consider following rules in the parser:
expression
: IDENTIFIER
| (...)
| procedure_call // e.g. (foo 1 2 3)
| macro_use // e.g. (xyz (some datum))
;
procedure_call
: '(' expression expression* ')'
;
macro_use
: '(' IDENTIFIER datum* ')'
;
and
// Note that any string that parses as an <expression> will also parse as a <datum>.
datum
: simple_datum
| compound_datum
;
simple_datum
: BOOLEAN
| NUMBER
| CHARACTER
| STRING
| IDENTIFIER
;
compound_datum
: list
| vector
;
list
: '(' (datum+ ( '.' datum)?)? ')'
| ABBREV_PREFIX datum
;
fragment ABBREV_PREFIX
: ('\'' | '`' | ',' | ',@')
;
vector
: '#(' datum* ')'
;
the procedure_call and macro_rule alternative in the expression rule generate an non-LL(*) structure error. I can see the problem, since (IDENTIFIER)
will parse as both. but even when i define both with + instead of *, it generates the error, even though above example shouldn't be parsing anymore.
i came up with the usage of syntactic predicates, but i can't figure out how to use them to do the trick here.
something like
expression
: IDENTIFIER
| (...)
| (procedure_call)=>procedure_call // e.g. (foo 1 2 3)
| macro_use // e.g. (xyz (some datum))
;
or
expression
: IDENTIFIER
| (...)
| ('(' IDENTIFIER expression)=>procedure_call // e.g. (foo 1 2 3)
| macro_use // e.g. (xyz (some datum))
;
doesnt work either, since none but the first rule will match anything. is there a proper way to solve that?
I found a JavaCC grammar of R5RS which I used to (quickly!) write an ANTLR equivalent:
/*
* Copyright (C) 2011 by Bart Kiers, based on the work done by Håkan L. Younes'
* JavaCC R5RS grammar, available at: http://mindprod.com/javacc/R5RS.jj
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
grammar R5RS;
parse
: commandOrDefinition* EOF
;
commandOrDefinition
: (syntaxDefinition)=> syntaxDefinition
| (definition)=> definition
| ('(' BEGIN commandOrDefinition)=> '(' BEGIN commandOrDefinition+ ')'
| command
;
syntaxDefinition
: '(' DEFINE_SYNTAX keyword transformerSpec ')'
;
definition
: '(' DEFINE ( variable expression ')'
| '(' variable defFormals ')' body ')'
)
| '(' BEGIN definition* ')'
;
defFormals
: variable* ('.' variable)?
;
keyword
: identifier
;
transformerSpec
: '(' SYNTAX_RULES '(' identifier* ')' syntaxRule* ')'
;
syntaxRule
: '(' pattern template ')'
;
pattern
: patternIdentifier
| '(' (pattern+ ('.' pattern | ELLIPSIS)?)? ')'
| '#(' (pattern+ ELLIPSIS? )? ')'
| patternDatum
;
patternIdentifier
: syntacticKeyword
| VARIABLE
;
patternDatum
: STRING
| CHARACTER
| bool
| number
;
template
: patternIdentifier
| '(' (templateElement+ ('.' templateElement)?)? ')'
| '#(' templateElement* ')'
| templateDatum
;
templateElement
: template ELLIPSIS?
;
templateDatum
: patternDatum
;
command
: expression
;
identifier
: syntacticKeyword
| variable
;
syntacticKeyword
: expressionKeyword
| ELSE
| ARROW
| DEFINE
| UNQUOTE
| UNQUOTE_SPLICING
;
expressionKeyword
: QUOTE
| LAMBDA
| IF
| SET
| BEGIN
| COND
| AND
| OR
| CASE
| LET
| LETSTAR
| LETREC
| DO
| DELAY
| QUASIQUOTE
;
expression
: (variable)=> variable
| (literal)=> literal
| (lambdaExpression)=> lambdaExpression
| (conditional)=> conditional
| (assignment)=> assignment
| (derivedExpression)=> derivedExpression
| (procedureCall)=> procedureCall
| (macroUse)=> macroUse
| macroBlock
;
variable
: VARIABLE
| ELLIPSIS
;
literal
: quotation
| selfEvaluating
;
quotation
: '\'' datum
| '(' QUOTE datum ')'
;
selfEvaluating
: bool
| number
| CHARACTER
| STRING
;
lambdaExpression
: '(' LAMBDA formals body ')'
;
formals
: '(' (variable+ ('.' variable)?)? ')'
| variable
;
conditional
: '(' IF test consequent alternate? ')'
;
test
: expression
;
consequent
: expression
;
alternate
: expression
;
assignment
: '(' SET variable expression ')'
;
derivedExpression
: quasiquotation
| '(' ( COND ( '(' ELSE sequence ')'
| condClause+ ('(' ELSE sequence ')')?
)
| CASE expression ( '(' ELSE sequence ')'
| caseClause+ ('(' ELSE sequence ')')?
)
| AND test*
| OR test*
| LET variable? '(' bindingSpec* ')' body
| LETSTAR '(' bindingSpec* ')' body
| LETREC '(' bindingSpec* ')' body
| BEGIN sequence
| DO '(' iterationSpec* ')' '(' test doResult? ')' command*
| DELAY expression
)
')'
;
condClause
: '(' test (sequence | ARROW recipient)? ')'
;
recipient
: expression
;
caseClause
: '(' '(' datum* ')' sequence ')'
;
bindingSpec
: '(' variable expression ')'
;
iterationSpec
: '(' variable init step? ')'
;
init
: expression
;
step
: expression
;
doResult
: sequence
;
procedureCall
: '(' operator operand* ')'
;
operator
: expression
;
operand
: expression
;
macroUse
: '(' keyword datum* ')'
;
macroBlock
: '(' (LET_SYNTAX | LETREC_SYNTAX) '(' syntaxSpec* ')' body ')'
;
syntaxSpec
: '(' keyword transformerSpec ')'
;
body
: ((definition)=> definition)* sequence
;
//sequence
// : ((command)=> command)* expression
// ;
sequence
: expression+
;
datum
: simpleDatum
| compoundDatum
;
simpleDatum
: bool
| number
| CHARACTER
| STRING
| identifier
;
compoundDatum
: list
| vector
;
list
: '(' (datum+ ('.' datum)?)? ')'
| abbreviation
;
abbreviation
: abbrevPrefix datum
;
abbrevPrefix
: '\'' | '`' | ',@' | ','
;
vector
: '#(' datum* ')'
;
number
: NUM_2
| NUM_8
| NUM_10
| NUM_16
;
bool
: TRUE
| FALSE
;
quasiquotation
: quasiquotationD[1]
;
quasiquotationD[int d]
: '`' qqTemplate[d]
| '(' QUASIQUOTE qqTemplate[d] ')'
;
qqTemplate[int d]
: (expression)=> expression
| ('(' UNQUOTE)=> unquotation[d]
| simpleDatum
| vectorQQTemplate[d]
| listQQTemplate[d]
;
vectorQQTemplate[int d]
: '#(' qqTemplateOrSplice[d]* ')'
;
listQQTemplate[int d]
: '\'' qqTemplate[d]
| ('(' QUASIQUOTE)=> quasiquotationD[d+1]
| '(' (qqTemplateOrSplice[d]+ ('.' qqTemplate[d])?)? ')'
;
unquotation[int d]
: ',' qqTemplate[d-1]
| '(' UNQUOTE qqTemplate[d-1] ')'
;
qqTemplateOrSplice[int d]
: ('(' UNQUOTE_SPLICING)=> splicingUnquotation[d]
| qqTemplate[d]
;
splicingUnquotation[int d]
: ',@' qqTemplate[d-1]
| '(' UNQUOTE_SPLICING qqTemplate[d-1] ')'
;
// macro keywords
LET_SYNTAX : 'let-syntax';
LETREC_SYNTAX : 'letrec-syntax';
SYNTAX_RULES : 'syntax-rules';
DEFINE_SYNTAX : 'define-syntax';
// syntactic keywords
ELSE : 'else';
ARROW : '=>';
DEFINE : 'define';
UNQUOTE_SPLICING : 'unquote-splicing';
UNQUOTE : 'unquote';
// expression keywords
QUOTE : 'quote';
LAMBDA : 'lambda';
IF : 'if';
SET : 'set!';
BEGIN : 'begin';
COND : 'cond';
AND : 'and';
OR : 'or';
CASE : 'case';
LET : 'let';
LETSTAR : 'let*';
LETREC : 'letrec';
DO : 'do';
DELAY : 'delay';
QUASIQUOTE : 'quasiquote';
NUM_2 : PREFIX_2 COMPLEX_2;
NUM_8 : PREFIX_8 COMPLEX_8;
NUM_10 : PREFIX_10? COMPLEX_10;
NUM_16 : PREFIX_16 COMPLEX_16;
ELLIPSIS : '...';
VARIABLE
: INITIAL SUBSEQUENT*
| PECULIAR_IDENTIFIER
;
STRING : '"' STRING_ELEMENT* '"';
CHARACTER : '#\\' (~(' ' | '\n') | CHARACTER_NAME);
TRUE : '#' ('t' | 'T');
FALSE : '#' ('f' | 'F');
// to ignore
SPACE : (' ' | '\t' | '\r' | '\n') {$channel=HIDDEN;};
COMMENT : ';' ~('\r' | '\n')* {$channel=HIDDEN;};
// fragments
fragment INITIAL : LETTER | SPECIAL_INITIAL;
fragment LETTER : 'a'..'z' | 'A'..'Z';
fragment SPECIAL_INITIAL : '!' | '$' | '%' | '&' | '*' | '/' | ':' | '<' | '=' | '>' | '?' | '^' | '_' | '~';
fragment SUBSEQUENT : INITIAL | DIGIT | SPECIAL_SUBSEQUENT;
fragment DIGIT : '0'..'9';
fragment SPECIAL_SUBSEQUENT : '.' | '+' | '-' | '@';
fragment PECULIAR_IDENTIFIER : '+' | '-';
fragment STRING_ELEMENT : ~('"' | '\\') | '\\' ('"' | '\\');
fragment CHARACTER_NAME : 'space' | 'newline';
fragment COMPLEX_2
: REAL_2 ('@' REAL_2)?
| REAL_2? SIGN UREAL_2? ('i' | 'I')
;
fragment COMPLEX_8
: REAL_8 ('@' REAL_8)?
| REAL_8? SIGN UREAL_8? ('i' | 'I')
;
fragment COMPLEX_10
: REAL_10 ('@' REAL_10)?
| REAL_10? SIGN UREAL_10? ('i' | 'I')
;
fragment COMPLEX_16
: REAL_16 ('@' REAL_16)?
| REAL_16? SIGN UREAL_16? ('i' | 'I')
;
fragment REAL_2 : SIGN? UREAL_2;
fragment REAL_8 : SIGN? UREAL_8;
fragment REAL_10 : SIGN? UREAL_10;
fragment REAL_16 : SIGN? UREAL_16;
fragment UREAL_2 : UINTEGER_2 ('/' UINTEGER_2)?;
fragment UREAL_8 : UINTEGER_8 ('/' UINTEGER_8)?;
fragment UREAL_10 : UINTEGER_10 ('/' UINTEGER_10)? | DECIMAL_10;
fragment UREAL_16 : UINTEGER_16 ('/' UINTEGER_16)?;
fragment DECIMAL_10
: UINTEGER_10 SUFFIX
| '.' DIGIT+ '#'* SUFFIX?
| DIGIT+ '.' DIGIT* '#'* SUFFIX?
| DIGIT+ '#'+ '.' '#'* SUFFIX?
;
fragment UINTEGER_2 : DIGIT_2+ '#'*;
fragment UINTEGER_8 : DIGIT_8+ '#'*;
fragment UINTEGER_10 : DIGIT+ '#'*;
fragment UINTEGER_16 : DIGIT_16+ '#'*;
fragment PREFIX_2 : RADIX_2 EXACTNESS? | EXACTNESS RADIX_2;
fragment PREFIX_8 : RADIX_8 EXACTNESS? | EXACTNESS RADIX_8;
fragment PREFIX_10 : RADIX_10 EXACTNESS? | EXACTNESS RADIX_10;
fragment PREFIX_16 : RADIX_16 EXACTNESS? | EXACTNESS RADIX_16;
fragment SUFFIX : EXPONENT_MARKER SIGN? DIGIT+;
fragment EXPONENT_MARKER : 'e' | 's' | 'f' | 'd' | 'l' | 'E' | 'S' | 'F' | 'D' | 'L';
fragment SIGN : '+' | '-';
fragment EXACTNESS : '#' ('i' | 'e' | 'I' | 'E');
fragment RADIX_2 : '#' ('b' | 'B');
fragment RADIX_8 : '#' ('o' | 'O');
fragment RADIX_10 : '#' ('d' | 'D');
fragment RADIX_16 : '#' ('x' | 'X');
fragment DIGIT_2 : '0' | '1';
fragment DIGIT_8 : '0'..'7';
fragment DIGIT_16 : DIGIT | 'a'..'f' | 'A'..'F';
which can be tested with the following class:
import org.antlr.runtime.*;
public class Main {
public static void main(String[] args) throws Exception {
String source =
"(define sum-iter \n" +
" (lambda(n acc i) \n" +
" (if (> i n) \n" +
" acc \n" +
" (sum-iter n (+ acc i) (+ i 1))))) ";
R5RSLexer lexer = new R5RSLexer(new ANTLRStringStream(source));
R5RSParser parser = new R5RSParser(new CommonTokenStream(lexer));
parser.parse();
}
}
and to generate a lexer & parser, compile all Java source files and run the main class, do:
bart@hades:~/Programming/ANTLR/Demos/R5RS$ java -cp antlr-3.3.jar org.antlr.Tool R5RS.g bart@hades:~/Programming/ANTLR/Demos/R5RS$ javac -cp antlr-3.3.jar *.java bart@hades:~/Programming/ANTLR/Demos/R5RS$ java -cp .:antlr-3.3.jar Main bart@hades:~/Programming/ANTLR/Demos/R5RS$
The fact that nothing is being printed on the console means the parser (and lexer) didn't find any errors with the provided source.
Note that I have no Unit tests and have only tested the single Scheme source inside the Main
class. If you find errors in the ANTLR grammar, I'd appreciate to hear about them so I can fix the grammar. In due time, I'll probably commit the grammar to the official ANTLR Wiki.
来源:https://stackoverflow.com/questions/6344766/antlr-resolving-non-ll-problems-and-syntactic-predicates