16 void* initializeAnalogOutputPort(
void* port_pointer, int32_t *status);
17 void freeAnalogOutputPort(
void* analog_port_pointer);
18 void setAnalogOutput(
void* analog_port_pointer,
double voltage, int32_t *status);
19 double getAnalogOutput(
void* analog_port_pointer, int32_t *status);
20 bool checkAnalogOutputChannel(uint32_t pin);
23 void* initializeAnalogInputPort(
void* port_pointer, int32_t *status);
24 void freeAnalogInputPort(
void* analog_port_pointer);
25 bool checkAnalogModule(uint8_t module);
26 bool checkAnalogInputChannel(uint32_t pin);
28 void setAnalogSampleRate(
double samplesPerSecond, int32_t *status);
29 float getAnalogSampleRate(int32_t *status);
30 void setAnalogAverageBits(
void* analog_port_pointer, uint32_t bits, int32_t *status);
31 uint32_t getAnalogAverageBits(
void* analog_port_pointer, int32_t *status);
32 void setAnalogOversampleBits(
void* analog_port_pointer, uint32_t bits, int32_t *status);
33 uint32_t getAnalogOversampleBits(
void* analog_port_pointer, int32_t *status);
34 int16_t getAnalogValue(
void* analog_port_pointer, int32_t *status);
35 int32_t getAnalogAverageValue(
void* analog_port_pointer, int32_t *status);
36 int32_t getAnalogVoltsToValue(
void* analog_port_pointer,
double voltage, int32_t *status);
37 float getAnalogVoltage(
void* analog_port_pointer, int32_t *status);
38 float getAnalogAverageVoltage(
void* analog_port_pointer, int32_t *status);
39 uint32_t getAnalogLSBWeight(
void* analog_port_pointer, int32_t *status);
40 int32_t getAnalogOffset(
void* analog_port_pointer, int32_t *status);
42 bool isAccumulatorChannel(
void* analog_port_pointer, int32_t *status);
43 void initAccumulator(
void* analog_port_pointer, int32_t *status);
44 void resetAccumulator(
void* analog_port_pointer, int32_t *status);
45 void setAccumulatorCenter(
void* analog_port_pointer, int32_t center, int32_t *status);
46 void setAccumulatorDeadband(
void* analog_port_pointer, int32_t deadband, int32_t *status);
47 int64_t getAccumulatorValue(
void* analog_port_pointer, int32_t *status);
48 uint32_t getAccumulatorCount(
void* analog_port_pointer, int32_t *status);
49 void getAccumulatorOutput(
void* analog_port_pointer, int64_t *value, uint32_t *count,
52 void* initializeAnalogTrigger(
void* port_pointer, uint32_t *index, int32_t *status);
53 void cleanAnalogTrigger(
void* analog_trigger_pointer, int32_t *status);
54 void setAnalogTriggerLimitsRaw(
void* analog_trigger_pointer, int32_t lower, int32_t upper,
56 void setAnalogTriggerLimitsVoltage(
void* analog_trigger_pointer,
double lower,
double upper,
58 void setAnalogTriggerAveraged(
void* analog_trigger_pointer,
bool useAveragedValue,
60 void setAnalogTriggerFiltered(
void* analog_trigger_pointer,
bool useFilteredValue,
62 bool getAnalogTriggerInWindow(
void* analog_trigger_pointer, int32_t *status);
63 bool getAnalogTriggerTriggerState(
void* analog_trigger_pointer, int32_t *status);
64 bool getAnalogTriggerOutput(
void* analog_trigger_pointer, AnalogTriggerType type,
69 int getAnalogSampleRateIntHack(int32_t *status);
70 int getAnalogVoltageIntHack(
void* analog_port_pointer, int32_t *status);
71 int getAnalogAverageVoltageIntHack(
void* analog_port_pointer, int32_t *status);
74 void setAnalogSampleRateIntHack(
int samplesPerSecond, int32_t *status);
75 int32_t getAnalogVoltsToValueIntHack(
void* analog_port_pointer,
int voltage, int32_t *status);
76 void setAnalogTriggerLimitsVoltageIntHack(
void* analog_trigger_pointer,
int lower,
int upper,