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SPE-2151: Fix dynamic overhang speed doesn't respect pressure equalizer limits. Don't apply pressure equalizer after long travels.
This commit comes from https://github.com/prusa3d/PrusaSlicer/pull/9622 with just minor refactoring.
This commit is contained in:
MGunlogson
Lukas Matena
parent
122d876bca
commit
3e98afa71d
@ -6,6 +6,7 @@
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#include <memory.h>
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#include <cstring>
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#include <cfloat>
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#include <algorithm>
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#include "../libslic3r.h"
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#include "../PrintConfig.hpp"
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@ -32,6 +33,12 @@ static constexpr float max_segment_length = 5.f;
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// affect how distant will be propagated a flow rate adjustment.
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static constexpr int max_look_back_limit = 128;
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// Max non-extruding XY distance (travel move) in mm between two continuous extrusions where we pretend
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// it's all one continuous extrusion line. Above this distance, we assume extruder pressure hits 0
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// This exists because often there are tiny travel moves between stuff like infill.
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// Lines where some extruder pressure will remain (so we should equalize between these small travels).
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static constexpr double max_ignored_gap_between_extruding_segments = 3.;
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PressureEqualizer::PressureEqualizer(const Slic3r::GCodeConfig &config) : m_use_relative_e_distances(config.use_relative_e_distances.value)
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{
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// Preallocate some data, so that output_buffer.data() will return an empty string.
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@ -64,8 +71,8 @@ PressureEqualizer::PressureEqualizer(const Slic3r::GCodeConfig &config) : m_use_
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extrusion_rate_slope.positive = m_max_volumetric_extrusion_rate_slope_positive;
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}
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// Don't regulate the pressure before and after gap-fill and ironing.
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for (const GCodeExtrusionRole er : {GCodeExtrusionRole::GapFill, GCodeExtrusionRole::Ironing}) {
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// Don't regulate the pressure before and after ironing.
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for (const GCodeExtrusionRole er : {GCodeExtrusionRole::Ironing}) {
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m_max_volumetric_extrusion_rate_slopes[size_t(er)].negative = 0;
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m_max_volumetric_extrusion_rate_slopes[size_t(er)].positive = 0;
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}
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@ -102,6 +109,73 @@ void PressureEqualizer::process_layer(const std::string &gcode)
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}
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assert(!this->opened_extrude_set_speed_block);
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}
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// At this point, we have an entire layer of gcode lines loaded into m_gcode_lines.
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// Now, we will split the mix of travels and extrusions into segments of continuous extrusions and process them.
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// We skip over large travels, and pretend that small ones are part of a continuous extrusion segment.
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for (auto current_extrusion_end_it = m_gcode_lines.cbegin(); current_extrusion_end_it != m_gcode_lines.cend();) {
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// Find beginning of next extrusion segment from current position.
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const auto current_extrusion_begin_it = std::find_if(current_extrusion_end_it, m_gcode_lines.cend(), [](const GCodeLine &line) {
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return line.extruding();
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});
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// We start with extrusion length of zero.
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current_extrusion_end_it = current_extrusion_begin_it;
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// Inner loop extends the extrusion segment over small travel moves.
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while (current_extrusion_end_it != m_gcode_lines.cend()) {
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// Find the end of the current extrusion segment.
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const auto travel_begin_it = std::find_if(std::next(current_extrusion_end_it), m_gcode_lines.cend(), [](const GCodeLine &line) {
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return !line.extruding();
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});
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current_extrusion_end_it = std::prev(travel_begin_it);
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const auto next_extrusion_segment_it = advance_segment_beyond_small_gap(current_extrusion_end_it);
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if (std::distance(current_extrusion_end_it, next_extrusion_segment_it) > 0) {
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// Extend the continuous line over the small gap.
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current_extrusion_end_it = next_extrusion_segment_it;
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continue; // Keep going, loop again to find the new end of extrusion segment.
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} else {
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break; // Gap to next extrude is too big, stop looking forward. We've found the end of this segment.
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}
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}
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// Now, run the pressure equalizer across the segment like a streamroller.
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// It operates on a sliding window that moves forward across gcode line by line.
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const std::ptrdiff_t current_extrusion_begin_idx = std::distance(m_gcode_lines.cbegin(), current_extrusion_begin_it);
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for (auto current_line_it = current_extrusion_begin_it; current_line_it != current_extrusion_end_it; ++current_line_it) {
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const std::ptrdiff_t current_line_idx = std::distance(m_gcode_lines.cbegin(), current_line_it);
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// Feed pressure equalizer past lines, going back to max_look_back_limit (or start of segment).
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const size_t start_idx = size_t(std::max<std::ptrdiff_t>(current_extrusion_begin_idx, current_line_idx - max_look_back_limit));
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adjust_volumetric_rate(start_idx, size_t(current_line_idx));
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}
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// Current extrusion is all done processing so advance beyond it for the next loop.
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if (current_extrusion_end_it != m_gcode_lines.cend())
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++current_extrusion_end_it;
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}
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}
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PressureEqualizer::GCodeLinesConstIt PressureEqualizer::advance_segment_beyond_small_gap(const GCodeLinesConstIt &last_extruding_line_it) const {
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// This should only be run on the last extruding line before a gap.
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assert(last_extruding_line_it != m_gcode_lines.cend() && last_extruding_line_it->extruding());
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double travel_distance = 0.;
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// Start at the beginning of a gap, advance till extrusion found or gap too big.
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for (auto current_line_it = std::next(last_extruding_line_it); current_line_it != m_gcode_lines.cend(); ++current_line_it) {
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// Started extruding again! Return segment extension.
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if (current_line_it->extruding())
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return current_line_it;
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travel_distance += current_line_it->dist_xy();
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// Gap too big, don't extend segment.
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if (travel_distance > max_ignored_gap_between_extruding_segments)
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return last_extruding_line_it;
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}
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// Looped until the end of the layer and couldn't extend extrusion.
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return last_extruding_line_it;
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}
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LayerResult PressureEqualizer::process_layer(LayerResult &&input)
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@ -395,8 +469,6 @@ bool PressureEqualizer::process_line(const char *line, const char *line_end, GCo
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buf.extruder_id = m_current_extruder;
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memcpy(buf.pos_end, m_current_pos, sizeof(float)*5);
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adjust_volumetric_rate();
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#ifdef PRESSURE_EQUALIZER_DEBUG
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++line_idx;
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#endif
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@ -511,16 +583,14 @@ void PressureEqualizer::output_gcode_line(const size_t line_idx)
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}
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}
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void PressureEqualizer::adjust_volumetric_rate()
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void PressureEqualizer::adjust_volumetric_rate(const size_t first_line_idx, const size_t last_line_idx)
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{
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if (m_gcode_lines.size() < 2)
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// Don't bother adjusting volumetric rate if there's no gcode to adjust.
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if (last_line_idx <= first_line_idx || last_line_idx - first_line_idx < 2)
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return;
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// Go back from the current circular_buffer_pos and lower the feedtrate to decrease the slope of the extrusion rate changes.
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size_t fist_line_idx = size_t(std::max<int>(0, int(m_gcode_lines.size()) - max_look_back_limit));
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const size_t last_line_idx = m_gcode_lines.size() - 1;
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size_t line_idx = last_line_idx;
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if (line_idx == fist_line_idx || !m_gcode_lines[line_idx].extruding())
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if (line_idx == first_line_idx || !m_gcode_lines[line_idx].extruding())
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// Nothing to do, the last move is not extruding.
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return;
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@ -528,13 +598,13 @@ void PressureEqualizer::adjust_volumetric_rate()
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feedrate_per_extrusion_role.fill(std::numeric_limits<float>::max());
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feedrate_per_extrusion_role[int(m_gcode_lines[line_idx].extrusion_role)] = m_gcode_lines[line_idx].volumetric_extrusion_rate_start;
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while (line_idx != fist_line_idx) {
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while (line_idx != first_line_idx) {
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size_t idx_prev = line_idx - 1;
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for (; !m_gcode_lines[idx_prev].extruding() && idx_prev != fist_line_idx; --idx_prev);
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for (; !m_gcode_lines[idx_prev].extruding() && idx_prev != first_line_idx; --idx_prev);
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if (!m_gcode_lines[idx_prev].extruding())
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break;
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// Don't decelerate before ironing and gap-fill.
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if (m_gcode_lines[line_idx].extrusion_role == GCodeExtrusionRole::Ironing || m_gcode_lines[line_idx].extrusion_role == GCodeExtrusionRole::GapFill) {
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// Don't decelerate before ironing.
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if (m_gcode_lines[line_idx].extrusion_role == GCodeExtrusionRole::Ironing) {
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line_idx = idx_prev;
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continue;
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}
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@ -554,7 +624,8 @@ void PressureEqualizer::adjust_volumetric_rate()
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// Limit by the succeeding volumetric flow rate.
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rate_end = rate_succ;
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if (!line.adjustable_flow || line.extrusion_role == GCodeExtrusionRole::ExternalPerimeter || line.extrusion_role == GCodeExtrusionRole::GapFill || line.extrusion_role == GCodeExtrusionRole::BridgeInfill || line.extrusion_role == GCodeExtrusionRole::Ironing) {
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// Don't alter the flow rate for these extrusion types.
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if (!line.adjustable_flow || line.extrusion_role == GCodeExtrusionRole::BridgeInfill || line.extrusion_role == GCodeExtrusionRole::Ironing) {
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rate_end = line.volumetric_extrusion_rate_end;
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} else if (line.volumetric_extrusion_rate_end > rate_end) {
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line.volumetric_extrusion_rate_end = rate_end;
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@ -576,9 +647,9 @@ void PressureEqualizer::adjust_volumetric_rate()
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line.modified = true;
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}
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}
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// feedrate_per_extrusion_role[iRole] = (iRole == line.extrusion_role) ? line.volumetric_extrusion_rate_start : rate_start;
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// Don't store feed rate for ironing and gap-fill.
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if (line.extrusion_role != GCodeExtrusionRole::Ironing && line.extrusion_role != GCodeExtrusionRole::GapFill)
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// Don't store feed rate for ironing.
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if (line.extrusion_role != GCodeExtrusionRole::Ironing)
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feedrate_per_extrusion_role[iRole] = line.volumetric_extrusion_rate_start;
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}
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}
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@ -592,8 +663,8 @@ void PressureEqualizer::adjust_volumetric_rate()
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for (; !m_gcode_lines[idx_next].extruding() && idx_next != last_line_idx; ++idx_next);
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if (!m_gcode_lines[idx_next].extruding())
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break;
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// Don't accelerate after ironing and gap-fill.
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if (m_gcode_lines[line_idx].extrusion_role == GCodeExtrusionRole::Ironing || m_gcode_lines[line_idx].extrusion_role == GCodeExtrusionRole::GapFill) {
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// Don't accelerate after ironing.
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if (m_gcode_lines[line_idx].extrusion_role == GCodeExtrusionRole::Ironing) {
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line_idx = idx_next;
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continue;
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}
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@ -608,7 +679,8 @@ void PressureEqualizer::adjust_volumetric_rate()
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continue; // The positive rate is unlimited or the rate for GCodeExtrusionRole iRole is unlimited.
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float rate_start = feedrate_per_extrusion_role[iRole];
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if (!line.adjustable_flow || line.extrusion_role == GCodeExtrusionRole::ExternalPerimeter || line.extrusion_role == GCodeExtrusionRole::GapFill || line.extrusion_role == GCodeExtrusionRole::BridgeInfill || line.extrusion_role == GCodeExtrusionRole::Ironing) {
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// Don't alter the flow rate for these extrusion types.
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if (!line.adjustable_flow || line.extrusion_role == GCodeExtrusionRole::BridgeInfill || line.extrusion_role == GCodeExtrusionRole::Ironing) {
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rate_start = line.volumetric_extrusion_rate_start;
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} else if (iRole == size_t(line.extrusion_role) && rate_prec < rate_start)
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rate_start = rate_prec;
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@ -632,9 +704,9 @@ void PressureEqualizer::adjust_volumetric_rate()
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line.modified = true;
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}
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}
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// feedrate_per_extrusion_role[iRole] = (iRole == line.extrusion_role) ? line.volumetric_extrusion_rate_end : rate_end;
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// Don't store feed rate for ironing and gap-fill.
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if (line.extrusion_role != GCodeExtrusionRole::Ironing && line.extrusion_role != GCodeExtrusionRole::GapFill)
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// Don't store feed rate for ironing
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if (line.extrusion_role != GCodeExtrusionRole::Ironing)
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feedrate_per_extrusion_role[iRole] = line.volumetric_extrusion_rate_end;
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}
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}
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@ -174,6 +174,9 @@ private:
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bool extrude_end_tag = false;
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};
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using GCodeLines = std::vector<GCodeLine>;
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using GCodeLinesConstIt = GCodeLines::const_iterator;
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// Output buffer will only grow. It will not be reallocated over and over.
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std::vector<char> output_buffer;
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size_t output_buffer_length;
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@ -187,9 +190,11 @@ private:
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bool process_line(const char *line, const char *line_end, GCodeLine &buf);
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void output_gcode_line(size_t line_idx);
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GCodeLinesConstIt advance_segment_beyond_small_gap(const GCodeLinesConstIt &last_extruding_line_it) const;
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// Go back from the current circular_buffer_pos and lower the feedtrate to decrease the slope of the extrusion rate changes.
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// Then go forward and adjust the feedrate to decrease the slope of the extrusion rate changes.
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void adjust_volumetric_rate();
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void adjust_volumetric_rate(size_t first_line_idx, size_t last_line_idx);
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// Push the text to the end of the output_buffer.
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inline void push_to_output(GCodeG1Formatter &formatter);
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