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UI and stall reset for extra TMC axes (#17818)
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@ -34,39 +34,21 @@ void StepperBumpSensitivityScreen::onRedraw(draw_mode_t what) {
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widgets_t w(what);
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w.precision(0, BaseNumericAdjustmentScreen::DEFAULT_LOWEST);
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w.heading( GET_TEXT_F(MSG_TMC_HOMING_THRS));
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w.color(x_axis) .adjuster( 2, GET_TEXT_F(MSG_AXIS_X), getTMCBumpSensitivity(X),
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#if X_SENSORLESS
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true
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#else
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false
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#endif
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);
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w.color(y_axis) .adjuster( 4, GET_TEXT_F(MSG_AXIS_Y), getTMCBumpSensitivity(Y),
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#if Y_SENSORLESS
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true
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#else
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false
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#endif
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);
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w.color(z_axis) .adjuster( 6, GET_TEXT_F(MSG_AXIS_Z), getTMCBumpSensitivity(Z),
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#if Z_SENSORLESS
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true
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#else
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false
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#endif
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);
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w.color(x_axis) .adjuster( 2, GET_TEXT_F(MSG_AXIS_X), getTMCBumpSensitivity(X), ENABLED(X_SENSORLESS));
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w.color(y_axis) .adjuster( 4, GET_TEXT_F(MSG_AXIS_Y), getTMCBumpSensitivity(Y), ENABLED(Y_SENSORLESS));
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w.color(z_axis) .adjuster( 6, GET_TEXT_F(MSG_AXIS_Z), getTMCBumpSensitivity(Z), ENABLED(Z_SENSORLESS));
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w.increments();
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}
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bool StepperBumpSensitivityScreen::onTouchHeld(uint8_t tag) {
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const float increment = getIncrement();
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switch (tag) {
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case 2: UI_DECREMENT(TMCBumpSensitivity, X ); break;
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case 3: UI_INCREMENT(TMCBumpSensitivity, X ); break;
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case 4: UI_DECREMENT(TMCBumpSensitivity, Y ); break;
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case 5: UI_INCREMENT(TMCBumpSensitivity, Y ); break;
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case 6: UI_DECREMENT(TMCBumpSensitivity, Z ); break;
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case 7: UI_INCREMENT(TMCBumpSensitivity, Z ); break;
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case 2: UI_DECREMENT(TMCBumpSensitivity, X ); break;
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case 3: UI_INCREMENT(TMCBumpSensitivity, X2 ); break;
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case 4: UI_DECREMENT(TMCBumpSensitivity, Y ); break;
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case 5: UI_INCREMENT(TMCBumpSensitivity, Y2 ); break;
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case 6: UI_DECREMENT(TMCBumpSensitivity, Z ); break;
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case 7: UI_INCREMENT(TMCBumpSensitivity, Z2 ); break;
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default:
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return false;
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}
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@ -489,9 +489,14 @@ namespace ExtUI {
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int getTMCBumpSensitivity(const axis_t axis) {
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switch (axis) {
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TERN_(X_SENSORLESS, case X: return stepperX.homing_threshold());
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TERN_(Y_SENSORLESS, case Y: return stepperY.homing_threshold());
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TERN_(Z_SENSORLESS, case Z: return stepperZ.homing_threshold());
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TERN_(X_SENSORLESS, case X: return stepperX.homing_threshold());
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TERN_(X2_SENSORLESS, case X2: return stepperX2.homing_threshold());
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TERN_(Y_SENSORLESS, case Y: return stepperY.homing_threshold());
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TERN_(Y2_SENSORLESS, case Y2: return stepperY2.homing_threshold());
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TERN_(Z_SENSORLESS, case Z: return stepperZ.homing_threshold());
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TERN_(Z2_SENSORLESS, case Z2: return stepperZ2.homing_threshold());
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TERN_(Z3_SENSORLESS, case Z3: return stepperZ3.homing_threshold());
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TERN_(Z4_SENSORLESS, case Z4: return stepperZ4.homing_threshold());
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default: return 0;
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}
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}
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@ -500,14 +505,29 @@ namespace ExtUI {
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switch (axis) {
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#if X_SENSORLESS || Y_SENSORLESS || Z_SENSORLESS
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#if X_SENSORLESS
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case X: stepperX.homing_threshold(value); break;
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case X: stepperX.homing_threshold(value); break;
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#endif
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#if X2_SENSORLESS
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case X2: stepperX2.homing_threshold(value); break;
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#endif
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#if Y_SENSORLESS
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case Y: stepperY.homing_threshold(value); break;
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#endif
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#if Y2_SENSORLESS
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case Y2: stepperY2.homing_threshold(value); break;
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#endif
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#if Z_SENSORLESS
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case Z: stepperZ.homing_threshold(value); break;
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#endif
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#if Z2_SENSORLESS
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case Z2: stepperZ2.homing_threshold(value); break;
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#endif
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#if Z3_SENSORLESS
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case Z3: stepperZ3.homing_threshold(value); break;
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#endif
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#if Z4_SENSORLESS
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case Z4: stepperZ4.homing_threshold(value); break;
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#endif
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#else
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UNUSED(value);
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#endif
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@ -52,7 +52,7 @@ namespace ExtUI {
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static constexpr size_t eeprom_data_size = 48;
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enum axis_t : uint8_t { X, Y, Z };
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enum axis_t : uint8_t { X, Y, Z, X2, Y2, Z2, Z3, Z4 };
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enum extruder_t : uint8_t { E0, E1, E2, E3, E4, E5, E6, E7 };
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enum heater_t : uint8_t { H0, H1, H2, H3, H4, H5, BED, CHAMBER };
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enum fan_t : uint8_t { FAN0, FAN1, FAN2, FAN3, FAN4, FAN5, FAN6, FAN7 };
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@ -157,15 +157,27 @@ void menu_tmc_current() {
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BACK_ITEM(MSG_TMC_DRIVERS);
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#if X_SENSORLESS
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TMC_EDIT_STORED_SGT(X);
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#endif
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#if X2_SENSORLESS
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TMC_EDIT_STORED_SGT(X2);
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#if X2_SENSORLESS
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TMC_EDIT_STORED_SGT(X2);
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#endif
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#endif
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#if Y_SENSORLESS
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TMC_EDIT_STORED_SGT(Y);
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#if Y2_SENSORLESS
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TMC_EDIT_STORED_SGT(Y2);
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#endif
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#endif
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#if Z_SENSORLESS
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TMC_EDIT_STORED_SGT(Z);
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#if Z2_SENSORLESS
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TMC_EDIT_STORED_SGT(Z2);
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#endif
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#if Z3_SENSORLESS
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TMC_EDIT_STORED_SGT(Z3);
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#endif
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#if Z4_SENSORLESS
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TMC_EDIT_STORED_SGT(Z4);
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#endif
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#endif
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END_MENU();
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}
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@ -117,16 +117,12 @@ enum StealthIndex : uint8_t { STEALTH_AXIS_XY, STEALTH_AXIS_Z, STEALTH_AXIS_E };
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#endif
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#ifndef TMC_BAUD_RATE
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#if HAS_TMC_SW_SERIAL
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// Reduce baud rate for boards not already overriding TMC_BAUD_RATE for software serial.
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// Testing has shown that 115200 is not 100% reliable on AVR platforms, occasionally
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// failing to read status properly. 32-bit platforms typically define an even lower
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// TMC_BAUD_RATE, due to differences in how SoftwareSerial libraries work on different
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// platforms.
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#define TMC_BAUD_RATE 57600
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#else
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#define TMC_BAUD_RATE 115200
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#endif
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// Reduce baud rate for boards not already overriding TMC_BAUD_RATE for software serial.
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// Testing has shown that 115200 is not 100% reliable on AVR platforms, occasionally
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// failing to read status properly. 32-bit platforms typically define an even lower
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// TMC_BAUD_RATE, due to differences in how SoftwareSerial libraries work on different
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// platforms.
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#define TMC_BAUD_RATE TERN(HAS_TMC_SW_SERIAL, 57600, 115200)
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#endif
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#if HAS_DRIVER(TMC2130)
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@ -158,11 +154,7 @@ enum StealthIndex : uint8_t { STEALTH_AXIS_XY, STEALTH_AXIS_Z, STEALTH_AXIS_E };
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pwmconf.pwm_ampl = 180;
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st.PWMCONF(pwmconf.sr);
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#if ENABLED(HYBRID_THRESHOLD)
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st.set_pwm_thrs(hyb_thrs);
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#else
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UNUSED(hyb_thrs);
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#endif
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TERN(HYBRID_THRESHOLD, st.set_pwm_thrs(hyb_thrs), UNUSED(hyb_thrs));
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st.GSTAT(); // Clear GSTAT
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}
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@ -200,11 +192,7 @@ enum StealthIndex : uint8_t { STEALTH_AXIS_XY, STEALTH_AXIS_Z, STEALTH_AXIS_E };
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pwmconf.pwm_ofs = 36;
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st.PWMCONF(pwmconf.sr);
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#if ENABLED(HYBRID_THRESHOLD)
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st.set_pwm_thrs(hyb_thrs);
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#else
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UNUSED(hyb_thrs);
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#endif
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TERN(HYBRID_THRESHOLD, st.set_pwm_thrs(hyb_thrs), UNUSED(hyb_thrs));
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st.GSTAT(); // Clear GSTAT
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}
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@ -489,11 +477,7 @@ enum StealthIndex : uint8_t { STEALTH_AXIS_XY, STEALTH_AXIS_Z, STEALTH_AXIS_E };
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pwmconf.pwm_ofs = 36;
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st.PWMCONF(pwmconf.sr);
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#if ENABLED(HYBRID_THRESHOLD)
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st.set_pwm_thrs(hyb_thrs);
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#else
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UNUSED(hyb_thrs);
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#endif
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TERN(HYBRID_THRESHOLD, st.set_pwm_thrs(hyb_thrs), UNUSED(hyb_thrs));
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st.GSTAT(0b111); // Clear
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delay(200);
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@ -535,11 +519,7 @@ enum StealthIndex : uint8_t { STEALTH_AXIS_XY, STEALTH_AXIS_Z, STEALTH_AXIS_E };
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pwmconf.pwm_ofs = 36;
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st.PWMCONF(pwmconf.sr);
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#if ENABLED(HYBRID_THRESHOLD)
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st.set_pwm_thrs(hyb_thrs);
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#else
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UNUSED(hyb_thrs);
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#endif
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TERN(HYBRID_THRESHOLD, st.set_pwm_thrs(hyb_thrs), UNUSED(hyb_thrs));
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st.GSTAT(0b111); // Clear
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delay(200);
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@ -597,11 +577,7 @@ enum StealthIndex : uint8_t { STEALTH_AXIS_XY, STEALTH_AXIS_Z, STEALTH_AXIS_E };
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pwmconf.pwm_ampl = 180;
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st.PWMCONF(pwmconf.sr);
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#if ENABLED(HYBRID_THRESHOLD)
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st.set_pwm_thrs(hyb_thrs);
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#else
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UNUSED(hyb_thrs);
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#endif
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TERN(HYBRID_THRESHOLD, st.set_pwm_thrs(hyb_thrs), UNUSED(hyb_thrs));
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st.GSTAT(); // Clear GSTAT
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}
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@ -700,25 +676,7 @@ void restore_trinamic_drivers() {
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}
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void reset_trinamic_drivers() {
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static constexpr bool stealthchop_by_axis[] = {
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#if ENABLED(STEALTHCHOP_XY)
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true
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#else
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false
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#endif
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,
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#if ENABLED(STEALTHCHOP_Z)
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true
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#else
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false
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#endif
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,
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#if ENABLED(STEALTHCHOP_E)
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true
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#else
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false
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#endif
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};
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static constexpr bool stealthchop_by_axis[] = { ENABLED(STEALTHCHOP_XY), ENABLED(STEALTHCHOP_Z), ENABLED(STEALTHCHOP_E) };
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#if AXIS_IS_TMC(X)
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TMC_INIT(X, STEALTH_AXIS_XY);
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@ -770,14 +728,30 @@ void reset_trinamic_drivers() {
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#endif
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#if USE_SENSORLESS
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TERN_(X_SENSORLESS, stepperX.homing_threshold(X_STALL_SENSITIVITY));
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TERN_(X2_SENSORLESS, stepperX2.homing_threshold(X2_STALL_SENSITIVITY));
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TERN_(Y_SENSORLESS, stepperY.homing_threshold(Y_STALL_SENSITIVITY));
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TERN_(Y2_SENSORLESS, stepperY2.homing_threshold(Y2_STALL_SENSITIVITY));
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TERN_(Z_SENSORLESS, stepperZ.homing_threshold(Z_STALL_SENSITIVITY));
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TERN_(Z2_SENSORLESS, stepperZ2.homing_threshold(Z2_STALL_SENSITIVITY));
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TERN_(Z3_SENSORLESS, stepperZ3.homing_threshold(Z3_STALL_SENSITIVITY));
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TERN_(Z4_SENSORLESS, stepperZ4.homing_threshold(Z4_STALL_SENSITIVITY));
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#if X_SENSORLESS
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stepperX.homing_threshold(X_STALL_SENSITIVITY);
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#if AXIS_HAS_STALLGUARD(X2)
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stepperX2.homing_threshold(CAT(TERN(X2_SENSORLESS, X2, X), _STALL_SENSITIVITY));
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#endif
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#endif
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#if Y_SENSORLESS
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stepperY.homing_threshold(Y_STALL_SENSITIVITY);
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#if AXIS_HAS_STALLGUARD(Y2)
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stepperY2.homing_threshold(CAT(TERN(Y2_SENSORLESS, Y2, Y), _STALL_SENSITIVITY));
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#endif
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#endif
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#if Z_SENSORLESS
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stepperZ.homing_threshold(Z_STALL_SENSITIVITY);
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#if AXIS_HAS_STALLGUARD(Z2)
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stepperZ2.homing_threshold(CAT(TERN(Z2_SENSORLESS, Z2, Z), _STALL_SENSITIVITY));
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#endif
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#if AXIS_HAS_STALLGUARD(Z3)
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stepperZ3.homing_threshold(CAT(TERN(Z3_SENSORLESS, Z3, Z), _STALL_SENSITIVITY));
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#endif
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#if AXIS_HAS_STALLGUARD(Z4)
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stepperZ4.homing_threshold(CAT(TERN(Z4_SENSORLESS, Z4, Z), _STALL_SENSITIVITY));
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#endif
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#endif
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#endif
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#ifdef TMC_ADV
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