If you don't want to have to manually maintain non-overlapping values, then you can very nearly get it all handled for you automatically. The only thing you'll have to figure out is the maximum number of bits in a group:
#define PIN_GROUP_SHIFT 4
#define GET_PIN_GROUP(x) (adc_pin_group_t)((y) >> PIN_GROUP_SHIFT)
#define PIN_GROUP_START(x) XX_GROUP_##x = ((GROUP_##x << PIN_GROUP_SHIFT) - 1),
enum {
GROUP_TRISTATE,
GROUP_NOTHING,
GROUP_MOTOR,
GROUP_SENSOR
} adc_pin_group_t;
typedef enum {
PIN_GROUP_START(TRISTATE)
AN_TRISTATE_0,
AN_TRISTATE_1,
PIN_GROUP_START(NOTHING)
AN_NOTHING,
PIN_GROUP_START(MOTOR)
AN_MOTOR_1,
AN_MOTOR_2,
AN_MOTOR_3,
PIN_GROUP_START(SENSOR)
AN_SENSOR_1,
AN_SENSOR_2,
AN_SENSOR_3,
AN_SENSOR_4,
AN_SENSOR_5
} adc_pin_func_t;
To determine the type of an entry in the enum, use GET_PIN_GROUP(x)
, and compare it to whichever value of the adc_pin_group_t
enum. You can even switch
on the result, if that's helpful.
However, that AN_NOTHING
entry makes me wonder if your enum is meant to line up with specific values for each entry. are specific values associated with the pins, which you may not be able to assign arbitrarily. In that case you might need to try something complicated (which I haven't tested):
#define GET_PIN_VALUE(x) ((x) & ((1 << PIN_GROUP_SHIFT) - 1)
#define PIN_GROUP_START(x) \
WW_GROUP_##x, \
XX_GROUP_##x = (GROUP_##x << PIN_GROUP_SHIFT) \
+ GET_PIN_INDEX(WW_GROUP_##x) - 1,
Where you need to know the value that your original enum would have used, use GET_PIN_INDEX(x)
.
if (AN_SENSOR_1 <= pin && pin <= AN_SENSOR_5) ...
AN_SENSOR_MIN
andAN_SENSOR_MAX
, that are used in the comparisons to protect somewhat against changes in the enumeration ranges. I see that technique used quite often. However, I do like trojanfoe's bitmap scheme.