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I have a software state machine that works using via an event driven function calls. Namely, I have a state machine handle to a struct that contains a function pointer representing the current state:

typedef struct pHandle_t pHandle_t;
typedef void(*pState_f)(pHandle_t *pHandle, pEvent_t pEvent);
struct pHandle_t
    pState_f curState;
    void *contextPtr;       // Is this needed?

Each state is then represented by a function that takes a handle to itself and an event as input:

static void SM_Init(pHandle_t *pHandle, pEvent_t pEvent);

Within each function there is a switch/case on the pEvent that usually produces some action as well as changing the curState function pointer to change to the function representing the state. All of this code works very well while using global variables to determine when certain state changes are done. (This type of approach obviously would not work well with function instantiated variables to try and know when to stop).

However, in the interest of reducing global variables and functions, I would like to implement a more object oriented approach, so that my globals and instruction memory go away once the state machine has reached a complete state. I know there are several examples of how to make code appear object oriented in regular C, but there is one wrench in the gears here: External modules need to be able to send events to this state machine without having a pointer to the state machine handle. How can I do this without requiring the overall state machine object be declared as a global (which really defeats the original intent of trying to free all that space once I was done with it)?

I apologize in advance if some of this wording is confusing. I believe this is a very useful topic so I will reword as requested, but please comment before downvoting me... Also before anyone asks, the existing code base is all C and suggesting C++ falls on deaf ears, despite all my efforts.

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"External modules need to be able to send events to this state machine without having a pointer to the state machine handle." … what do they have? If modules have no means of selecting between different state machines, you can only have a singleton. – Potatoswatter Jun 26 '14 at 5:32
The restriction seems arbitrary. Why can't external modules be given a pointer by the create_state_machine function? – luser droog Jun 26 '14 at 5:38
@Potatoswatter : In this case you make a very good point, for my particular use case, it would only ever be a singleton, but I'd like to think of how to answer both singleton and non-singleton. Will update question. – SeaNick Jun 26 '14 at 5:41
@luserdroog : Other modules have an existing API that would be extremely difficult to modify (one of the pains of an old, large code base). The most I can do is attach a callback function pointer to the object I pass into the other modules' functions so that it eventually returns to me and I can make state decisions based on what comes back. Attaching the state machine handle to that struct creates more overhead on the object that is floating around between modules. – SeaNick Jun 26 '14 at 5:45
You might want to check out the open source QP/C state machine framework, which uses exactly object-oriented hierarchical state machines (UML statecharts). Besides the state machine implementation, the framework provides also the context for executing state machines. Just google for QP/C. – Miro Jun 26 '14 at 20:24

1 Answer 1

up vote 3 down vote accepted

This is probably a terrible idea, but as such, it may help to convince your peers to let you store one little, measly pointer where you need it.

If all you have to identify instances of state machine objects is the callback-function pointer, then to have multiple machines running, you'll need duplicates of all the functions so that different pointers can be functionally-identical, but compare differently when cast to char *.

So for two machines, you'll need roughly double the code size. Three machines: triple. Etc.


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This is exactly the type of rationale I was looking for, because the more I think about it, the more I realize that the handle pointer will always end up being the least expensive way to do this without assigning some fixed portion of the memory map just for this object. – SeaNick Jun 26 '14 at 14:17

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