diff --git a/src/js/tabs/pid_tuning.js b/src/js/tabs/pid_tuning.js index 86e11c0a3b..f23e0083a2 100644 --- a/src/js/tabs/pid_tuning.js +++ b/src/js/tabs/pid_tuning.js @@ -2696,6 +2696,47 @@ pid_tuning.updateRatesLabels = function() { {value: parseInt(currentValues[2]), balloon: function() {drawBalloonLabel(stickContext, currentValues[2], 10, 350, 'none', BALLOON_COLORS.yaw, balloonsDirty);}}, ); } + + // Add labels for angleCenterSensitivity + + const angleLimit = FC.ADVANCED_TUNING.levelAngleLimit; + const maxAngleRollRate = parseInt(maxAngularVelRoll); + const maxAnglePitchRate = parseInt(maxAngularVelPitch); + const rcRate = self.currentRates.rc_rate; + const rcRatePitch = self.currentRates.rc_rate_pitch; + + if (self.currentRatesType === FC.RATES_TYPE.ACTUAL) { + drawAxisLabel(stickContext, `Angle Mode`, (curveWidth - 10) / textScale, curveHeight - 250, 'right'); + + const angleCenterSensitivityRoll = (rcRate / maxAngleRollRate * angleLimit).toFixed(1); + const angleCenterSensitivityPitch = (rcRatePitch / maxAnglePitchRate * angleLimit).toFixed(1); + + balloons.push( + {value: parseInt(angleCenterSensitivityRoll), balloon: function() {drawBalloonLabel(stickContext, `${angleCenterSensitivityRoll}...${angleLimit}`, ((curveWidth / 2) - 10) / textScale, curveHeight - 150, 'none', BALLOON_COLORS.roll, balloonsDirty);}}, + {value: parseInt(angleCenterSensitivityPitch), balloon: function() {drawBalloonLabel(stickContext, `${angleCenterSensitivityPitch}...${angleLimit}`, ((curveWidth / 2) - 10) / textScale, curveHeight - 50, 'none', BALLOON_COLORS.pitch, balloonsDirty);}}, + ); + } + + if (self.currentRatesType === FC.RATES_TYPE.BETAFLIGHT) { + drawAxisLabel(stickContext, `Angle Mode`, (curveWidth - 10) / textScale, curveHeight - 250, 'right'); + + const RC_RATE_INCREMENTAL = 14.54; + + // ROLL + const expo = self.currentRates.rc_expo; + const rcRateModified = rcRate > 2.0 ? (rcRate - 2.0) * RC_RATE_INCREMENTAL + 2.0: rcRate; + const sensitivityFractionRoll = (angleLimit * ((1 - expo) * rcRateModified * 200 / maxAngleRollRate)).toFixed(1); + // PITCH + const expoPitch = self.currentRates.rc_pitch_expo; + const rcRateModifiedPitch = rcRatePitch > 2.0 ? (rcRatePitch - 2.0) * RC_RATE_INCREMENTAL + 2.0: rcRatePitch; + const sensitivityFractionPitch = (angleLimit * ((1 - expoPitch) * rcRateModifiedPitch * 200 / maxAnglePitchRate)).toFixed(1); + + balloons.push( + {value: parseInt(sensitivityFractionRoll), balloon: function() {drawBalloonLabel(stickContext, `${sensitivityFractionRoll}...${angleLimit}`, ((curveWidth / 2) - 10) / textScale, curveHeight - 150, 'none', BALLOON_COLORS.roll, balloonsDirty);}}, + {value: parseInt(sensitivityFractionPitch), balloon: function() {drawBalloonLabel(stickContext, `${sensitivityFractionPitch}...${angleLimit}`, ((curveWidth / 2) - 10) / textScale, curveHeight - 50, 'none', BALLOON_COLORS.pitch, balloonsDirty);}}, + ); + } + // then display them on the chart for (const balloon of balloons) { balloon.balloon();