trav) L.append(Field('elt', x1)) if self.generators is not None: # List x2 = hnode.Array([]) for i2 in self.generators: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.PrettyTree(trav=trav)) x2.children.append(h) L.append(Field('generators', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.ListComp') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.elt is not None x1 = self.elt.AbbreviatedTree(trav=trav) L.append(Field('elt', x1)) if self.generators is not None: # List x2 = hnode.Array([]) for i2 in self.generators: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.AbbreviatedTree(trav=trav)) x2.children.append(h) L.append(Field('generators', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class DictComp(expr_t): _type_tag = 23 __slots__ = ('left', 'key', 'value', 'generators') def __init__(self, left, key, value, generators): # type: (Token, expr_t, expr_t, List[Comprehension]) -> None self.left = left self.key = key self.value = value self.generators = generators @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.DictComp return expr.DictComp(cast(Token, None), cast(expr_t, None), cast(expr_t, None), [] if alloc_lists else cast('List[Comprehension]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.DictComp') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.key is not None x1 = self.key.PrettyTree(trav=trav) L.append(Field('key', x1)) assert self.value is not None x2 = self.value.PrettyTree(trav=trav) L.append(Field('value', x2)) if self.generators is not None: # List x3 = hnode.Array([]) for i3 in self.generators: h = (hnode.Leaf("_", color_e.OtherConst) if i3 is None else i3.PrettyTree(trav=trav)) x3.children.append(h) L.append(Field('generators', x3)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.DictComp') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.key is not None x1 = self.key.AbbreviatedTree(trav=trav) L.append(Field('key', x1)) assert self.value is not None x2 = self.value.AbbreviatedTree(trav=trav) L.append(Field('value', x2)) if self.generators is not None: # List x3 = hnode.Array([]) for i3 in self.generators: h = (hnode.Leaf("_", color_e.OtherConst) if i3 is None else i3.AbbreviatedTree(trav=trav)) x3.children.append(h) L.append(Field('generators', x3)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class GeneratorExp(expr_t): _type_tag = 24 __slots__ = ('elt', 'generators') def __init__(self, elt, generators): # type: (expr_t, List[Comprehension]) -> None self.elt = elt self.generators = generators @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.GeneratorExp return expr.GeneratorExp(cast(expr_t, None), [] if alloc_lists else cast('List[Comprehension]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.GeneratorExp') L = out_node.fields assert self.elt is not None x0 = self.elt.PrettyTree(trav=trav) L.append(Field('elt', x0)) if self.generators is not None: # List x1 = hnode.Array([]) for i1 in self.generators: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('generators', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.GeneratorExp') L = out_node.fields assert self.elt is not None x0 = self.elt.AbbreviatedTree(trav=trav) L.append(Field('elt', x0)) if self.generators is not None: # List x1 = hnode.Array([]) for i1 in self.generators: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('generators', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Range(expr_t): _type_tag = 25 __slots__ = ('lower', 'op', 'upper') def __init__(self, lower, op, upper): # type: (expr_t, Token, expr_t) -> None self.lower = lower self.op = op self.upper = upper @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.Range return expr.Range(cast(expr_t, None), cast(Token, None), cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Range') L = out_node.fields assert self.lower is not None x0 = self.lower.PrettyTree(trav=trav) L.append(Field('lower', x0)) assert self.op is not None x1 = self.op.PrettyTree(trav=trav) L.append(Field('op', x1)) assert self.upper is not None x2 = self.upper.PrettyTree(trav=trav) L.append(Field('upper', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Range') L = out_node.fields assert self.lower is not None x0 = self.lower.AbbreviatedTree(trav=trav) L.append(Field('lower', x0)) assert self.op is not None x1 = self.op.AbbreviatedTree(trav=trav) L.append(Field('op', x1)) assert self.upper is not None x2 = self.upper.AbbreviatedTree(trav=trav) L.append(Field('upper', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Slice(expr_t): _type_tag = 26 __slots__ = ('lower', 'op', 'upper') def __init__(self, lower, op, upper): # type: (Optional[expr_t], Token, Optional[expr_t]) -> None self.lower = lower self.op = op self.upper = upper @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.Slice return expr.Slice(cast('Optional[expr_t]', None), cast(Token, None), cast('Optional[expr_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Slice') L = out_node.fields if self.lower is not None: # Optional x0 = self.lower.PrettyTree(trav=trav) L.append(Field('lower', x0)) assert self.op is not None x1 = self.op.PrettyTree(trav=trav) L.append(Field('op', x1)) if self.upper is not None: # Optional x2 = self.upper.PrettyTree(trav=trav) L.append(Field('upper', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Slice') L = out_node.fields if self.lower is not None: # Optional x0 = self.lower.AbbreviatedTree(trav=trav) L.append(Field('lower', x0)) assert self.op is not None x1 = self.op.AbbreviatedTree(trav=trav) L.append(Field('op', x1)) if self.upper is not None: # Optional x2 = self.upper.AbbreviatedTree(trav=trav) L.append(Field('upper', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Spread(expr_t): _type_tag = 29 __slots__ = ('left', 'child') def __init__(self, left, child): # type: (Token, expr_t) -> None self.left = left self.child = child @staticmethod def CreateNull(alloc_lists=False): # type: () -> expr.Spread return expr.Spread(cast(Token, None), cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Spread') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.child is not None x1 = self.child.PrettyTree(trav=trav) L.append(Field('child', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('expr.Spread') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.child is not None x1 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class class_literal_term_e(object): PosixClass = 98 PerlClass = 99 CharRange = 101 CharCode = 100 SingleQuoted = 71 Splice = 6 _class_literal_term_str = { 6: 'Splice', 71: 'SingleQuoted', 98: 'PosixClass', 99: 'PerlClass', 100: 'CharCode', 101: 'CharRange', } def class_literal_term_str(tag, dot=True): # type: (int, bool) -> str v = _class_literal_term_str[tag] if dot: return "class_literal_term.%s" % v else: return v class class_literal_term_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class class_literal_term(object): class Splice(class_literal_term_t): _type_tag = 6 __slots__ = ('name', 'var_name') def __init__(self, name, var_name): # type: (Token, str) -> None self.name = name self.var_name = var_name @staticmethod def CreateNull(alloc_lists=False): # type: () -> class_literal_term.Splice return class_literal_term.Splice(cast(Token, None), '') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('class_literal_term.Splice') L = out_node.fields assert self.name is not None x0 = self.name.PrettyTree(trav=trav) L.append(Field('name', x0)) x1 = NewLeaf(self.var_name, color_e.StringConst) L.append(Field('var_name', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('class_literal_term.Splice') L = out_node.fields assert self.name is not None x0 = self.name.AbbreviatedTree(trav=trav) L.append(Field('name', x0)) x1 = NewLeaf(self.var_name, color_e.StringConst) L.append(Field('var_name', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class char_class_term_e(object): PosixClass = 98 PerlClass = 99 CharRange = 101 CharCode = 100 _char_class_term_str = { 98: 'PosixClass', 99: 'PerlClass', 100: 'CharCode', 101: 'CharRange', } def char_class_term_str(tag, dot=True): # type: (int, bool) -> str v = _char_class_term_str[tag] if dot: return "char_class_term.%s" % v else: return v class char_class_term_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class char_class_term(object): pass class re_repeat_e(object): Op = 67 Range = 2 _re_repeat_str = { 2: 'Range', 67: 'Op', } def re_repeat_str(tag, dot=True): # type: (int, bool) -> str v = _re_repeat_str[tag] if dot: return "re_repeat.%s" % v else: return v class re_repeat_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class re_repeat(object): class Range(re_repeat_t): _type_tag = 2 __slots__ = ('left', 'lower', 'upper', 'right') def __init__(self, left, lower, upper, right): # type: (Optional[Token], str, str, Optional[Token]) -> None self.left = left self.lower = lower self.upper = upper self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> re_repeat.Range return re_repeat.Range(cast('Optional[Token]', None), '', '', cast('Optional[Token]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re_repeat.Range') L = out_node.fields if self.left is not None: # Optional x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.lower, color_e.StringConst) L.append(Field('lower', x1)) x2 = NewLeaf(self.upper, color_e.StringConst) L.append(Field('upper', x2)) if self.right is not None: # Optional x3 = self.right.PrettyTree(trav=trav) L.append(Field('right', x3)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re_repeat.Range') L = out_node.fields if self.left is not None: # Optional x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.lower, color_e.StringConst) L.append(Field('lower', x1)) x2 = NewLeaf(self.upper, color_e.StringConst) L.append(Field('upper', x2)) if self.right is not None: # Optional x3 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x3)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class re_e(object): Primitive = 1 PosixClass = 98 PerlClass = 99 CharClassLiteral = 4 CharClass = 5 Splice = 6 SingleQuoted = 71 Repeat = 8 Seq = 9 Alt = 10 Group = 11 Capture = 12 Backtracking = 13 LiteralChars = 14 _re_str = { 1: 'Primitive', 4: 'CharClassLiteral', 5: 'CharClass', 6: 'Splice', 8: 'Repeat', 9: 'Seq', 10: 'Alt', 11: 'Group', 12: 'Capture', 13: 'Backtracking', 14: 'LiteralChars', 71: 'SingleQuoted', 98: 'PosixClass', 99: 'PerlClass', } def re_str(tag, dot=True): # type: (int, bool) -> str v = _re_str[tag] if dot: return "re.%s" % v else: return v class re_t(pybase.CompoundObj): def tag(self): # type: () -> int return self._type_tag pass class re(object): class Primitive(re_t): _type_tag = 1 __slots__ = ('blame_tok', 'id') def __init__(self, blame_tok, id): # type: (Token, Id_t) -> None self.blame_tok = blame_tok self.id = id @staticmethod def CreateNull(alloc_lists=False): # type: () -> re.Primitive return re.Primitive(cast(Token, None), -1) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Primitive') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.PrettyTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = hnode.Leaf(Id_str(self.id), color_e.UserType) L.append(Field('id', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Primitive') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.AbbreviatedTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = hnode.Leaf(Id_str(self.id), color_e.UserType) L.append(Field('id', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class CharClassLiteral(re_t): _type_tag = 4 __slots__ = ('negated', 'terms') def __init__(self, negated, terms): # type: (bool, List[class_literal_term_t]) -> None self.negated = negated self.terms = terms @staticmethod def CreateNull(alloc_lists=False): # type: () -> re.CharClassLiteral return re.CharClassLiteral(False, [] if alloc_lists else cast('List[class_literal_term_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.CharClassLiteral') L = out_node.fields x0 = hnode.Leaf('T' if self.negated else 'F', color_e.OtherConst) L.append(Field('negated', x0)) if self.terms is not None: # List x1 = hnode.Array([]) for i1 in self.terms: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('terms', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.CharClassLiteral') L = out_node.fields x0 = hnode.Leaf('T' if self.negated else 'F', color_e.OtherConst) L.append(Field('negated', x0)) if self.terms is not None: # List x1 = hnode.Array([]) for i1 in self.terms: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('terms', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class CharClass(re_t): _type_tag = 5 __slots__ = ('negated', 'terms') def __init__(self, negated, terms): # type: (bool, List[char_class_term_t]) -> None self.negated = negated self.terms = terms @staticmethod def CreateNull(alloc_lists=False): # type: () -> re.CharClass return re.CharClass(False, [] if alloc_lists else cast('List[char_class_term_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.CharClass') L = out_node.fields x0 = hnode.Leaf('T' if self.negated else 'F', color_e.OtherConst) L.append(Field('negated', x0)) if self.terms is not None: # List x1 = hnode.Array([]) for i1 in self.terms: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('terms', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.CharClass') L = out_node.fields x0 = hnode.Leaf('T' if self.negated else 'F', color_e.OtherConst) L.append(Field('negated', x0)) if self.terms is not None: # List x1 = hnode.Array([]) for i1 in self.terms: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('terms', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Splice(re_t): _type_tag = 6 __slots__ = ('name', 'var_name') def __init__(self, name, var_name): # type: (Token, str) -> None self.name = name self.var_name = var_name @staticmethod def CreateNull(alloc_lists=False): # type: () -> re.Splice return re.Splice(cast(Token, None), '') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Splice') L = out_node.fields assert self.name is not None x0 = self.name.PrettyTree(trav=trav) L.append(Field('name', x0)) x1 = NewLeaf(self.var_name, color_e.StringConst) L.append(Field('var_name', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Splice') L = out_node.fields assert self.name is not None x0 = self.name.AbbreviatedTree(trav=trav) L.append(Field('name', x0)) x1 = NewLeaf(self.var_name, color_e.StringConst) L.append(Field('var_name', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Repeat(re_t): _type_tag = 8 __slots__ = ('child', 'op') def __init__(self, child, op): # type: (re_t, re_repeat_t) -> None self.child = child self.op = op @staticmethod def CreateNull(alloc_lists=False): # type: () -> re.Repeat return re.Repeat(cast(re_t, None), cast(re_repeat_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Repeat') L = out_node.fields assert self.child is not None x0 = self.child.PrettyTree(trav=trav) L.append(Field('child', x0)) assert self.op is not None x1 = self.op.PrettyTree(trav=trav) L.append(Field('op', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Repeat') L = out_node.fields assert self.child is not None x0 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x0)) assert self.op is not None x1 = self.op.AbbreviatedTree(trav=trav) L.append(Field('op', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Seq(re_t): _type_tag = 9 __slots__ = ('children',) def __init__(self, children): # type: (List[re_t]) -> None self.children = children @staticmethod def CreateNull(alloc_lists=False): # type: () -> re.Seq return re.Seq([] if alloc_lists else cast('List[re_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Seq') L = out_node.fields if self.children is not None: # List x0 = hnode.Array([]) for i0 in self.children: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.PrettyTree(trav=trav)) x0.children.append(h) L.append(Field('children', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Seq') L = out_node.fields if self.children is not None: # List x0 = hnode.Array([]) for i0 in self.children: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.AbbreviatedTree(trav=trav)) x0.children.append(h) L.append(Field('children', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Alt(re_t): _type_tag = 10 __slots__ = ('children',) def __init__(self, children): # type: (List[re_t]) -> None self.children = children @staticmethod def CreateNull(alloc_lists=False): # type: () -> re.Alt return re.Alt([] if alloc_lists else cast('List[re_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Alt') L = out_node.fields if self.children is not None: # List x0 = hnode.Array([]) for i0 in self.children: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.PrettyTree(trav=trav)) x0.children.append(h) L.append(Field('children', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Alt') L = out_node.fields if self.children is not None: # List x0 = hnode.Array([]) for i0 in self.children: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.AbbreviatedTree(trav=trav)) x0.children.append(h) L.append(Field('children', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Group(re_t): _type_tag = 11 __slots__ = ('child',) def __init__(self, child): # type: (re_t) -> None self.child = child @staticmethod def CreateNull(alloc_lists=False): # type: () -> re.Group return re.Group(cast(re_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Group') L = out_node.fields assert self.child is not None x0 = self.child.PrettyTree(trav=trav) L.append(Field('child', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Group') L = out_node.fields assert self.child is not None x0 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Capture(re_t): _type_tag = 12 __slots__ = ('child', 'name', 'func_name') def __init__(self, child, name, func_name): # type: (re_t, Optional[Token], Optional[Token]) -> None self.child = child self.name = name self.func_name = func_name @staticmethod def CreateNull(alloc_lists=False): # type: () -> re.Capture return re.Capture(cast(re_t, None), cast('Optional[Token]', None), cast('Optional[Token]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Capture') L = out_node.fields assert self.child is not None x0 = self.child.PrettyTree(trav=trav) L.append(Field('child', x0)) if self.name is not None: # Optional x1 = self.name.PrettyTree(trav=trav) L.append(Field('name', x1)) if self.func_name is not None: # Optional x2 = self.func_name.PrettyTree(trav=trav) L.append(Field('func_name', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Capture') L = out_node.fields assert self.child is not None x0 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x0)) if self.name is not None: # Optional x1 = self.name.AbbreviatedTree(trav=trav) L.append(Field('name', x1)) if self.func_name is not None: # Optional x2 = self.func_name.AbbreviatedTree(trav=trav) L.append(Field('func_name', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Backtracking(re_t): _type_tag = 13 __slots__ = ('negated', 'name', 'child') def __init__(self, negated, name, child): # type: (bool, Token, re_t) -> None self.negated = negated self.name = name self.child = child @staticmethod def CreateNull(alloc_lists=False): # type: () -> re.Backtracking return re.Backtracking(False, cast(Token, None), cast(re_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Backtracking') L = out_node.fields x0 = hnode.Leaf('T' if self.negated else 'F', color_e.OtherConst) L.append(Field('negated', x0)) assert self.name is not None x1 = self.name.PrettyTree(trav=trav) L.append(Field('name', x1)) assert self.child is not None x2 = self.child.PrettyTree(trav=trav) L.append(Field('child', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.Backtracking') L = out_node.fields x0 = hnode.Leaf('T' if self.negated else 'F', color_e.OtherConst) L.append(Field('negated', x0)) assert self.name is not None x1 = self.name.AbbreviatedTree(trav=trav) L.append(Field('name', x1)) assert self.child is not None x2 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class LiteralChars(re_t): _type_tag = 14 __slots__ = ('blame_tok', 's') def __init__(self, blame_tok, s): # type: (Token, str) -> None self.blame_tok = blame_tok self.s = s @staticmethod def CreateNull(alloc_lists=False): # type: () -> re.LiteralChars return re.LiteralChars(cast(Token, None), '') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.LiteralChars') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.PrettyTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = NewLeaf(self.s, color_e.StringConst) L.append(Field('s', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('re.LiteralChars') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.AbbreviatedTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = NewLeaf(self.s, color_e.StringConst) L.append(Field('s', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) pass class BoolParamBox(pybase.CompoundObj): _type_tag = 64 __slots__ = ('b',) def __init__(self, b): # type: (bool) -> None self.b = b @staticmethod def CreateNull(alloc_lists=False): # type: () -> BoolParamBox return BoolParamBox(False) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('BoolParamBox') L = out_node.fields x0 = hnode.Leaf('T' if self.b else 'F', color_e.OtherConst) L.append(Field('b', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('BoolParamBox') L = out_node.fields x0 = hnode.Leaf('T' if self.b else 'F', color_e.OtherConst) L.append(Field('b', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class IntParamBox(pybase.CompoundObj): _type_tag = 65 __slots__ = ('i',) def __init__(self, i): # type: (int) -> None self.i = i @staticmethod def CreateNull(alloc_lists=False): # type: () -> IntParamBox return IntParamBox(-1) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('IntParamBox') L = out_node.fields x0 = hnode.Leaf(str(self.i), color_e.OtherConst) L.append(Field('i', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('IntParamBox') L = out_node.fields x0 = hnode.Leaf(str(self.i), color_e.OtherConst) L.append(Field('i', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class SourceLine(pybase.CompoundObj): _type_tag = 66 __slots__ = ('line_num', 'content', 'src') def __init__(self, line_num, content, src): # type: (int, str, source_t) -> None self.line_num = line_num self.content = content self.src = src @staticmethod def CreateNull(alloc_lists=False): # type: () -> SourceLine return SourceLine(-1, '', cast(source_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('SourceLine') L = out_node.fields x0 = hnode.Leaf(str(self.line_num), color_e.OtherConst) L.append(Field('line_num', x0)) x1 = NewLeaf(self.content, color_e.StringConst) L.append(Field('content', x1)) assert self.src is not None x2 = self.src.PrettyTree(trav=trav) L.append(Field('src', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('SourceLine') L = out_node.fields x0 = hnode.Leaf(str(self.line_num), color_e.OtherConst) L.append(Field('line_num', x0)) x1 = NewLeaf(self.content, color_e.StringConst) L.append(Field('content', x1)) assert self.src is not None x2 = self.src.AbbreviatedTree(trav=trav) L.append(Field('src', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Token(loc_t, suffix_op_t, word_part_t, word_t, arith_expr_t, printf_part_t, y_lhs_t, re_repeat_t): _type_tag = 67 __slots__ = ('id', 'length', 'col', 'line', 'tval') def __init__(self, id, length, col, line, tval): # type: (Id_t, int, int, Optional[SourceLine], Optional[str]) -> None self.id = id self.length = length self.col = col self.line = line self.tval = tval @staticmethod def CreateNull(alloc_lists=False): # type: () -> Token return Token(-1, cast(int, None), -1, cast('Optional[SourceLine]', None), cast('Optional[str]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Token') L = out_node.fields x0 = hnode.Leaf(Id_str(self.id), color_e.UserType) L.append(Field('id', x0)) x1 = hnode.Leaf(str(self.length), color_e.OtherConst) L.append(Field('length', x1)) x2 = hnode.Leaf(str(self.col), color_e.OtherConst) L.append(Field('col', x2)) if self.line is not None: # Optional x3 = self.line.PrettyTree(trav=trav) L.append(Field('line', x3)) if self.tval is not None: # Optional x4 = NewLeaf(self.tval, color_e.StringConst) L.append(Field('tval', x4)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Token') L = out_node.fields x0 = hnode.Leaf(Id_str(self.id), color_e.UserType) L.append(Field('id', x0)) x1 = hnode.Leaf(str(self.length), color_e.OtherConst) L.append(Field('length', x1)) x2 = hnode.Leaf(str(self.col), color_e.OtherConst) L.append(Field('col', x2)) if self.line is not None: # Optional x3 = self.line.AbbreviatedTree(trav=trav) L.append(Field('line', x3)) if self.tval is not None: # Optional x4 = NewLeaf(self.tval, color_e.StringConst) L.append(Field('tval', x4)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t p = _Token(self) return p if p else self._AbbreviatedTree(trav=trav) class CompoundWord(loc_t, rhs_word_t, word_t, arith_expr_t, redir_param_t): _type_tag = 68 __slots__ = ('parts',) def __init__(self, parts): # type: (List[word_part_t]) -> None self.parts = parts @staticmethod def CreateNull(alloc_lists=False): # type: () -> CompoundWord return CompoundWord([] if alloc_lists else cast('List[word_part_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('CompoundWord') L = out_node.fields if self.parts is not None: # List x0 = hnode.Array([]) for i0 in self.parts: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.PrettyTree(trav=trav)) x0.children.append(h) L.append(Field('parts', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('CompoundWord') L = out_node.fields if self.parts is not None: # List x0 = hnode.Array([]) for i0 in self.parts: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.AbbreviatedTree(trav=trav)) x0.children.append(h) L.append(Field('parts', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t p = _CompoundWord(self) return p if p else self._AbbreviatedTree(trav=trav) class BracedVarSub(word_part_t, expr_t): _type_tag = 69 __slots__ = ('left', 'token', 'var_name', 'prefix_op', 'bracket_op', 'suffix_op', 'right') def __init__(self, left, token, var_name, prefix_op, bracket_op, suffix_op, right): # type: (Token, Token, str, Optional[Token], Optional[bracket_op_t], Optional[suffix_op_t], Token) -> None self.left = left self.token = token self.var_name = var_name self.prefix_op = prefix_op self.bracket_op = bracket_op self.suffix_op = suffix_op self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> BracedVarSub return BracedVarSub(cast(Token, None), cast(Token, None), '', cast('Optional[Token]', None), cast('Optional[bracket_op_t]', None), cast('Optional[suffix_op_t]', None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('BracedVarSub') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.token is not None x1 = self.token.PrettyTree(trav=trav) L.append(Field('token', x1)) x2 = NewLeaf(self.var_name, color_e.StringConst) L.append(Field('var_name', x2)) if self.prefix_op is not None: # Optional x3 = self.prefix_op.PrettyTree(trav=trav) L.append(Field('prefix_op', x3)) if self.bracket_op is not None: # Optional x4 = self.bracket_op.PrettyTree(trav=trav) L.append(Field('bracket_op', x4)) if self.suffix_op is not None: # Optional x5 = self.suffix_op.PrettyTree(trav=trav) L.append(Field('suffix_op', x5)) assert self.right is not None x6 = self.right.PrettyTree(trav=trav) L.append(Field('right', x6)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('BracedVarSub') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.token is not None x1 = self.token.AbbreviatedTree(trav=trav) L.append(Field('token', x1)) x2 = NewLeaf(self.var_name, color_e.StringConst) L.append(Field('var_name', x2)) if self.prefix_op is not None: # Optional x3 = self.prefix_op.AbbreviatedTree(trav=trav) L.append(Field('prefix_op', x3)) if self.bracket_op is not None: # Optional x4 = self.bracket_op.AbbreviatedTree(trav=trav) L.append(Field('bracket_op', x4)) if self.suffix_op is not None: # Optional x5 = self.suffix_op.AbbreviatedTree(trav=trav) L.append(Field('suffix_op', x5)) assert self.right is not None x6 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x6)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t p = _BracedVarSub(self) return p if p else self._AbbreviatedTree(trav=trav) class DoubleQuoted(word_part_t, expr_t): _type_tag = 70 __slots__ = ('left', 'parts', 'right') def __init__(self, left, parts, right): # type: (Token, List[word_part_t], Token) -> None self.left = left self.parts = parts self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> DoubleQuoted return DoubleQuoted(cast(Token, None), [] if alloc_lists else cast('List[word_part_t]', None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('DoubleQuoted') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) if self.parts is not None: # List x1 = hnode.Array([]) for i1 in self.parts: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('parts', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('DoubleQuoted') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) if self.parts is not None: # List x1 = hnode.Array([]) for i1 in self.parts: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('parts', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t p = _DoubleQuoted(self) return p if p else self._AbbreviatedTree(trav=trav) class SingleQuoted(word_part_t, expr_t, class_literal_term_t, re_t): _type_tag = 71 __slots__ = ('left', 'sval', 'right') def __init__(self, left, sval, right): # type: (Token, str, Token) -> None self.left = left self.sval = sval self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> SingleQuoted return SingleQuoted(cast(Token, None), '', cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('SingleQuoted') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.sval, color_e.StringConst) L.append(Field('sval', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('SingleQuoted') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.sval, color_e.StringConst) L.append(Field('sval', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t p = _SingleQuoted(self) return p if p else self._AbbreviatedTree(trav=trav) class SimpleVarSub(word_part_t, expr_t): _type_tag = 72 __slots__ = ('tok',) def __init__(self, tok): # type: (Token) -> None self.tok = tok @staticmethod def CreateNull(alloc_lists=False): # type: () -> SimpleVarSub return SimpleVarSub(cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('SimpleVarSub') L = out_node.fields assert self.tok is not None x0 = self.tok.PrettyTree(trav=trav) L.append(Field('tok', x0)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('SimpleVarSub') L = out_node.fields assert self.tok is not None x0 = self.tok.AbbreviatedTree(trav=trav) L.append(Field('tok', x0)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t p = _SimpleVarSub(self) return p if p else self._AbbreviatedTree(trav=trav) class CommandSub(word_part_t, expr_t): _type_tag = 73 __slots__ = ('left_token', 'child', 'right') def __init__(self, left_token, child, right): # type: (Token, command_t, Token) -> None self.left_token = left_token self.child = child self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> CommandSub return CommandSub(cast(Token, None), cast(command_t, None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('CommandSub') L = out_node.fields assert self.left_token is not None x0 = self.left_token.PrettyTree(trav=trav) L.append(Field('left_token', x0)) assert self.child is not None x1 = self.child.PrettyTree(trav=trav) L.append(Field('child', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('CommandSub') L = out_node.fields assert self.left_token is not None x0 = self.left_token.AbbreviatedTree(trav=trav) L.append(Field('left_token', x0)) assert self.child is not None x1 = self.child.AbbreviatedTree(trav=trav) L.append(Field('child', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ShArrayLiteral(word_part_t, expr_t): _type_tag = 74 __slots__ = ('left', 'words', 'right') def __init__(self, left, words, right): # type: (Token, List[word_t], Token) -> None self.left = left self.words = words self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> ShArrayLiteral return ShArrayLiteral(cast(Token, None), [] if alloc_lists else cast('List[word_t]', None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('ShArrayLiteral') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) if self.words is not None: # List x1 = hnode.Array([]) for i1 in self.words: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('words', x1)) assert self.right is not None x2 = self.right.PrettyTree(trav=trav) L.append(Field('right', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('ShArrayLiteral') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) if self.words is not None: # List x1 = hnode.Array([]) for i1 in self.words: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('words', x1)) assert self.right is not None x2 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ArgList(pybase.CompoundObj): _type_tag = 75 __slots__ = ('left', 'pos_args', 'semi_tok', 'named_args', 'semi_tok2', 'block_expr', 'right') def __init__(self, left, pos_args, semi_tok, named_args, semi_tok2, block_expr, right): # type: (Token, List[expr_t], Optional[Token], List[NamedArg], Optional[Token], Optional[expr_t], Token) -> None self.left = left self.pos_args = pos_args self.semi_tok = semi_tok self.named_args = named_args self.semi_tok2 = semi_tok2 self.block_expr = block_expr self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> ArgList return ArgList(cast(Token, None), [] if alloc_lists else cast('List[expr_t]', None), cast('Optional[Token]', None), [] if alloc_lists else cast('List[NamedArg]', None), cast('Optional[Token]', None), cast('Optional[expr_t]', None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('ArgList') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) if self.pos_args is not None: # List x1 = hnode.Array([]) for i1 in self.pos_args: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('pos_args', x1)) if self.semi_tok is not None: # Optional x2 = self.semi_tok.PrettyTree(trav=trav) L.append(Field('semi_tok', x2)) if self.named_args is not None: # List x3 = hnode.Array([]) for i3 in self.named_args: h = (hnode.Leaf("_", color_e.OtherConst) if i3 is None else i3.PrettyTree(trav=trav)) x3.children.append(h) L.append(Field('named_args', x3)) if self.semi_tok2 is not None: # Optional x4 = self.semi_tok2.PrettyTree(trav=trav) L.append(Field('semi_tok2', x4)) if self.block_expr is not None: # Optional x5 = self.block_expr.PrettyTree(trav=trav) L.append(Field('block_expr', x5)) assert self.right is not None x6 = self.right.PrettyTree(trav=trav) L.append(Field('right', x6)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('ArgList') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) if self.pos_args is not None: # List x1 = hnode.Array([]) for i1 in self.pos_args: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('pos_args', x1)) if self.semi_tok is not None: # Optional x2 = self.semi_tok.AbbreviatedTree(trav=trav) L.append(Field('semi_tok', x2)) if self.named_args is not None: # List x3 = hnode.Array([]) for i3 in self.named_args: h = (hnode.Leaf("_", color_e.OtherConst) if i3 is None else i3.AbbreviatedTree(trav=trav)) x3.children.append(h) L.append(Field('named_args', x3)) if self.semi_tok2 is not None: # Optional x4 = self.semi_tok2.AbbreviatedTree(trav=trav) L.append(Field('semi_tok2', x4)) if self.block_expr is not None: # Optional x5 = self.block_expr.AbbreviatedTree(trav=trav) L.append(Field('block_expr', x5)) assert self.right is not None x6 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x6)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class AssocPair(pybase.CompoundObj): _type_tag = 76 __slots__ = ('key', 'value') def __init__(self, key, value): # type: (CompoundWord, CompoundWord) -> None self.key = key self.value = value @staticmethod def CreateNull(alloc_lists=False): # type: () -> AssocPair return AssocPair(cast(CompoundWord, None), cast(CompoundWord, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('AssocPair') L = out_node.fields assert self.key is not None x0 = self.key.PrettyTree(trav=trav) L.append(Field('key', x0)) assert self.value is not None x1 = self.value.PrettyTree(trav=trav) L.append(Field('value', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('AssocPair') L = out_node.fields assert self.key is not None x0 = self.key.AbbreviatedTree(trav=trav) L.append(Field('key', x0)) assert self.value is not None x1 = self.value.AbbreviatedTree(trav=trav) L.append(Field('value', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Redir(pybase.CompoundObj): _type_tag = 77 __slots__ = ('op', 'loc', 'arg') def __init__(self, op, loc, arg): # type: (Token, redir_loc_t, redir_param_t) -> None self.op = op self.loc = loc self.arg = arg @staticmethod def CreateNull(alloc_lists=False): # type: () -> Redir return Redir(cast(Token, None), cast(redir_loc_t, None), cast(redir_param_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Redir') L = out_node.fields assert self.op is not None x0 = self.op.PrettyTree(trav=trav) L.append(Field('op', x0)) assert self.loc is not None x1 = self.loc.PrettyTree(trav=trav) L.append(Field('loc', x1)) assert self.arg is not None x2 = self.arg.PrettyTree(trav=trav) L.append(Field('arg', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Redir') L = out_node.fields assert self.op is not None x0 = self.op.AbbreviatedTree(trav=trav) L.append(Field('op', x0)) assert self.loc is not None x1 = self.loc.AbbreviatedTree(trav=trav) L.append(Field('loc', x1)) assert self.arg is not None x2 = self.arg.AbbreviatedTree(trav=trav) L.append(Field('arg', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class AssignPair(pybase.CompoundObj): _type_tag = 78 __slots__ = ('left', 'lhs', 'op', 'rhs') def __init__(self, left, lhs, op, rhs): # type: (Token, sh_lhs_t, assign_op_t, rhs_word_t) -> None self.left = left self.lhs = lhs self.op = op self.rhs = rhs @staticmethod def CreateNull(alloc_lists=False): # type: () -> AssignPair return AssignPair(cast(Token, None), cast(sh_lhs_t, None), assign_op_e.Equal, cast(rhs_word_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('AssignPair') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.lhs is not None x1 = self.lhs.PrettyTree(trav=trav) L.append(Field('lhs', x1)) x2 = hnode.Leaf(assign_op_str(self.op), color_e.TypeName) L.append(Field('op', x2)) assert self.rhs is not None x3 = self.rhs.PrettyTree(trav=trav) L.append(Field('rhs', x3)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('AssignPair') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.lhs is not None x1 = self.lhs.AbbreviatedTree(trav=trav) L.append(Field('lhs', x1)) x2 = hnode.Leaf(assign_op_str(self.op), color_e.TypeName) L.append(Field('op', x2)) assert self.rhs is not None x3 = self.rhs.AbbreviatedTree(trav=trav) L.append(Field('rhs', x3)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class EnvPair(pybase.CompoundObj): _type_tag = 79 __slots__ = ('left', 'name', 'val') def __init__(self, left, name, val): # type: (Token, str, rhs_word_t) -> None self.left = left self.name = name self.val = val @staticmethod def CreateNull(alloc_lists=False): # type: () -> EnvPair return EnvPair(cast(Token, None), '', cast(rhs_word_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('EnvPair') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) assert self.val is not None x2 = self.val.PrettyTree(trav=trav) L.append(Field('val', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('EnvPair') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) assert self.val is not None x2 = self.val.AbbreviatedTree(trav=trav) L.append(Field('val', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class CaseArm(pybase.CompoundObj): _type_tag = 80 __slots__ = ('left', 'pattern', 'middle', 'action', 'right') def __init__(self, left, pattern, middle, action, right): # type: (Token, pat_t, Token, List[command_t], Optional[Token]) -> None self.left = left self.pattern = pattern self.middle = middle self.action = action self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> CaseArm return CaseArm(cast(Token, None), cast(pat_t, None), cast(Token, None), [] if alloc_lists else cast('List[command_t]', None), cast('Optional[Token]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('CaseArm') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.pattern is not None x1 = self.pattern.PrettyTree(trav=trav) L.append(Field('pattern', x1)) assert self.middle is not None x2 = self.middle.PrettyTree(trav=trav) L.append(Field('middle', x2)) if self.action is not None: # List x3 = hnode.Array([]) for i3 in self.action: h = (hnode.Leaf("_", color_e.OtherConst) if i3 is None else i3.PrettyTree(trav=trav)) x3.children.append(h) L.append(Field('action', x3)) if self.right is not None: # Optional x4 = self.right.PrettyTree(trav=trav) L.append(Field('right', x4)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('CaseArm') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.pattern is not None x1 = self.pattern.AbbreviatedTree(trav=trav) L.append(Field('pattern', x1)) assert self.middle is not None x2 = self.middle.AbbreviatedTree(trav=trav) L.append(Field('middle', x2)) if self.action is not None: # List x3 = hnode.Array([]) for i3 in self.action: h = (hnode.Leaf("_", color_e.OtherConst) if i3 is None else i3.AbbreviatedTree(trav=trav)) x3.children.append(h) L.append(Field('action', x3)) if self.right is not None: # Optional x4 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x4)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class EggexFlag(pybase.CompoundObj): _type_tag = 81 __slots__ = ('negated', 'flag') def __init__(self, negated, flag): # type: (bool, Token) -> None self.negated = negated self.flag = flag @staticmethod def CreateNull(alloc_lists=False): # type: () -> EggexFlag return EggexFlag(False, cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('EggexFlag') L = out_node.fields x0 = hnode.Leaf('T' if self.negated else 'F', color_e.OtherConst) L.append(Field('negated', x0)) assert self.flag is not None x1 = self.flag.PrettyTree(trav=trav) L.append(Field('flag', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('EggexFlag') L = out_node.fields x0 = hnode.Leaf('T' if self.negated else 'F', color_e.OtherConst) L.append(Field('negated', x0)) assert self.flag is not None x1 = self.flag.AbbreviatedTree(trav=trav) L.append(Field('flag', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Eggex(pat_t, expr_t): _type_tag = 82 __slots__ = ('left', 'regex', 'flags', 'trans_pref', 'canonical_flags') def __init__(self, left, regex, flags, trans_pref, canonical_flags): # type: (Token, re_t, List[EggexFlag], Optional[Token], Optional[str]) -> None self.left = left self.regex = regex self.flags = flags self.trans_pref = trans_pref self.canonical_flags = canonical_flags @staticmethod def CreateNull(alloc_lists=False): # type: () -> Eggex return Eggex(cast(Token, None), cast(re_t, None), [] if alloc_lists else cast('List[EggexFlag]', None), cast('Optional[Token]', None), cast('Optional[str]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Eggex') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.regex is not None x1 = self.regex.PrettyTree(trav=trav) L.append(Field('regex', x1)) if self.flags is not None: # List x2 = hnode.Array([]) for i2 in self.flags: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.PrettyTree(trav=trav)) x2.children.append(h) L.append(Field('flags', x2)) if self.trans_pref is not None: # Optional x3 = self.trans_pref.PrettyTree(trav=trav) L.append(Field('trans_pref', x3)) if self.canonical_flags is not None: # Optional x4 = NewLeaf(self.canonical_flags, color_e.StringConst) L.append(Field('canonical_flags', x4)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Eggex') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.regex is not None x1 = self.regex.AbbreviatedTree(trav=trav) L.append(Field('regex', x1)) if self.flags is not None: # List x2 = hnode.Array([]) for i2 in self.flags: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.AbbreviatedTree(trav=trav)) x2.children.append(h) L.append(Field('flags', x2)) if self.trans_pref is not None: # Optional x3 = self.trans_pref.AbbreviatedTree(trav=trav) L.append(Field('trans_pref', x3)) if self.canonical_flags is not None: # Optional x4 = NewLeaf(self.canonical_flags, color_e.StringConst) L.append(Field('canonical_flags', x4)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class IfArm(pybase.CompoundObj): _type_tag = 83 __slots__ = ('keyword', 'cond', 'then_kw', 'action', 'then_tok') def __init__(self, keyword, cond, then_kw, action, then_tok): # type: (Token, condition_t, Optional[Token], List[command_t], Optional[Token]) -> None self.keyword = keyword self.cond = cond self.then_kw = then_kw self.action = action self.then_tok = then_tok @staticmethod def CreateNull(alloc_lists=False): # type: () -> IfArm return IfArm(cast(Token, None), cast(condition_t, None), cast('Optional[Token]', None), [] if alloc_lists else cast('List[command_t]', None), cast('Optional[Token]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('IfArm') L = out_node.fields assert self.keyword is not None x0 = self.keyword.PrettyTree(trav=trav) L.append(Field('keyword', x0)) assert self.cond is not None x1 = self.cond.PrettyTree(trav=trav) L.append(Field('cond', x1)) if self.then_kw is not None: # Optional x2 = self.then_kw.PrettyTree(trav=trav) L.append(Field('then_kw', x2)) if self.action is not None: # List x3 = hnode.Array([]) for i3 in self.action: h = (hnode.Leaf("_", color_e.OtherConst) if i3 is None else i3.PrettyTree(trav=trav)) x3.children.append(h) L.append(Field('action', x3)) if self.then_tok is not None: # Optional x4 = self.then_tok.PrettyTree(trav=trav) L.append(Field('then_tok', x4)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('IfArm') L = out_node.fields assert self.keyword is not None x0 = self.keyword.AbbreviatedTree(trav=trav) L.append(Field('keyword', x0)) assert self.cond is not None x1 = self.cond.AbbreviatedTree(trav=trav) L.append(Field('cond', x1)) if self.then_kw is not None: # Optional x2 = self.then_kw.AbbreviatedTree(trav=trav) L.append(Field('then_kw', x2)) if self.action is not None: # List x3 = hnode.Array([]) for i3 in self.action: h = (hnode.Leaf("_", color_e.OtherConst) if i3 is None else i3.AbbreviatedTree(trav=trav)) x3.children.append(h) L.append(Field('action', x3)) if self.then_tok is not None: # Optional x4 = self.then_tok.AbbreviatedTree(trav=trav) L.append(Field('then_tok', x4)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class BraceGroup(command_t): _type_tag = 84 __slots__ = ('left', 'doc_token', 'children', 'right') def __init__(self, left, doc_token, children, right): # type: (Token, Optional[Token], List[command_t], Token) -> None self.left = left self.doc_token = doc_token self.children = children self.right = right @staticmethod def CreateNull(alloc_lists=False): # type: () -> BraceGroup return BraceGroup(cast(Token, None), cast('Optional[Token]', None), [] if alloc_lists else cast('List[command_t]', None), cast(Token, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('BraceGroup') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) if self.doc_token is not None: # Optional x1 = self.doc_token.PrettyTree(trav=trav) L.append(Field('doc_token', x1)) if self.children is not None: # List x2 = hnode.Array([]) for i2 in self.children: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.PrettyTree(trav=trav)) x2.children.append(h) L.append(Field('children', x2)) assert self.right is not None x3 = self.right.PrettyTree(trav=trav) L.append(Field('right', x3)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('BraceGroup') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) if self.doc_token is not None: # Optional x1 = self.doc_token.AbbreviatedTree(trav=trav) L.append(Field('doc_token', x1)) if self.children is not None: # List x2 = hnode.Array([]) for i2 in self.children: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.AbbreviatedTree(trav=trav)) x2.children.append(h) L.append(Field('children', x2)) assert self.right is not None x3 = self.right.AbbreviatedTree(trav=trav) L.append(Field('right', x3)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Param(pybase.CompoundObj): _type_tag = 85 __slots__ = ('blame_tok', 'name', 'type', 'default_val') def __init__(self, blame_tok, name, type, default_val): # type: (Token, str, Optional[TypeExpr], Optional[expr_t]) -> None self.blame_tok = blame_tok self.name = name self.type = type self.default_val = default_val @staticmethod def CreateNull(alloc_lists=False): # type: () -> Param return Param(cast(Token, None), '', cast('Optional[TypeExpr]', None), cast('Optional[expr_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Param') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.PrettyTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) if self.type is not None: # Optional x2 = self.type.PrettyTree(trav=trav) L.append(Field('type', x2)) if self.default_val is not None: # Optional x3 = self.default_val.PrettyTree(trav=trav) L.append(Field('default_val', x3)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Param') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.AbbreviatedTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) if self.type is not None: # Optional x2 = self.type.AbbreviatedTree(trav=trav) L.append(Field('type', x2)) if self.default_val is not None: # Optional x3 = self.default_val.AbbreviatedTree(trav=trav) L.append(Field('default_val', x3)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class RestParam(pybase.CompoundObj): _type_tag = 86 __slots__ = ('blame_tok', 'name') def __init__(self, blame_tok, name): # type: (Token, str) -> None self.blame_tok = blame_tok self.name = name @staticmethod def CreateNull(alloc_lists=False): # type: () -> RestParam return RestParam(cast(Token, None), '') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('RestParam') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.PrettyTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('RestParam') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.AbbreviatedTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ParamGroup(pybase.CompoundObj): _type_tag = 87 __slots__ = ('params', 'rest_of') def __init__(self, params, rest_of): # type: (List[Param], Optional[RestParam]) -> None self.params = params self.rest_of = rest_of @staticmethod def CreateNull(alloc_lists=False): # type: () -> ParamGroup return ParamGroup([] if alloc_lists else cast('List[Param]', None), cast('Optional[RestParam]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('ParamGroup') L = out_node.fields if self.params is not None: # List x0 = hnode.Array([]) for i0 in self.params: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.PrettyTree(trav=trav)) x0.children.append(h) L.append(Field('params', x0)) if self.rest_of is not None: # Optional x1 = self.rest_of.PrettyTree(trav=trav) L.append(Field('rest_of', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('ParamGroup') L = out_node.fields if self.params is not None: # List x0 = hnode.Array([]) for i0 in self.params: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.AbbreviatedTree(trav=trav)) x0.children.append(h) L.append(Field('params', x0)) if self.rest_of is not None: # Optional x1 = self.rest_of.AbbreviatedTree(trav=trav) L.append(Field('rest_of', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Proc(command_t): _type_tag = 88 __slots__ = ('keyword', 'name', 'sig', 'body') def __init__(self, keyword, name, sig, body): # type: (Token, Token, proc_sig_t, command_t) -> None self.keyword = keyword self.name = name self.sig = sig self.body = body @staticmethod def CreateNull(alloc_lists=False): # type: () -> Proc return Proc(cast(Token, None), cast(Token, None), cast(proc_sig_t, None), cast(command_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Proc') L = out_node.fields assert self.keyword is not None x0 = self.keyword.PrettyTree(trav=trav) L.append(Field('keyword', x0)) assert self.name is not None x1 = self.name.PrettyTree(trav=trav) L.append(Field('name', x1)) assert self.sig is not None x2 = self.sig.PrettyTree(trav=trav) L.append(Field('sig', x2)) assert self.body is not None x3 = self.body.PrettyTree(trav=trav) L.append(Field('body', x3)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Proc') L = out_node.fields assert self.keyword is not None x0 = self.keyword.AbbreviatedTree(trav=trav) L.append(Field('keyword', x0)) assert self.name is not None x1 = self.name.AbbreviatedTree(trav=trav) L.append(Field('name', x1)) assert self.sig is not None x2 = self.sig.AbbreviatedTree(trav=trav) L.append(Field('sig', x2)) assert self.body is not None x3 = self.body.AbbreviatedTree(trav=trav) L.append(Field('body', x3)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Func(command_t): _type_tag = 89 __slots__ = ('keyword', 'name', 'positional', 'named', 'body') def __init__(self, keyword, name, positional, named, body): # type: (Token, Token, Optional[ParamGroup], Optional[ParamGroup], command_t) -> None self.keyword = keyword self.name = name self.positional = positional self.named = named self.body = body @staticmethod def CreateNull(alloc_lists=False): # type: () -> Func return Func(cast(Token, None), cast(Token, None), cast('Optional[ParamGroup]', None), cast('Optional[ParamGroup]', None), cast(command_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Func') L = out_node.fields assert self.keyword is not None x0 = self.keyword.PrettyTree(trav=trav) L.append(Field('keyword', x0)) assert self.name is not None x1 = self.name.PrettyTree(trav=trav) L.append(Field('name', x1)) if self.positional is not None: # Optional x2 = self.positional.PrettyTree(trav=trav) L.append(Field('positional', x2)) if self.named is not None: # Optional x3 = self.named.PrettyTree(trav=trav) L.append(Field('named', x3)) assert self.body is not None x4 = self.body.PrettyTree(trav=trav) L.append(Field('body', x4)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Func') L = out_node.fields assert self.keyword is not None x0 = self.keyword.AbbreviatedTree(trav=trav) L.append(Field('keyword', x0)) assert self.name is not None x1 = self.name.AbbreviatedTree(trav=trav) L.append(Field('name', x1)) if self.positional is not None: # Optional x2 = self.positional.AbbreviatedTree(trav=trav) L.append(Field('positional', x2)) if self.named is not None: # Optional x3 = self.named.AbbreviatedTree(trav=trav) L.append(Field('named', x3)) assert self.body is not None x4 = self.body.AbbreviatedTree(trav=trav) L.append(Field('body', x4)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class LiteralBlock(pybase.CompoundObj): _type_tag = 90 __slots__ = ('brace_group', 'lines') def __init__(self, brace_group, lines): # type: (BraceGroup, List[SourceLine]) -> None self.brace_group = brace_group self.lines = lines @staticmethod def CreateNull(alloc_lists=False): # type: () -> LiteralBlock return LiteralBlock(cast(BraceGroup, None), [] if alloc_lists else cast('List[SourceLine]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('LiteralBlock') L = out_node.fields assert self.brace_group is not None x0 = self.brace_group.PrettyTree(trav=trav) L.append(Field('brace_group', x0)) if self.lines is not None: # List x1 = hnode.Array([]) for i1 in self.lines: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.PrettyTree(trav=trav)) x1.children.append(h) L.append(Field('lines', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('LiteralBlock') L = out_node.fields assert self.brace_group is not None x0 = self.brace_group.AbbreviatedTree(trav=trav) L.append(Field('brace_group', x0)) if self.lines is not None: # List x1 = hnode.Array([]) for i1 in self.lines: h = (hnode.Leaf("_", color_e.OtherConst) if i1 is None else i1.AbbreviatedTree(trav=trav)) x1.children.append(h) L.append(Field('lines', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class ParsedAssignment(pybase.CompoundObj): _type_tag = 91 __slots__ = ('left', 'close', 'part_offset', 'w') def __init__(self, left, close, part_offset, w): # type: (Optional[Token], Optional[Token], int, CompoundWord) -> None self.left = left self.close = close self.part_offset = part_offset self.w = w @staticmethod def CreateNull(alloc_lists=False): # type: () -> ParsedAssignment return ParsedAssignment(cast('Optional[Token]', None), cast('Optional[Token]', None), -1, cast(CompoundWord, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('ParsedAssignment') L = out_node.fields if self.left is not None: # Optional x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) if self.close is not None: # Optional x1 = self.close.PrettyTree(trav=trav) L.append(Field('close', x1)) x2 = hnode.Leaf(str(self.part_offset), color_e.OtherConst) L.append(Field('part_offset', x2)) assert self.w is not None x3 = self.w.PrettyTree(trav=trav) L.append(Field('w', x3)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('ParsedAssignment') L = out_node.fields if self.left is not None: # Optional x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) if self.close is not None: # Optional x1 = self.close.AbbreviatedTree(trav=trav) L.append(Field('close', x1)) x2 = hnode.Leaf(str(self.part_offset), color_e.OtherConst) L.append(Field('part_offset', x2)) assert self.w is not None x3 = self.w.AbbreviatedTree(trav=trav) L.append(Field('w', x3)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class TypeExpr(pybase.CompoundObj): _type_tag = 92 __slots__ = ('tok', 'name', 'params') def __init__(self, tok, name, params): # type: (Token, str, List[TypeExpr]) -> None self.tok = tok self.name = name self.params = params @staticmethod def CreateNull(alloc_lists=False): # type: () -> TypeExpr return TypeExpr(cast(Token, None), '', [] if alloc_lists else cast('List[TypeExpr]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('TypeExpr') L = out_node.fields assert self.tok is not None x0 = self.tok.PrettyTree(trav=trav) L.append(Field('tok', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) if self.params is not None: # List x2 = hnode.Array([]) for i2 in self.params: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.PrettyTree(trav=trav)) x2.children.append(h) L.append(Field('params', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('TypeExpr') L = out_node.fields assert self.tok is not None x0 = self.tok.AbbreviatedTree(trav=trav) L.append(Field('tok', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) if self.params is not None: # List x2 = hnode.Array([]) for i2 in self.params: h = (hnode.Leaf("_", color_e.OtherConst) if i2 is None else i2.AbbreviatedTree(trav=trav)) x2.children.append(h) L.append(Field('params', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class NameType(pybase.CompoundObj): _type_tag = 93 __slots__ = ('left', 'name', 'typ') def __init__(self, left, name, typ): # type: (Token, str, Optional[TypeExpr]) -> None self.left = left self.name = name self.typ = typ @staticmethod def CreateNull(alloc_lists=False): # type: () -> NameType return NameType(cast(Token, None), '', cast('Optional[TypeExpr]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('NameType') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) if self.typ is not None: # Optional x2 = self.typ.PrettyTree(trav=trav) L.append(Field('typ', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('NameType') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) if self.typ is not None: # Optional x2 = self.typ.AbbreviatedTree(trav=trav) L.append(Field('typ', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Comprehension(pybase.CompoundObj): _type_tag = 94 __slots__ = ('lhs', 'iter', 'cond') def __init__(self, lhs, iter, cond): # type: (List[NameType], expr_t, Optional[expr_t]) -> None self.lhs = lhs self.iter = iter self.cond = cond @staticmethod def CreateNull(alloc_lists=False): # type: () -> Comprehension return Comprehension([] if alloc_lists else cast('List[NameType]', None), cast(expr_t, None), cast('Optional[expr_t]', None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Comprehension') L = out_node.fields if self.lhs is not None: # List x0 = hnode.Array([]) for i0 in self.lhs: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.PrettyTree(trav=trav)) x0.children.append(h) L.append(Field('lhs', x0)) assert self.iter is not None x1 = self.iter.PrettyTree(trav=trav) L.append(Field('iter', x1)) if self.cond is not None: # Optional x2 = self.cond.PrettyTree(trav=trav) L.append(Field('cond', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Comprehension') L = out_node.fields if self.lhs is not None: # List x0 = hnode.Array([]) for i0 in self.lhs: h = (hnode.Leaf("_", color_e.OtherConst) if i0 is None else i0.AbbreviatedTree(trav=trav)) x0.children.append(h) L.append(Field('lhs', x0)) assert self.iter is not None x1 = self.iter.AbbreviatedTree(trav=trav) L.append(Field('iter', x1)) if self.cond is not None: # Optional x2 = self.cond.AbbreviatedTree(trav=trav) L.append(Field('cond', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class NamedArg(pybase.CompoundObj): _type_tag = 95 __slots__ = ('name', 'value') def __init__(self, name, value): # type: (Optional[Token], expr_t) -> None self.name = name self.value = value @staticmethod def CreateNull(alloc_lists=False): # type: () -> NamedArg return NamedArg(cast('Optional[Token]', None), cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('NamedArg') L = out_node.fields if self.name is not None: # Optional x0 = self.name.PrettyTree(trav=trav) L.append(Field('name', x0)) assert self.value is not None x1 = self.value.PrettyTree(trav=trav) L.append(Field('value', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('NamedArg') L = out_node.fields if self.name is not None: # Optional x0 = self.name.AbbreviatedTree(trav=trav) L.append(Field('name', x0)) assert self.value is not None x1 = self.value.AbbreviatedTree(trav=trav) L.append(Field('value', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Subscript(y_lhs_t, expr_t): _type_tag = 96 __slots__ = ('left', 'obj', 'index') def __init__(self, left, obj, index): # type: (Token, expr_t, expr_t) -> None self.left = left self.obj = obj self.index = index @staticmethod def CreateNull(alloc_lists=False): # type: () -> Subscript return Subscript(cast(Token, None), cast(expr_t, None), cast(expr_t, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Subscript') L = out_node.fields assert self.left is not None x0 = self.left.PrettyTree(trav=trav) L.append(Field('left', x0)) assert self.obj is not None x1 = self.obj.PrettyTree(trav=trav) L.append(Field('obj', x1)) assert self.index is not None x2 = self.index.PrettyTree(trav=trav) L.append(Field('index', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Subscript') L = out_node.fields assert self.left is not None x0 = self.left.AbbreviatedTree(trav=trav) L.append(Field('left', x0)) assert self.obj is not None x1 = self.obj.AbbreviatedTree(trav=trav) L.append(Field('obj', x1)) assert self.index is not None x2 = self.index.AbbreviatedTree(trav=trav) L.append(Field('index', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class Attribute(y_lhs_t, expr_t): _type_tag = 97 __slots__ = ('obj', 'op', 'attr', 'attr_name', 'ctx') def __init__(self, obj, op, attr, attr_name, ctx): # type: (expr_t, Token, Token, str, expr_context_t) -> None self.obj = obj self.op = op self.attr = attr self.attr_name = attr_name self.ctx = ctx @staticmethod def CreateNull(alloc_lists=False): # type: () -> Attribute return Attribute(cast(expr_t, None), cast(Token, None), cast(Token, None), '', expr_context_e.Load) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Attribute') L = out_node.fields assert self.obj is not None x0 = self.obj.PrettyTree(trav=trav) L.append(Field('obj', x0)) assert self.op is not None x1 = self.op.PrettyTree(trav=trav) L.append(Field('op', x1)) assert self.attr is not None x2 = self.attr.PrettyTree(trav=trav) L.append(Field('attr', x2)) x3 = NewLeaf(self.attr_name, color_e.StringConst) L.append(Field('attr_name', x3)) x4 = hnode.Leaf(expr_context_str(self.ctx), color_e.TypeName) L.append(Field('ctx', x4)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('Attribute') L = out_node.fields assert self.obj is not None x0 = self.obj.AbbreviatedTree(trav=trav) L.append(Field('obj', x0)) assert self.op is not None x1 = self.op.AbbreviatedTree(trav=trav) L.append(Field('op', x1)) assert self.attr is not None x2 = self.attr.AbbreviatedTree(trav=trav) L.append(Field('attr', x2)) x3 = NewLeaf(self.attr_name, color_e.StringConst) L.append(Field('attr_name', x3)) x4 = hnode.Leaf(expr_context_str(self.ctx), color_e.TypeName) L.append(Field('ctx', x4)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class PosixClass(class_literal_term_t, char_class_term_t, re_t): _type_tag = 98 __slots__ = ('negated', 'name') def __init__(self, negated, name): # type: (Optional[Token], str) -> None self.negated = negated self.name = name @staticmethod def CreateNull(alloc_lists=False): # type: () -> PosixClass return PosixClass(cast('Optional[Token]', None), '') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('PosixClass') L = out_node.fields if self.negated is not None: # Optional x0 = self.negated.PrettyTree(trav=trav) L.append(Field('negated', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('PosixClass') L = out_node.fields if self.negated is not None: # Optional x0 = self.negated.AbbreviatedTree(trav=trav) L.append(Field('negated', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class PerlClass(class_literal_term_t, char_class_term_t, re_t): _type_tag = 99 __slots__ = ('negated', 'name') def __init__(self, negated, name): # type: (Optional[Token], str) -> None self.negated = negated self.name = name @staticmethod def CreateNull(alloc_lists=False): # type: () -> PerlClass return PerlClass(cast('Optional[Token]', None), '') def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('PerlClass') L = out_node.fields if self.negated is not None: # Optional x0 = self.negated.PrettyTree(trav=trav) L.append(Field('negated', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('PerlClass') L = out_node.fields if self.negated is not None: # Optional x0 = self.negated.AbbreviatedTree(trav=trav) L.append(Field('negated', x0)) x1 = NewLeaf(self.name, color_e.StringConst) L.append(Field('name', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class CharCode(class_literal_term_t, char_class_term_t): _type_tag = 100 __slots__ = ('blame_tok', 'i', 'u_braced') def __init__(self, blame_tok, i, u_braced): # type: (Token, int, bool) -> None self.blame_tok = blame_tok self.i = i self.u_braced = u_braced @staticmethod def CreateNull(alloc_lists=False): # type: () -> CharCode return CharCode(cast(Token, None), -1, False) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('CharCode') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.PrettyTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = hnode.Leaf(str(self.i), color_e.OtherConst) L.append(Field('i', x1)) x2 = hnode.Leaf('T' if self.u_braced else 'F', color_e.OtherConst) L.append(Field('u_braced', x2)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('CharCode') L = out_node.fields assert self.blame_tok is not None x0 = self.blame_tok.AbbreviatedTree(trav=trav) L.append(Field('blame_tok', x0)) x1 = hnode.Leaf(str(self.i), color_e.OtherConst) L.append(Field('i', x1)) x2 = hnode.Leaf('T' if self.u_braced else 'F', color_e.OtherConst) L.append(Field('u_braced', x2)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) class CharRange(class_literal_term_t, char_class_term_t): _type_tag = 101 __slots__ = ('start', 'end') def __init__(self, start, end): # type: (CharCode, CharCode) -> None self.start = start self.end = end @staticmethod def CreateNull(alloc_lists=False): # type: () -> CharRange return CharRange(cast(CharCode, None), cast(CharCode, None)) def PrettyTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('CharRange') L = out_node.fields assert self.start is not None x0 = self.start.PrettyTree(trav=trav) L.append(Field('start', x0)) assert self.end is not None x1 = self.end.PrettyTree(trav=trav) L.append(Field('end', x1)) return out_node def _AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t trav = trav or TraversalState() heap_id = id(self) if heap_id in trav.seen: return hnode.AlreadySeen(heap_id) trav.seen[heap_id] = True out_node = NewRecord('CharRange') L = out_node.fields assert self.start is not None x0 = self.start.AbbreviatedTree(trav=trav) L.append(Field('start', x0)) assert self.end is not None x1 = self.end.AbbreviatedTree(trav=trav) L.append(Field('end', x1)) return out_node def AbbreviatedTree(self, trav=None): # type: (Optional[TraversalState]) -> hnode_t return self._AbbreviatedTree(trav=trav) # # CONCATENATED FILE # """ syntax_abbrev.py - Abbreviations for pretty-printing syntax.asdl. This module is not used directly, but is combined with generated code. """ from _devbuild.gen.id_kind_asdl import Id from _devbuild.gen.hnode_asdl import hnode_t from asdl import runtime def _AbbreviateToken(tok, out): # type: (Token, List[hnode_t]) -> None tok_str = tok.line.content[tok.col:tok.col + tok.length] n1 = runtime.NewLeaf(Id_str(tok.id), color_e.OtherConst) out.append(n1) n2 = runtime.NewLeaf(tok_str, color_e.StringConst) out.append(n2) def _Token(obj): # type: (Token) -> hnode_t p_node = runtime.NewRecord('') # don't show node type p_node.abbrev = True p_node.left = '<' p_node.right = '>' _AbbreviateToken(obj, p_node.unnamed_fields) return p_node def _CompoundWord(obj): # type: (CompoundWord) -> hnode_t p_node = runtime.NewRecord('') # don't show node type p_node.abbrev = True p_node.left = '{' p_node.right = '}' for part in obj.parts: p_node.unnamed_fields.append(part.AbbreviatedTree()) return p_node def _DoubleQuoted(obj): # type: (DoubleQuoted) -> hnode_t if obj.left.id != Id.Left_DoubleQuote: return None # Fall back on obj._AbbreviatedTree() p_node = runtime.NewRecord('DQ') p_node.abbrev = True for part in obj.parts: p_node.unnamed_fields.append(part.AbbreviatedTree()) return p_node def _SingleQuoted(obj): # type: (SingleQuoted) -> hnode_t # Only abbreviate 'foo', not $'foo\n' or r'foo' if obj.left.id != Id.Left_SingleQuote: return None # Fall back on obj._AbbreviatedTree() p_node = runtime.NewRecord('SQ') p_node.abbrev = True n2 = runtime.NewLeaf(obj.sval, color_e.StringConst) p_node.unnamed_fields.append(n2) return p_node def _SimpleVarSub(obj): # type: (SimpleVarSub) -> hnode_t p_node = runtime.NewRecord('$') p_node.abbrev = True if obj.tok.id in (Id.VSub_DollarName, Id.VSub_Number): # $myvar or $1 # We want to show the variable name # _AbbreviateToken(obj.tok, p_node.unnamed_fields) tok = obj.tok # Omit $ var_name = tok.line.content[tok.col + 1:tok.col + tok.length] n1 = runtime.NewLeaf(var_name, color_e.StringConst) p_node.unnamed_fields.append(n1) else: # $? n1 = runtime.NewLeaf(Id_str(obj.tok.id), color_e.OtherConst) p_node.unnamed_fields.append(n1) return p_node def _BracedVarSub(obj): # type: (BracedVarSub) -> hnode_t p_node = runtime.NewRecord('${') if obj.prefix_op or obj.bracket_op or obj.suffix_op: return None # we have other fields to display; don't abbreviate p_node.abbrev = True _AbbreviateToken(obj.token, p_node.unnamed_fields) return p_node def _command__Simple(obj): # type: (command.Simple) -> hnode_t p_node = runtime.NewRecord('C') if (obj.more_env or obj.typed_args or obj.block or obj.do_fork == False): return None # we have other fields to display; don't abbreviate p_node.abbrev = True for w in obj.words: p_node.unnamed_fields.append(w.AbbreviatedTree()) return p_node def _expr__Var(obj): # type: (expr.Var) -> hnode_t p_node = runtime.NewRecord('Var') p_node.abbrev = True assert obj.left.id == Id.Expr_Name, obj.name n1 = runtime.NewLeaf(obj.name, color_e.StringConst) p_node.unnamed_fields.append(n1) return p_node def _expr__Const(obj): # type: (expr.Const) -> hnode_t p_node = runtime.NewRecord('Const') p_node.abbrev = True tok = obj.c out = p_node.unnamed_fields n1 = runtime.NewLeaf(Id_str(tok.id), color_e.OtherConst) out.append(n1) n2 = runtime.NewLeaf(tok.tval, color_e.StringConst) out.append(n2) return p_node