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@ -33,7 +33,7 @@
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#include "Marlin.h"
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#include "speed_lookuptable.h"
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char version_string[] = "0.9.9";
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char version_string[] = "0.9.10";
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#ifdef SDSUPPORT
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#include "SdFat.h"
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@ -1286,19 +1286,17 @@ void planner_reverse_pass_kernel(block_t *previous, block_t *current, block_t *n
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// implements the reverse pass.
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void planner_reverse_pass() {
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char block_index = block_buffer_head;
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block_t *block[3] = {
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NULL, NULL, NULL };
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while(block_index != block_buffer_tail) {
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block_index--;
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block_t *block[3] = { NULL, NULL, NULL };
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while(block_index != block_buffer_tail) {
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block_index--;
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if(block_index < 0) block_index = BLOCK_BUFFER_SIZE-1;
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block[2]= block[1];
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block[1]= block[0];
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block[0] = &block_buffer[block_index];
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planner_reverse_pass_kernel(block[0], block[1], block[2]);
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block_index--;
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if(block_index < 0) {
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block_index = BLOCK_BUFFER_SIZE-1;
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}
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}
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// planner_reverse_pass_kernel(NULL, block[0], block[1]);
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planner_reverse_pass_kernel(NULL, block[0], block[1]);
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}
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// The kernel called by planner_recalculate() when scanning the plan from first to last entry.
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@ -1428,7 +1426,6 @@ void check_axes_activity() {
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// mm. Microseconds specify how many microseconds the move should take to perform. To aid acceleration
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// calculation the caller must also provide the physical length of the line in millimeters.
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void plan_buffer_line(float x, float y, float z, float e, float feed_rate) {
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// The target position of the tool in absolute steps
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// Calculate target position in absolute steps
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long target[4];
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@ -1519,7 +1516,7 @@ void plan_buffer_line(float x, float y, float z, float e, float feed_rate) {
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// Compute the acceleration rate for the trapezoid generator.
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float travel_per_step = block->millimeters/block->step_event_count;
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if(block->steps_x == 0 && block->steps_y == 0 && block->steps_z == 0) {
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block->acceleration = ceil( (retract_acceleration)/travel_per_step); // convert to: acceleration steps/sec^2
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block->acceleration_st = ceil( (retract_acceleration)/travel_per_step); // convert to: acceleration steps/sec^2
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}
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else {
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block->acceleration_st = ceil( (acceleration)/travel_per_step); // convert to: acceleration steps/sec^2
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