/** Merge all the rules, token definitions, and named actions from
imported grammars into the root grammar tree. Perform:
(tokens { X (= Y 'y')) + (tokens { Z ) -> (tokens { X (= Y 'y') Z)
(@ members {foo}) + (@ members {bar}) -> (@ members {foobar})
(RULES (RULE x y)) + (RULES (RULE z)) -> (RULES (RULE x y z))
Rules in root prevent same rule from being appended to RULES node.
The goal is a complete combined grammar so we can ignore subordinate
grammars.
*/
public virtual void IntegrateImportedGrammars(Grammar rootGrammar)
{
IList<Grammar> imports = rootGrammar.GetAllImportedGrammars();
if (imports == null)
return;
GrammarAST root = rootGrammar.ast;
GrammarAST id = (GrammarAST)root.GetChild(0);
GrammarASTAdaptor adaptor = new GrammarASTAdaptor(id.Token.InputStream);
GrammarAST tokensRoot = (GrammarAST)root.GetFirstChildWithType(ANTLRParser.TOKENS_SPEC);
IList<GrammarAST> actionRoots = root.GetNodesWithType(ANTLRParser.AT);
// Compute list of rules in root grammar and ensure we have a RULES node
GrammarAST RULES = (GrammarAST)root.GetFirstChildWithType(ANTLRParser.RULES);
ISet<string> rootRuleNames = new HashSet<string>();
// make list of rules we have in root grammar
IList<GrammarAST> rootRules = RULES.GetNodesWithType(ANTLRParser.RULE);
foreach (GrammarAST r in rootRules)
rootRuleNames.Add(r.GetChild(0).Text);
foreach (Grammar imp in imports)
{
// COPY TOKENS
GrammarAST imp_tokensRoot = (GrammarAST)imp.ast.GetFirstChildWithType(ANTLRParser.TOKENS_SPEC);
if (imp_tokensRoot != null)
{
rootGrammar.tool.Log("grammar", "imported tokens: " + imp_tokensRoot.Children);
if (tokensRoot == null)
{
tokensRoot = (GrammarAST)adaptor.Create(ANTLRParser.TOKENS_SPEC, "TOKENS");
tokensRoot.g = rootGrammar;
root.InsertChild(1, tokensRoot); // ^(GRAMMAR ID TOKENS...)
}
tokensRoot.AddChildren(imp_tokensRoot.Children);
}
IList<GrammarAST> all_actionRoots = new List<GrammarAST>();
IList<GrammarAST> imp_actionRoots = imp.ast.GetAllChildrenWithType(ANTLRParser.AT);
if (actionRoots != null)
{
foreach (var actionRoot in actionRoots)
all_actionRoots.Add(actionRoot);
}
foreach (var actionRoot in imp_actionRoots)
all_actionRoots.Add(actionRoot);
// COPY ACTIONS
if (imp_actionRoots != null)
{
IDictionary<System.Tuple<string, string>, GrammarAST> namedActions =
new Dictionary<System.Tuple<string, string>, GrammarAST>();
rootGrammar.tool.Log("grammar", "imported actions: " + imp_actionRoots);
foreach (GrammarAST at in all_actionRoots)
{
string scopeName = rootGrammar.GetDefaultActionScope();
GrammarAST scope, name, action;
if (at.ChildCount > 2)
{ // must have a scope
scope = (GrammarAST)at.GetChild(0);
scopeName = scope.Text;
name = (GrammarAST)at.GetChild(1);
action = (GrammarAST)at.GetChild(2);
}
else
{
name = (GrammarAST)at.GetChild(0);
action = (GrammarAST)at.GetChild(1);
}
GrammarAST prevAction;
if (!namedActions.TryGetValue(Tuple.Create(scopeName, name.Text), out prevAction) || prevAction == null)
{
namedActions[Tuple.Create(scopeName, name.Text)] = action;
}
else
{
if (prevAction.g == at.g)
{
rootGrammar.tool.errMgr.GrammarError(ErrorType.ACTION_REDEFINITION,
at.g.fileName, name.Token, name.Text);
}
else
{
string s1 = prevAction.Text;
s1 = s1.Substring(1, s1.Length - 2);
string s2 = action.Text;
s2 = s2.Substring(1, s2.Length - 2);
string combinedAction = "{" + s1 + '\n' + s2 + "}";
prevAction.Token.Text = combinedAction;
}
}
}
// at this point, we have complete list of combined actions,
// some of which are already living in root grammar.
// Merge in any actions not in root grammar into root's tree.
foreach (string scopeName in namedActions.Keys.Select(i => i.Item1).Distinct())
{
foreach (string name in namedActions.Keys.Where(i => i.Item1 == scopeName).Select(i => i.Item2))
{
GrammarAST action = namedActions[Tuple.Create(scopeName, name)];
rootGrammar.tool.Log("grammar", action.g.name + " " + scopeName + ":" + name + "=" + action.Text);
if (action.g != rootGrammar)
{
root.InsertChild(1, action.Parent);
}
}
}
}
// COPY RULES
IList<GrammarAST> rules = imp.ast.GetNodesWithType(ANTLRParser.RULE);
if (rules != null)
{
foreach (GrammarAST r in rules)
{
rootGrammar.tool.Log("grammar", "imported rule: " + r.ToStringTree());
string name = r.GetChild(0).Text;
bool rootAlreadyHasRule = rootRuleNames.Contains(name);
if (!rootAlreadyHasRule)
{
RULES.AddChild(r); // merge in if not overridden
rootRuleNames.Add(name);
}
}
}
GrammarAST optionsRoot = (GrammarAST)imp.ast.GetFirstChildWithType(ANTLRParser.OPTIONS);
if (optionsRoot != null)
{
// suppress the warning if the options match the options specified
// in the root grammar
// https://github.com/antlr/antlr4/issues/707
bool hasNewOption = false;
foreach (KeyValuePair<string, GrammarAST> option in imp.ast.GetOptions())
{
string importOption = imp.ast.GetOptionString(option.Key);
if (importOption == null)
{
continue;
}
string rootOption = rootGrammar.ast.GetOptionString(option.Key);
if (!importOption.Equals(rootOption))
{
hasNewOption = true;
break;
}
}
if (hasNewOption)
{
rootGrammar.tool.errMgr.GrammarError(ErrorType.OPTIONS_IN_DELEGATE,
optionsRoot.g.fileName, optionsRoot.Token, imp.name);
}
}
}
rootGrammar.tool.Log("grammar", "Grammar: " + rootGrammar.ast.ToStringTree());
}