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import unittest
import textwrap
import antlr3
import antlr3.tree
import testbase
import sys
class T(testbase.ANTLRTest):
def parserClass(self, base):
class TParser(base):
def __init__(self, *args, **kwargs):
base.__init__(self, *args, **kwargs)
self._output = ""
def capture(self, t):
self._output += t
def traceIn(self, ruleName, ruleIndex):
self.traces.append('>'+ruleName)
def traceOut(self, ruleName, ruleIndex):
self.traces.append('<'+ruleName)
def recover(self, input, re):
# no error recovery yet, just crash!
raise
return TParser
def lexerClass(self, base):
class TLexer(base):
def __init__(self, *args, **kwargs):
base.__init__(self, *args, **kwargs)
self._output = ""
def capture(self, t):
self._output += t
def traceIn(self, ruleName, ruleIndex):
self.traces.append('>'+ruleName)
def traceOut(self, ruleName, ruleIndex):
self.traces.append('<'+ruleName)
def recover(self, input, re):
# no error recovery yet, just crash!
raise
return TLexer
def execParser(self, grammar, grammarEntry, input):
lexerCls, parserCls = self.compileInlineGrammar(grammar)
cStream = antlr3.StringStream(input)
lexer = lexerCls(cStream)
tStream = antlr3.CommonTokenStream(lexer)
parser = parserCls(tStream)
r = getattr(parser, grammarEntry)()
if r is not None:
return r.tree.toStringTree()
return ""
def execTreeParser(self, grammar, grammarEntry, treeGrammar, treeEntry, input):
lexerCls, parserCls = self.compileInlineGrammar(grammar)
walkerCls = self.compileInlineGrammar(treeGrammar)
cStream = antlr3.StringStream(input)
lexer = lexerCls(cStream)
tStream = antlr3.CommonTokenStream(lexer)
parser = parserCls(tStream)
r = getattr(parser, grammarEntry)()
nodes = antlr3.tree.CommonTreeNodeStream(r.tree)
nodes.setTokenStream(tStream)
walker = walkerCls(nodes)
r = getattr(walker, treeEntry)()
if r is not None:
return r.tree.toStringTree()
return ""
# PARSERS -- AUTO AST
def testToken(self):
grammar = textwrap.dedent(
r'''
grammar T1;
options {
language=Python;
output=AST;
}
@header {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
}
a : ID<V> ;
ID : 'a'..'z'+ ;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="a"
)
self.failUnlessEqual("a<V>", found)
def testTokenCommonTree(self):
grammar = textwrap.dedent(
r'''
grammar T;
options {
language=Python;
output=AST;
}
a : ID<CommonTree> ;
ID : 'a'..'z'+ ;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="a")
self.failUnlessEqual("a", found)
def testTokenWithQualifiedType(self):
grammar = textwrap.dedent(
r'''
grammar T;
options {
language=Python;
output=AST;
}
@members {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
}
a : ID<TParser.V> ; // TParser.V is qualified name
ID : 'a'..'z'+ ;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="a"
)
self.failUnlessEqual("a<V>", found)
def testNamedType(self):
grammar = textwrap.dedent(
r"""
grammar $T;
options {
language=Python;
output=AST;
}
@header {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
}
a : ID<node=V> ;
ID : 'a'..'z'+ ;
WS : (' '|'\\n') {$channel=HIDDEN;} ;
""")
found = self.execParser(grammar, 'a', input="a")
self.assertEquals("a<V>", found)
def testTokenWithLabel(self):
grammar = textwrap.dedent(
r'''
grammar T2;
options {
language=Python;
output=AST;
}
@header {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
}
a : x=ID<V> ;
ID : 'a'..'z'+ ;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="a"
)
self.failUnlessEqual("a<V>", found)
def testTokenWithListLabel(self):
grammar = textwrap.dedent(
r'''
grammar T3;
options {
language=Python;
output=AST;
}
@header {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
}
a : x+=ID<V> ;
ID : 'a'..'z'+ ;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="a"
)
self.failUnlessEqual("a<V>", found)
def testTokenRoot(self):
grammar = textwrap.dedent(
r'''
grammar T4;
options {
language=Python;
output=AST;
}
@header {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
}
a : ID<V>^ ;
ID : 'a'..'z'+ ;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="a"
)
self.failUnlessEqual("a<V>", found)
def testTokenRootWithListLabel(self):
grammar = textwrap.dedent(
r'''
grammar T5;
options {
language=Python;
output=AST;
}
@header {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
}
a : x+=ID<V>^ ;
ID : 'a'..'z'+ ;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="a"
)
self.failUnlessEqual("a<V>", found)
def testString(self):
grammar = textwrap.dedent(
r'''
grammar T6;
options {
language=Python;
output=AST;
}
@header {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
}
a : 'begin'<V> ;
ID : 'a'..'z'+ ;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="begin"
)
self.failUnlessEqual("begin<V>", found)
def testStringRoot(self):
grammar = textwrap.dedent(
r'''
grammar T7;
options {
language=Python;
output=AST;
}
@header {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
}
a : 'begin'<V>^ ;
ID : 'a'..'z'+ ;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="begin"
)
self.failUnlessEqual("begin<V>", found)
# PARSERS -- REWRITE AST
def testRewriteToken(self):
grammar = textwrap.dedent(
r'''
grammar T8;
options {
language=Python;
output=AST;
}
@header {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
}
a : ID -> ID<V> ;
ID : 'a'..'z'+ ;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="a"
)
self.failUnlessEqual("a<V>", found)
def testRewriteTokenWithArgs(self):
grammar = textwrap.dedent(
r'''
grammar T9;
options {
language=Python;
output=AST;
}
@header {
class V(CommonTree):
def __init__(self, *args):
if len(args) == 4:
ttype = args[0]
x = args[1]
y = args[2]
z = args[3]
token = CommonToken(type=ttype, text="")
elif len(args) == 3:
ttype = args[0]
token = args[1]
x = args[2]
y, z = 0, 0
else:
raise TypeError("Invalid args \%r" \% (args,))
CommonTree.__init__(self, token)
self.x = x
self.y = y
self.z = z
def toString(self):
txt = ""
if self.token is not None:
txt += self.token.text
txt +="<V>;\%d\%d\%d" \% (self.x, self.y, self.z)
return txt
__str__ = toString
}
a : ID -> ID<V>[42,19,30] ID<V>[$ID,99];
ID : 'a'..'z'+ ;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="a"
)
self.failUnlessEqual("<V>;421930 a<V>;9900", found)
def testRewriteTokenRoot(self):
grammar = textwrap.dedent(
r'''
grammar T10;
options {
language=Python;
output=AST;
}
@header {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
}
a : ID INT -> ^(ID<V> INT) ;
ID : 'a'..'z'+ ;
INT : '0'..'9'+ ;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="a 2"
)
self.failUnlessEqual("(a<V> 2)", found)
def testRewriteString(self):
grammar = textwrap.dedent(
r'''
grammar T11;
options {
language=Python;
output=AST;
}
@header {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
}
a : 'begin' -> 'begin'<V> ;
ID : 'a'..'z'+ ;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="begin"
)
self.failUnlessEqual("begin<V>", found)
def testRewriteStringRoot(self):
grammar = textwrap.dedent(
r'''
grammar T12;
options {
language=Python;
output=AST;
}
@header {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
}
a : 'begin' INT -> ^('begin'<V> INT) ;
ID : 'a'..'z'+ ;
INT : '0'..'9'+ ;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="begin 2"
)
self.failUnlessEqual("(begin<V> 2)", found)
def testRewriteRuleResults(self):
grammar = textwrap.dedent(
r'''
grammar T;
options {
language=Python;
output=AST;
}
tokens {LIST;}
@header {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
class W(CommonTree):
def __init__(self, tokenType, txt):
super(W, self).__init__(
CommonToken(type=tokenType, text=txt))
def toString(self):
return self.token.text + "<W>"
__str__ = toString
}
a : id (',' id)* -> ^(LIST<W>["LIST"] id+);
id : ID -> ID<V>;
ID : 'a'..'z'+ ;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="a,b,c")
self.failUnlessEqual("(LIST<W> a<V> b<V> c<V>)", found)
def testCopySemanticsWithHetero(self):
grammar = textwrap.dedent(
r'''
grammar T;
options {
language=Python;
output=AST;
}
@header {
class V(CommonTree):
def dupNode(self):
return V(self)
def toString(self):
return self.token.text + "<V>"
__str__ = toString
}
a : type ID (',' ID)* ';' -> ^(type ID)+;
type : 'int'<V> ;
ID : 'a'..'z'+ ;
INT : '0'..'9'+;
WS : (' '|'\\n') {$channel=HIDDEN;} ;
''')
found = self.execParser(
grammar, 'a',
input="int a, b, c;")
self.failUnlessEqual("(int<V> a) (int<V> b) (int<V> c)", found)
# TREE PARSERS -- REWRITE AST
def testTreeParserRewriteFlatList(self):
grammar = textwrap.dedent(
r'''
grammar T13;
options {
language=Python;
output=AST;
}
a : ID INT;
ID : 'a'..'z'+ ;
INT : '0'..'9'+;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
treeGrammar = textwrap.dedent(
r'''
tree grammar TP13;
options {
language=Python;
output=AST;
ASTLabelType=CommonTree;
tokenVocab=T13;
}
@header {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
class W(CommonTree):
def toString(self):
return self.token.text + "<W>"
__str__ = toString
}
a : ID INT -> INT<V> ID<W>
;
''')
found = self.execTreeParser(
grammar, 'a',
treeGrammar, 'a',
input="abc 34"
)
self.failUnlessEqual("34<V> abc<W>", found)
def testTreeParserRewriteTree(self):
grammar = textwrap.dedent(
r'''
grammar T14;
options {
language=Python;
output=AST;
}
a : ID INT;
ID : 'a'..'z'+ ;
INT : '0'..'9'+;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
treeGrammar = textwrap.dedent(
r'''
tree grammar TP14;
options {
language=Python;
output=AST;
ASTLabelType=CommonTree;
tokenVocab=T14;
}
@header {
class V(CommonTree):
def toString(self):
return self.token.text + "<V>"
__str__ = toString
class W(CommonTree):
def toString(self):
return self.token.text + "<W>"
__str__ = toString
}
a : ID INT -> ^(INT<V> ID<W>)
;
''')
found = self.execTreeParser(
grammar, 'a',
treeGrammar, 'a',
input="abc 34"
)
self.failUnlessEqual("(34<V> abc<W>)", found)
def testTreeParserRewriteImaginary(self):
grammar = textwrap.dedent(
r'''
grammar T15;
options {
language=Python;
output=AST;
}
a : ID ;
ID : 'a'..'z'+ ;
INT : '0'..'9'+;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
treeGrammar = textwrap.dedent(
r'''
tree grammar TP15;
options {
language=Python;
output=AST;
ASTLabelType=CommonTree;
tokenVocab=T15;
}
tokens { ROOT; }
@header {
class V(CommonTree):
def __init__(self, tokenType):
CommonTree.__init__(self, CommonToken(tokenType))
def toString(self):
return tokenNames[self.token.type] + "<V>"
__str__ = toString
}
a : ID -> ROOT<V> ID
;
''')
found = self.execTreeParser(
grammar, 'a',
treeGrammar, 'a',
input="abc"
)
self.failUnlessEqual("ROOT<V> abc", found)
def testTreeParserRewriteImaginaryWithArgs(self):
grammar = textwrap.dedent(
r'''
grammar T16;
options {
language=Python;
output=AST;
}
a : ID ;
ID : 'a'..'z'+ ;
INT : '0'..'9'+;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
treeGrammar = textwrap.dedent(
r'''
tree grammar TP16;
options {
language=Python;
output=AST;
ASTLabelType=CommonTree;
tokenVocab=T16;
}
tokens { ROOT; }
@header {
class V(CommonTree):
def __init__(self, tokenType, x):
CommonTree.__init__(self, CommonToken(tokenType))
self.x = x
def toString(self):
return tokenNames[self.token.type] + "<V>;" + str(self.x)
__str__ = toString
}
a : ID -> ROOT<V>[42] ID
;
''')
found = self.execTreeParser(
grammar, 'a',
treeGrammar, 'a',
input="abc"
)
self.failUnlessEqual("ROOT<V>;42 abc", found)
def testTreeParserRewriteImaginaryRoot(self):
grammar = textwrap.dedent(
r'''
grammar T17;
options {
language=Python;
output=AST;
}
a : ID ;
ID : 'a'..'z'+ ;
INT : '0'..'9'+;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
treeGrammar = textwrap.dedent(
r'''
tree grammar TP17;
options {
language=Python;
output=AST;
ASTLabelType=CommonTree;
tokenVocab=T17;
}
tokens { ROOT; }
@header {
class V(CommonTree):
def __init__(self, tokenType):
CommonTree.__init__(self, CommonToken(tokenType))
def toString(self):
return tokenNames[self.token.type] + "<V>"
__str__ = toString
}
a : ID -> ^(ROOT<V> ID)
;
''')
found = self.execTreeParser(
grammar, 'a',
treeGrammar, 'a',
input="abc"
)
self.failUnlessEqual("(ROOT<V> abc)", found)
def testTreeParserRewriteImaginaryFromReal(self):
grammar = textwrap.dedent(
r'''
grammar T18;
options {
language=Python;
output=AST;
}
a : ID ;
ID : 'a'..'z'+ ;
INT : '0'..'9'+;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
treeGrammar = textwrap.dedent(
r'''
tree grammar TP18;
options {
language=Python;
output=AST;
ASTLabelType=CommonTree;
tokenVocab=T18;
}
tokens { ROOT; }
@header {
class V(CommonTree):
def __init__(self, tokenType, tree=None):
if tree is None:
CommonTree.__init__(self, CommonToken(tokenType))
else:
CommonTree.__init__(self, tree)
self.token.type = tokenType
def toString(self):
return tokenNames[self.token.type]+"<V>@"+str(self.token.line)
__str__ = toString
}
a : ID -> ROOT<V>[$ID]
;
''')
found = self.execTreeParser(
grammar, 'a',
treeGrammar, 'a',
input="abc"
)
self.failUnlessEqual("ROOT<V>@1", found)
def testTreeParserAutoHeteroAST(self):
grammar = textwrap.dedent(
r'''
grammar T;
options {
language=Python;
output=AST;
}
a : ID ';' ;
ID : 'a'..'z'+ ;
INT : '0'..'9'+;
WS : (' '|'\n') {$channel=HIDDEN;} ;
''')
treeGrammar = textwrap.dedent(
r'''
tree grammar TP;
options {
language=Python;
output=AST;
ASTLabelType=CommonTree;
tokenVocab=T;
}
tokens { ROOT; }
@header {
class V(CommonTree):
def toString(self):
return CommonTree.toString(self) + "<V>"
__str__ = toString
}
a : ID<V> ';'<V>;
''')
found = self.execTreeParser(
grammar, 'a',
treeGrammar, 'a',
input="abc;"
)
self.failUnlessEqual("abc<V> ;<V>", found)
if __name__ == '__main__':
unittest.main()