Move get_axis_position_mm to Planner (#10718)
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@ -338,9 +338,9 @@ void safe_delay(millis_t ms) {
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#endif
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#if ABL_PLANAR
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const float diff[XYZ] = {
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stepper.get_axis_position_mm(X_AXIS) - current_position[X_AXIS],
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stepper.get_axis_position_mm(Y_AXIS) - current_position[Y_AXIS],
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stepper.get_axis_position_mm(Z_AXIS) - current_position[Z_AXIS]
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planner.get_axis_position_mm(X_AXIS) - current_position[X_AXIS],
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planner.get_axis_position_mm(Y_AXIS) - current_position[Y_AXIS],
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planner.get_axis_position_mm(Z_AXIS) - current_position[Z_AXIS]
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};
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SERIAL_ECHOPGM("ABL Adjustment X");
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if (diff[X_AXIS] > 0) SERIAL_CHAR('+');
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@ -99,15 +99,15 @@ void I2CPositionEncoder::update() {
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//the encoder likely lost its place when the error occured, so we'll reset and use the printer's
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//idea of where it the axis is to re-initialise
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float position = stepper.get_axis_position_mm(encoderAxis);
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int32_t positionInTicks = position * get_ticks_unit();
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const float pos = planner.get_axis_position_mm(encoderAxis);
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int32_t positionInTicks = pos * get_ticks_unit();
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//shift position from previous to current position
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zeroOffset -= (positionInTicks - get_position());
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#ifdef I2CPE_DEBUG
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SERIAL_ECHOPGM("Current position is ");
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SERIAL_ECHOLN(position);
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SERIAL_ECHOLN(pos);
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SERIAL_ECHOPGM("Position in encoder ticks is ");
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SERIAL_ECHOLN(positionInTicks);
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@ -254,7 +254,7 @@ bool I2CPositionEncoder::passes_test(const bool report) {
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float I2CPositionEncoder::get_axis_error_mm(const bool report) {
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float target, actual, error;
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target = stepper.get_axis_position_mm(encoderAxis);
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target = planner.get_axis_position_mm(encoderAxis);
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actual = mm_from_count(position);
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error = actual - target;
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@ -349,8 +349,8 @@ bool I2CPositionEncoder::test_axis() {
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ec = false;
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LOOP_NA(i) {
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startCoord[i] = stepper.get_axis_position_mm((AxisEnum)i);
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endCoord[i] = stepper.get_axis_position_mm((AxisEnum)i);
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startCoord[i] = planner.get_axis_position_mm((AxisEnum)i);
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endCoord[i] = planner.get_axis_position_mm((AxisEnum)i);
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}
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startCoord[encoderAxis] = startPosition;
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@ -359,7 +359,7 @@ bool I2CPositionEncoder::test_axis() {
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planner.synchronize();
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planner.buffer_line(startCoord[X_AXIS], startCoord[Y_AXIS], startCoord[Z_AXIS],
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stepper.get_axis_position_mm(E_AXIS), feedrate, 0);
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planner.get_axis_position_mm(E_AXIS), feedrate, 0);
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planner.synchronize();
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// if the module isn't currently trusted, wait until it is (or until it should be if things are working)
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@ -371,7 +371,7 @@ bool I2CPositionEncoder::test_axis() {
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if (trusted) { // if trusted, commence test
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planner.buffer_line(endCoord[X_AXIS], endCoord[Y_AXIS], endCoord[Z_AXIS],
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stepper.get_axis_position_mm(E_AXIS), feedrate, 0);
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planner.get_axis_position_mm(E_AXIS), feedrate, 0);
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planner.synchronize();
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}
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@ -408,8 +408,8 @@ void I2CPositionEncoder::calibrate_steps_mm(const uint8_t iter) {
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travelDistance = endDistance - startDistance;
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LOOP_NA(i) {
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startCoord[i] = stepper.get_axis_position_mm((AxisEnum)i);
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endCoord[i] = stepper.get_axis_position_mm((AxisEnum)i);
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startCoord[i] = planner.get_axis_position_mm((AxisEnum)i);
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endCoord[i] = planner.get_axis_position_mm((AxisEnum)i);
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}
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startCoord[encoderAxis] = startDistance;
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@ -419,7 +419,7 @@ void I2CPositionEncoder::calibrate_steps_mm(const uint8_t iter) {
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LOOP_L_N(i, iter) {
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planner.buffer_line(startCoord[X_AXIS], startCoord[Y_AXIS], startCoord[Z_AXIS],
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stepper.get_axis_position_mm(E_AXIS), feedrate, 0);
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planner.get_axis_position_mm(E_AXIS), feedrate, 0);
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planner.synchronize();
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delay(250);
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@ -428,7 +428,7 @@ void I2CPositionEncoder::calibrate_steps_mm(const uint8_t iter) {
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//do_blocking_move_to(endCoord[X_AXIS],endCoord[Y_AXIS],endCoord[Z_AXIS]);
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planner.buffer_line(endCoord[X_AXIS], endCoord[Y_AXIS], endCoord[Z_AXIS],
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stepper.get_axis_position_mm(E_AXIS), feedrate, 0);
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planner.get_axis_position_mm(E_AXIS), feedrate, 0);
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planner.synchronize();
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//Read encoder distance
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@ -448,8 +448,8 @@
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#if IS_SCARA // scale the feed rate from mm/s to degrees/s
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scara_feed_factor = cartesian_xy_mm * inv_segments * feedrate;
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scara_oldA = stepper.get_axis_position_degrees(A_AXIS);
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scara_oldB = stepper.get_axis_position_degrees(B_AXIS);
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scara_oldA = planner.get_axis_position_degrees(A_AXIS);
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scara_oldB = planner.get_axis_position_degrees(B_AXIS);
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#endif
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const float diff[XYZE] = {
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@ -90,8 +90,8 @@
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#if IS_SCARA
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const float deg[XYZ] = {
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stepper.get_axis_position_degrees(A_AXIS),
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stepper.get_axis_position_degrees(B_AXIS)
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planner.get_axis_position_degrees(A_AXIS),
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planner.get_axis_position_degrees(B_AXIS)
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};
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SERIAL_PROTOCOLPGM("Degrees:");
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report_xyze(deg, 2);
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@ -99,7 +99,7 @@
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SERIAL_PROTOCOLPGM("FromStp:");
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get_cartesian_from_steppers(); // writes cartes[XYZ] (with forward kinematics)
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const float from_steppers[XYZE] = { cartes[X_AXIS], cartes[Y_AXIS], cartes[Z_AXIS], stepper.get_axis_position_mm(E_AXIS) };
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const float from_steppers[XYZE] = { cartes[X_AXIS], cartes[Y_AXIS], cartes[Z_AXIS], planner.get_axis_position_mm(E_AXIS) };
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report_xyze(from_steppers);
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const float diff[XYZE] = {
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@ -193,21 +193,21 @@ void sync_plan_position_e() { planner.set_e_position_mm(current_position[E_AXIS]
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void get_cartesian_from_steppers() {
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#if ENABLED(DELTA)
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forward_kinematics_DELTA(
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stepper.get_axis_position_mm(A_AXIS),
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stepper.get_axis_position_mm(B_AXIS),
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stepper.get_axis_position_mm(C_AXIS)
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planner.get_axis_position_mm(A_AXIS),
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planner.get_axis_position_mm(B_AXIS),
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planner.get_axis_position_mm(C_AXIS)
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);
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#else
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#if IS_SCARA
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forward_kinematics_SCARA(
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stepper.get_axis_position_degrees(A_AXIS),
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stepper.get_axis_position_degrees(B_AXIS)
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planner.get_axis_position_degrees(A_AXIS),
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planner.get_axis_position_degrees(B_AXIS)
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);
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#else
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cartes[X_AXIS] = stepper.get_axis_position_mm(X_AXIS);
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cartes[Y_AXIS] = stepper.get_axis_position_mm(Y_AXIS);
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cartes[X_AXIS] = planner.get_axis_position_mm(X_AXIS);
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cartes[Y_AXIS] = planner.get_axis_position_mm(Y_AXIS);
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#endif
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cartes[Z_AXIS] = stepper.get_axis_position_mm(Z_AXIS);
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cartes[Z_AXIS] = planner.get_axis_position_mm(Z_AXIS);
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#endif
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}
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@ -870,12 +870,7 @@ float soft_endstop_min[XYZ] = { X_MIN_BED, Y_MIN_BED, Z_MIN_POS },
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}
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#endif
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// move duplicate extruder into correct duplication position.
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planner.set_position_mm(
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inactive_extruder_x_pos,
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current_position[Y_AXIS],
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current_position[Z_AXIS],
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current_position[E_AXIS]
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);
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planner.set_position_mm(inactive_extruder_x_pos, current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS]);
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planner.buffer_line(
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current_position[X_AXIS] + duplicate_extruder_x_offset,
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current_position[Y_AXIS], current_position[Z_AXIS], current_position[E_AXIS],
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@ -1299,6 +1299,37 @@ void Planner::check_axes_activity() {
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#endif // PLANNER_LEVELING
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/**
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* Get an axis position according to stepper position(s)
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* For CORE machines apply translation from ABC to XYZ.
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*/
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float Planner::get_axis_position_mm(const AxisEnum axis) {
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float axis_steps;
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#if IS_CORE
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// Requesting one of the "core" axes?
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if (axis == CORE_AXIS_1 || axis == CORE_AXIS_2) {
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// Protect the access to the position.
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const bool was_enabled = STEPPER_ISR_ENABLED();
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DISABLE_STEPPER_DRIVER_INTERRUPT();
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// ((a1+a2)+(a1-a2))/2 -> (a1+a2+a1-a2)/2 -> (a1+a1)/2 -> a1
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// ((a1+a2)-(a1-a2))/2 -> (a1+a2-a1+a2)/2 -> (a2+a2)/2 -> a2
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axis_steps = 0.5f * (
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axis == CORE_AXIS_2 ? CORESIGN(stepper.position(CORE_AXIS_1) - stepper.position(CORE_AXIS_2))
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: stepper.position(CORE_AXIS_1) + stepper.position(CORE_AXIS_2)
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);
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if (was_enabled) ENABLE_STEPPER_DRIVER_INTERRUPT();
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}
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else
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axis_steps = stepper.position(axis);
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#else
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axis_steps = stepper.position(axis);
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#endif
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return axis_steps * steps_to_mm[axis];
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}
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/**
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* Block until all buffered steps are executed / cleaned
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*/
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@ -546,6 +546,17 @@ class Planner {
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*/
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static void sync_from_steppers();
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/**
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* Get an axis position according to stepper position(s)
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* For CORE machines apply translation from ABC to XYZ.
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*/
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static float get_axis_position_mm(const AxisEnum axis);
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// SCARA AB axes are in degrees, not mm
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#if IS_SCARA
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FORCE_INLINE static float get_axis_position_degrees(const AxisEnum axis) { return get_axis_position_mm(axis); }
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#endif
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/**
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* Does the buffer have any blocks queued?
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*/
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@ -30,7 +30,7 @@
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#include "scara.h"
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#include "motion.h"
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#include "stepper.h"
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#include "planner.h"
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float delta_segments_per_second = SCARA_SEGMENTS_PER_SECOND;
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@ -147,8 +147,8 @@ void inverse_kinematics(const float raw[XYZ]) {
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}
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void scara_report_positions() {
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SERIAL_PROTOCOLPAIR("SCARA Theta:", stepper.get_axis_position_degrees(A_AXIS));
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SERIAL_PROTOCOLLNPAIR(" Psi+Theta:", stepper.get_axis_position_degrees(B_AXIS));
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SERIAL_PROTOCOLPAIR("SCARA Theta:", planner.get_axis_position_degrees(A_AXIS));
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SERIAL_PROTOCOLLNPAIR(" Psi+Theta:", planner.get_axis_position_degrees(B_AXIS));
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SERIAL_EOL();
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}
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@ -2037,32 +2037,6 @@ int32_t Stepper::position(const AxisEnum axis) {
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return count_pos;
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}
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/**
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* Get an axis position according to stepper position(s)
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* For CORE machines apply translation from ABC to XYZ.
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*/
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float Stepper::get_axis_position_mm(const AxisEnum axis) {
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float axis_steps;
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#if IS_CORE
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// Requesting one of the "core" axes?
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if (axis == CORE_AXIS_1 || axis == CORE_AXIS_2) {
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CRITICAL_SECTION_START;
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// ((a1+a2)+(a1-a2))/2 -> (a1+a2+a1-a2)/2 -> (a1+a1)/2 -> a1
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// ((a1+a2)-(a1-a2))/2 -> (a1+a2-a1+a2)/2 -> (a2+a2)/2 -> a2
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axis_steps = 0.5f * (
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axis == CORE_AXIS_2 ? CORESIGN(count_position[CORE_AXIS_1] - count_position[CORE_AXIS_2])
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: count_position[CORE_AXIS_1] + count_position[CORE_AXIS_2]
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);
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CRITICAL_SECTION_END;
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}
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else
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axis_steps = position(axis);
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#else
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axis_steps = position(axis);
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#endif
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return axis_steps * planner.steps_to_mm[axis];
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}
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void Stepper::finish_and_disable() {
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planner.synchronize();
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disable_all_steppers();
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@ -228,18 +228,6 @@ class Stepper {
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//
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static void report_positions();
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//
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// Get the position (mm) of an axis based on stepper position(s)
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//
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static float get_axis_position_mm(const AxisEnum axis);
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//
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// SCARA AB axes are in degrees, not mm
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//
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#if IS_SCARA
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FORCE_INLINE static float get_axis_position_degrees(const AxisEnum axis) { return get_axis_position_mm(axis); }
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#endif
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//
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// The stepper subsystem goes to sleep when it runs out of things to execute. Call this
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// to notify the subsystem that it is time to go to work.
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@ -36,7 +36,7 @@
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#include "../libs/private_spi.h"
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#endif
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#if ENABLED(BABYSTEPPING)
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#if ENABLED(BABYSTEPPING) || ENABLED(PID_EXTRUSION_SCALING)
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#include "stepper.h"
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#endif
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@ -38,10 +38,6 @@
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#include "../feature/power.h"
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#endif
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#if ENABLED(PID_EXTRUSION_SCALING)
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#include "stepper.h"
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#endif
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#ifndef SOFT_PWM_SCALE
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#define SOFT_PWM_SCALE 0
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#endif
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