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620 lines
18 KiB
620 lines
18 KiB
4 months ago
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""" @package antlr3.tree
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@brief ANTLR3 runtime package, treewizard module
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A utility module to create ASTs at runtime.
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See <http://www.antlr.org/wiki/display/~admin/2007/07/02/Exploring+Concept+of+TreeWizard> for an overview. Note that the API of the Python implementation is slightly different.
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"""
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# begin[licence]
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#
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# [The "BSD licence"]
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# Copyright (c) 2005-2008 Terence Parr
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# All rights reserved.
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#
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# Redistribution and use in source and binary forms, with or without
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# modification, are permitted provided that the following conditions
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# are met:
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# 1. Redistributions of source code must retain the above copyright
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# notice, this list of conditions and the following disclaimer.
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# 2. Redistributions in binary form must reproduce the above copyright
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# notice, this list of conditions and the following disclaimer in the
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# documentation and/or other materials provided with the distribution.
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# 3. The name of the author may not be used to endorse or promote products
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# derived from this software without specific prior written permission.
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#
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# THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
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# IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
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# OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
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# IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
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# INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
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# NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
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# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
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# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
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# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
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# THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
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#
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# end[licence]
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from antlr3.constants import INVALID_TOKEN_TYPE
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from antlr3.tokens import CommonToken
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from antlr3.tree import CommonTree, CommonTreeAdaptor
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def computeTokenTypes(tokenNames):
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"""
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Compute a dict that is an inverted index of
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tokenNames (which maps int token types to names).
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"""
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if tokenNames is None:
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return {}
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return dict((name, type) for type, name in enumerate(tokenNames))
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## token types for pattern parser
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EOF = -1
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BEGIN = 1
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END = 2
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ID = 3
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ARG = 4
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PERCENT = 5
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COLON = 6
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DOT = 7
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class TreePatternLexer(object):
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def __init__(self, pattern):
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## The tree pattern to lex like "(A B C)"
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self.pattern = pattern
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## Index into input string
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self.p = -1
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## Current char
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self.c = None
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## How long is the pattern in char?
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self.n = len(pattern)
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## Set when token type is ID or ARG
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self.sval = None
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self.error = False
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self.consume()
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__idStartChar = frozenset(
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'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ_'
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)
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__idChar = __idStartChar | frozenset('0123456789')
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def nextToken(self):
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self.sval = ""
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while self.c != EOF:
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if self.c in (' ', '\n', '\r', '\t'):
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self.consume()
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continue
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if self.c in self.__idStartChar:
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self.sval += self.c
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self.consume()
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while self.c in self.__idChar:
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self.sval += self.c
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self.consume()
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return ID
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if self.c == '(':
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self.consume()
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return BEGIN
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if self.c == ')':
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self.consume()
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return END
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if self.c == '%':
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self.consume()
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return PERCENT
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if self.c == ':':
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self.consume()
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return COLON
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if self.c == '.':
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self.consume()
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return DOT
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if self.c == '[': # grab [x] as a string, returning x
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self.consume()
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while self.c != ']':
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if self.c == '\\':
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self.consume()
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if self.c != ']':
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self.sval += '\\'
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self.sval += self.c
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else:
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self.sval += self.c
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self.consume()
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self.consume()
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return ARG
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self.consume()
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self.error = True
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return EOF
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return EOF
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def consume(self):
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self.p += 1
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if self.p >= self.n:
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self.c = EOF
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else:
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self.c = self.pattern[self.p]
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class TreePatternParser(object):
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def __init__(self, tokenizer, wizard, adaptor):
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self.tokenizer = tokenizer
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self.wizard = wizard
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self.adaptor = adaptor
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self.ttype = tokenizer.nextToken() # kickstart
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def pattern(self):
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if self.ttype == BEGIN:
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return self.parseTree()
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elif self.ttype == ID:
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node = self.parseNode()
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if self.ttype == EOF:
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return node
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return None # extra junk on end
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return None
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def parseTree(self):
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if self.ttype != BEGIN:
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return None
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self.ttype = self.tokenizer.nextToken()
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root = self.parseNode()
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if root is None:
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return None
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while self.ttype in (BEGIN, ID, PERCENT, DOT):
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if self.ttype == BEGIN:
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subtree = self.parseTree()
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self.adaptor.addChild(root, subtree)
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else:
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child = self.parseNode()
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if child is None:
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return None
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self.adaptor.addChild(root, child)
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if self.ttype != END:
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return None
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self.ttype = self.tokenizer.nextToken()
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return root
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def parseNode(self):
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# "%label:" prefix
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label = None
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if self.ttype == PERCENT:
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self.ttype = self.tokenizer.nextToken()
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if self.ttype != ID:
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return None
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label = self.tokenizer.sval
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self.ttype = self.tokenizer.nextToken()
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if self.ttype != COLON:
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return None
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self.ttype = self.tokenizer.nextToken() # move to ID following colon
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# Wildcard?
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if self.ttype == DOT:
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self.ttype = self.tokenizer.nextToken()
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wildcardPayload = CommonToken(0, ".")
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node = WildcardTreePattern(wildcardPayload)
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if label is not None:
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node.label = label
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return node
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# "ID" or "ID[arg]"
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if self.ttype != ID:
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return None
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tokenName = self.tokenizer.sval
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self.ttype = self.tokenizer.nextToken()
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if tokenName == "nil":
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return self.adaptor.nil()
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text = tokenName
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# check for arg
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arg = None
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if self.ttype == ARG:
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arg = self.tokenizer.sval
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text = arg
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self.ttype = self.tokenizer.nextToken()
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# create node
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treeNodeType = self.wizard.getTokenType(tokenName)
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if treeNodeType == INVALID_TOKEN_TYPE:
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return None
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node = self.adaptor.createFromType(treeNodeType, text)
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if label is not None and isinstance(node, TreePattern):
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node.label = label
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if arg is not None and isinstance(node, TreePattern):
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node.hasTextArg = True
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return node
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class TreePattern(CommonTree):
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"""
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When using %label:TOKENNAME in a tree for parse(), we must
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track the label.
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"""
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def __init__(self, payload):
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CommonTree.__init__(self, payload)
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self.label = None
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self.hasTextArg = None
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def toString(self):
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if self.label is not None:
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return '%' + self.label + ':' + CommonTree.toString(self)
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else:
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return CommonTree.toString(self)
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class WildcardTreePattern(TreePattern):
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pass
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class TreePatternTreeAdaptor(CommonTreeAdaptor):
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"""This adaptor creates TreePattern objects for use during scan()"""
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def createWithPayload(self, payload):
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return TreePattern(payload)
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class TreeWizard(object):
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"""
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Build and navigate trees with this object. Must know about the names
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of tokens so you have to pass in a map or array of token names (from which
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this class can build the map). I.e., Token DECL means nothing unless the
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class can translate it to a token type.
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In order to create nodes and navigate, this class needs a TreeAdaptor.
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This class can build a token type -> node index for repeated use or for
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iterating over the various nodes with a particular type.
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This class works in conjunction with the TreeAdaptor rather than moving
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all this functionality into the adaptor. An adaptor helps build and
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navigate trees using methods. This class helps you do it with string
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patterns like "(A B C)". You can create a tree from that pattern or
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match subtrees against it.
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"""
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def __init__(self, adaptor=None, tokenNames=None, typeMap=None):
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if adaptor is None:
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self.adaptor = CommonTreeAdaptor()
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else:
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self.adaptor = adaptor
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if typeMap is None:
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self.tokenNameToTypeMap = computeTokenTypes(tokenNames)
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else:
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if tokenNames is not None:
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raise ValueError("Can't have both tokenNames and typeMap")
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self.tokenNameToTypeMap = typeMap
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def getTokenType(self, tokenName):
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"""Using the map of token names to token types, return the type."""
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try:
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return self.tokenNameToTypeMap[tokenName]
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except KeyError:
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return INVALID_TOKEN_TYPE
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def create(self, pattern):
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"""
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Create a tree or node from the indicated tree pattern that closely
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follows ANTLR tree grammar tree element syntax:
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(root child1 ... child2).
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You can also just pass in a node: ID
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Any node can have a text argument: ID[foo]
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(notice there are no quotes around foo--it's clear it's a string).
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nil is a special name meaning "give me a nil node". Useful for
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making lists: (nil A B C) is a list of A B C.
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"""
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tokenizer = TreePatternLexer(pattern)
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parser = TreePatternParser(tokenizer, self, self.adaptor)
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return parser.pattern()
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def index(self, tree):
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"""Walk the entire tree and make a node name to nodes mapping.
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For now, use recursion but later nonrecursive version may be
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more efficient. Returns a dict int -> list where the list is
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of your AST node type. The int is the token type of the node.
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"""
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m = {}
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self._index(tree, m)
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return m
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def _index(self, t, m):
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"""Do the work for index"""
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if t is None:
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return
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ttype = self.adaptor.getType(t)
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elements = m.get(ttype)
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if elements is None:
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m[ttype] = elements = []
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elements.append(t)
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for i in range(self.adaptor.getChildCount(t)):
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child = self.adaptor.getChild(t, i)
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self._index(child, m)
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def find(self, tree, what):
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"""Return a list of matching token.
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what may either be an integer specifzing the token type to find or
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a string with a pattern that must be matched.
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"""
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if isinstance(what, (int, long)):
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return self._findTokenType(tree, what)
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elif isinstance(what, basestring):
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return self._findPattern(tree, what)
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else:
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raise TypeError("'what' must be string or integer")
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def _findTokenType(self, t, ttype):
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"""Return a List of tree nodes with token type ttype"""
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nodes = []
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def visitor(tree, parent, childIndex, labels):
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nodes.append(tree)
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self.visit(t, ttype, visitor)
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return nodes
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def _findPattern(self, t, pattern):
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"""Return a List of subtrees matching pattern."""
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subtrees = []
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# Create a TreePattern from the pattern
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tokenizer = TreePatternLexer(pattern)
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parser = TreePatternParser(tokenizer, self, TreePatternTreeAdaptor())
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tpattern = parser.pattern()
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# don't allow invalid patterns
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if (tpattern is None or tpattern.isNil()
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or isinstance(tpattern, WildcardTreePattern)):
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return None
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rootTokenType = tpattern.getType()
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def visitor(tree, parent, childIndex, label):
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if self._parse(tree, tpattern, None):
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subtrees.append(tree)
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self.visit(t, rootTokenType, visitor)
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return subtrees
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def visit(self, tree, what, visitor):
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"""Visit every node in tree matching what, invoking the visitor.
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If what is a string, it is parsed as a pattern and only matching
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subtrees will be visited.
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The implementation uses the root node of the pattern in combination
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with visit(t, ttype, visitor) so nil-rooted patterns are not allowed.
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Patterns with wildcard roots are also not allowed.
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If what is an integer, it is used as a token type and visit will match
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all nodes of that type (this is faster than the pattern match).
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The labels arg of the visitor action method is never set (it's None)
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since using a token type rather than a pattern doesn't let us set a
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label.
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"""
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if isinstance(what, (int, long)):
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self._visitType(tree, None, 0, what, visitor)
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elif isinstance(what, basestring):
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self._visitPattern(tree, what, visitor)
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else:
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raise TypeError("'what' must be string or integer")
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def _visitType(self, t, parent, childIndex, ttype, visitor):
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"""Do the recursive work for visit"""
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if t is None:
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return
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if self.adaptor.getType(t) == ttype:
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visitor(t, parent, childIndex, None)
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for i in range(self.adaptor.getChildCount(t)):
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child = self.adaptor.getChild(t, i)
|
||
|
self._visitType(child, t, i, ttype, visitor)
|
||
|
|
||
|
|
||
|
def _visitPattern(self, tree, pattern, visitor):
|
||
|
"""
|
||
|
For all subtrees that match the pattern, execute the visit action.
|
||
|
"""
|
||
|
|
||
|
# Create a TreePattern from the pattern
|
||
|
tokenizer = TreePatternLexer(pattern)
|
||
|
parser = TreePatternParser(tokenizer, self, TreePatternTreeAdaptor())
|
||
|
tpattern = parser.pattern()
|
||
|
|
||
|
# don't allow invalid patterns
|
||
|
if (tpattern is None or tpattern.isNil()
|
||
|
or isinstance(tpattern, WildcardTreePattern)):
|
||
|
return
|
||
|
|
||
|
rootTokenType = tpattern.getType()
|
||
|
|
||
|
def rootvisitor(tree, parent, childIndex, labels):
|
||
|
labels = {}
|
||
|
if self._parse(tree, tpattern, labels):
|
||
|
visitor(tree, parent, childIndex, labels)
|
||
|
|
||
|
self.visit(tree, rootTokenType, rootvisitor)
|
||
|
|
||
|
|
||
|
def parse(self, t, pattern, labels=None):
|
||
|
"""
|
||
|
Given a pattern like (ASSIGN %lhs:ID %rhs:.) with optional labels
|
||
|
on the various nodes and '.' (dot) as the node/subtree wildcard,
|
||
|
return true if the pattern matches and fill the labels Map with
|
||
|
the labels pointing at the appropriate nodes. Return false if
|
||
|
the pattern is malformed or the tree does not match.
|
||
|
|
||
|
If a node specifies a text arg in pattern, then that must match
|
||
|
for that node in t.
|
||
|
"""
|
||
|
|
||
|
tokenizer = TreePatternLexer(pattern)
|
||
|
parser = TreePatternParser(tokenizer, self, TreePatternTreeAdaptor())
|
||
|
tpattern = parser.pattern()
|
||
|
|
||
|
return self._parse(t, tpattern, labels)
|
||
|
|
||
|
|
||
|
def _parse(self, t1, tpattern, labels):
|
||
|
"""
|
||
|
Do the work for parse. Check to see if the tpattern fits the
|
||
|
structure and token types in t1. Check text if the pattern has
|
||
|
text arguments on nodes. Fill labels map with pointers to nodes
|
||
|
in tree matched against nodes in pattern with labels.
|
||
|
"""
|
||
|
|
||
|
# make sure both are non-null
|
||
|
if t1 is None or tpattern is None:
|
||
|
return False
|
||
|
|
||
|
# check roots (wildcard matches anything)
|
||
|
if not isinstance(tpattern, WildcardTreePattern):
|
||
|
if self.adaptor.getType(t1) != tpattern.getType():
|
||
|
return False
|
||
|
|
||
|
# if pattern has text, check node text
|
||
|
if (tpattern.hasTextArg
|
||
|
and self.adaptor.getText(t1) != tpattern.getText()):
|
||
|
return False
|
||
|
|
||
|
if tpattern.label is not None and labels is not None:
|
||
|
# map label in pattern to node in t1
|
||
|
labels[tpattern.label] = t1
|
||
|
|
||
|
# check children
|
||
|
n1 = self.adaptor.getChildCount(t1)
|
||
|
n2 = tpattern.getChildCount()
|
||
|
if n1 != n2:
|
||
|
return False
|
||
|
|
||
|
for i in range(n1):
|
||
|
child1 = self.adaptor.getChild(t1, i)
|
||
|
child2 = tpattern.getChild(i)
|
||
|
if not self._parse(child1, child2, labels):
|
||
|
return False
|
||
|
|
||
|
return True
|
||
|
|
||
|
|
||
|
def equals(self, t1, t2, adaptor=None):
|
||
|
"""
|
||
|
Compare t1 and t2; return true if token types/text, structure match
|
||
|
exactly.
|
||
|
The trees are examined in their entirety so that (A B) does not match
|
||
|
(A B C) nor (A (B C)).
|
||
|
"""
|
||
|
|
||
|
if adaptor is None:
|
||
|
adaptor = self.adaptor
|
||
|
|
||
|
return self._equals(t1, t2, adaptor)
|
||
|
|
||
|
|
||
|
def _equals(self, t1, t2, adaptor):
|
||
|
# make sure both are non-null
|
||
|
if t1 is None or t2 is None:
|
||
|
return False
|
||
|
|
||
|
# check roots
|
||
|
if adaptor.getType(t1) != adaptor.getType(t2):
|
||
|
return False
|
||
|
|
||
|
if adaptor.getText(t1) != adaptor.getText(t2):
|
||
|
return False
|
||
|
|
||
|
# check children
|
||
|
n1 = adaptor.getChildCount(t1)
|
||
|
n2 = adaptor.getChildCount(t2)
|
||
|
if n1 != n2:
|
||
|
return False
|
||
|
|
||
|
for i in range(n1):
|
||
|
child1 = adaptor.getChild(t1, i)
|
||
|
child2 = adaptor.getChild(t2, i)
|
||
|
if not self._equals(child1, child2, adaptor):
|
||
|
return False
|
||
|
|
||
|
return True
|