I have implemented a simple state machine for an embedded system using C's switch statement. I know it would be better if I used function pointers with a look up table but I'm saving that as a next step.
My state machine has the following states:
- Startup (the initial state)
- Startup Error.
- Idle (the system only checks for input in this state. It does not update the display or anything else. It's just 'idle').
- Check (this is the actual application)
- Copy to Internal Memory
When the system starts up, it enter the startup state which configures the ports, initializes the display and does a hand-shake with the ICs connected on the SPI bus to ensure everything is A-OK. If so, the system enters the Idle state. If not, it enters the Startup Error state, displays an error on the LCD, flags a variable and then enters the Idle state.
In the Idle state, the program polls 3 pins on the microcontroller to check if one of the 3 buttons (Check, Program, Copy to Mem.) is pressed. Depending on which button is pressed, it enters the appropriate state, executes some code, updates the LCD and then returns back to the Idle state. NOTE: The system does NOT care if a button is pressed if there was a hardware fault in the system. The Startup Error state flags a variable called hardware_fault which, if set, ensures that the Idle state does not bother polling any of the input buttons.
This is the first time I'm implementing a state machine and I was just unsure if this was a good design. I haven't really seen any examples of FSMs where they poll for input in an Idle state. Instead, it seems, most examples are rather sequential in nature (like a counter, for instance). So, my question is, is my design reasonable? It DOES work but as everyone here knows, there is bad design and then there is good design.