public static void parse(TokenCode stop1, TokenCode stop2, TokenCode stop3, iSCOPE context)
{
Debug.Indent();
Debug.WriteLine("Entering BODY.parse");
Token token;
Token start = get();
while (true)
{
bool res = STATEMENT.parse(context, stop1, stop2, stop3);
if (!res)
{
// Neither a statement nor a simple declaration.
// Perhaps, a nested/local function?
token = get();
switch (token.code)
{
case TokenCode.Routine:
case TokenCode.Safe:
case TokenCode.Pure:
forget();
int pure_safe = 0;
switch (token.code)
{
case TokenCode.Pure: pure_safe = 1; break;
case TokenCode.Safe: pure_safe = 2; break;
}
ROUTINE.parse(null, false, false, false, pure_safe, context);
break;
case TokenCode.Unit:
case TokenCode.Ref:
case TokenCode.Val:
// A _local_ unit???
UNIT.parse(context);
break;
default:
// What's this?
break;
}
}
token = get();
if (token.code == TokenCode.Semicolon /*|| wasEOL*/)
{
forget();
}
if (token.code == stop1)
{
break; // don't 'forget()'
}
if (stop2 != TokenCode.ERROR && token.code == stop2)
{
break; // don't 'forget()'
}
if (stop3 != TokenCode.ERROR && token.code == stop3)
{
break; // don't 'forget()'
}
}
BODY body = context as BODY;
if (body == null) /* A system error */ } {
public static bool parse(iSCOPE context)
{
Debug.Indent();
Debug.WriteLine("Entering DECLARATION.parse");
bool result = true;
bool isHidden = false;
bool isFinal = false;
int pure_safe = 0;
bool isOverride = false;
bool isRoutine = false;
bool isAbstract = false;
Token token = get();
Token begin = token;
// Collecting specifiers
while (true)
{
switch (token.code)
{
case TokenCode.Abstract: isAbstract = true; forget(); break;
case TokenCode.Override: isOverride = true; forget(); break;
case TokenCode.Hidden: isHidden = true; forget(); break;
case TokenCode.Final: isFinal = true; isRoutine = true; forget(); break;
case TokenCode.Routine: isRoutine = true; forget(); break;
case TokenCode.Pure: pure_safe = 1; isRoutine = true; forget(); break;
case TokenCode.Safe: pure_safe = 2; isRoutine = true; forget(); break;
default: goto OutLoop;
}
token = get();
}
OutLoop:
// Checking for a leading keyword
switch (token.code)
{
case TokenCode.Unit:
if (isOverride || isRoutine || pure_safe > 0)
{
// Illegal specifier for unit declaration
error(token, "illegal-spec", begin, "unit declaration");
}
UNIT.parse(isHidden, isFinal, isAbstract, context);
break;
case TokenCode.Const:
if (isRoutine || pure_safe > 0)
{
// Illegal specifier for constant declaration
error(begin, "illegal-spec", begin, "object declaration");
}
Token start = token;
forget(); token = get();
if (token.code == TokenCode.Is)
{
forget();
if (isOverride)
{
// Illegal specifier for constant declaration
error(begin, "illegal-spec", begin, "constant declaration");
}
CONSTANT.parse(isHidden, isFinal, start, context);
}
else
{
if (pure_safe > 0)
{
// Illegal specifier for variable declaration
error(begin, "illegal-spec", begin, "variable declaration");
}
VARIABLE.parse(isHidden, isFinal, true, isOverride, null, null, context);
}
break;
case TokenCode.Init:
forget();
if (isOverride || isFinal || isRoutine || pure_safe > 0)
{
// Illegal specifier for initializer
error(begin, "illegal-spec", begin, "initializer declaration");
}
ROUTINE.parse(token, isHidden, isFinal, false, 0, context);
break;
case TokenCode.Identifier:
// An identifier just following (optional) specifier(s)
if (isRoutine || pure_safe > 0)
{
// This is definitely a routine declaration
// (Some time after, 'isRoutine' might be removed...)
forget();
ROUTINE.parse(token, isHidden, isFinal, isOverride, pure_safe, context);
}
else
{
// Decide whether this is variable or routine declaration
if (!isOverride || !isHidden || !isFinal)
{
if (!(context is UNIT))
{
// Tricky point:
// We are out of a unit context, i.e., within a routine
// or in a global scope, AND there is NO ONE specifier given.
// So, we conclude that identifier starts a statement
// but not a declaration.
// We do nothing and silently exit with result == false.
break;
}
}
Token id = token;
forget(); token = get(); // forget();
switch (token.code)
{
case TokenCode.LParen:
case TokenCode.LBracket:
case TokenCode.Then:
case TokenCode.Else:
ROUTINE.parse(id, isHidden, isFinal, isOverride, pure_safe, context);
break;
default:
forget();
VARIABLE.parse(isHidden, isFinal, false, isOverride, id, token, context);
break;
}
break;
}
break;
default:
// Some other token after optional specifier(s).
// Perhaps this is an operator sign?
Token name = ROUTINE.detectOperatorSign(token);
if (name.code != TokenCode.ERROR)
{
ROUTINE.parse(name, isHidden, isFinal, isOverride, pure_safe, context);
}
else if (isRoutine || isOverride || isHidden)
{
// Syntax error in declaration
error(token, "syntax-error", "wrong declaration");
result = false;
}
else
{
// What's this? -- something that is not a declaration.
// Don't issue a message
// error(token,"syntax-error");
result = false;
}
break;
}
Debug.WriteLine("Exiting DECLARATION.parse");
Debug.Unindent();
return(result);
}
/// <summary>
/// The function processes all kinds of statements including
/// assignments, calls, and variable/constant declarations.
/// </summary>
/// <param name="context"></param>
/// <returns>true, if any construct (a statement, or a simple declaration)
/// was processed, and false otherwise.</returns>
public static bool parse(iSCOPE context, TokenCode stop1, TokenCode stop2, TokenCode stop3)
{
Debug.Indent();
Debug.WriteLine("Entering STATEMENT.parse");
bool result = true;
Token token = get();
Token begin = token;
if (token.code == stop1 && stop1 != TokenCode.ERROR)
{
goto Finish;
}
if (token.code == stop2 && stop2 != TokenCode.ERROR)
{
goto Finish;
}
if (token.code == stop3 && stop3 != TokenCode.ERROR)
{
goto Finish;
}
switch (token.code)
{
// case TokenCode.Pure: -- doesn't make any sense
case TokenCode.Safe:
case TokenCode.Routine:
ROUTINE.parse(token, false, false, false, 0, context);
break;
case TokenCode.If:
IF.parse(context);
break;
case TokenCode.While:
case TokenCode.Loop:
LOOP.parse(null, context);
break;
// Break
// : break [ Label ]
//
// Label
// : Identifier
case TokenCode.Break:
BREAK.parse(context);
break;
// Statement
// : ...
// | raise [ Expression ]
case TokenCode.Raise:
forget();
RAISE.parse(token.span, context);
break;
// Statement
// : ...
// | check PredicatesList end
// | ...
case TokenCode.Check:
CHECK.parse(context);
break;
// Statement
// : ...
// | return [ Expression ]
// | ...
case TokenCode.Return:
forget();
EXPRESSION expr = EXPRESSION.parse(null, context); // can be null
RETURN ret = new RETURN(expr);
if (expr != null)
{
expr.parent = ret;
ret.setSpan(begin.span, expr.span);
}
else
{
ret.setSpan(begin);
}
context.add(ret);
break;
// Statement
// : ...
// | Try
// | ...
//
// Try
// : try { Statement } Catches [ Else ] end
//
// Catches
// : catch [ "(" [ Identifier ":" ] Type ")" ] { Statement }
//
// Else
// : else { Statement }
case TokenCode.Try:
TRY.parse(context);
break;
// Statement
// : ...
// | ? Identifier
// | ...
//
case TokenCode.Question:
break;
case TokenCode.Init:
// Initializer call
forget();
Token start = token;
DECLARATION init = Context.find(INITIALIZER.initName);
EXPRESSION initRef;
if (init != null)
{
initRef = new REFERENCE(init);
}
else
{
initRef = new UNRESOLVED(context, new IDENTIFIER(INITIALIZER.initName));
}
CALL call = new CALL(initRef);
token = expect(TokenCode.LParen);
while (true)
{
EXPRESSION argument = EXPRESSION.parse(null, context);
call.add(argument);
argument.parent = call;
token = get();
if (token.code == TokenCode.Comma)
{
forget(); continue;
}
break;
}
token = expect(TokenCode.RParen);
call.setSpan(start.span, token.span);
context.add(call);
break;
case TokenCode.Identifier:
{
// Several different cases:
// - a label in front of while/loop
// - a declaration
// - a statement
forget();
Token next = get();
if (next.code == TokenCode.LParen)
{
forget();
TokenCode codeAfter = saveTokensUntilRightParenth(next);
switch (codeAfter)
{
case TokenCode.Colon:
case TokenCode.Is:
// case TokenCode.Do:
case TokenCode.Arrow:
//This as a routine declaration!!
ROUTINE.parse(token, false, false, false, 0, context);
goto Weiter;
}
}
EXPRESSION attempt = EXPRESSION.parse(token, context);
if (attempt is UNRESOLVED)
{
// Might be a label or a declaration...
Token idd = new Token(attempt.span, TokenCode.Identifier,
(attempt as UNRESOLVED).name.identifier,
new Category(CategoryCode.identifier));
token = get();
switch (token.code)
{
case TokenCode.Is:
case TokenCode.Comma:
// This is definitely a declaration
forget();
VARIABLE.parse(false, false, false, false, idd, token, context);
goto Weiter;
case TokenCode.Colon:
forget();
Token token2 = get();
if (token2.code == TokenCode.While || token2.code == TokenCode.Loop)
{
// This is a real label! Don't 'forget()'.
LOOP.parse(idd, context);
}
else
{
// This is definitely a variable declaration.
// Don't forget()
VARIABLE.parse(false, false, false, false, idd, token, context);
}
goto Weiter;
default:
// Nothing to do; just going further
break;
}
}
// 'attempt' is something else: a call or the left part of an assignment
token = get();
if (token.code == TokenCode.Assign)
{
forget();
EXPRESSION right = EXPRESSION.parse(null, context);
ASSIGNMENT res = new ASSIGNMENT(attempt, right);
res.setSpan(attempt.span, right.span);
context.add(res);
}
else
{
if (!(attempt is CALL)) // something's wrong
{
result = false;
}
context.add(attempt);
}
Weiter:
break;
}
case TokenCode.Const:
// Something like
// const a is 5...
// OR
// const is a, b, ... end
forget(); token = get();
if (token.code == TokenCode.Is)
{
forget();
CONSTANT.parse(context);
}
else
{
VARIABLE.parse(false, false, true, false, null, null, context);
}
break;
default:
// Something else, e.g., (a... or this...
// Either a function call or an assignment.
//
// this := ...
// (if cond then a else b).f ...
// ^
EXPRESSION e = EXPRESSION.parse(null, context);
if (e == null)
{
// Either an error or just the end of statement sequence
result = false;
break;
}
token = get();
if (token.code == TokenCode.Assign)
{
forget();
EXPRESSION right = EXPRESSION.parse(null, context);
ASSIGNMENT assignment = new ASSIGNMENT(e, right);
assignment.setSpan(e.span, right.span);
context.add(assignment);
}
else
{
context.add(e);
}
break;
}
Finish:
Debug.WriteLine("Exiting STATEMENT.parse");
Debug.Unindent();
return(result);
}
/// <summary>
///
/// </summary>
/// <returns></returns>
public static COMPILATION parse()
{
Debug.Indent();
Debug.WriteLine("Entering COMPILATION.parse");
COMPILATION compilation = new COMPILATION();
Context.enter(compilation);
Token start = get();
Token startAnon = null;
Token endAnon = null;
int pure_safe = 0;
while (true)
{
Token token = get();
Token begin = token;
switch (token.code)
{
case TokenCode.Final:
forget();
token = get();
switch (token.code)
{
case TokenCode.Unit:
case TokenCode.Package:
case TokenCode.Ref:
case TokenCode.Val:
case TokenCode.Concurrent:
// Don't forget()
UNIT.parse(false, true, false, compilation);
break;
case TokenCode.Abstract:
forget();
UNIT.parse(false, true, true, compilation);
break;
case TokenCode.Safe:
case TokenCode.Pure:
case TokenCode.Routine:
forget();
switch (token.code)
{
case TokenCode.Pure: pure_safe = 1; break;
case TokenCode.Safe: pure_safe = 2; break;
}
ROUTINE.parse(null, false, true, false, pure_safe, compilation);
pure_safe = 0;
break;
}
break;
case TokenCode.Ref:
case TokenCode.Val:
case TokenCode.Concurrent:
case TokenCode.Unit:
case TokenCode.Package:
UNIT.parse(false, false, false, compilation);
break;
case TokenCode.Abstract:
forget();
UNIT.parse(false, false, true, compilation);
break;
case TokenCode.Use:
USE.parse(compilation);
break;
case TokenCode.Routine:
case TokenCode.Safe:
case TokenCode.Pure:
forget();
switch (token.code)
{
case TokenCode.Pure: pure_safe = 1; break;
case TokenCode.Safe: pure_safe = 2; break;
}
ROUTINE.parse(null, false, false, false, pure_safe, compilation);
pure_safe = 0;
break;
case TokenCode.EOS:
goto Finish;
case TokenCode.EOL:
forget();
break;
default:
// A call/assignment statement, or an error
if (startAnon == null)
{
startAnon = get();
}
bool result = STATEMENT.parse(compilation.anonymous.routineBody,
TokenCode.EOS, TokenCode.ERROR, TokenCode.ERROR);
if (!result)
{
// There was not a statement:
// apparently, this is a syntax error
goto Finish;
}
endAnon = get();
break;
}
}
Finish:
compilation.setSpan(start, get());
if (startAnon != null && endAnon != null)
{
compilation.anonymous.setSpan(startAnon, endAnon);
}
Debug.WriteLine("Exiting COMPILATION.parse");
Debug.Unindent();
Context.exit();
return(compilation);
}