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mirror of https://github.com/gdsports/USBHost_t36 synced 2024-12-21 06:48:54 -05:00

Arduino style API for AntPlus payload parsers

This commit is contained in:
PaulStoffregen 2017-10-21 03:34:40 -07:00
parent dc1030f379
commit 5c6d3c9e32
4 changed files with 130 additions and 239 deletions

View File

@ -871,6 +871,23 @@ public:
void onDeviceID(void (*function)(int channel, int devId, int devType, int transType)) {
user_onDeviceID = function;
}
void onHeartRateMonitor(void (*f)(int bpm, int msec, int seqNum), uint32_t devid=0) {
profileSetup_HRM(&ant.dcfg[PROFILE_HRM], devid);
memset(&hrm, 0, sizeof(hrm));
user_onHeartRateMonitor = f;
}
void onSpeedCadence(void (*f)(float speed, float distance, float rpm), uint32_t devid=0) {
user_onSpeedCadence = f;
}
void onSpeed(void (*f)(float speed, float distance), uint32_t devid=0) {
user_onSpeed = f;
}
void onCadence(void (*f)(float rpm), uint32_t devid=0) {
user_onCadence = f;
}
void setWheelCircumference(float meters) {
wheelCircumference = meters * 1000.0f;
}
protected:
virtual void Task();
virtual bool claim(Device_t *device, int type, const uint8_t *descriptors, uint32_t len);
@ -942,9 +959,12 @@ private:
int iDevice; // index to the antplus we're interested in, if > one found
TDCONFIG dcfg[PROFILE_TOTAL]; // channel config, we're using one channel per device
} ant;
int (*callbackFunc)(uint32_t msg, intptr_t *value1, uint32_t value2);
void (*user_onStatusChange)(int channel, int status);
void (*user_onDeviceID)(int channel, int devId, int devType, int transType);
void (*user_onHeartRateMonitor)(int beatsPerMinute, int milliseconds, int sequenceNumber);
void (*user_onSpeedCadence)(float speed, float distance, float cadence);
void (*user_onSpeed)(float speed, float distance);
void (*user_onCadence)(float cadence);
void dispatchPayload(TDCONFIG *cfg, const uint8_t *payload, const int len);
static const uint8_t *getAntKey(const uint8_t keyIdx);
static uint8_t calcMsgChecksum (const uint8_t *buffer, const uint8_t len);
@ -952,8 +972,6 @@ private:
static int msgCheckIntegrity(uint8_t *stream, const int len);
static int msgGetLength(uint8_t *stream);
int handleMessages(uint8_t *buffer, int tBytes);
void setCallbackFunc(int (*func)(uint32_t msg, intptr_t *value1, uint32_t value2));
void sendMessage(uint32_t msg, intptr_t *value1, uint32_t value2);
void sendMessageChannelStatus(TDCONFIG *cfg, const uint32_t channelStatus);
void message_channel(const int chan, const int eventId,
const uint8_t *payload, const size_t dataLength);
@ -992,40 +1010,21 @@ private:
static void profileSetup_SPEED(TDCONFIG *cfg, const uint32_t deviceId);
static void profileSetup_CADENCE(TDCONFIG *cfg, const uint32_t deviceId);
struct {
struct {
uint16_t time;
uint16_t interval;
uint8_t bpm; // heart rate in beats per minute
uint8_t sequence;
} current;
struct {
uint8_t bpm;
uint8_t sequence;
uint16_t time;
uint16_t interval;
} previous;
} hrm;
void payload_HRM(TDCONFIG *cfg, const uint8_t *data, const size_t dataLength);
struct {
struct {
uint16_t cadenceTime;
uint16_t cadence;
uint16_t cadenceCt;
uint16_t speedTime;
uint16_t speed;
uint16_t speedCt;
uint32_t distance;
} current;
struct {
uint16_t cadenceTime;
uint16_t cadence;
uint16_t cadenceCt;
uint16_t speedTime;
uint16_t speed;
uint16_t speedCt;
uint32_t distance;
} previous;
uint16_t wheelCircumference; // default is WHEEL_CIRCUMFERENCE (2122cm)
float distance;
} spdcad;
void payload_SPDCAD(TDCONFIG *cfg, const uint8_t *data, const size_t dataLength);
/* struct {
@ -1042,48 +1041,35 @@ private:
} previous;
} pwr; */
void payload_POWER(TDCONFIG *cfg, const uint8_t *data, const size_t dataLength);
struct {
/* struct {
struct {
uint16_t speed;
uint16_t cadence;
uint8_t strides;
} current;
/* struct {
struct {
uint8_t strides;
uint16_t speed;
uint16_t cadence;
} previous; */
} stride;
} previous;
} stride; */
void payload_STRIDE(TDCONFIG *cfg, const uint8_t *data, const size_t dataLength);
struct {
struct {
uint16_t speedTime;
uint16_t speed;
uint16_t speedCt;
uint32_t distance;
} current;
struct {
uint16_t speedTime;
uint16_t speed;
uint16_t speedCt;
uint32_t distance;
} previous;
uint16_t wheelCircumference; // default is WHEEL_CIRCUMFERENCE (2122cm)
float distance;
} spd;
void payload_SPEED(TDCONFIG *cfg, const uint8_t *data, const size_t dataLength);
struct {
struct {
uint16_t cadenceTime;
uint16_t cadence;
uint16_t cadenceCt;
} current;
struct {
uint16_t cadenceTime;
uint16_t cadence;
uint16_t cadenceCt;
} previous;
} cad;
void payload_CADENCE(TDCONFIG *cfg, const uint8_t *data, const size_t dataLength);
uint16_t wheelCircumference; // default is WHEEL_CIRCUMFERENCE (2122cm)
};

View File

@ -55,9 +55,13 @@ void AntPlus::init()
contribute_Transfers(mytransfers, sizeof(mytransfers)/sizeof(Transfer_t));
contribute_String_Buffers(mystring_bufs, sizeof(mystring_bufs)/sizeof(strbuf_t));
driver_ready_for_device(this);
callbackFunc = NULL;
user_onStatusChange = NULL;
user_onDeviceID = NULL;
user_onHeartRateMonitor = NULL;
user_onSpeedCadence = NULL;
user_onSpeed = NULL;
user_onCadence = NULL;
wheelCircumference = WHEEL_CIRCUMFERENCE;
}
bool AntPlus::claim(Device_t *dev, int type, const uint8_t *descriptors, uint32_t len)
@ -377,24 +381,10 @@ int AntPlus::handleMessages(uint8_t *buffer, int tBytes)
}
// TODO: replace this with multiple Arduino style OnXYZ callbacks
void AntPlus::setCallbackFunc(int (*func)(uint32_t msg, intptr_t *value1, uint32_t value2))
{
callbackFunc = func;
}
// TODO: replace this with multiple Arduino style OnXYZ callbacks
void AntPlus::sendMessage(uint32_t msg, intptr_t *value1, uint32_t value2)
{
if (callbackFunc) (*callbackFunc)(msg, value1, value2);
}
void AntPlus::sendMessageChannelStatus(TDCONFIG *cfg, const uint32_t channelStatus)
{
cfg->flags.channelStatus = channelStatus;
if (cfg->flags.channelStatus != cfg->flags.channelStatusOld) {
//uint32_t status = cfg->flags.channelStatus&0x0F;
//status |= ((cfg->channel&0x0F)<<4);
//sendMessage(ANTP_MSG_CHANNELSTATUS, NULL, status);
if (user_onStatusChange) {
(*user_onStatusChange)(cfg->channel, cfg->flags.channelStatus);
}
@ -618,7 +608,6 @@ void AntPlus::message_event(const int channel, const int msgId,
//ant.dcfg[chan].dev.deviceType = payload[STREAM_CHANNELID_DEVTYPE];
//ant.dcfg[chan].dev.transType = payload[STREAM_CHANNELID_TRANTYPE];
//printf(" @ CHANNEL ID: channel %i, deviceId:%i, deviceType:%i, transType:%i)", chan, cfg->dev.deviceId, cfg->dev.deviceType, cfg->dev.transType);
//sendMessage(ANTP_MSG_DEVICEID, (intptr_t *)&(ant.dcfg[chan].dev), chan);
if (user_onDeviceID) {
int devid = payload[STREAM_CHANNELID_DEVNO_LO];
devid |= payload[STREAM_CHANNELID_DEVNO_HI] << 8;
@ -1062,7 +1051,6 @@ void AntPlus::profileSetup_CADENCE(TDCONFIG *cfg, const uint32_t deviceId)
cfg->flags.profileValid = 1;
}
#if 0
/*
uint64_t factory_passkey (uint64_t device_id, uint8_t *buffer)
@ -1074,103 +1062,14 @@ uint64_t factory_passkey (uint64_t device_id, uint8_t *buffer)
return n;
}
*/
int libantplus_Start ()
{
#if 0
uint8_t buffer[8];
factory_passkey(3825666043, buffer);
dump_hexbytes(buffer, 8);
#endif
int ct = 0;
uint32_t deviceId;
for (int i = 0; i < PROFILE_TOTAL; i++){
deviceId = 0;
if (antplus_sendMessage(ANTP_MSG_PROFILE_SELECT, (intptr_t*)&deviceId, i) != 1)
continue;
ct++;
//printf("enabling profile %i", i);
switch (i){
case PROFILE_HRM:
profileSetup_HRM(&ant->dcfg[PROFILE_HRM], deviceId);
libantplus_SetPayloadHandler(PROFILE_HRM, (void*)payload_HRM, (void*)NULL);
break;
case PROFILE_SPDCAD:
profileSetup_SPDCAD(&ant->dcfg[PROFILE_SPDCAD], deviceId);
libantplus_SetPayloadHandler(PROFILE_SPDCAD, (void*)payload_SPDCAD, (void*)NULL);
break;
case PROFILE_POWER:
profileSetup_POWER(&ant->dcfg[PROFILE_POWER], deviceId);
libantplus_SetPayloadHandler(PROFILE_POWER, (void*)payload_POWER, (void*)NULL);
break;
case PROFILE_STRIDE:
profileSetup_STRIDE(&ant->dcfg[PROFILE_STRIDE], deviceId);
libantplus_SetPayloadHandler(PROFILE_STRIDE, (void*)payload_STRIDE, (void*)NULL);
break;
case PROFILE_SPEED:
profileSetup_SPEED(&ant->dcfg[PROFILE_SPEED], deviceId);
libantplus_SetPayloadHandler(PROFILE_SPEED, (void*)payload_SPEED, (void*)NULL);
break;
case PROFILE_CADENCE:
profileSetup_CADENCE(&ant->dcfg[PROFILE_CADENCE], deviceId);
libantplus_SetPayloadHandler(PROFILE_CADENCE, (void*)payload_CADENCE, (void*)NULL);
break;
}
}
return ct;
}
TLIBANTPLUS *libantplus_Init (const uint8_t networkKey)
{
if (networkKey >= KEY_TOTAL){
//printf("libantplus_Init(): invalid networkKey (%i)");
//return NULL;
ant->key = KEY_DEFAULT;
}else{
ant->key = networkKey;
}
libantplus_SetEventHandler(EVENTI_MESSAGE, (void*)message_event, (void*)ant);
return ant;
}
#endif
void AntPlus::begin(const uint8_t key)
{
ant.key = (key < KEY_TOTAL) ? key : 0;
int deviceId = 0; // TODO: user API to set this?
profileSetup_HRM(&ant.dcfg[PROFILE_HRM], deviceId);
profileSetup_SPDCAD(&ant.dcfg[PROFILE_SPDCAD], deviceId);
//profileSetup_POWER(&ant.dcfg[PROFILE_POWER], deviceId);
//profileSetup_STRIDE(&ant.dcfg[PROFILE_STRIDE], deviceId);
//profileSetup_SPEED(&ant.dcfg[PROFILE_SPEED], deviceId);
//profileSetup_CADENCE(&ant.dcfg[PROFILE_CADENCE], deviceId);
//ant.eventCb[EVENTI_MESSAGE].cbPtr = &message_event;
//SetEventHandler(EVENTI_MESSAGE, (void*)message_event, (void*)ant);
}
/*
int AntPlus::registerEventCallback(const int which, void *eventFunc, void *userPtr)
{
if (which < EVENTI_TOTAL) {
ant.eventCb[which].cbPtr = (int (*)(int, int, const uint8_t*, size_t, void*))eventFunc;
*/
void AntPlus::dispatchPayload(TDCONFIG *cfg, const uint8_t *payload, const int len)
@ -1206,64 +1105,54 @@ const uint8_t * AntPlus::getAntKey(const uint8_t keyIdx)
void AntPlus::payload_HRM(TDCONFIG *cfg, const uint8_t *data, const size_t dataLength)
{
hrm.current.bpm = data[STREAM_RXBROADCAST_DEV120_HR];
hrm.current.sequence = data[STREAM_RXBROADCAST_DEV120_SEQ];
//const int page = data[1]&0x0F;
if (hrm.previous.sequence != hrm.current.sequence || hrm.previous.bpm != hrm.current.bpm){
if (hrm.current.bpm) {
hrm.current.time = (data[STREAM_RXBROADCAST_DEV120_BEATLO]
+ (data[STREAM_RXBROADCAST_DEV120_BEATHI] << 8));
hrm.current.interval = hrm.current.time - hrm.previous.time;
hrm.current.interval = (((int32_t)hrm.current.interval)
* (int32_t)1000) / (int32_t)1024;
//printf("page %i", page);
sendMessage(ANTP_MSG_PROFILE_DATA, (intptr_t*)&hrm, PROFILE_HRM);
hrm.previous.time = hrm.current.time;
hrm.previous.interval = hrm.current.interval;
hrm.previous.sequence = hrm.current.sequence;
hrm.previous.bpm = hrm.current.bpm;
}
uint8_t bpm = data[STREAM_RXBROADCAST_DEV120_HR];
uint8_t sequence = data[STREAM_RXBROADCAST_DEV120_SEQ];
if ((sequence == hrm.previous.sequence && bpm == hrm.previous.bpm) || bpm == 0) {
return;
}
printf("payload_HRM: page:%i, Sequence:%i, BPM:%i, %i %i", data[1]&0x0F,
hrm.current.sequence, hrm.current.bpm, hrm.current.time, hrm.current.interval);
uint16_t time = (data[STREAM_RXBROADCAST_DEV120_BEATLO]
+ (data[STREAM_RXBROADCAST_DEV120_BEATHI] << 8));
int interval = (uint16_t)(time - hrm.previous.time) * (uint32_t)1000 / (uint32_t)1024;
if (user_onHeartRateMonitor) {
(*user_onHeartRateMonitor)(bpm, interval, sequence);
}
hrm.previous.time = time;
hrm.previous.sequence = sequence;
hrm.previous.bpm = bpm;
//printf("payload_HRM: page:%i, Sequence:%i, BPM:%i, %i %i",
// data[1]&0x0F, sequence, bpm, time, interval);
}
void AntPlus::payload_SPDCAD(TDCONFIG *cfg, const uint8_t *data, const size_t dataLength)
{
spdcad.current.cadenceTime = data[1];
spdcad.current.cadenceTime |= (data[2] << 8);
spdcad.current.cadenceCt = data[3];
spdcad.current.cadenceCt |= (data[4] << 8);
spdcad.current.speedTime = data[5];
spdcad.current.speedTime |= (data[6] << 8);
spdcad.current.speedCt = data[7];
spdcad.current.speedCt |= (data[8] << 8);
if (spdcad.current.cadenceTime == spdcad.previous.cadenceTime
&& spdcad.current.cadenceCt != spdcad.previous.cadenceCt
&& spdcad.current.speedTime != spdcad.previous.speedTime
&& spdcad.current.speedCt != spdcad.previous.speedCt) {
uint16_t cadenceTime = data[1] | (data[2] << 8);
uint16_t cadenceCt = data[3] | (data[4] << 8);
uint16_t speedTime = data[5] | (data[6] << 8);
uint16_t speedCt = data[7] | (data[8] << 8);
if (cadenceTime == spdcad.previous.cadenceTime
&& cadenceCt != spdcad.previous.cadenceCt
&& speedTime != spdcad.previous.speedTime
&& speedCt != spdcad.previous.speedCt) {
return; // no change
}
uint16_t cadence = (60 * (spdcad.current.cadenceCt - spdcad.previous.cadenceCt) * 1024) / (spdcad.current.cadenceTime - spdcad.previous.cadenceTime);
spdcad.current.cadence = cadence;
if (!spdcad.wheelCircumference) spdcad.wheelCircumference = WHEEL_CIRCUMFERENCE;
uint32_t speedRotationDelta = spdcad.current.speedCt - spdcad.previous.speedCt; // number wheel revolutions
float speedTimeDelta = (float)(spdcad.current.speedTime - spdcad.previous.speedTime) / 1024.0f; // time for above revolutions
float distance = (speedRotationDelta * (float)spdcad.wheelCircumference) / 1000.0f; // calculated distance (meters) travelled as per above
float speed = (distance / (speedTimeDelta / 3600.0f)) / 1000.0f; // its why we're here
spdcad.current.speed = speed * 100;
spdcad.current.distance += distance;
sendMessage(ANTP_MSG_PROFILE_DATA, (intptr_t*)&spdcad, PROFILE_SPDCAD);
spdcad.previous.cadenceTime = spdcad.current.cadenceTime;
spdcad.previous.cadence = spdcad.current.cadence;
spdcad.previous.cadenceCt = spdcad.current.cadenceCt;
spdcad.previous.speedTime = spdcad.current.speedTime;
spdcad.previous.speedCt = spdcad.current.speedCt;
spdcad.previous.speed = spdcad.current.speed;
spdcad.previous.distance = spdcad.current.distance;
printf("payload_SPDCAD: speed: %.2f, cadence: %i, total distance: %.2f",
spdcad.current.speed/100.0f, spdcad.current.cadence,
spdcad.current.distance/1000.0f);
uint16_t cadence = (60 * (cadenceCt - spdcad.previous.cadenceCt) * 1024) / (cadenceTime - spdcad.previous.cadenceTime);
// number wheel revolutions
uint32_t speedRotationDelta = speedCt - spdcad.previous.speedCt;
// time for above revolutions
float speedTimeDelta = (float)(speedTime - spdcad.previous.speedTime) / 1024.0f;
// calculated distance (meters) travelled as per above
float distance = (speedRotationDelta * (float)wheelCircumference) / 1000.0f;
spdcad.distance += distance;
float speed = (distance / (speedTimeDelta / 3600.0f)) / 1000.0f;
if (user_onSpeedCadence) {
(*user_onSpeedCadence)(speed, spdcad.distance * 0.001f, cadence);
}
spdcad.previous.cadenceTime = cadenceTime;
spdcad.previous.cadenceCt = cadenceCt;
spdcad.previous.speedTime = speedTime;
spdcad.previous.speedCt = speedCt;
//printf("payload_SPDCAD: speed: %.2f, cadence: %i, total distance: %.2f",
// speed, cadence, spdcad.distance);
}
void AntPlus::payload_POWER(TDCONFIG *cfg, const uint8_t *data, const size_t dataLength)
@ -1285,13 +1174,13 @@ void AntPlus::payload_STRIDE(TDCONFIG *cfg, const uint8_t *data, const size_t da
//printf("payload_STRIDE: len:%i", dataLength);
int page = data[1];
if (page == 0) {
stride.current.strides = data[7];
sendMessage(ANTP_MSG_PROFILE_DATA, (intptr_t*)&stride, PROFILE_STRIDE);
//stride.current.strides = data[7];
//sendMessage(ANTP_MSG_PROFILE_DATA, (intptr_t*)&stride, PROFILE_STRIDE);
//stride.previous.strides = stride.current.strides;
} else if (page == 1) {
stride.current.speed = ((float)(data[4]&0x0f) + (float)(data[5]/256.0f));
stride.current.cadence = ((float)data[3] + (float)((data[4] << 4) / 16.0f));
sendMessage(ANTP_MSG_PROFILE_DATA, (intptr_t*)&stride, PROFILE_STRIDE);
//stride.current.speed = ((float)(data[4]&0x0f) + (float)(data[5]/256.0f));
//stride.current.cadence = ((float)data[3] + (float)((data[4] << 4) / 16.0f));
//sendMessage(ANTP_MSG_PROFILE_DATA, (intptr_t*)&stride, PROFILE_STRIDE);
//stride.previous.speed = stride.current.speed;
//stride.previous.cadence = stride.current.cadence;
}
@ -1300,41 +1189,41 @@ void AntPlus::payload_STRIDE(TDCONFIG *cfg, const uint8_t *data, const size_t da
void AntPlus::payload_SPEED(TDCONFIG *cfg, const uint8_t *data, const size_t dataLength)
{
//printf("payload_SPEED: len:%i", dataLength);
spd.current.speedTime = data[5] | (data[6] << 8);
spd.current.speedCt = data[7] | (data[8] << 8);
if (spd.current.speedTime == spd.previous.speedTime
&& spd.current.speedCt == spd.previous.speedCt) {
uint16_t speedTime = data[5] | (data[6] << 8);
uint16_t speedCt = data[7] | (data[8] << 8);
if (speedTime == spd.previous.speedTime && speedCt == spd.previous.speedCt) {
return; // no change
}
uint32_t speedRotationDelta = spd.current.speedCt - spd.previous.speedCt; // number wheel revolutions
float speedTimeDelta = (float)(spd.current.speedTime - spd.previous.speedTime) / 1024.0f; // time for above revolutions
if (!spd.wheelCircumference) spd.wheelCircumference = WHEEL_CIRCUMFERENCE;
float distance = (speedRotationDelta * (float)spd.wheelCircumference) / 1000.0f; // calculated distance (meters) travelled as per above
float speed = (distance / (speedTimeDelta / 3600.0f)) / 1000.0f; // its why we're here
spd.current.speed = speed * 100;
spd.current.distance += distance;
sendMessage(ANTP_MSG_PROFILE_DATA, (intptr_t*)&spd, PROFILE_SPEED);
spd.previous.speedTime = spd.current.speedTime;
spd.previous.speedCt = spd.current.speedCt;
spd.previous.speed = spd.current.speed;
spd.previous.distance = spd.current.distance;
// number wheel revolutions
uint32_t speedRotationDelta = speedCt - spd.previous.speedCt;
// time for above revolutions
float speedTimeDelta = (float)(speedTime - spd.previous.speedTime) / 1024.0f;
// calculated distance (meters) travelled as per above
float distance = (speedRotationDelta * (float)wheelCircumference) / 1000.0f;
spd.distance += distance;
float speed = (distance / (speedTimeDelta / 3600.0f)) / 1000.0f;
if (user_onSpeed) {
(*user_onSpeed)(speed, spd.distance);
}
spd.previous.speedTime = speedTime;
spd.previous.speedCt = speedCt;
}
void AntPlus::payload_CADENCE(TDCONFIG *cfg, const uint8_t *data, const size_t dataLength)
{
//printf("payload_CADENCE: len:%i", dataLength);
cad.current.cadenceTime = data[5] | (data[6] << 8);
cad.current.cadenceCt = data[7] | (data[8] << 8);
if (cad.current.cadenceTime == cad.previous.cadenceTime
&& cad.current.cadenceCt == cad.previous.cadenceCt) {
uint16_t cadenceTime = data[5] | (data[6] << 8);
uint16_t cadenceCt = data[7] | (data[8] << 8);
if (cadenceTime == cad.previous.cadenceTime
&& cadenceCt == cad.previous.cadenceCt) {
return; // no change
}
uint16_t cadence = (60 * (cad.current.cadenceCt - cad.previous.cadenceCt) * 1024) / (cad.current.cadenceTime - cad.previous.cadenceTime);
cad.current.cadence = cadence;
sendMessage(ANTP_MSG_PROFILE_DATA, (intptr_t*)&cad, PROFILE_CADENCE);
cad.previous.cadenceTime = cad.current.cadenceTime;
cad.previous.cadence = cad.current.cadence;
cad.previous.cadenceCt = cad.current.cadenceCt;
uint16_t cadence = (60 * (cadenceCt - cad.previous.cadenceCt) * 1024) / (cadenceTime - cad.previous.cadenceTime);
if (user_onCadence) {
(*user_onCadence)(cadence);
}
cad.previous.cadenceTime = cadenceTime;
cad.previous.cadenceCt = cadenceCt;
}

View File

@ -3,12 +3,6 @@
#define WHEEL_CIRCUMFERENCE 2122
//#define ANTP_MSG_PROFILE_SELECT 1000
#define ANTP_MSG_PROFILE_DATA 1010
//#define ANTP_MSG_CHANNELSTATUS 1011
//#define ANTP_MSG_DEVICEID 1012
#define ANT_TRANSMISSION_SLAVE 0x00
#define ANT_TRANSMISSION_MASTER 0x05

View File

@ -10,23 +10,45 @@ void setup() {
Serial.println("Ant+ USB Test");
myusb.begin();
ant1.begin();
ant1.setWheelCircumference(2.112); // wheel circumference, in meters
ant1.onStatusChange(handleStatusChange);
ant1.onDeviceID(handleDeviceID);
ant1.onHeartRateMonitor(handleHeartRateMonitor);
ant1.onSpeedCadence(handleSpeedCadence);
}
void loop() {
myusb.Task();
}
void handleHeartRateMonitor(int beatsPerMinute, int milliseconds, int sequenceNumber) {
Serial.print("HRM: sequence:");
Serial.print(sequenceNumber);
Serial.print(", interval:");
Serial.print(milliseconds);
Serial.print("ms, bpm:");
Serial.println(beatsPerMinute);
}
void handleSpeedCadence(float speed, float distance, float rotationPerMinute) {
Serial.print("SPDCAD: speed: ");
Serial.print(speed);
Serial.print(" km/h, cadence: ");
Serial.print(rotationPerMinute);
Serial.print("rpm, total distance: ");
Serial.print(distance);
Serial.println("km");
}
void handleStatusChange(int channel, int status) {
Serial.print("Channel ");
Serial.print(channel);
Serial.print(" status: ");
switch (status) {
case 0: Serial.println("STATUS UNASSIGNED CHANNEL"); break;
case 2: Serial.println("STATUS ASSIGNED CHANNEL"); break;
case 3: Serial.println("STATUS SEARCHING CHANNEL"); break;
case 4: Serial.println("STATUS TRACKING_CHANNEL"); break;
case 1: Serial.println("STATUS ASSIGNED CHANNEL"); break;
case 2: Serial.println("STATUS SEARCHING CHANNEL"); break;
case 3: Serial.println("STATUS TRACKING_CHANNEL"); break;
default: Serial.println("UNKNOWN STATUS STATE");
}
}