// Handle puzzle-specific function calls if ProgramController.ExecuteNode set the handover flag
public override ExecutionStatus ExecuteNode(NodeBase node)
{
ExecutionStatus baseStatus = base.ExecuteNode(node);
if (!baseStatus.handover)
{
return(baseStatus);
}
if (CheckNodeType(node) == NodeType.FunctionCallBase)
{
FunctionCallBase funcCall = node.GetComponent <FunctionCallBase>();
if (functions.ContainsKey(funcCall.functionName))
{
functions[funcCall.functionName].DynamicInvoke();
return(new ExecutionStatus {
success = true, handover = false
});
}
}
return(new ExecutionStatus {
success = true, handover = true
});
}
public override bool ExecuteFrame()
{
// Check if ProgramController.ExecuteFrame moved to next node already, in which case this child implementation does not need to be called.
if (!base.ExecuteFrame())
{
return(false);
}
// Is the node still being processed?
if (!processingDone)
{
// Is it a function?
if (CheckNodeType(currentNode) == NodeType.FunctionCallBase)
{
FunctionCallBase functionCall = currentNode.GetComponent <FunctionCallBase>();
// Is it not a base function?
if (ControllerFunctions().ContainsKey(functionCall.functionName))
{
// Platform index
int index = -1;
string val = (string)functionCall.GetRawParameters(symbolTable)[0];
// Get the platform index from command node in the user program
if (int.TryParse(val, out index) || int.TryParse(symbolTable[val].Value, out index))
{
// If the index value is valid, call raisePlatform/lowerPlatform with the platform index as a parameter.
if (index >= 0)
{
//Logger.Log($"Calling {functionCall.functionName}({index})");
functions[functionCall.functionName].DynamicInvoke(index.ToString());
// Increment the raising timer so that we know when we can set the processingDone flag
currentRaiseTime += Time.deltaTime;
}
else
{
Logger.LogWarning("Invalid platform index");
}
}
else
{
Logger.LogWarning($"Can't convert platform index to integer ({gameObject.name}).");
}
}
else
{
Logger.Log($"Unknown function {functionCall.functionName}.");
}
}
// Finally, check if the timer overran raisingTime - if yes, mark processingDone as true.
// Then, the execution can move to next node.
if (currentRaiseTime >= raisingTime)
{
Logger.Log("Platform raised!");
processingDone = true;
}
}
return(true);
}
// Puzzle-specific ExecuteNode implementation. This should only execute if ProgramController.ExecuteNode set the handover flag.
public override ExecutionStatus ExecuteNode(NodeBase node)
{
// Check if node can be handled by ProgramController first.
// If not, it will return .handover as true
ExecutionStatus baseStatus = base.ExecuteNode(node);
if (!baseStatus.handover)
{
return(baseStatus);
}
Logger.Log(CheckNodeType(node).ToString());
switch (CheckNodeType(node))
{
// Handlers for different commands
case NodeType.FunctionCallBase:
Logger.Log($"Handling function {node.GetComponent<FunctionCallBase>().functionName}.");
// If this node is going to alter the platform positions (e.g. by raising them),
// it's going to need their positions before calling this function node as a reference point,
// to be able to interpolate over time.
//
// Also, set a timer to mark processing as done after raisingTime passes.
// Lastly, set processingDone to false, indicating that we may need an irregular tick time for this (the computer won't continue until processingDone is true)
// TODO: replace the Action type value in the functions dictionary with a FunctionCall class that contains an "irregularTick" flag
// TODO: GetPlatformPositions() should be in a virtual override (IrregularTickInit, IrregularTickFrame, IrregularTickFinished)
FunctionCallBase functionCall = node.GetComponent <FunctionCallBase>();
if (functionCall.functionName == "raisePlatform" || functionCall.functionName == "lowerPlatform")
{
Platform platform = GetChildProgrammable(PlatformContainer, int.Parse((string)functionCall.GetRawParameters(symbolTable)[0])).GetComponent <Platform>();
// Check elevation boundaries (e.g. to prevent platforms going under ground)
bool allowElevation = functionCall.functionName == "raisePlatform" && initPositions[platform.index].y + platform.MaxElevation < platform.transform.localPosition.y + stepHeight;
bool allowDown = functionCall.functionName == "lowerPlatform" && initPositions[platform.index].y + platform.MinElevation > platform.transform.localPosition.y - stepHeight;
bool allowMove = allowElevation || allowDown;
if (allowMove)
{
// If outside limits, prevent moving
processingDone = true;
return(new ExecutionStatus {
success = true, handover = false
});
}
// Otherwise continue with raising/lowering the platform
GetPlatformPositions();
currentRaiseTime = 0.0f;
processingDone = false;
return(new ExecutionStatus {
success = true, handover = false
});
}
break;
default:
Logger.Log("Unidentified node.");
break;
}
return(new ExecutionStatus {
success = true, handover = false
});
}
public override ExecutionStatus ExecuteNode(NodeBase node)
{
ExecutionStatus baseStatus = base.ExecuteNode(node);
if (!baseStatus.handover)
{
return(baseStatus);
}
switch (CheckNodeType(node))
{
case NodeType.FunctionCallBase:
FunctionCallBase functionCall = currentNode.GetComponent <FunctionCallBase>();
// TODO: rewrite so we have a Dictionary of function names and function delegates, along with an array of types describing each parameter's type
Delegate func = null;
try
{
func = functions[functionCall.functionName];
}
catch (Exception)
{
Logger.Log($"Unknown function {functionCall.functionName}.");
return(new ExecutionStatus {
success = false, handover = false
});
}
if (func != null)
{
if (lockType != UnlockableDoorWithLock.LockType.FizzBuzz)
{
bool state = false;
string val = (string)functionCall.GetRawParameters(symbolTable)[0];
Logger.Log($"Calling door function with {val}");
// Check literal & symbol table
// TODO: make symbol lookup more robust/universal? A template function maybe?
if (bool.TryParse(val, out state) || bool.TryParse(symbolTable[val].Value, out state))
{
// we need a custom amount of time for processing this node
processingDone = false;
func.DynamicInvoke(state.ToString());
return(new ExecutionStatus {
success = true, handover = false
});
}
else
{
Logger.LogWarning($"Can't convert function parameter for function {functionCall.functionName}. ({gameObject.name}).");
return(new ExecutionStatus {
success = false, handover = false
});
}
}
else
{
processingDone = true;
func.DynamicInvoke();
return(new ExecutionStatus {
success = true, handover = false
});
}
}
break;
}
return(new ExecutionStatus {
success = true, handover = false
});
}
