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UseCasesNth.g
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UseCasesNth.g
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grammar UseCasesNth;
options {
// antlr will generate java lexer and parser
language = Java;
// generated parser should create abstract syntax tree
output = AST;
// parser will extend special super class
superClass = SuperParser;
}
@parser::header {
package org.meri.antlr.predicates;
import java.util.HashSet;
import java.util.Set;
}
@parser::members {
private static Set<String> NTH_PSEUDOCLASSES = new HashSet<String>();
static {
NTH_PSEUDOCLASSES.add("nth-child");
NTH_PSEUDOCLASSES.add("nth-last-child");
NTH_PSEUDOCLASSES.add("nth-of-type");
NTH_PSEUDOCLASSES.add("nth-last-of-type");
}
public boolean isInsideNth() {
return isNthPseudoClass(input.LT(-1));
}
private boolean isNthPseudoClass(Token a) {
if (a == null)
return false;
String text = a.getText();
if (text == null)
return false;
return NTH_PSEUDOCLASSES.contains(text.toLowerCase());
}
}
@lexer::header {
package org.meri.antlr.predicates;
}
LPAREN: '(';
RPAREN: ')';
COLON: ':';
COMMA: ',';
IDENT : ('a'..'z' | 'A'..'Z')+;
//pseudoparameters and nth with dummy syntax
pseudoparameters: IDENT (COMMA IDENT)*;
nth: IDENT; //real nth syntax ommited for simplicity sake
// pseudoclass
pseudo
: COLON COLON? IDENT ((
{ isInsideNth()}?=> LPAREN nth RPAREN
| LPAREN pseudoparameters RPAREN
)?)
;
//different solution - note that we need to use rewrite rules in this case
pseudoDifferentSolution
: COLON COLON? name=IDENT ((
{ isNthPseudoClass($name)}?=> LPAREN nthParameters=nth RPAREN
| LPAREN parameters=pseudoparameters RPAREN
)?)
-> $name $nthParameters? $parameters?
;