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@ -149,7 +149,7 @@ void Planner::init() {
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* Calculate trapezoid parameters, multiplying the entry- and exit-speeds
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* by the provided factors.
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*/
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void Planner::calculate_trapezoid_for_block(block_t* block, float entry_factor, float exit_factor) {
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void Planner::calculate_trapezoid_for_block(block_t* const block, const float &entry_factor, const float &exit_factor) {
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uint32_t initial_rate = ceil(block->nominal_rate * entry_factor),
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final_rate = ceil(block->nominal_rate * exit_factor); // (steps per second)
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@ -203,29 +203,20 @@ void Planner::calculate_trapezoid_for_block(block_t* block, float entry_factor,
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// The kernel called by recalculate() when scanning the plan from last to first entry.
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void Planner::reverse_pass_kernel(block_t* current, block_t* next) {
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if (!current) return;
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if (next) {
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// If entry speed is already at the maximum entry speed, no need to recheck. Block is cruising.
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// If not, block in state of acceleration or deceleration. Reset entry speed to maximum and
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// check for maximum allowable speed reductions to ensure maximum possible planned speed.
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float max_entry_speed = current->max_entry_speed;
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if (current->entry_speed != max_entry_speed) {
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// If nominal length true, max junction speed is guaranteed to be reached. Only compute
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// for max allowable speed if block is decelerating and nominal length is false.
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if (!current->nominal_length_flag && max_entry_speed > next->entry_speed) {
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current->entry_speed = min(max_entry_speed,
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max_allowable_speed(-current->acceleration, next->entry_speed, current->millimeters));
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}
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else {
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current->entry_speed = max_entry_speed;
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}
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current->recalculate_flag = true;
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}
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} // Skip last block. Already initialized and set for recalculation.
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void Planner::reverse_pass_kernel(block_t* const current, const block_t *next) {
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if (!current || !next) return;
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// If entry speed is already at the maximum entry speed, no need to recheck. Block is cruising.
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// If not, block in state of acceleration or deceleration. Reset entry speed to maximum and
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// check for maximum allowable speed reductions to ensure maximum possible planned speed.
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float max_entry_speed = current->max_entry_speed;
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if (current->entry_speed != max_entry_speed) {
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// If nominal length true, max junction speed is guaranteed to be reached. Only compute
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// for max allowable speed if block is decelerating and nominal length is false.
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current->entry_speed = ((current->flag & BLOCK_FLAG_NOMINAL_LENGTH) || max_entry_speed <= next->entry_speed)
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? max_entry_speed
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: min(max_entry_speed, max_allowable_speed(-current->acceleration, next->entry_speed, current->millimeters));
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current->flag |= BLOCK_FLAG_RECALCULATE;
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}
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}
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/**
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@ -255,21 +246,21 @@ void Planner::reverse_pass() {
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}
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// The kernel called by recalculate() when scanning the plan from first to last entry.
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void Planner::forward_pass_kernel(block_t* previous, block_t* current) {
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void Planner::forward_pass_kernel(const block_t* previous, block_t* const current) {
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if (!previous) return;
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// If the previous block is an acceleration block, but it is not long enough to complete the
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// full speed change within the block, we need to adjust the entry speed accordingly. Entry
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// speeds have already been reset, maximized, and reverse planned by reverse planner.
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// If nominal length is true, max junction speed is guaranteed to be reached. No need to recheck.
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if (!previous->nominal_length_flag) {
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if (!(previous->flag & BLOCK_FLAG_NOMINAL_LENGTH)) {
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if (previous->entry_speed < current->entry_speed) {
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float entry_speed = min(current->entry_speed,
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max_allowable_speed(-previous->acceleration, previous->entry_speed, previous->millimeters));
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// Check for junction speed change
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if (current->entry_speed != entry_speed) {
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current->entry_speed = entry_speed;
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current->recalculate_flag = true;
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current->flag |= BLOCK_FLAG_RECALCULATE;
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}
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}
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}
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@ -298,19 +289,18 @@ void Planner::forward_pass() {
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*/
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void Planner::recalculate_trapezoids() {
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int8_t block_index = block_buffer_tail;
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block_t* current;
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block_t* next = NULL;
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block_t *current, *next = NULL;
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while (block_index != block_buffer_head) {
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current = next;
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next = &block_buffer[block_index];
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if (current) {
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// Recalculate if current block entry or exit junction speed has changed.
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if (current->recalculate_flag || next->recalculate_flag) {
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if ((current->flag & BLOCK_FLAG_RECALCULATE) || (next->flag & BLOCK_FLAG_RECALCULATE)) {
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// NOTE: Entry and exit factors always > 0 by all previous logic operations.
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float nom = current->nominal_speed;
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calculate_trapezoid_for_block(current, current->entry_speed / nom, next->entry_speed / nom);
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current->recalculate_flag = false; // Reset current only to ensure next trapezoid is computed
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current->flag &= ~BLOCK_FLAG_RECALCULATE; // Reset current only to ensure next trapezoid is computed
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}
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}
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block_index = next_block_index(block_index);
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@ -319,7 +309,7 @@ void Planner::recalculate_trapezoids() {
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if (next) {
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float nom = next->nominal_speed;
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calculate_trapezoid_for_block(next, next->entry_speed / nom, (MINIMUM_PLANNER_SPEED) / nom);
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next->recalculate_flag = false;
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next->flag &= ~BLOCK_FLAG_RECALCULATE;
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}
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}
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@ -1119,8 +1109,9 @@ void Planner::_buffer_line(const float &a, const float &b, const float &c, const
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// block nominal speed limits both the current and next maximum junction speeds. Hence, in both
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// the reverse and forward planners, the corresponding block junction speed will always be at the
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// the maximum junction speed and may always be ignored for any speed reduction checks.
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block->nominal_length_flag = (block->nominal_speed <= v_allowable);
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block->recalculate_flag = true; // Always calculate trapezoid for new block
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block->flag &= ~BLOCK_FLAG_NOMINAL_LENGTH;
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if (block->nominal_speed <= v_allowable) block->flag |= BLOCK_FLAG_NOMINAL_LENGTH;
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block->flag |= BLOCK_FLAG_RECALCULATE; // Always calculate trapezoid for new block
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// Update previous path unit_vector and nominal speed
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memcpy(previous_speed, current_speed, sizeof(previous_speed));
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