public static bool TryParseNode(Genero4glParser parser, out OtherwiseStatement node,
IModuleResult containingModule,
List <Func <PrepareStatement, bool> > prepStatementBinders,
Func <ReturnStatement, ParserResult> returnStatementBinder = null,
Action <IAnalysisResult, int, int> limitedScopeVariableAdder = null,
List <TokenKind> validExitKeywords = null,
IEnumerable <ContextStatementFactory> contextStatementFactories = null,
ExpressionParsingOptions expressionOptions = null,
HashSet <TokenKind> endKeywords = null)
{
node = null;
bool result = false;
if (parser.PeekToken(TokenKind.OtherwiseKeyword))
{
result = true;
node = new OtherwiseStatement();
parser.NextToken();
node.StartIndex = parser.Token.Span.Start;
node.DecoratorEnd = parser.Token.Span.End;
prepStatementBinders.Insert(0, node.BindPrepareCursorFromIdentifier);
while (!parser.PeekToken(TokenKind.EndOfFile) &&
!parser.PeekToken(TokenKind.WhenKeyword) &&
!parser.PeekToken(TokenKind.OtherwiseKeyword) &&
!(parser.PeekToken(TokenKind.EndKeyword) && parser.PeekToken(TokenKind.CaseKeyword, 2)))
{
FglStatement statement;
if (parser.StatementFactory.TryParseNode(parser, out statement, containingModule, prepStatementBinders, returnStatementBinder,
limitedScopeVariableAdder, false, validExitKeywords, contextStatementFactories, expressionOptions) &&
statement != null)
{
AstNode4gl stmtNode = statement as AstNode4gl;
node.Children.Add(stmtNode.StartIndex, stmtNode);
if (statement is ExitStatement &&
(statement as ExitStatement).ExitType != TokenKind.CaseKeyword)
{
if (validExitKeywords != null && !validExitKeywords.Contains((statement as ExitStatement).ExitType))
{
parser.ReportSyntaxError("Invalid exit statement for case statement block detected.");
}
}
}
else if (parser.PeekToken(TokenKind.EndKeyword) && endKeywords != null && endKeywords.Contains(parser.PeekToken(2).Kind))
{
break;
}
else
{
parser.NextToken();
}
}
prepStatementBinders.RemoveAt(0);
node.EndIndex = parser.Token.Span.End;
}
return(result);
}
public static bool TryParseNode(Genero4glParser parser, out CaseStatement node,
IModuleResult containingModule,
List <Func <PrepareStatement, bool> > prepStatementBinders,
Func <ReturnStatement, ParserResult> returnStatementBinder = null,
Action <IAnalysisResult, int, int> limitedScopeVariableAdder = null,
List <TokenKind> validExitKeywords = null,
IEnumerable <ContextStatementFactory> contextStatementFactories = null,
ExpressionParsingOptions expressionOptions = null,
HashSet <TokenKind> endKeywords = null)
{
node = null;
bool result = false;
if (parser.PeekToken(TokenKind.CaseKeyword))
{
result = true;
node = new CaseStatement();
parser.NextToken();
node.StartIndex = parser.Token.Span.Start;
if (!parser.PeekToken(TokenKind.WhenKeyword))
{
ExpressionNode tempExpr;
if (FglExpressionNode.TryGetExpressionNode(parser, out tempExpr, new List <TokenKind> {
TokenKind.WhenKeyword
}))
{
node.ConditionExpression = tempExpr;
}
else
{
parser.ReportSyntaxError("Invalid conditional expression found in case statement");
}
}
node.DecoratorEnd = parser.Token.Span.End;
List <TokenKind> validExits = new List <TokenKind>();
if (validExitKeywords != null)
{
validExits.AddRange(validExitKeywords);
}
validExits.Add(TokenKind.CaseKeyword);
HashSet <TokenKind> newEndKeywords = new HashSet <TokenKind>();
if (endKeywords != null)
{
newEndKeywords.AddRange(endKeywords);
}
newEndKeywords.Add(TokenKind.CaseKeyword);
// need to allow multiple when statements
bool whenCases = true;
while (!parser.PeekToken(TokenKind.EndOfFile) &&
!(parser.PeekToken(TokenKind.EndKeyword) && parser.PeekToken(TokenKind.CaseKeyword, 2)))
{
WhenStatement whenStmt;
if (WhenStatement.TryParseNode(parser, out whenStmt, containingModule, prepStatementBinders,
returnStatementBinder, limitedScopeVariableAdder, validExits,
contextStatementFactories, expressionOptions, newEndKeywords) && whenStmt != null)
{
if (whenCases)
{
node.Children.Add(whenStmt.StartIndex, whenStmt);
}
else
{
parser.ReportSyntaxError("A when case cannot come after an otherwise case block.");
break;
}
}
else
{
OtherwiseStatement otherStmt;
if (OtherwiseStatement.TryParseNode(parser, out otherStmt, containingModule, prepStatementBinders, returnStatementBinder,
limitedScopeVariableAdder, validExits, contextStatementFactories, expressionOptions, newEndKeywords) && otherStmt != null)
{
whenCases = false;
node.Children.Add(otherStmt.StartIndex, otherStmt);
}
else
{
parser.ReportSyntaxError("Invalid statement detected within case statement block.");
break;
}
}
}
if (!(parser.PeekToken(TokenKind.EndKeyword) && parser.PeekToken(TokenKind.CaseKeyword, 2)))
{
parser.ReportSyntaxError("A case statement must be terminated with \"end case\".");
}
else
{
parser.NextToken(); // advance to the 'end' token
parser.NextToken(); // advance to the 'case' token
node.EndIndex = parser.Token.Span.End;
}
}
return(result);
}