static void Try(string input)
{
if (show_input)
{
System.Console.WriteLine("Input:");
System.Console.WriteLine(input);
}
var str = new AntlrInputStream(input);
var lexer = new ANTLRv3Lexer(str);
var tokens = new CommonTokenStream(lexer);
var parser = new ANTLRv3Parser(tokens);
var listener = new ErrorListener <IToken>(parser, lexer, tokens);
parser.AddErrorListener(listener);
lexer.AddErrorListener(new ErrorListener <int>(parser, lexer, tokens));
var tree = parser.grammarDef();
if (listener.had_error)
{
System.Console.WriteLine("error in parse.");
}
else
{
System.Console.WriteLine("parse completed.");
}
if (show_tokens)
{
System.Console.WriteLine(tokens.OutputTokens(lexer));
}
if (show_tree)
{
System.Console.WriteLine(tree.OutputTree(tokens));
}
}
public static void Main(string[] args)
{
if (args.Length != 0)
{
string inputFileName = args[0];
if (!Path.IsPathRooted(inputFileName))
{
inputFileName = Path.Combine(Environment.CurrentDirectory, inputFileName);
}
ICharStream input = new ANTLRFileStream(inputFileName);
// BUILD AST
ANTLRv3Lexer lex = new ANTLRv3Lexer(input);
CommonTokenStream tokens = new CommonTokenStream(lex);
ANTLRv3Parser g = new ANTLRv3Parser(tokens);
ANTLRv3Parser.grammarDef_return r = g.grammarDef();
CommonTree t = (CommonTree)r.Tree;
System.Console.Out.WriteLine(t.ToStringTree());
/*
* // BUILD AST + PARSE TREES (needs ANTLR -debug option)
* ANTLRv3Lexer lex = new ANTLRv3Lexer(input);
* CommonTokenStream tokens = new CommonTokenStream(lex);
* ParseTreeBuilder builder = new ParseTreeBuilder(inputName);
* ANTLRv3Parser g = new ANTLRv3Parser(tokens, builder);
* ANTLRv3Parser.grammarDef_return r = g.grammarDef();
* CommonTree t = (CommonTree)r.Tree; // not used here
* System.Console.Out.WriteLine("parse tree: "+builder.Tree.ToStringTree());
* System.Console.Out.Write("input:\n"+builder.Tree.ToInputString());
*/
// WALK AST
CommonTreeNodeStream nodes = new CommonTreeNodeStream(t);
ANTLRv3Tree walker = new ANTLRv3Tree(nodes);
walker.grammarDef();
}
else
{
Console.Error.WriteLine("Usage: ANTLRv3 <input-file>");
}
}
public static void Main(string[] args)
{
if (args.Length > 1) {
string inputFileName = args[0];
if (!Path.IsPathRooted(inputFileName))
{
inputFileName = Path.Combine(Environment.CurrentDirectory, inputFileName);
}
ICharStream input = new ANTLRFileStream(inputFileName);
// BUILD AST
ANTLRv3Lexer lex = new ANTLRv3Lexer(input);
CommonTokenStream tokens = new CommonTokenStream(lex);
ANTLRv3Parser g = new ANTLRv3Parser(tokens);
ANTLRv3Parser.grammarDef_return r = g.grammarDef();
CommonTree t = (CommonTree)r.Tree;
System.Console.Out.WriteLine(t.ToStringTree());
/*
// BUILD AST + PARSE TREES (needs ANTLR -debug option)
ANTLRv3Lexer lex = new ANTLRv3Lexer(input);
CommonTokenStream tokens = new CommonTokenStream(lex);
ParseTreeBuilder builder = new ParseTreeBuilder(inputName);
ANTLRv3Parser g = new ANTLRv3Parser(tokens, builder);
ANTLRv3Parser.grammarDef_return r = g.grammarDef();
CommonTree t = (CommonTree)r.Tree; // not used here
System.Console.Out.WriteLine("parse tree: "+builder.Tree.ToStringTree());
System.Console.Out.Write("input:\n"+builder.Tree.ToInputString());
*/
// WALK AST
CommonTreeNodeStream nodes = new CommonTreeNodeStream(t);
ANTLRv3Tree walker = new ANTLRv3Tree(nodes);
walker.grammarDef();
}
else
Console.Error.WriteLine("Usage: ANTLRv3 <input-file>");
}
public void Try(string ffn, string input, ref Dictionary <string, string> results)
{
var now = DateTime.Now.ToString();
var errors = new StringBuilder();
var str = new AntlrInputStream(input);
var lexer = new ANTLRv3Lexer(str);
var tokens = new CommonTokenStream(lexer);
var parser = new ANTLRv3Parser(tokens);
var elistener = new ErrorListener <IToken>(parser, lexer, 0);
parser.AddErrorListener(elistener);
var tree = parser.grammarDef();
var error_file_name = ffn;
error_file_name = error_file_name.EndsWith(".g3")
? (error_file_name.Substring(0, error_file_name.Length - 3) + ".txt") : error_file_name;
error_file_name = error_file_name.EndsWith(".g")
? (error_file_name.Substring(0, error_file_name.Length - 2) + ".txt") : error_file_name;
var new_ffn = ffn;
new_ffn = new_ffn.EndsWith(".g3")
? (new_ffn.Substring(0, new_ffn.Length - 3) + ".g4") : new_ffn;
new_ffn = new_ffn.EndsWith(".g")
? (new_ffn.Substring(0, new_ffn.Length - 2) + ".g4") : new_ffn;
if (elistener.had_error)
{
results.Add(error_file_name, errors.ToString());
return;
}
else
{
errors.AppendLine("File " + ffn + " parsed successfully.");
errors.AppendLine("Date: " + now);
}
// Transforms derived from two sources:
// https://github.com/senseidb/sensei/pull/23
var(text_before, other) = TreeEdits.TextToLeftOfLeaves(tokens, tree);
// Remove unused options at top of grammar def.
// This specifically looks at the options at the top of the file,
// not rule-based options. That will be handled separately below.
using (AntlrTreeEditing.AntlrDOM.AntlrDynamicContext dynamicContext =
new AntlrTreeEditing.AntlrDOM.ConvertToDOM().Try(tree, parser))
{
org.eclipse.wst.xml.xpath2.processor.Engine engine =
new org.eclipse.wst.xml.xpath2.processor.Engine();
// Allow language, tokenVocab, TokenLabelType, superClass
var nodes = engine.parseExpression(
@"//grammarDef/optionsSpec
/option
[id
/(TOKEN_REF | RULE_REF)
[text() = 'output'
or text() = 'backtrack'
or text() = 'memoize'
or text() = 'ASTLabelType'
or text() = 'rewrite'
]]",
new StaticContextBuilder()).evaluate(
dynamicContext, new object[] { dynamicContext.Document })
.Select(x => (x.NativeValue as AntlrTreeEditing.AntlrDOM.AntlrElement).AntlrIParseTree);
TreeEdits.Delete(nodes);
var options = engine.parseExpression(
@"//grammarDef/optionsSpec",
new StaticContextBuilder()).evaluate(
dynamicContext, new object[] { dynamicContext.Document })
.Select(x => (x.NativeValue as AntlrTreeEditing.AntlrDOM.AntlrElement).AntlrIParseTree);
foreach (var os in options)
{
if (os.ChildCount == 3)
{
TreeEdits.Delete(os);
}
}
}
// Fix options in the beginning of rules.
// See https://theantlrguy.atlassian.net/wiki/spaces/ANTLR3/pages/2687029/Rule+and+subrule+options
using (AntlrTreeEditing.AntlrDOM.AntlrDynamicContext dynamicContext =
new AntlrTreeEditing.AntlrDOM.ConvertToDOM().Try(tree, parser))
{
org.eclipse.wst.xml.xpath2.processor.Engine engine =
new org.eclipse.wst.xml.xpath2.processor.Engine();
// Allow language, tokenVocab, TokenLabelType, superClass
var nodes = engine.parseExpression(
@"//rule_/optionsSpec
/option
[id
/(TOKEN_REF | RULE_REF)
[text() = 'output'
or text() = 'backtrack'
or text() = 'memoize'
or text() = 'ASTLabelType'
or text() = 'rewrite'
]]",
new StaticContextBuilder()).evaluate(
dynamicContext, new object[] { dynamicContext.Document })
.Select(x => (x.NativeValue as AntlrTreeEditing.AntlrDOM.AntlrElement).AntlrIParseTree);
TreeEdits.Delete(nodes);
var options = engine.parseExpression(
@"//rule_/optionsSpec",
new StaticContextBuilder()).evaluate(
dynamicContext, new object[] { dynamicContext.Document })
.Select(x => (x.NativeValue as AntlrTreeEditing.AntlrDOM.AntlrElement).AntlrIParseTree);
foreach (var os in options)
{
if (os.ChildCount == 3)
{
TreeEdits.Delete(os);
}
}
}
// Use new tokens{} syntax
using (AntlrTreeEditing.AntlrDOM.AntlrDynamicContext dynamicContext =
new AntlrTreeEditing.AntlrDOM.ConvertToDOM().Try(tree, parser))
{
org.eclipse.wst.xml.xpath2.processor.Engine engine =
new org.eclipse.wst.xml.xpath2.processor.Engine();
var nodes = engine.parseExpression(
@"//tokensSpec
/tokenSpec
/SEMI",
new StaticContextBuilder()).evaluate(
dynamicContext, new object[] { dynamicContext.Document })
.Select(x => (x.NativeValue as AntlrTreeEditing.AntlrDOM.AntlrElement).AntlrIParseTree);
if (nodes.Any())
{
// Delete tha last ";" in tokens list--change in syntax.
var last = nodes.Last();
TreeEdits.Delete(last);
// Replace all remaining ";" with ",".
TreeEdits.Replace(tree, (in IParseTree n, out bool c) =>
{
c = true;
if (!nodes.Contains(n) && n != last)
{
return(null);
}
var t = n as TerminalNodeImpl;
var new_sym = new TerminalNodeImpl(new CommonToken(ANTLRv4Lexer.COMMA)
{
Line = -1, Column = -1, Text = ","
});
text_before.TryGetValue(t, out string v);
if (v != null)
{
text_before.Add(new_sym, v);
}
return(new_sym);
});