/// <summary>
/// Parses a meta data declaration.
/// Syntax:
/// "[" { Identifier "=" Identifier [ "," ] } "]"
/// </summary>
private void ParseMetaData()
{
ExpectToken(TokenID.CharOpenBracket);
while (true)
{
string name = "";
string value = "";
// Read in an identifier for the variable.
name = ExpectToken(TokenID.TypeIdentifier).Ident;
// Read in the equals sign.
ExpectToken(TokenID.OpAssign);
// Read in an identifier, string or number for the value.
NextToken();
if (_currentToken.ID == TokenID.TypeBoolean ||
_currentToken.ID == TokenID.TypeByte ||
_currentToken.ID == TokenID.TypeDouble ||
_currentToken.ID == TokenID.TypeFloat ||
_currentToken.ID == TokenID.TypeIdentifier ||
_currentToken.ID == TokenID.TypeInteger ||
_currentToken.ID == TokenID.TypeLong ||
_currentToken.ID == TokenID.TypeShort ||
_currentToken.ID == TokenID.TypeString)
{
if (_currentToken.ID == TokenID.TypeBoolean)
value = _currentToken.Ident.ToLower() == "true" ? "1" : "0";
else
value = _currentToken.Ident;
}
else
{
Error(ErrorCode.InvalidDataType, "Property variables can't be assigned the value of \"" + _currentToken.Ident + "\".", false, 0);
}
// Create a meta data symbol to store this data in.
MetaDataSymbol metaDataSymbol = new MetaDataSymbol(null, name, value);
_metaDataList.Add(metaDataSymbol);
// Read in comma or break out of loop if there isn't one.
if (LookAheadToken().ID == TokenID.CharComma)
NextToken();
else
break;
}
ExpectToken(TokenID.CharCloseBracket);
}
/// <summary>
/// Loads the byte code from a given binary reader.
/// </summary>
/// <param name="reader">BinaryReader to load byte code from.</param>
private void LoadByteCode(BinaryReader reader)
{
// Check the header is correct
if (reader.ReadByte() == 'C' && reader.ReadByte() == 'R' && reader.ReadByte() == 'X')
{
// Read in header variables.
_compileFlags = (CompileFlags)reader.ReadInt32();
_internalVariableIndex = reader.ReadInt32();
_memorySize = reader.ReadInt32();
int globalScopeIndex = reader.ReadInt32();
int memberScopeIndex = reader.ReadInt32();
_defaultEngineStateIndex = reader.ReadInt32();
_defaultEditorStateIndex = reader.ReadInt32();
// Create a new memory heap of the correct size
if (_memorySize > _memoryHeap.Length) _memoryHeap = new RuntimeValue[_memorySize];
for (int i = 0; i < _memorySize; i++)
_memoryHeap[i] = new RuntimeValue(RuntimeValueType.Invalid);
// Set the 'special' globals to their appropriate values.
_memoryHeap[0].ValueType = RuntimeValueType.Object;
_memoryHeap[0].ObjectIndex = 0;
int defineCount = reader.ReadInt32();
int symbolCount = reader.ReadInt32();
int instructionCount = reader.ReadInt32();
int debugFileCount = 0;
if ((_compileFlags & CompileFlags.Debug) != 0)
debugFileCount = reader.ReadInt32();
// Read in debug file list.
string[] debugFiles = new string[debugFileCount];
if ((_compileFlags & CompileFlags.Debug) != 0)
{
for (int i = 0; i < debugFileCount; i++)
debugFiles[i] = reader.ReadString();
}
// Read in the define list.
for (int i = 0; i < defineCount; i++)
{
string ident = reader.ReadString();
TokenID valueID = (TokenID)reader.ReadInt32();
string value = reader.ReadString();
Define define = new Define(ident, value, valueID);
_defineList.Add(define);
}
// Read in symbol list.
_symbolList = new Symbol[symbolCount];
for (int i = 0; i < symbolCount; i++)
{
// Read in general details about symbol.
SymbolType type = (SymbolType)reader.ReadByte();
string identifier = reader.ReadString();
int scopeIndex = reader.ReadInt32();
Symbol scope = null;
Symbol symbol = null;
if (scopeIndex != -1)
scope = (Symbol)_symbolList[scopeIndex];
// Read in specialized details about symbol.
switch (type)
{
case SymbolType.JumpTarget:
continue; // Ignore jump targets.
case SymbolType.Namespace:
NamespaceSymbol namespaceSymbol = new NamespaceSymbol(scope);
symbol = namespaceSymbol;
break;
case SymbolType.Enumeration:
EnumerationSymbol enumSymbol = new EnumerationSymbol(scope);
symbol = enumSymbol;
break;
case SymbolType.String:
StringSymbol stringSymbol = new StringSymbol(scope, identifier);
symbol = stringSymbol;
break;
case SymbolType.Function:
FunctionSymbol functionSymbol = new FunctionSymbol(identifier, scope);
symbol = functionSymbol;
functionSymbol.EntryPoint = reader.ReadInt32();
functionSymbol.LocalDataSize = reader.ReadInt16();
functionSymbol.IsEvent = reader.ReadBoolean();
functionSymbol.IsConsole = reader.ReadBoolean();
functionSymbol.IsExport = reader.ReadBoolean();
functionSymbol.IsImport = reader.ReadBoolean();
functionSymbol.IsThreadSpawner = reader.ReadBoolean();
functionSymbol.IsMember = reader.ReadBoolean();
functionSymbol.ParameterCount = reader.ReadByte();
bool isArray = reader.ReadBoolean();
bool isReference = reader.ReadBoolean();
functionSymbol.ReturnType = new DataTypeValue((DataType)reader.ReadByte(), isArray, isReference);
functionSymbol.AccessModifier = (SymbolAccessModifier)reader.ReadByte();
break;
case SymbolType.State:
StateSymbol stateSymbol = new StateSymbol(scope);
symbol = stateSymbol;
stateSymbol.IsEngineDefault = reader.ReadBoolean();
stateSymbol.IsEditorDefault = reader.ReadBoolean();
break;
case SymbolType.Variable:
VariableSymbol variableSymbol = new VariableSymbol(scope);
symbol = variableSymbol;
variableSymbol.DataType = new DataTypeValue((DataType)reader.ReadByte(), false, false);
variableSymbol.DataType.IsReference = reader.ReadBoolean();
variableSymbol.IsArray = reader.ReadBoolean();
variableSymbol.DataType.IsArray = variableSymbol.IsArray;
variableSymbol.IsConstant = reader.ReadBoolean();
variableSymbol.MemoryIndex = reader.ReadInt32();
variableSymbol.StackIndex = reader.ReadInt32();
variableSymbol.VariableType = (VariableType)reader.ReadByte();
variableSymbol.IsProperty = reader.ReadBoolean();
variableSymbol.AccessModifier = (SymbolAccessModifier)reader.ReadByte();
variableSymbol.ConstToken = new Token(TokenID.TypeIdentifier, reader.ReadString(), 0, 0, "");
break;
case SymbolType.MetaData:
MetaDataSymbol metaDataSymbol = new MetaDataSymbol(scope, identifier, "");
symbol = metaDataSymbol;
metaDataSymbol.Value = reader.ReadString();
break;
}
symbol.Identifier = identifier;
symbol.Index = i;
_symbolList[i] = symbol;
}
// Retrieve global scope.
_globalScope = _symbolList[globalScopeIndex] as FunctionSymbol;
_memberScope = _symbolList[memberScopeIndex] as FunctionSymbol;
//_currentState = _symbolList[_defaultEngineStateIndex] as StateSymbol; // Force this to be declared in the engine / editor.
// Read in instruction list.
_instructionList = new RuntimeInstruction[instructionCount];
for (int i = 0; i < instructionCount; i++)
{
// Read in instruction details and create a new instruction.
OpCode opCode = (OpCode)reader.ReadByte();
int operandCount = reader.ReadByte();
RuntimeInstruction instruction = new RuntimeInstruction(opCode);
_instructionList[i] = instruction;
if ((_compileFlags & CompileFlags.Debug) != 0)
{
int fileIndex = reader.ReadSByte();
if (fileIndex != -1) instruction.File = debugFiles[fileIndex];
instruction.Offset = reader.ReadInt16();
instruction.Line = reader.ReadInt16();
}
// Read in each operand attached to this instruction
for (int k = 0; k < operandCount; k++)
{
// Read in general details about this operand and create
// a new runtime value instance.
RuntimeValueType opType = (RuntimeValueType)reader.ReadInt32();
RuntimeValue operand = new RuntimeValue(opType);
instruction.Operands[instruction.OperandCount] = operand;
instruction.OperandCount++;
// Read in specialized info about this operand.
switch(opType)
{
case RuntimeValueType.BooleanLiteral:
operand.BooleanLiteral = reader.ReadBoolean();
break;
case RuntimeValueType.ByteLiteral:
operand.ByteLiteral = reader.ReadByte();
break;
case RuntimeValueType.DirectMemory:
operand.MemoryIndex = reader.ReadInt32();
break;
case RuntimeValueType.DirectMemoryIndexed:
operand.MemoryIndex = reader.ReadInt32();
operand.OffsetRegister = (Register)reader.ReadByte();
break;
case RuntimeValueType.DirectStack:
operand.StackIndex = reader.ReadInt32();
break;
case RuntimeValueType.DirectStackIndexed:
operand.StackIndex = reader.ReadInt32();
operand.OffsetRegister = (Register)reader.ReadByte();
break;
case RuntimeValueType.DoubleLiteral:
operand.DoubleLiteral = reader.ReadDouble();
break;
case RuntimeValueType.FloatLiteral:
operand.FloatLiteral = reader.ReadSingle();
break;
case RuntimeValueType.IndirectMemory:
operand.Register = (Register)reader.ReadByte();
break;
case RuntimeValueType.IndirectMemoryIndexed:
operand.Register = (Register)reader.ReadByte();
operand.OffsetRegister = (Register)reader.ReadByte();
break;
case RuntimeValueType.IndirectStack:
operand.Register = (Register)reader.ReadByte();
break;
case RuntimeValueType.IndirectStackIndexed:
operand.Register = (Register)reader.ReadByte();
operand.OffsetRegister = (Register)reader.ReadByte();
break;
case RuntimeValueType.InstrIndex:
operand.InstrIndex = reader.ReadInt32();
break;
case RuntimeValueType.IntegerLiteral:
operand.IntegerLiteral = reader.ReadInt32();
break;
case RuntimeValueType.LongLiteral:
operand.LongLiteral = reader.ReadInt64();
break;
case RuntimeValueType.Register:
operand.Register = (Register)reader.ReadByte();
break;
case RuntimeValueType.ShortLiteral:
operand.ShortLiteral = reader.ReadInt16();
break;
case RuntimeValueType.SymbolIndex:
operand.SymbolIndex = reader.ReadInt32();
operand.Symbol = (Symbol)_symbolList[operand.SymbolIndex];
if (operand.Symbol is StringSymbol)
{
operand.StringLiteral = operand.Symbol.Identifier;
operand.ValueType = RuntimeValueType.StringLiteral;
}
break;
}
}
}
// Fill the member-function hash table.
foreach (Symbol symbol in GlobalScope.Symbols)
if (symbol != null && symbol.Type == SymbolType.Function && ((FunctionSymbol)symbol).AccessModifier == SymbolAccessModifier.Public)
_memberFunctionHashTable.Add(symbol.ToString().ToLower(), symbol);
}
else
throw new Exception("Unable to load script byte code, header is invalid.");
}