use of org.antlr.v4.tool.LabelElementPair in project antlr4 by antlr.
the class SymbolChecks method checkForLabelConflicts.
/**
* Make sure a label doesn't conflict with another symbol.
* Labels must not conflict with: rules, tokens, scope names,
* return values, parameters, and rule-scope dynamic attributes
* defined in surrounding rule. Also they must have same type
* for repeated defs.
*/
public void checkForLabelConflicts(Collection<Rule> rules) {
for (Rule r : rules) {
checkForAttributeConflicts(r);
Map<String, LabelElementPair> labelNameSpace = new HashMap<>();
for (int i = 1; i <= r.numberOfAlts; i++) {
Alternative a = r.alt[i];
for (List<LabelElementPair> pairs : a.labelDefs.values()) {
if (r.hasAltSpecificContexts()) {
// Collect labelName-labeledRules map for rule with alternative labels.
Map<String, List<LabelElementPair>> labelPairs = new HashMap<>();
for (LabelElementPair p : pairs) {
String labelName = findAltLabelName(p.label);
if (labelName != null) {
List<LabelElementPair> list;
if (labelPairs.containsKey(labelName)) {
list = labelPairs.get(labelName);
} else {
list = new ArrayList<>();
labelPairs.put(labelName, list);
}
list.add(p);
}
}
for (List<LabelElementPair> internalPairs : labelPairs.values()) {
labelNameSpace.clear();
checkLabelPairs(r, labelNameSpace, internalPairs);
}
} else {
checkLabelPairs(r, labelNameSpace, pairs);
}
}
}
}
}
use of org.antlr.v4.tool.LabelElementPair in project antlr4 by antlr.
the class SymbolCollector method label.
@Override
public void label(GrammarAST op, GrammarAST ID, GrammarAST element) {
LabelElementPair lp = new LabelElementPair(g, ID, element, op.getType());
currentRule.alt[currentOuterAltNumber].labelDefs.map(ID.getText(), lp);
}
use of org.antlr.v4.tool.LabelElementPair in project antlr4 by antlr.
the class LeftRecursiveRuleTransformer method translateLeftRecursiveRule.
/**
* Return true if successful
*/
public boolean translateLeftRecursiveRule(GrammarRootAST ast, LeftRecursiveRule r, String language) {
// tool.log("grammar", ruleAST.toStringTree());
GrammarAST prevRuleAST = r.ast;
String ruleName = prevRuleAST.getChild(0).getText();
LeftRecursiveRuleAnalyzer leftRecursiveRuleWalker = new LeftRecursiveRuleAnalyzer(prevRuleAST, tool, ruleName, language);
boolean isLeftRec;
try {
// System.out.println("TESTING ---------------\n"+
// leftRecursiveRuleWalker.text(ruleAST));
isLeftRec = leftRecursiveRuleWalker.rec_rule();
} catch (RecognitionException re) {
// didn't match; oh well
isLeftRec = false;
}
if (!isLeftRec)
return false;
// replace old rule's AST; first create text of altered rule
GrammarAST RULES = (GrammarAST) ast.getFirstChildWithType(ANTLRParser.RULES);
String newRuleText = leftRecursiveRuleWalker.getArtificialOpPrecRule();
// System.out.println("created: "+newRuleText);
// now parse within the context of the grammar that originally created
// the AST we are transforming. This could be an imported grammar so
// we cannot just reference this.g because the role might come from
// the imported grammar and not the root grammar (this.g)
RuleAST t = parseArtificialRule(prevRuleAST.g, newRuleText);
// reuse the name token from the original AST since it refers to the proper source location in the original grammar
((GrammarAST) t.getChild(0)).token = ((GrammarAST) prevRuleAST.getChild(0)).getToken();
// update grammar AST and set rule's AST.
RULES.setChild(prevRuleAST.getChildIndex(), t);
r.ast = t;
// Reduce sets in newly created rule tree
GrammarTransformPipeline transform = new GrammarTransformPipeline(g, g.tool);
transform.reduceBlocksToSets(r.ast);
transform.expandParameterizedLoops(r.ast);
// Rerun semantic checks on the new rule
RuleCollector ruleCollector = new RuleCollector(g);
ruleCollector.visit(t, "rule");
BasicSemanticChecks basics = new BasicSemanticChecks(g, ruleCollector);
// disable the assoc element option checks because they are already
// handled for the pre-transformed rule.
basics.checkAssocElementOption = false;
basics.visit(t, "rule");
// track recursive alt info for codegen
r.recPrimaryAlts = new ArrayList<LeftRecursiveRuleAltInfo>();
r.recPrimaryAlts.addAll(leftRecursiveRuleWalker.prefixAndOtherAlts);
if (r.recPrimaryAlts.isEmpty()) {
tool.errMgr.grammarError(ErrorType.NO_NON_LR_ALTS, g.fileName, ((GrammarAST) r.ast.getChild(0)).getToken(), r.name);
}
r.recOpAlts = new OrderedHashMap<Integer, LeftRecursiveRuleAltInfo>();
r.recOpAlts.putAll(leftRecursiveRuleWalker.binaryAlts);
r.recOpAlts.putAll(leftRecursiveRuleWalker.ternaryAlts);
r.recOpAlts.putAll(leftRecursiveRuleWalker.suffixAlts);
// walk alt info records and set their altAST to point to appropriate ALT subtree
// from freshly created AST
setAltASTPointers(r, t);
// update Rule to just one alt and add prec alt
ActionAST arg = (ActionAST) r.ast.getFirstChildWithType(ANTLRParser.ARG_ACTION);
if (arg != null) {
r.args = ScopeParser.parseTypedArgList(arg, arg.getText(), g);
r.args.type = AttributeDict.DictType.ARG;
r.args.ast = arg;
// todo: isn't this Rule or something?
arg.resolver = r.alt[1];
}
// these are so $label in action translation works
for (Pair<GrammarAST, String> pair : leftRecursiveRuleWalker.leftRecursiveRuleRefLabels) {
GrammarAST labelNode = pair.a;
GrammarAST labelOpNode = (GrammarAST) labelNode.getParent();
GrammarAST elementNode = (GrammarAST) labelOpNode.getChild(1);
LabelElementPair lp = new LabelElementPair(g, labelNode, elementNode, labelOpNode.getType());
r.alt[1].labelDefs.map(labelNode.getText(), lp);
}
// copy to rule from walker
r.leftRecursiveRuleRefLabels = leftRecursiveRuleWalker.leftRecursiveRuleRefLabels;
tool.log("grammar", "added: " + t.toStringTree());
return true;
}
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