New cooling logic to equalize extrusion velocity. The old behavior caused bad outer surface print quality on Prusa i3 MK3
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ab397e5ce1
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6c627be4c1
@ -30,74 +30,8 @@ void CoolingBuffer::reset()
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m_current_pos[4] = float(m_gcodegen.config().travel_speed.value);
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}
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#define EXTRUDER_CONFIG(OPT) config.OPT.get_at(m_current_extruder)
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std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_id)
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struct CoolingLine
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{
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const FullPrintConfig &config = m_gcodegen.config();
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const std::vector<Extruder> &extruders = m_gcodegen.writer().extruders();
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const size_t num_extruders = extruders.size();
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// Calculate the required per extruder time stretches.
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struct Adjustment {
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Adjustment(unsigned int extruder_id = 0) : extruder_id(extruder_id) {}
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// Calculate the total elapsed time per this extruder, adjusted for the slowdown.
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float elapsed_time_total() {
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float time_total = 0.f;
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for (const Line &line : lines)
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time_total += line.time;
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return time_total;
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}
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// Calculate the maximum time when slowing down.
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float maximum_time(bool slowdown_external_perimeters) {
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float time_total = 0.f;
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for (const Line &line : lines)
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if (line.adjustable(slowdown_external_perimeters)) {
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if (line.time_max == FLT_MAX)
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return FLT_MAX;
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else
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time_total += line.time_max;
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} else
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time_total += line.time;
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return time_total;
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}
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// Calculate the non-adjustable part of the total time.
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float non_adjustable_time(bool slowdown_external_perimeters) {
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float time_total = 0.f;
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for (const Line &line : lines)
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if (! line.adjustable(slowdown_external_perimeters))
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time_total += line.time;
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return time_total;
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}
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float slow_down_maximum(bool slowdown_external_perimeters) {
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float time_total = 0.f;
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for (Line &line : lines) {
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if (line.adjustable(slowdown_external_perimeters)) {
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assert(line.time_max >= 0.f && line.time_max < FLT_MAX);
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line.slowdown = true;
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line.time = line.time_max;
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}
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time_total += line.time;
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}
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return time_total;
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}
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float slow_down_proportional(float factor, bool slowdown_external_perimeters) {
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assert(factor >= 1.f);
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float time_total = 0.f;
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for (Line &line : lines) {
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if (line.adjustable(slowdown_external_perimeters)) {
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line.slowdown = true;
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line.time = std::min(line.time_max, line.time * factor);
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}
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time_total += line.time;
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}
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return time_total;
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}
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bool operator<(const Adjustment &rhs) const { return this->extruder_id < rhs.extruder_id; }
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struct Line
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{
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enum Type {
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TYPE_SET_TOOL = 1 << 0,
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TYPE_EXTRUDE_END = 1 << 1,
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@ -114,7 +48,7 @@ std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_
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TYPE_G92 = 1 << 11,
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};
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Line(unsigned int type, size_t line_start, size_t line_end) :
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CoolingLine(unsigned int type, size_t line_start, size_t line_end) :
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type(type), line_start(line_start), line_end(line_end),
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length(0.f), time(0.f), time_max(0.f), slowdown(false) {}
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@ -124,6 +58,10 @@ std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_
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this->time < this->time_max;
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}
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bool adjustable() const {
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return (this->type & TYPE_ADJUSTABLE) && this->time < this->time_max;
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}
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size_t type;
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// Start of this line at the G-code snippet.
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size_t line_start;
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@ -131,32 +69,160 @@ std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_
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size_t line_end;
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// XY Euclidian length of this segment.
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float length;
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// Current feedrate, possibly adjusted.
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float feedrate;
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// Current duration of this segment.
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float time;
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// Maximum duration of this segment.
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float time_max;
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// If marked with the "slowdown" flag, the line has been slowed down.
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bool slowdown;
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};
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};
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// Calculate the required per extruder time stretches.
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struct PerExtruderAdjustments
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{
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// Calculate the total elapsed time per this extruder, adjusted for the slowdown.
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float elapsed_time_total() {
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float time_total = 0.f;
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for (const CoolingLine &line : lines)
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time_total += line.time;
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return time_total;
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}
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// Calculate the maximum time when slowing down.
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float maximum_time(bool slowdown_external_perimeters) {
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float time_total = 0.f;
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for (const CoolingLine &line : lines)
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if (line.adjustable(slowdown_external_perimeters)) {
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if (line.time_max == FLT_MAX)
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return FLT_MAX;
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else
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time_total += line.time_max;
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} else
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time_total += line.time;
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return time_total;
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}
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// Calculate the non-adjustable part of the total time.
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float non_adjustable_time(bool slowdown_external_perimeters) {
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float time_total = 0.f;
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for (const CoolingLine &line : lines)
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if (! line.adjustable(slowdown_external_perimeters))
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time_total += line.time;
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return time_total;
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}
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float slow_down_maximum(bool slowdown_external_perimeters) {
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float time_total = 0.f;
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for (CoolingLine &line : lines) {
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if (line.adjustable(slowdown_external_perimeters)) {
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assert(line.time_max >= 0.f && line.time_max < FLT_MAX);
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line.slowdown = true;
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line.time = line.time_max;
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line.feedrate = line.length / line.time;
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}
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time_total += line.time;
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}
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return time_total;
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}
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float slow_down_proportional(float factor, bool slowdown_external_perimeters) {
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assert(factor >= 1.f);
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float time_total = 0.f;
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for (CoolingLine &line : lines) {
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if (line.adjustable(slowdown_external_perimeters)) {
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line.slowdown = true;
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line.time = std::min(line.time_max, line.time * factor);
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line.feedrate = line.length / line.time;
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}
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time_total += line.time;
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}
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return time_total;
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}
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bool operator<(const PerExtruderAdjustments &rhs) const { return this->extruder_id < rhs.extruder_id; }
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// Sort the lines, adjustable first, higher feedrate first.
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void sort_lines_by_decreasing_feedrate() {
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std::sort(lines.begin(), lines.end(), [](const CoolingLine &l1, const CoolingLine &l2) {
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bool adj1 = l1.adjustable();
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bool adj2 = l2.adjustable();
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return (adj1 == adj2) ? l1.feedrate > l2.feedrate : adj1;
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});
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for (n_lines_adjustable = 0; n_lines_adjustable < lines.size(); ++ n_lines_adjustable)
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if ((this->lines[n_lines_adjustable].type & CoolingLine::TYPE_ADJUSTABLE) == 0)
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break;
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time_non_adjustable = 0.f;
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for (size_t i = n_lines_adjustable; i < lines.size(); ++ i)
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time_non_adjustable += lines[i].time;
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}
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// Calculate the maximum time when slowing down.
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float time_stretch_when_slowing_down_to(float min_feedrate) {
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float time_stretch = 0.f;
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if (this->min_print_speed < min_feedrate + EPSILON) {
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for (size_t i = 0; i < n_lines_adjustable; ++ i) {
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const CoolingLine &line = lines[i];
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if (line.feedrate > min_feedrate)
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time_stretch += line.time * (line.feedrate / min_feedrate - 1.f);
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}
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}
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return time_stretch;
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}
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void slow_down_to(float min_feedrate) {
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if (this->min_print_speed < min_feedrate + EPSILON) {
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for (size_t i = 0; i < n_lines_adjustable; ++ i) {
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CoolingLine &line = lines[i];
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if (line.feedrate > min_feedrate) {
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line.time *= std::max(1.f, line.feedrate / min_feedrate);
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line.feedrate = min_feedrate;
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line.slowdown = true;
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}
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}
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}
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}
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// Extruder, for which the G-code will be adjusted.
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unsigned int extruder_id;
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unsigned int extruder_id = 0;
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// Minimum print speed allowed for this extruder.
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float min_print_speed = 0.f;
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// Parsed lines.
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std::vector<Line> lines;
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};
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std::vector<Adjustment> adjustments(num_extruders, Adjustment());
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for (size_t i = 0; i < num_extruders; ++ i)
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adjustments[i].extruder_id = extruders[i].id();
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std::vector<CoolingLine> lines;
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// The following two values are set by sort_lines_by_decreasing_feedrate():
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// Number of adjustable lines, at the start of lines.
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size_t n_lines_adjustable = 0;
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// Non-adjustable time of lines starting with n_lines_adjustable.
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float time_non_adjustable = 0;
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// Temporaries for processing the slow down. Both thresholds go from 0 to n_lines_adjustable.
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size_t idx_line_begin = 0;
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size_t idx_line_end = 0;
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};
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#define EXTRUDER_CONFIG(OPT) config.OPT.get_at(m_current_extruder)
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std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_id)
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{
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const FullPrintConfig &config = m_gcodegen.config();
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const std::vector<Extruder> &extruders = m_gcodegen.writer().extruders();
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const size_t num_extruders = extruders.size();
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std::vector<PerExtruderAdjustments> per_extruder_adjustments(num_extruders);
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std::vector<size_t> map_extruder_to_per_extruder_adjustment(num_extruders, 0);
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for (size_t i = 0; i < num_extruders; ++ i) {
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unsigned int extruder_id = extruders[i].id();
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per_extruder_adjustments[i].extruder_id = extruder_id;
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per_extruder_adjustments[i].min_print_speed = config.min_print_speed.get_at(i);
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map_extruder_to_per_extruder_adjustment[extruder_id] = i;
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}
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const std::string toolchange_prefix = m_gcodegen.writer().toolchange_prefix();
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// Parse the layer G-code for the moves, which could be adjusted.
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{
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float min_print_speed = float(EXTRUDER_CONFIG(min_print_speed));
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auto adjustment = std::lower_bound(adjustments.begin(), adjustments.end(), Adjustment(m_current_extruder));
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PerExtruderAdjustments *adjustment = &per_extruder_adjustments[map_extruder_to_per_extruder_adjustment[m_current_extruder]];
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unsigned int initial_extruder = m_current_extruder;
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const char *line_start = gcode.c_str();
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const char *line_end = line_start;
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const char extrusion_axis = config.get_extrusion_axis()[0];
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// Index of an existing Adjustment::Line of the current adjustment, which holds the feedrate setting command
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// Index of an existing CoolingLine of the current adjustment, which holds the feedrate setting command
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// for a sequence of extrusion moves.
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size_t active_speed_modifier = size_t(-1);
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for (; *line_start != 0; line_start = line_end) {
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@ -164,16 +230,16 @@ std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_
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++ line_end;
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// sline will not contain the trailing '\n'.
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std::string sline(line_start, line_end);
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// Adjustment::Line will contain the trailing '\n'.
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// CoolingLine will contain the trailing '\n'.
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if (*line_end == '\n')
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++ line_end;
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Adjustment::Line line(0, line_start - gcode.c_str(), line_end - gcode.c_str());
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CoolingLine line(0, line_start - gcode.c_str(), line_end - gcode.c_str());
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if (boost::starts_with(sline, "G0 "))
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line.type = Adjustment::Line::TYPE_G0;
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line.type = CoolingLine::TYPE_G0;
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else if (boost::starts_with(sline, "G1 "))
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line.type = Adjustment::Line::TYPE_G1;
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line.type = CoolingLine::TYPE_G1;
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else if (boost::starts_with(sline, "G92 "))
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line.type = Adjustment::Line::TYPE_G92;
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line.type = CoolingLine::TYPE_G92;
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if (line.type) {
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// G0, G1 or G92
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// Parse the G-code line.
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@ -192,9 +258,9 @@ std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_
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if (axis == 4) {
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// Convert mm/min to mm/sec.
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new_pos[4] /= 60.f;
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if ((line.type & Adjustment::Line::TYPE_G92) == 0)
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if ((line.type & CoolingLine::TYPE_G92) == 0)
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// This is G0 or G1 line and it sets the feedrate. This mark is used for reducing the duplicate F calls.
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line.type |= Adjustment::Line::TYPE_HAS_F;
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line.type |= CoolingLine::TYPE_HAS_F;
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}
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}
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// Skip this word.
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@ -203,14 +269,14 @@ std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_
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bool external_perimeter = boost::contains(sline, ";_EXTERNAL_PERIMETER");
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bool wipe = boost::contains(sline, ";_WIPE");
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if (external_perimeter)
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line.type |= Adjustment::Line::TYPE_EXTERNAL_PERIMETER;
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line.type |= CoolingLine::TYPE_EXTERNAL_PERIMETER;
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if (wipe)
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line.type |= Adjustment::Line::TYPE_WIPE;
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line.type |= CoolingLine::TYPE_WIPE;
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if (boost::contains(sline, ";_EXTRUDE_SET_SPEED") && ! wipe) {
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line.type |= Adjustment::Line::TYPE_ADJUSTABLE;
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line.type |= CoolingLine::TYPE_ADJUSTABLE;
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active_speed_modifier = adjustment->lines.size();
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}
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if ((line.type & Adjustment::Line::TYPE_G92) == 0) {
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if ((line.type & CoolingLine::TYPE_G92) == 0) {
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// G0 or G1. Calculate the duration.
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if (config.use_relative_e_distances.value)
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// Reset extruder accumulator.
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@ -227,15 +293,17 @@ std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_
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// Movement in the extruder axis.
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line.length = std::abs(dif[3]);
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}
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if (line.length > 0)
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line.time = line.length / new_pos[4]; // current F
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if (line.length > 0) {
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line.feedrate = new_pos[4]; // current F
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line.time = line.length / line.feedrate;
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}
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line.time_max = line.time;
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if ((line.type & Adjustment::Line::TYPE_ADJUSTABLE) || active_speed_modifier != size_t(-1))
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line.time_max = (min_print_speed == 0.f) ? FLT_MAX : std::max(line.time, line.length / min_print_speed);
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if (active_speed_modifier < adjustment->lines.size() && (line.type & Adjustment::Line::TYPE_G1)) {
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if ((line.type & CoolingLine::TYPE_ADJUSTABLE) || active_speed_modifier != size_t(-1))
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line.time_max = (adjustment->min_print_speed == 0.f) ? FLT_MAX : std::max(line.time, line.length / adjustment->min_print_speed);
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if (active_speed_modifier < adjustment->lines.size() && (line.type & CoolingLine::TYPE_G1)) {
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// Inside the ";_EXTRUDE_SET_SPEED" blocks, there must not be a G1 Fxx entry.
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assert((line.type & Adjustment::Line::TYPE_HAS_F) == 0);
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Adjustment::Line &sm = adjustment->lines[active_speed_modifier];
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assert((line.type & CoolingLine::TYPE_HAS_F) == 0);
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CoolingLine &sm = adjustment->lines[active_speed_modifier];
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sm.length += line.length;
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sm.time += line.time;
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if (sm.time_max != FLT_MAX) {
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@ -250,24 +318,23 @@ std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_
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}
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m_current_pos = std::move(new_pos);
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} else if (boost::starts_with(sline, ";_EXTRUDE_END")) {
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line.type = Adjustment::Line::TYPE_EXTRUDE_END;
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line.type = CoolingLine::TYPE_EXTRUDE_END;
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active_speed_modifier = size_t(-1);
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} else if (boost::starts_with(sline, toolchange_prefix)) {
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// Switch the tool.
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line.type = Adjustment::Line::TYPE_SET_TOOL;
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line.type = CoolingLine::TYPE_SET_TOOL;
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unsigned int new_extruder = (unsigned int)atoi(sline.c_str() + toolchange_prefix.size());
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if (new_extruder != m_current_extruder) {
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m_current_extruder = new_extruder;
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min_print_speed = float(EXTRUDER_CONFIG(min_print_speed));
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adjustment = std::lower_bound(adjustments.begin(), adjustments.end(), Adjustment(m_current_extruder));
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adjustment = &per_extruder_adjustments[map_extruder_to_per_extruder_adjustment[m_current_extruder]];
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}
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} else if (boost::starts_with(sline, ";_BRIDGE_FAN_START")) {
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line.type = Adjustment::Line::TYPE_BRIDGE_FAN_START;
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line.type = CoolingLine::TYPE_BRIDGE_FAN_START;
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} else if (boost::starts_with(sline, ";_BRIDGE_FAN_END")) {
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line.type = Adjustment::Line::TYPE_BRIDGE_FAN_END;
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line.type = CoolingLine::TYPE_BRIDGE_FAN_END;
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} else if (boost::starts_with(sline, "G4 ")) {
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// Parse the wait time.
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line.type = Adjustment::Line::TYPE_G4;
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line.type = CoolingLine::TYPE_G4;
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size_t pos_S = sline.find('S', 3);
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size_t pos_P = sline.find('P', 3);
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line.time = line.time_max = float(
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@ -281,18 +348,19 @@ std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_
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}
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// Sort the extruders by the increasing slowdown_below_layer_time.
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std::vector<size_t> by_slowdown_layer_time;
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||||
by_slowdown_layer_time.reserve(num_extruders);
|
||||
std::vector<size_t> extruder_by_slowdown_time;
|
||||
extruder_by_slowdown_time.reserve(num_extruders);
|
||||
// Only insert entries, which are adjustable (have cooling enabled and non-zero stretchable time).
|
||||
// Collect total print time of non-adjustable extruders.
|
||||
float elapsed_time_total_non_adjustable = 0.f;
|
||||
for (size_t i = 0; i < num_extruders; ++ i) {
|
||||
if (config.cooling.get_at(extruders[i].id()))
|
||||
by_slowdown_layer_time.emplace_back(i);
|
||||
else
|
||||
elapsed_time_total_non_adjustable += adjustments[i].elapsed_time_total();
|
||||
if (config.cooling.get_at(extruders[i].id())) {
|
||||
extruder_by_slowdown_time.emplace_back(i);
|
||||
per_extruder_adjustments[i].sort_lines_by_decreasing_feedrate();
|
||||
} else
|
||||
elapsed_time_total_non_adjustable += per_extruder_adjustments[i].elapsed_time_total();
|
||||
}
|
||||
std::sort(by_slowdown_layer_time.begin(), by_slowdown_layer_time.end(),
|
||||
std::sort(extruder_by_slowdown_time.begin(), extruder_by_slowdown_time.end(),
|
||||
[&config, &extruders](const size_t idx1, const size_t idx2){
|
||||
return config.slowdown_below_layer_time.get_at(extruders[idx1].id()) <
|
||||
config.slowdown_below_layer_time.get_at(extruders[idx2].id());
|
||||
@ -303,18 +371,18 @@ std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_
|
||||
{
|
||||
// Elapsed time for the already adjusted extruders.
|
||||
float elapsed_time_total0 = elapsed_time_total_non_adjustable;
|
||||
for (size_t i_by_slowdown_layer_time = 0; i_by_slowdown_layer_time < by_slowdown_layer_time.size(); ++ i_by_slowdown_layer_time) {
|
||||
// Idx in adjustments.
|
||||
size_t idx = by_slowdown_layer_time[i_by_slowdown_layer_time];
|
||||
// Macro to sum or adjust all sections starting with i_by_slowdown_layer_time.
|
||||
for (size_t i_extruder_by_slowdown_time = 0; i_extruder_by_slowdown_time < extruder_by_slowdown_time.size(); ++ i_extruder_by_slowdown_time) {
|
||||
// Idx in per_extruder_adjustments.
|
||||
size_t idx = extruder_by_slowdown_time[i_extruder_by_slowdown_time];
|
||||
// Macro to sum or adjust all sections starting with i_extruder_by_slowdown_time.
|
||||
#define FORALL_UNPROCESSED(ACCUMULATOR, ACTION) \
|
||||
ACCUMULATOR = elapsed_time_total0;\
|
||||
for (size_t j = i_by_slowdown_layer_time; j < by_slowdown_layer_time.size(); ++ j) \
|
||||
ACCUMULATOR += adjustments[by_slowdown_layer_time[j]].ACTION
|
||||
for (size_t j = i_extruder_by_slowdown_time; j < extruder_by_slowdown_time.size(); ++ j) \
|
||||
ACCUMULATOR += per_extruder_adjustments[extruder_by_slowdown_time[j]].ACTION
|
||||
// Calculate the current adjusted elapsed_time_total over the non-finalized extruders.
|
||||
float total;
|
||||
FORALL_UNPROCESSED(total, elapsed_time_total());
|
||||
float slowdown_below_layer_time = float(config.slowdown_below_layer_time.get_at(adjustments[idx].extruder_id)) * 1.001f;
|
||||
float slowdown_below_layer_time = float(config.slowdown_below_layer_time.get_at(per_extruder_adjustments[idx].extruder_id)) * 1.001f;
|
||||
if (total > slowdown_below_layer_time) {
|
||||
// The current total time is above the minimum threshold of the rest of the extruders, don't adjust anything.
|
||||
} else {
|
||||
@ -323,8 +391,9 @@ std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_
|
||||
float max_time;
|
||||
FORALL_UNPROCESSED(max_time, maximum_time(true));
|
||||
if (max_time > slowdown_below_layer_time) {
|
||||
// By slowing every possible movement, the layer time could be reached. Now decide
|
||||
// whether the external perimeters shall be slowed down as well.
|
||||
// By slowing every possible movement, the layer time could be reached.
|
||||
#if 0
|
||||
// Now decide, whether the external perimeters shall be slowed down as well.
|
||||
float max_time_nep;
|
||||
FORALL_UNPROCESSED(max_time_nep, maximum_time(false));
|
||||
if (max_time_nep > slowdown_below_layer_time) {
|
||||
@ -355,34 +424,98 @@ std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_
|
||||
break;
|
||||
}
|
||||
}
|
||||
#else
|
||||
// Slow down. Try to equalize the feedrates.
|
||||
std::vector<PerExtruderAdjustments*> by_min_print_speed;
|
||||
by_min_print_speed.reserve(extruder_by_slowdown_time.size() - i_extruder_by_slowdown_time);
|
||||
for (size_t j = i_extruder_by_slowdown_time; j < extruder_by_slowdown_time.size(); ++ j)
|
||||
by_min_print_speed.emplace_back(&per_extruder_adjustments[extruder_by_slowdown_time[j]]);
|
||||
// Find the next highest adjustable feedrate among the extruders.
|
||||
float feedrate = 0;
|
||||
for (PerExtruderAdjustments *adj : by_min_print_speed)
|
||||
if (adj->idx_line_begin < adj->n_lines_adjustable && adj->lines[adj->idx_line_begin].feedrate > feedrate)
|
||||
feedrate = adj->lines[adj->idx_line_begin].feedrate;
|
||||
if (feedrate == 0)
|
||||
// No adjustable line is left.
|
||||
break;
|
||||
// Sort by min_print_speed, maximum speed first.
|
||||
std::sort(by_min_print_speed.begin(), by_min_print_speed.end(),
|
||||
[](const PerExtruderAdjustments *p1, const PerExtruderAdjustments *p2){ return p1->min_print_speed > p2->min_print_speed; });
|
||||
// Slow down, fast moves first.
|
||||
for (;;) {
|
||||
// For each extruder, find the span of lines with a feedrate close to feedrate.
|
||||
for (PerExtruderAdjustments *adj : by_min_print_speed) {
|
||||
for (adj->idx_line_end = adj->idx_line_begin;
|
||||
adj->idx_line_end < adj->n_lines_adjustable && adj->lines[adj->idx_line_end].feedrate > feedrate - EPSILON;
|
||||
++ adj->idx_line_end) ;
|
||||
}
|
||||
// Find the next highest adjustable feedrate among the extruders.
|
||||
float feedrate_next = 0.f;
|
||||
for (PerExtruderAdjustments *adj : by_min_print_speed)
|
||||
if (adj->idx_line_end < adj->n_lines_adjustable && adj->lines[adj->idx_line_end].feedrate > feedrate_next)
|
||||
feedrate_next = adj->lines[adj->idx_line_end].feedrate;
|
||||
// Slow down, limited by max(feedrate_next, min_print_speed).
|
||||
for (auto adj = by_min_print_speed.begin(); adj != by_min_print_speed.end();) {
|
||||
float feedrate_limit = std::max(feedrate_next, (*adj)->min_print_speed);
|
||||
float time_stretch = slowdown_below_layer_time - total;
|
||||
float time_stretch_max = 0.f;
|
||||
std::pair<float, float> time_stretched(0.f, 0.f);
|
||||
for (auto it = adj; it != by_min_print_speed.end(); ++ it)
|
||||
time_stretch_max += (*it)->time_stretch_when_slowing_down_to(feedrate_limit);
|
||||
bool done = false;
|
||||
if (time_stretch_max > time_stretch) {
|
||||
feedrate_limit = feedrate - (feedrate - feedrate_limit) * time_stretch / time_stretch_max;
|
||||
done = true;
|
||||
}
|
||||
for (auto it = adj; it != by_min_print_speed.end(); ++ it)
|
||||
(*it)->slow_down_to(feedrate_limit);
|
||||
if (done) {
|
||||
// Break from two levels of loops.
|
||||
feedrate_next = 0.f;
|
||||
break;
|
||||
}
|
||||
// Skip the other extruders with nearly the same min_print_speed, as they have been processed already.
|
||||
auto next = adj;
|
||||
for (++ next; next != by_min_print_speed.end() && (*next)->min_print_speed > (*adj)->min_print_speed - EPSILON; ++ next);
|
||||
adj = next;
|
||||
}
|
||||
if (feedrate_next == 0.f)
|
||||
// There are no other extrusions available for slow down.
|
||||
break;
|
||||
for (PerExtruderAdjustments *adj : by_min_print_speed) {
|
||||
adj->idx_line_begin = adj->idx_line_end;
|
||||
feedrate = feedrate_next;
|
||||
}
|
||||
}
|
||||
#endif
|
||||
} else {
|
||||
// Slow down to maximum possible.
|
||||
FORALL_UNPROCESSED(total, slow_down_maximum(true));
|
||||
}
|
||||
}
|
||||
#undef FORALL_UNPROCESSED
|
||||
// Sum the final elapsed time for all extruders up to i_by_slowdown_layer_time.
|
||||
if (i_by_slowdown_layer_time + 1 == by_slowdown_layer_time.size())
|
||||
// Sum the final elapsed time for all extruders up to i_extruder_by_slowdown_time.
|
||||
if (i_extruder_by_slowdown_time + 1 == extruder_by_slowdown_time.size())
|
||||
// Optimization for single extruder prints.
|
||||
elapsed_time_total0 = total;
|
||||
else
|
||||
elapsed_time_total0 += adjustments[idx].elapsed_time_total();
|
||||
elapsed_time_total0 += per_extruder_adjustments[idx].elapsed_time_total();
|
||||
}
|
||||
elapsed_time_total = elapsed_time_total0;
|
||||
}
|
||||
|
||||
// Transform the G-code.
|
||||
// First sort the adjustment lines by their position in the source G-code.
|
||||
std::vector<const Adjustment::Line*> lines;
|
||||
std::vector<const CoolingLine*> lines;
|
||||
{
|
||||
size_t n_lines = 0;
|
||||
for (const Adjustment &adj : adjustments)
|
||||
for (const PerExtruderAdjustments &adj : per_extruder_adjustments)
|
||||
n_lines += adj.lines.size();
|
||||
lines.reserve(n_lines);
|
||||
for (const Adjustment &adj : adjustments)
|
||||
for (const Adjustment::Line &line : adj.lines)
|
||||
for (const PerExtruderAdjustments &adj : per_extruder_adjustments)
|
||||
for (const CoolingLine &line : adj.lines)
|
||||
lines.emplace_back(&line);
|
||||
std::sort(lines.begin(), lines.end(), [](const Adjustment::Line *ln1, const Adjustment::Line *ln2) { return ln1->line_start < ln2->line_start; } );
|
||||
std::sort(lines.begin(), lines.end(), [](const CoolingLine *ln1, const CoolingLine *ln2) { return ln1->line_start < ln2->line_start; } );
|
||||
}
|
||||
// Second generate the adjusted G-code.
|
||||
std::string new_gcode;
|
||||
@ -425,27 +558,27 @@ std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_
|
||||
|
||||
const char *pos = gcode.c_str();
|
||||
int current_feedrate = 0;
|
||||
for (const Adjustment::Line *line : lines) {
|
||||
for (const CoolingLine *line : lines) {
|
||||
const char *line_start = gcode.c_str() + line->line_start;
|
||||
const char *line_end = gcode.c_str() + line->line_end;
|
||||
if (line_start > pos)
|
||||
new_gcode.append(pos, line_start - pos);
|
||||
if (line->type & Adjustment::Line::TYPE_SET_TOOL) {
|
||||
if (line->type & CoolingLine::TYPE_SET_TOOL) {
|
||||
unsigned int new_extruder = (unsigned int)atoi(line_start + toolchange_prefix.size());
|
||||
if (new_extruder != m_current_extruder) {
|
||||
m_current_extruder = new_extruder;
|
||||
change_extruder_set_fan();
|
||||
}
|
||||
new_gcode.append(line_start, line_end - line_start);
|
||||
} else if (line->type & Adjustment::Line::TYPE_BRIDGE_FAN_START) {
|
||||
} else if (line->type & CoolingLine::TYPE_BRIDGE_FAN_START) {
|
||||
if (bridge_fan_control)
|
||||
new_gcode += m_gcodegen.writer().set_fan(bridge_fan_speed, true);
|
||||
} else if (line->type & Adjustment::Line::TYPE_BRIDGE_FAN_END) {
|
||||
} else if (line->type & CoolingLine::TYPE_BRIDGE_FAN_END) {
|
||||
if (bridge_fan_control)
|
||||
new_gcode += m_gcodegen.writer().set_fan(fan_speed, true);
|
||||
} else if (line->type & Adjustment::Line::TYPE_EXTRUDE_END) {
|
||||
} else if (line->type & CoolingLine::TYPE_EXTRUDE_END) {
|
||||
// Just remove this comment.
|
||||
} else if (line->type & (Adjustment::Line::TYPE_ADJUSTABLE | Adjustment::Line::TYPE_EXTERNAL_PERIMETER | Adjustment::Line::TYPE_WIPE | Adjustment::Line::TYPE_HAS_F)) {
|
||||
} else if (line->type & (CoolingLine::TYPE_ADJUSTABLE | CoolingLine::TYPE_EXTERNAL_PERIMETER | CoolingLine::TYPE_WIPE | CoolingLine::TYPE_HAS_F)) {
|
||||
// Find the start of a comment, or roll to the end of line.
|
||||
const char *end = line_start;
|
||||
for (; end < line_end && *end != ';'; ++ end);
|
||||
@ -456,14 +589,14 @@ std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_
|
||||
assert(fpos != nullptr);
|
||||
if (line->slowdown) {
|
||||
modify = true;
|
||||
new_feedrate = int(floor(60. * (line->length / line->time) + 0.5));
|
||||
new_feedrate = int(floor(60. * line->feedrate + 0.5));
|
||||
} else {
|
||||
new_feedrate = atoi(fpos);
|
||||
if (new_feedrate != current_feedrate) {
|
||||
// Append the line without the comment.
|
||||
new_gcode.append(line_start, end - line_start);
|
||||
current_feedrate = new_feedrate;
|
||||
} else if ((line->type & (Adjustment::Line::TYPE_ADJUSTABLE | Adjustment::Line::TYPE_EXTERNAL_PERIMETER | Adjustment::Line::TYPE_WIPE)) || line->length == 0.) {
|
||||
} else if ((line->type & (CoolingLine::TYPE_ADJUSTABLE | CoolingLine::TYPE_EXTERNAL_PERIMETER | CoolingLine::TYPE_WIPE)) || line->length == 0.) {
|
||||
// Feedrate does not change and this line does not move the print head. Skip the complete G-code line including the G-code comment.
|
||||
end = line_end;
|
||||
} else {
|
||||
@ -497,13 +630,13 @@ std::string CoolingBuffer::process_layer(const std::string &gcode, size_t layer_
|
||||
}
|
||||
// Process the rest of the line.
|
||||
if (end < line_end) {
|
||||
if (line->type & (Adjustment::Line::TYPE_ADJUSTABLE | Adjustment::Line::TYPE_EXTERNAL_PERIMETER | Adjustment::Line::TYPE_WIPE)) {
|
||||
if (line->type & (CoolingLine::TYPE_ADJUSTABLE | CoolingLine::TYPE_EXTERNAL_PERIMETER | CoolingLine::TYPE_WIPE)) {
|
||||
// Process comments, remove ";_EXTRUDE_SET_SPEED", ";_EXTERNAL_PERIMETER", ";_WIPE"
|
||||
std::string comment(end, line_end);
|
||||
boost::replace_all(comment, ";_EXTRUDE_SET_SPEED", "");
|
||||
if (line->type & Adjustment::Line::TYPE_EXTERNAL_PERIMETER)
|
||||
if (line->type & CoolingLine::TYPE_EXTERNAL_PERIMETER)
|
||||
boost::replace_all(comment, ";_EXTERNAL_PERIMETER", "");
|
||||
if (line->type & Adjustment::Line::TYPE_WIPE)
|
||||
if (line->type & CoolingLine::TYPE_WIPE)
|
||||
boost::replace_all(comment, ";_WIPE", "");
|
||||
new_gcode += comment;
|
||||
} else {
|
||||
|
Loading…
Reference in New Issue
Block a user