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Initial cleaning up of arc code
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@ -7284,23 +7284,23 @@ void plan_arc(
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) {
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float radius = hypot(offset[X_AXIS], offset[Y_AXIS]),
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center_axis0 = current_position[X_AXIS] + offset[X_AXIS],
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center_axis1 = current_position[Y_AXIS] + offset[Y_AXIS],
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center_X = current_position[X_AXIS] + offset[X_AXIS],
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center_Y = current_position[Y_AXIS] + offset[Y_AXIS],
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linear_travel = target[Z_AXIS] - current_position[Z_AXIS],
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extruder_travel = target[E_AXIS] - current_position[E_AXIS],
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r_axis0 = -offset[X_AXIS], // Radius vector from center to current location
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r_axis1 = -offset[Y_AXIS],
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rt_axis0 = target[X_AXIS] - center_axis0,
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rt_axis1 = target[Y_AXIS] - center_axis1;
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r_X = -offset[X_AXIS], // Radius vector from center to current location
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r_Y = -offset[Y_AXIS],
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rt_X = target[X_AXIS] - center_X,
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rt_Y = target[Y_AXIS] - center_Y;
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// CCW angle of rotation between position and target from the circle center. Only one atan2() trig computation required.
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float angular_travel = atan2(r_axis0 * rt_axis1 - r_axis1 * rt_axis0, r_axis0 * rt_axis0 + r_axis1 * rt_axis1);
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float angular_travel = atan2(r_X * rt_Y - r_Y * rt_X, r_X * rt_X + r_Y * rt_Y);
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if (angular_travel < 0) angular_travel += RADIANS(360);
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if (clockwise) angular_travel -= RADIANS(360);
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// Make a circle if the angular rotation is 0
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if (current_position[X_AXIS] == target[X_AXIS] && current_position[Y_AXIS] == target[Y_AXIS] && angular_travel == 0)
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angular_travel += RADIANS(360);
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if (angular_travel == 0 && current_position[X_AXIS] == target[X_AXIS] && current_position[Y_AXIS] == target[Y_AXIS])
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angular_travel == RADIANS(360);
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float mm_of_travel = hypot(angular_travel * radius, fabs(linear_travel));
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if (mm_of_travel < 0.001) return;
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@ -7342,9 +7342,7 @@ void plan_arc(
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float sin_T = theta_per_segment;
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float arc_target[NUM_AXIS];
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float sin_Ti;
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float cos_Ti;
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float r_axisi;
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float sin_Ti, cos_Ti, r_new_Y;
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uint16_t i;
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int8_t count = 0;
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@ -7356,28 +7354,29 @@ void plan_arc(
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float feed_rate = feedrate * feedrate_multiplier / 60 / 100.0;
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for (i = 1; i < segments; i++) { // Increment (segments-1)
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for (i = 1; i < segments; i++) { // Iterate (segments-1) times
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if (count < N_ARC_CORRECTION) {
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// Apply vector rotation matrix to previous r_axis0 / 1
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r_axisi = r_axis0 * sin_T + r_axis1 * cos_T;
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r_axis0 = r_axis0 * cos_T - r_axis1 * sin_T;
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r_axis1 = r_axisi;
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count++;
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if (++count < N_ARC_CORRECTION) {
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// Apply vector rotation matrix to previous r_X / 1
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r_new_Y = r_X * sin_T + r_Y * cos_T;
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r_X = r_X * cos_T - r_Y * sin_T;
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r_Y = r_new_Y;
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}
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else {
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// Arc correction to radius vector. Computed only every N_ARC_CORRECTION increments.
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// Compute exact location by applying transformation matrix from initial radius vector(=-offset).
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// To reduce stuttering, the sin and cos could be computed at different times.
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// For now, compute both at the same time.
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cos_Ti = cos(i * theta_per_segment);
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sin_Ti = sin(i * theta_per_segment);
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r_axis0 = -offset[X_AXIS] * cos_Ti + offset[Y_AXIS] * sin_Ti;
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r_axis1 = -offset[X_AXIS] * sin_Ti - offset[Y_AXIS] * cos_Ti;
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r_X = -offset[X_AXIS] * cos_Ti + offset[Y_AXIS] * sin_Ti;
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r_Y = -offset[X_AXIS] * sin_Ti - offset[Y_AXIS] * cos_Ti;
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count = 0;
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}
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// Update arc_target location
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arc_target[X_AXIS] = center_axis0 + r_axis0;
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arc_target[Y_AXIS] = center_axis1 + r_axis1;
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arc_target[X_AXIS] = center_X + r_X;
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arc_target[Y_AXIS] = center_Y + r_Y;
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arc_target[Z_AXIS] += linear_per_segment;
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arc_target[E_AXIS] += extruder_per_segment;
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