本文整理汇总了C++中FLIGHT_MODE函数的典型用法代码示例。如果您正苦于以下问题:C++ FLIGHT_MODE函数的具体用法?C++ FLIGHT_MODE怎么用?C++ FLIGHT_MODE使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了FLIGHT_MODE函数的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的C++代码示例。
示例1: updateAutotuneState
void updateAutotuneState(void)
{
static bool landedAfterAutoTuning = false;
static bool autoTuneWasUsed = false;
if (IS_RC_MODE_ACTIVE(BOXAUTOTUNE)) {
if (!FLIGHT_MODE(AUTOTUNE_MODE)) {
if (ARMING_FLAG(ARMED)) {
if (isAutotuneIdle() || landedAfterAutoTuning) {
autotuneReset();
landedAfterAutoTuning = false;
}
autotuneBeginNextPhase(¤tProfile->pidProfile);
ENABLE_FLIGHT_MODE(AUTOTUNE_MODE);
autoTuneWasUsed = true;
} else {
if (havePidsBeenUpdatedByAutotune()) {
saveConfigAndNotify();
autotuneReset();
}
}
}
return;
}
if (FLIGHT_MODE(AUTOTUNE_MODE)) {
autotuneEndPhase();
DISABLE_FLIGHT_MODE(AUTOTUNE_MODE);
}
if (!ARMING_FLAG(ARMED) && autoTuneWasUsed) {
landedAfterAutoTuning = true;
}
}
开发者ID:Sil20,项目名称:cleanflight,代码行数:34,代码来源:mw.c
示例2: pidLuxFloat
void pidLuxFloat(const pidProfile_t *pidProfile, const controlRateConfig_t *controlRateConfig,
uint16_t max_angle_inclination, const rollAndPitchTrims_t *angleTrim, const rxConfig_t *rxConfig)
{
float horizonLevelStrength = 0.0f;
if (FLIGHT_MODE(HORIZON_MODE)) {
// (convert 0-100 range to 0.0-1.0 range)
horizonLevelStrength = (float)calcHorizonLevelStrength(rxConfig->midrc, pidProfile->horizon_tilt_effect,
pidProfile->horizon_tilt_mode, pidProfile->D8[PIDLEVEL]) / 100.0f;
}
// ----------PID controller----------
for (int axis = 0; axis < 3; axis++) {
const uint8_t rate = controlRateConfig->rates[axis];
// -----Get the desired angle rate depending on flight mode
float angleRate;
if (axis == FD_YAW) {
// YAW is always gyro-controlled (MAG correction is applied to rcCommand) 100dps to 1100dps max yaw rate
angleRate = (float)((rate + 27) * rcCommand[YAW]) / 32.0f;
} else {
// control is GYRO based for ACRO and HORIZON - direct sticks control is applied to rate PID
angleRate = (float)((rate + 27) * rcCommand[axis]) / 16.0f; // 200dps to 1200dps max roll/pitch rate
if (FLIGHT_MODE(ANGLE_MODE) || FLIGHT_MODE(HORIZON_MODE)) {
// calculate error angle and limit the angle to the max inclination
// multiplication of rcCommand corresponds to changing the sticks scaling here
#ifdef GPS
const float errorAngle = constrain(2 * rcCommand[axis] + GPS_angle[axis], -((int)max_angle_inclination), max_angle_inclination)
- attitude.raw[axis] + angleTrim->raw[axis];
#else
const float errorAngle = constrain(2 * rcCommand[axis], -((int)max_angle_inclination), max_angle_inclination)
- attitude.raw[axis] + angleTrim->raw[axis];
#endif
if (FLIGHT_MODE(ANGLE_MODE)) {
// ANGLE mode
angleRate = errorAngle * pidProfile->P8[PIDLEVEL] / 16.0f;
} else {
// HORIZON mode
// mix in errorAngle to desired angleRate to add a little auto-level feel.
// horizonLevelStrength has been scaled to the stick input
angleRate += errorAngle * pidProfile->I8[PIDLEVEL] * horizonLevelStrength / 16.0f;
}
}
}
// --------low-level gyro-based PID. ----------
const float gyroRate = luxGyroScale * gyroADCf[axis] * gyro.scale;
axisPID[axis] = pidLuxFloatCore(axis, pidProfile, gyroRate, angleRate);
//axisPID[axis] = constrain(axisPID[axis], -PID_LUX_FLOAT_MAX_PID, PID_LUX_FLOAT_MAX_PID);
#ifdef GTUNE
if (FLIGHT_MODE(GTUNE_MODE) && ARMING_FLAG(ARMED)) {
calculate_Gtune(axis);
}
#endif
}
}
开发者ID:hexfet,项目名称:cleanflight,代码行数:55,代码来源:pid_luxfloat.c
示例3: ltm_sframe
static void ltm_sframe(void)
{
uint8_t lt_flightmode;
uint8_t lt_statemode;
if (FLIGHT_MODE(PASSTHRU_MODE))
lt_flightmode = 0;
else if (FLIGHT_MODE(NAV_WP_MODE))
lt_flightmode = 10;
else if (FLIGHT_MODE(NAV_RTH_MODE))
lt_flightmode = 13;
else if (FLIGHT_MODE(NAV_POSHOLD_MODE))
lt_flightmode = 9;
else if (FLIGHT_MODE(HEADFREE_MODE) || FLIGHT_MODE(MAG_MODE))
lt_flightmode = 11;
else if (FLIGHT_MODE(NAV_ALTHOLD_MODE))
lt_flightmode = 8;
else if (FLIGHT_MODE(ANGLE_MODE))
lt_flightmode = 2;
else if (FLIGHT_MODE(HORIZON_MODE))
lt_flightmode = 3;
else
lt_flightmode = 1; // Rate mode
lt_statemode = (ARMING_FLAG(ARMED)) ? 1 : 0;
if (failsafeIsActive())
lt_statemode |= 2;
ltm_initialise_packet('S');
ltm_serialise_16(vbat * 100); //vbat converted to mv
ltm_serialise_16(0); // current, not implemented
ltm_serialise_8((uint8_t)((rssi * 254) / 1023)); // scaled RSSI (uchar)
ltm_serialise_8(0); // no airspeed
ltm_serialise_8((lt_flightmode << 2) | lt_statemode);
ltm_finalise();
}
开发者ID:Ravenholm14,项目名称:inav,代码行数:34,代码来源:ltm.c
示例4: ltm_sframe
void ltm_sframe(sbuf_t *dst)
{
uint8_t lt_flightmode;
if (FLIGHT_MODE(PASSTHRU_MODE))
lt_flightmode = 0;
else if (FLIGHT_MODE(NAV_WP_MODE))
lt_flightmode = 10;
else if (FLIGHT_MODE(NAV_RTH_MODE))
lt_flightmode = 13;
else if (FLIGHT_MODE(NAV_POSHOLD_MODE))
lt_flightmode = 9;
else if (FLIGHT_MODE(HEADFREE_MODE) || FLIGHT_MODE(MAG_MODE))
lt_flightmode = 11;
else if (FLIGHT_MODE(NAV_ALTHOLD_MODE))
lt_flightmode = 8;
else if (FLIGHT_MODE(ANGLE_MODE))
lt_flightmode = 2;
else if (FLIGHT_MODE(HORIZON_MODE))
lt_flightmode = 3;
else
lt_flightmode = 1; // Rate mode
uint8_t lt_statemode = (ARMING_FLAG(ARMED)) ? 1 : 0;
if (failsafeIsActive())
lt_statemode |= 2;
sbufWriteU8(dst, 'S');
ltm_serialise_16(dst, vbat * 100); //vbat converted to mv
ltm_serialise_16(dst, (uint16_t)constrain(mAhDrawn, 0, 0xFFFF)); // current mAh (65535 mAh max)
ltm_serialise_8(dst, (uint8_t)((rssi * 254) / 1023)); // scaled RSSI (uchar)
ltm_serialise_8(dst, 0); // no airspeed
ltm_serialise_8(dst, (lt_flightmode << 2) | lt_statemode);
}
开发者ID:night-ghost,项目名称:inav,代码行数:33,代码来源:ltm.c
示例5: updateAltHoldState
void updateAltHoldState(void)
{
// Baro alt hold activate
if (!IS_RC_MODE_ACTIVE(BOXBARO)) {
DISABLE_FLIGHT_MODE(BARO_MODE);
return;
}
if (!FLIGHT_MODE(BARO_MODE)) {
//led0_op(false);
ENABLE_FLIGHT_MODE(BARO_MODE);
AltHold = EstAlt;//+100;//drona pras //DRONA
//initialThrottleHold = rcData[THROTTLE];//Drona pras //
initialThrottleHold = 1500;//Drona pras //
errorVelocityI = 0; //DRONA
altHoldThrottleAdjustment = 0; //DRONA
}
else
{
//led0_op(true);//drona pras
}
initialThrottleHold_test=initialThrottleHold; //DRONA
//debug_d0 = pidProfile->D8[PIDALT];
debug_e1 = rcCommand[THROTTLE]; //DRONA
}
开发者ID:braininahat,项目名称:Pluto,代码行数:26,代码来源:altitudehold.c
示例6: getMagHoldState
uint8_t getMagHoldState()
{
#ifndef MAG
return MAG_HOLD_DISABLED;
#endif
if (!sensors(SENSOR_MAG) || !STATE(SMALL_ANGLE)) {
return MAG_HOLD_DISABLED;
}
#if defined(NAV)
int navHeadingState = naivationGetHeadingControlState();
// NAV will prevent MAG_MODE from activating, but require heading control
if (navHeadingState != NAV_HEADING_CONTROL_NONE) {
// Apply maghold only if heading control is in auto mode
if (navHeadingState == NAV_HEADING_CONTROL_AUTO) {
return MAG_HOLD_ENABLED;
}
}
else
#endif
if (ABS(rcCommand[YAW]) < 15 && FLIGHT_MODE(MAG_MODE)) {
return MAG_HOLD_ENABLED;
} else {
return MAG_HOLD_UPDATE_HEADING;
}
return MAG_HOLD_UPDATE_HEADING;
}
开发者ID:dan557,项目名称:inav,代码行数:30,代码来源:pid.c
示例7: pidLevel
static void pidLevel(const pidProfile_t *pidProfile, const controlRateConfig_t *controlRateConfig, pidState_t *pidState, flight_dynamics_index_t axis, float horizonRateMagnitude)
{
// This is ROLL/PITCH, run ANGLE/HORIZON controllers
const float angleTarget = pidRcCommandToAngle(rcCommand[axis], pidProfile->max_angle_inclination[axis]);
const float angleError = angleTarget - attitude.raw[axis];
float angleRateTarget = constrainf(angleError * (pidProfile->P8[PIDLEVEL] / FP_PID_LEVEL_P_MULTIPLIER), -controlRateConfig->rates[axis] * 10.0f, controlRateConfig->rates[axis] * 10.0f);
// Apply simple LPF to angleRateTarget to make response less jerky
// Ideas behind this:
// 1) Attitude is updated at gyro rate, rateTarget for ANGLE mode is calculated from attitude
// 2) If this rateTarget is passed directly into gyro-base PID controller this effectively doubles the rateError.
// D-term that is calculated from error tend to amplify this even more. Moreover, this tend to respond to every
// slightest change in attitude making self-leveling jittery
// 3) Lowering LEVEL P can make the effects of (2) less visible, but this also slows down self-leveling.
// 4) Human pilot response to attitude change in RATE mode is fairly slow and smooth, human pilot doesn't
// compensate for each slightest change
// 5) (2) and (4) lead to a simple idea of adding a low-pass filter on rateTarget for ANGLE mode damping
// response to rapid attitude changes and smoothing out self-leveling reaction
if (pidProfile->I8[PIDLEVEL]) {
// I8[PIDLEVEL] is filter cutoff frequency (Hz). Practical values of filtering frequency is 5-10 Hz
angleRateTarget = pt1FilterApply4(&pidState->angleFilterState, angleRateTarget, pidProfile->I8[PIDLEVEL], dT);
}
// P[LEVEL] defines self-leveling strength (both for ANGLE and HORIZON modes)
if (FLIGHT_MODE(HORIZON_MODE)) {
pidState->rateTarget = (1.0f - horizonRateMagnitude) * angleRateTarget + horizonRateMagnitude * pidState->rateTarget;
} else {
pidState->rateTarget = angleRateTarget;
}
}
开发者ID:dan557,项目名称:inav,代码行数:31,代码来源:pid.c
示例8: applyLedModeLayer
void applyLedModeLayer(void)
{
const ledConfig_t *ledConfig;
uint8_t ledIndex;
for (ledIndex = 0; ledIndex < ledCount; ledIndex++) {
ledConfig = &ledConfigs[ledIndex];
if (!(ledConfig->flags & LED_FUNCTION_THRUST_RING)) {
if (ledConfig->flags & LED_FUNCTION_COLOR) {
setLedHsv(ledIndex, &colors[ledConfig->color]);
} else {
setLedHsv(ledIndex, &hsv_black);
}
}
if (!(ledConfig->flags & LED_FUNCTION_FLIGHT_MODE)) {
if (ledConfig->flags & LED_FUNCTION_ARM_STATE) {
if (!ARMING_FLAG(ARMED)) {
setLedHsv(ledIndex, &hsv_green);
} else {
setLedHsv(ledIndex, &hsv_blue);
}
}
continue;
}
applyDirectionalModeColor(ledIndex, ledConfig, &orientationModeColors);
if (FLIGHT_MODE(HEADFREE_MODE)) {
applyDirectionalModeColor(ledIndex, ledConfig, &headfreeModeColors);
#ifdef MAG
} else if (FLIGHT_MODE(MAG_MODE)) {
applyDirectionalModeColor(ledIndex, ledConfig, &magModeColors);
#endif
#ifdef BARO
} else if (FLIGHT_MODE(BARO_MODE)) {
applyDirectionalModeColor(ledIndex, ledConfig, &baroModeColors);
#endif
} else if (FLIGHT_MODE(HORIZON_MODE)) {
applyDirectionalModeColor(ledIndex, ledConfig, &horizonModeColors);
} else if (FLIGHT_MODE(ANGLE_MODE)) {
applyDirectionalModeColor(ledIndex, ledConfig, &angleModeColors);
}
}
}
开发者ID:KiteAnton,项目名称:betaflight,代码行数:47,代码来源:ledstrip.c
示例9: pidController
void pidController(const pidProfile_t *pidProfile, const controlRateConfig_t *controlRateConfig, const rxConfig_t *rxConfig)
{
uint8_t magHoldState = getMagHoldState();
if (magHoldState == MAG_HOLD_UPDATE_HEADING) {
updateMagHoldHeading(DECIDEGREES_TO_DEGREES(attitude.values.yaw));
}
for (int axis = 0; axis < 3; axis++) {
// Step 1: Calculate gyro rates
pidState[axis].gyroRate = gyroADC[axis] * gyro.scale;
// Step 2: Read target
float rateTarget;
if (axis == FD_YAW && magHoldState == MAG_HOLD_ENABLED) {
rateTarget = pidMagHold(pidProfile);
} else {
rateTarget = pidRcCommandToRate(rcCommand[axis], controlRateConfig->rates[axis]);
}
// Limit desired rate to something gyro can measure reliably
pidState[axis].rateTarget = constrainf(rateTarget, -GYRO_SATURATION_LIMIT, +GYRO_SATURATION_LIMIT);
}
// Step 3: Run control for ANGLE_MODE, HORIZON_MODE, and HEADING_LOCK
if (FLIGHT_MODE(ANGLE_MODE) || FLIGHT_MODE(HORIZON_MODE)) {
const float horizonRateMagnitude = calcHorizonRateMagnitude(pidProfile, rxConfig);
pidLevel(pidProfile, controlRateConfig, &pidState[FD_ROLL], FD_ROLL, horizonRateMagnitude);
pidLevel(pidProfile, controlRateConfig, &pidState[FD_PITCH], FD_PITCH, horizonRateMagnitude);
}
if (FLIGHT_MODE(HEADING_LOCK) && magHoldState != MAG_HOLD_ENABLED) {
pidApplyHeadingLock(pidProfile, &pidState[FD_YAW]);
}
if (FLIGHT_MODE(TURN_ASSISTANT)) {
pidTurnAssistant(pidState);
}
// Step 4: Run gyro-driven control
for (int axis = 0; axis < 3; axis++) {
// Apply PID setpoint controller
pidApplyRateController(pidProfile, &pidState[axis], axis); // scale gyro rate to DPS
}
}
开发者ID:dan557,项目名称:inav,代码行数:47,代码来源:pid.c
示例10: annexCode
void annexCode(void)
{
int32_t throttleValue;
// Compute ROLL PITCH and YAW command
rcCommand[ROLL] = getAxisRcCommand(rcData[ROLL], currentControlRateProfile->rcExpo8, currentProfile->rcControlsConfig.deadband);
rcCommand[PITCH] = getAxisRcCommand(rcData[PITCH], currentControlRateProfile->rcExpo8, currentProfile->rcControlsConfig.deadband);
rcCommand[YAW] = -getAxisRcCommand(rcData[YAW], currentControlRateProfile->rcYawExpo8, currentProfile->rcControlsConfig.yaw_deadband);
//Compute THROTTLE command
throttleValue = constrain(rcData[THROTTLE], masterConfig.rxConfig.mincheck, PWM_RANGE_MAX);
throttleValue = (uint32_t)(throttleValue - masterConfig.rxConfig.mincheck) * PWM_RANGE_MIN / (PWM_RANGE_MAX - masterConfig.rxConfig.mincheck); // [MINCHECK;2000] -> [0;1000]
rcCommand[THROTTLE] = rcLookupThrottle(throttleValue);
if (FLIGHT_MODE(HEADFREE_MODE)) {
const float radDiff = degreesToRadians(DECIDEGREES_TO_DEGREES(attitude.values.yaw) - headFreeModeHold);
const float cosDiff = cos_approx(radDiff);
const float sinDiff = sin_approx(radDiff);
const int16_t rcCommand_PITCH = rcCommand[PITCH] * cosDiff + rcCommand[ROLL] * sinDiff;
rcCommand[ROLL] = rcCommand[ROLL] * cosDiff - rcCommand[PITCH] * sinDiff;
rcCommand[PITCH] = rcCommand_PITCH;
}
if (ARMING_FLAG(ARMED)) {
LED0_ON;
} else {
if (IS_RC_MODE_ACTIVE(BOXARM) == 0) {
ENABLE_ARMING_FLAG(OK_TO_ARM);
}
if (!STATE(SMALL_ANGLE)) {
DISABLE_ARMING_FLAG(OK_TO_ARM);
}
if (isCalibrating() || isSystemOverloaded()) {
warningLedFlash();
DISABLE_ARMING_FLAG(OK_TO_ARM);
}
#if defined(NAV)
if (naivationBlockArming()) {
DISABLE_ARMING_FLAG(OK_TO_ARM);
}
#endif
if (ARMING_FLAG(OK_TO_ARM)) {
warningLedDisable();
} else {
warningLedFlash();
}
warningLedUpdate();
}
// Read out gyro temperature. can use it for something somewhere. maybe get MCU temperature instead? lots of fun possibilities.
if (gyro.temperature)
gyro.temperature(&telemTemperature1);
}
开发者ID:iforce2d,项目名称:cleanflight,代码行数:59,代码来源:mw.c
示例11: ltm_sframe
static void ltm_sframe(void)
{
uint8_t lt_flightmode;
uint8_t lt_statemode;
if (FLIGHT_MODE(PASSTHRU_MODE))
lt_flightmode = 0;
else if (FLIGHT_MODE(GPS_HOME_MODE))
lt_flightmode = 13;
else if (FLIGHT_MODE(GPS_HOLD_MODE))
lt_flightmode = 9;
else if (FLIGHT_MODE(HEADFREE_MODE))
lt_flightmode = 4;
else if (FLIGHT_MODE(BARO_MODE))
lt_flightmode = 8;
else if (FLIGHT_MODE(ANGLE_MODE))
lt_flightmode = 2;
else if (FLIGHT_MODE(HORIZON_MODE))
lt_flightmode = 3;
else
lt_flightmode = 1; // Rate mode
lt_statemode = (ARMING_FLAG(ARMED)) ? 1 : 0;
if (failsafeIsActive())
lt_statemode |= 2;
ltm_initialise_packet('S');
ltm_serialise_16(getBatteryVoltage() * 100); //vbat converted to mv
ltm_serialise_16(0); // current, not implemented
ltm_serialise_8((uint8_t)((getRssi() * 254) / 1023)); // scaled RSSI (uchar)
ltm_serialise_8(0); // no airspeed
ltm_serialise_8((lt_flightmode << 2) | lt_statemode);
ltm_finalise();
}
开发者ID:rotcehdnih,项目名称:betaflight,代码行数:32,代码来源:ltm.c
示例12: autotuneUpdateState
void autotuneUpdateState(void)
{
if (IS_RC_MODE_ACTIVE(BOXAUTOTUNE) && ARMING_FLAG(ARMED)) {
if (!FLIGHT_MODE(AUTO_TUNE)) {
autotuneStart();
ENABLE_FLIGHT_MODE(AUTO_TUNE);
}
else {
autotuneCheckUpdateGains();
}
} else {
if (FLIGHT_MODE(AUTO_TUNE)) {
autotuneUpdateGains(tuneSaved);
}
DISABLE_FLIGHT_MODE(AUTO_TUNE);
}
}
开发者ID:raul-ortega,项目名称:iNav,代码行数:18,代码来源:pid_autotune.c
示例13: updateGtuneState
void updateGtuneState(void)
{
static bool GTuneWasUsed = false;
if (rcModeIsActive(BOXGTUNE)) {
if (!FLIGHT_MODE(GTUNE_MODE) && ARMING_FLAG(ARMED)) {
ENABLE_FLIGHT_MODE(GTUNE_MODE);
init_Gtune();
GTuneWasUsed = true;
}
if (!FLIGHT_MODE(GTUNE_MODE) && !ARMING_FLAG(ARMED) && GTuneWasUsed) {
saveConfigAndNotify();
GTuneWasUsed = false;
}
} else {
if (FLIGHT_MODE(GTUNE_MODE) && ARMING_FLAG(ARMED)) {
DISABLE_FLIGHT_MODE(GTUNE_MODE);
}
}
}
开发者ID:LupinIII,项目名称:cleanflight,代码行数:20,代码来源:cleanflight_fc.c
示例14: updateGtuneState
void updateGtuneState(void)
{
static bool GTuneWasUsed = false;
if (IS_RC_MODE_ACTIVE(BOXGTUNE)) {
if (!FLIGHT_MODE(GTUNE_MODE) && ARMING_FLAG(ARMED)) {
ENABLE_FLIGHT_MODE(GTUNE_MODE);
init_Gtune(¤tProfile->pidProfile);
GTuneWasUsed = true;
}
if (!FLIGHT_MODE(GTUNE_MODE) && !ARMING_FLAG(ARMED) && GTuneWasUsed) {
saveConfigAndNotify();
GTuneWasUsed = false;
}
} else {
if (FLIGHT_MODE(GTUNE_MODE) && ARMING_FLAG(ARMED)) {
DISABLE_FLIGHT_MODE(GTUNE_MODE);
}
}
}
开发者ID:ledvinap,项目名称:cleanflight,代码行数:20,代码来源:mw.c
示例15: applyLedFixedLayers
static void applyLedFixedLayers()
{
for (int ledIndex = 0; ledIndex < ledCounts.count; ledIndex++) {
const ledConfig_t *ledConfig = &ledStripConfig()->ledConfigs[ledIndex];
hsvColor_t color = *getSC(LED_SCOLOR_BACKGROUND);
int fn = ledGetFunction(ledConfig);
int hOffset = HSV_HUE_MAX;
switch (fn) {
case LED_FUNCTION_COLOR:
color = ledStripConfig()->colors[ledGetColor(ledConfig)];
break;
case LED_FUNCTION_FLIGHT_MODE:
for (unsigned i = 0; i < ARRAYLEN(flightModeToLed); i++)
if (!flightModeToLed[i].flightMode || FLIGHT_MODE(flightModeToLed[i].flightMode)) {
const hsvColor_t *directionalColor = getDirectionalModeColor(ledIndex, &ledStripConfig()->modeColors[flightModeToLed[i].ledMode]);
if (directionalColor) {
color = *directionalColor;
}
break; // stop on first match
}
break;
case LED_FUNCTION_ARM_STATE:
color = ARMING_FLAG(ARMED) ? *getSC(LED_SCOLOR_ARMED) : *getSC(LED_SCOLOR_DISARMED);
break;
case LED_FUNCTION_BATTERY:
color = HSV(RED);
hOffset += scaleRange(calculateBatteryPercentage(), 0, 100, -30, 120);
break;
case LED_FUNCTION_RSSI:
color = HSV(RED);
hOffset += scaleRange(rssi * 100, 0, 1023, -30, 120);
break;
default:
break;
}
if (ledGetOverlayBit(ledConfig, LED_OVERLAY_THROTTLE)) {
hOffset += scaledAux;
}
color.h = (color.h + hOffset) % (HSV_HUE_MAX + 1);
setLedHsv(ledIndex, &color);
}
}
开发者ID:DTFUHF,项目名称:betaflight,代码行数:54,代码来源:ledstrip.c
示例16: updateMagHold
void updateMagHold(void)
{
if (ABS(rcCommand[YAW]) < 15 && FLIGHT_MODE(MAG_MODE)) {
int16_t dif = DECIDEGREES_TO_DEGREES(attitude.values.yaw) - magHold;
if (dif <= -180)
dif += 360;
if (dif >= +180)
dif -= 360;
dif *= -GET_DIRECTION(rcControlsConfig()->yaw_control_reversed);
if (STATE(SMALL_ANGLE))
rcCommand[YAW] -= dif * currentPidProfile->P8[PIDMAG] / 30; // 18 deg
} else
magHold = DECIDEGREES_TO_DEGREES(attitude.values.yaw);
}
开发者ID:savaga,项目名称:betaflight-sirinfpv,代码行数:14,代码来源:fc_core.c
示例17: updateMagHold
void updateMagHold(void)
{
if (ABS(rcCommand[YAW]) < 70 && FLIGHT_MODE(MAG_MODE)) {
int16_t dif = heading - magHold;
if (dif <= -180)
dif += 360;
if (dif >= +180)
dif -= 360;
dif *= -masterConfig.yaw_control_direction;
if (STATE(SMALL_ANGLE))
rcCommand[YAW] -= dif * currentProfile->pidProfile.P8[PIDMAG] / 30; // 18 deg
} else
magHold = heading;
}
开发者ID:Sil20,项目名称:cleanflight,代码行数:14,代码来源:mw.c
示例18: updateMagHold
void updateMagHold(void)
{
if (ABS(rcCommand[YAW]) < 15 && FLIGHT_MODE(MAG_MODE)) {
int16_t dif = DECIDEGREES_TO_DEGREES(attitude.values.yaw) - magHold;
if (dif <= -180)
dif += 360;
if (dif >= +180)
dif -= 360;
dif *= -masterConfig.yaw_control_direction;
if (STATE(SMALL_ANGLE))
rcCommand[YAW] -= dif * currentProfile->pidProfile.P8[PIDMAG] / 30; // 18 deg
} else
magHold = DECIDEGREES_TO_DEGREES(attitude.values.yaw);
}
开发者ID:ledvinap,项目名称:cleanflight,代码行数:14,代码来源:mw.c
示例19: updateSonarAltHoldState
void updateSonarAltHoldState(void)
{
// Sonar alt hold activate
if (!IS_RC_MODE_ACTIVE(BOXSONAR)) {
DISABLE_FLIGHT_MODE(SONAR_MODE);
return;
}
if (!FLIGHT_MODE(SONAR_MODE)) {
ENABLE_FLIGHT_MODE(SONAR_MODE);
AltHold = EstAlt;
initialThrottleHold = rcData[THROTTLE];
errorVelocityI = 0;
altHoldThrottleAdjustment = 0;
}
}
开发者ID:braininahat,项目名称:Pluto,代码行数:16,代码来源:altitudehold.c
示例20: updateSonarAltHoldState
void updateSonarAltHoldState(void)
{
// Sonar alt hold activate
if (!rcOptions[BOXSONAR]) {
DISABLE_FLIGHT_MODE(SONAR_MODE);
return;
}
if (!FLIGHT_MODE(SONAR_MODE)) {
ENABLE_FLIGHT_MODE(SONAR_MODE);
AltHold = EstAlt;
initialThrottleHold = rcCommand[THROTTLE];
errorVelocityI = 0;
altHoldThrottleAdjustment = 0;
}
}
开发者ID:toorop,项目名称:cleanflight,代码行数:16,代码来源:altitudehold.c
注:本文中的FLIGHT_MODE函数示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
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