#include "GCodeWriter.hpp" #include "CustomGCode.hpp" #include #include #include #include #include #ifdef __APPLE__ #include #endif #define FLAVOR_IS(val) this->config.gcode_flavor == val #define FLAVOR_IS_NOT(val) this->config.gcode_flavor != val namespace Slic3r { const bool GCodeWriter::full_gcode_comment = false; const double GCodeWriter::slope_threshold = 3 * PI / 180; void GCodeWriter::apply_print_config(const PrintConfig &print_config) { this->config.apply(print_config, true); m_single_extruder_multi_material = print_config.single_extruder_multi_material.value; bool is_marlin = print_config.gcode_flavor.value == gcfMarlinLegacy || print_config.gcode_flavor.value == gcfMarlinFirmware || print_config.gcode_flavor.value == gcfKlipper; m_max_acceleration = std::lrint(is_marlin ? print_config.machine_max_acceleration_extruding.values.front() : 0); m_max_jerk = std::lrint(is_marlin ? std::min(print_config.machine_max_jerk_x.values.front(), print_config.machine_max_jerk_y.values.front()) : 0); } void GCodeWriter::set_extruders(std::vector extruder_ids) { std::sort(extruder_ids.begin(), extruder_ids.end()); m_extruders.clear(); m_extruders.reserve(extruder_ids.size()); for (unsigned int extruder_id : extruder_ids) m_extruders.emplace_back(Extruder(extruder_id, &this->config, config.single_extruder_multi_material.value)); /* we enable support for multiple extruder if any extruder greater than 0 is used (even if prints only uses that one) since we need to output Tx commands first extruder has index 0 */ this->multiple_extruders = (*std::max_element(extruder_ids.begin(), extruder_ids.end())) > 0; } std::string GCodeWriter::preamble() { std::ostringstream gcode; if (FLAVOR_IS_NOT(gcfMakerWare)) { gcode << "G90\n"; gcode << "G21\n"; } if (FLAVOR_IS(gcfRepRapSprinter) || FLAVOR_IS(gcfRepRapFirmware) || FLAVOR_IS(gcfMarlinLegacy) || FLAVOR_IS(gcfMarlinFirmware) || FLAVOR_IS(gcfTeacup) || FLAVOR_IS(gcfRepetier) || FLAVOR_IS(gcfSmoothie) || FLAVOR_IS(gcfKlipper)) { if (this->config.use_relative_e_distances) { gcode << "M83 ; use relative distances for extrusion\n"; } else { gcode << "M82 ; use absolute distances for extrusion\n"; } gcode << this->reset_e(true); } return gcode.str(); } std::string GCodeWriter::postamble() const { std::ostringstream gcode; if (FLAVOR_IS(gcfMachinekit)) gcode << "M2 ; end of program\n"; return gcode.str(); } std::string GCodeWriter::set_temperature(unsigned int temperature, bool wait, int tool) const { if (wait && (FLAVOR_IS(gcfMakerWare) || FLAVOR_IS(gcfSailfish))) return ""; std::string code, comment; if (wait && FLAVOR_IS_NOT(gcfTeacup) && FLAVOR_IS_NOT(gcfRepRapFirmware)) { code = "M109"; comment = "set nozzle temperature and wait for it to be reached"; } else { if (FLAVOR_IS(gcfRepRapFirmware)) { // M104 is deprecated on RepRapFirmware code = "G10"; } else { code = "M104"; } comment = "set nozzle temperature"; } std::ostringstream gcode; gcode << code << " "; if (FLAVOR_IS(gcfMach3) || FLAVOR_IS(gcfMachinekit)) { gcode << "P"; } else { gcode << "S"; } gcode << temperature; bool multiple_tools = this->multiple_extruders && ! m_single_extruder_multi_material; if (tool != -1 && (multiple_tools || FLAVOR_IS(gcfMakerWare) || FLAVOR_IS(gcfSailfish)) ) { if (FLAVOR_IS(gcfRepRapFirmware)) { gcode << " P" << tool; } else { gcode << " T" << tool; } } gcode << " ; " << comment << "\n"; if ((FLAVOR_IS(gcfTeacup) || FLAVOR_IS(gcfRepRapFirmware)) && wait) gcode << "M116 ; wait for temperature to be reached\n"; return gcode.str(); } // BBS std::string GCodeWriter::set_bed_temperature(int temperature, bool wait) { if (temperature == m_last_bed_temperature && (! wait || m_last_bed_temperature_reached)) return std::string(); m_last_bed_temperature = temperature; m_last_bed_temperature_reached = wait; std::string code, comment; std::ostringstream gcode; if (wait) { code = "M190"; comment = "set bed temperature and wait for it to be reached"; } else { code = "M140"; comment = "set bed temperature"; } gcode << code << " S" << temperature << " ; " << comment << "\n"; return gcode.str(); } std::string GCodeWriter::set_chamber_temperature(int temperature, bool wait) { std::string code, comment; std::ostringstream gcode; if (wait) { gcode<<"M106 P2 S255 \n"; gcode<<"M191 S"< 0 && acceleration > m_max_acceleration) acceleration = m_max_acceleration; if (acceleration == 0 || acceleration == m_last_acceleration) return std::string(); m_last_acceleration = acceleration; std::ostringstream gcode; if (FLAVOR_IS(gcfRepetier)) { // M201: Set max printing acceleration gcode << "M201 X" << acceleration << " Y" << acceleration; //BBS if (GCodeWriter::full_gcode_comment) gcode << " ; adjust acceleration"; gcode << "\n"; // M202: Set max travel acceleration gcode << "M202 X" << acceleration << " Y" << acceleration; } else if (FLAVOR_IS(gcfRepRapFirmware)) { // M204: Set default acceleration gcode << "M204 P" << acceleration; } else if (FLAVOR_IS(gcfMarlinFirmware)) { // This is new MarlinFirmware with separated print/retraction/travel acceleration. // Use M204 P, we don't want to override travel acc by M204 S (which is deprecated anyway). gcode << "M204 P" << acceleration; } else if (FLAVOR_IS(gcfKlipper) && this->config.accel_to_decel_enable) { gcode << "SET_VELOCITY_LIMIT ACCEL_TO_DECEL=" << acceleration * this->config.accel_to_decel_factor / 100; if (GCodeWriter::full_gcode_comment) gcode << " ; adjust ACCEL_TO_DECEL"; gcode << "\nM204 S" << acceleration; // Set max accel to decel to half of acceleration } else { // M204: Set default acceleration gcode << "M204 S" << acceleration; } //BBS if (GCodeWriter::full_gcode_comment) gcode << " ; adjust acceleration"; gcode << "\n"; return gcode.str(); } std::string GCodeWriter::set_pressure_advance(double pa) const { std::ostringstream gcode; if (pa < 0) return gcode.str(); if (false) { // todo: bbl printer // OrcaSlicer: set L1000 to use linear model gcode << "M400\n M900 K" << std::setprecision(4) << pa << " L1000 M10 ; Override pressure advance value\n"; } else { if (this->config.gcode_flavor == gcfKlipper) gcode << "SET_PRESSURE_ADVANCE ADVANCE=" << std::setprecision(4) << pa << "; Override pressure advance value\n"; else if (this->config.gcode_flavor == gcfRepRapFirmware) gcode << ("M572 D0 S") << std::setprecision(4) << pa << "; Override pressure advance value\n"; else gcode << "M400\n M900 K" << std::setprecision(4) << pa << "; Override pressure advance value\n"; } return gcode.str(); } std::string GCodeWriter::set_jerk_xy(double jerk) { // Clamp the jerk to the allowed maximum. if (m_max_jerk > 0 && jerk > m_max_jerk) jerk = m_max_jerk; if (jerk < 0.01 || is_approx(jerk, m_last_jerk)) return std::string(); m_last_jerk = jerk; std::ostringstream gcode; if (FLAVOR_IS(gcfKlipper)) gcode << "SET_VELOCITY_LIMIT SQUARE_CORNER_VELOCITY=" << jerk; else gcode << "M205 X" << jerk << " Y" << jerk; if (GCodeWriter::full_gcode_comment) gcode << " ; adjust jerk"; gcode << "\n"; return gcode.str(); } std::string GCodeWriter::reset_e(bool force) { if (FLAVOR_IS(gcfMach3) || FLAVOR_IS(gcfMakerWare) || FLAVOR_IS(gcfSailfish)) return ""; if (m_extruder != nullptr) { if (m_extruder->E() == 0. && ! force) return ""; m_extruder->reset_E(); } if (!this->config.use_relative_e_distances) { std::ostringstream gcode; gcode << "G92 E0"; //BBS if (GCodeWriter::full_gcode_comment) gcode << " ; reset extrusion distance"; gcode << "\n"; return gcode.str(); } else { return ""; } } std::string GCodeWriter::update_progress(unsigned int num, unsigned int tot, bool allow_100) const { if (FLAVOR_IS_NOT(gcfMakerWare) && FLAVOR_IS_NOT(gcfSailfish)) return ""; unsigned int percent = (unsigned int)floor(100.0 * num / tot + 0.5); if (!allow_100) percent = std::min(percent, (unsigned int)99); std::ostringstream gcode; gcode << "M73 P" << percent; //BBS if (GCodeWriter::full_gcode_comment) gcode << " ; update progress"; gcode << "\n"; return gcode.str(); } std::string GCodeWriter::toolchange_prefix() const { return FLAVOR_IS(gcfMakerWare) ? "M135 T" : FLAVOR_IS(gcfSailfish) ? "M108 T" : "T"; } std::string GCodeWriter::toolchange(unsigned int extruder_id) { // set the new extruder auto it_extruder = Slic3r::lower_bound_by_predicate(m_extruders.begin(), m_extruders.end(), [extruder_id](const Extruder &e) { return e.id() < extruder_id; }); assert(it_extruder != m_extruders.end() && it_extruder->id() == extruder_id); m_extruder = &*it_extruder; // return the toolchange command // if we are running a single-extruder setup, just set the extruder and return nothing std::ostringstream gcode; if (this->multiple_extruders) { gcode << this->toolchange_prefix() << extruder_id; //BBS if (GCodeWriter::full_gcode_comment) gcode << " ; change extruder"; gcode << "\n"; gcode << this->reset_e(true); } return gcode.str(); } std::string GCodeWriter::set_speed(double F, const std::string &comment, const std::string &cooling_marker) const { assert(F > 0.); assert(F < 100000.); GCodeG1Formatter w; w.emit_f(F); //BBS w.emit_comment(GCodeWriter::full_gcode_comment, comment); w.emit_string(cooling_marker); return w.string(); } std::string GCodeWriter::travel_to_xy(const Vec2d &point, const std::string &comment) { m_pos(0) = point(0); m_pos(1) = point(1); this->set_current_position_clear(true); //BBS: take plate offset into consider Vec2d point_on_plate = { point(0) - m_x_offset, point(1) - m_y_offset }; GCodeG1Formatter w; w.emit_xy(point_on_plate); w.emit_f(this->config.travel_speed.value * 60.0); //BBS w.emit_comment(GCodeWriter::full_gcode_comment, comment); return w.string(); } std::string GCodeWriter::travel_to_xy_test(const Vec2d& point, const std::string& comment) { m_pos(0) = point(0); m_pos(1) = point(1); this->set_current_position_clear(true); //BBS: take plate offset into consider Vec2d point_on_plate = { point(0) - m_x_offset, point(1) - m_y_offset }; GCodeG1Formatter w; w.emit_xy(point_on_plate); w.emit_f(this->config.travel_speed.value * 60.0); //double dE = 3.6919824438491271030063717038767; auto dE = m_extruder->E(); if (dE > 0) { w.emit_e(dE); } //BBS w.emit_comment(GCodeWriter::full_gcode_comment, comment); return w.string(); } std::string GCodeWriter::travel_to_xyz(const Vec3d &point, const std::string &comment) { // FIXME: This function was not being used when travel_speed_z was separated (bd6badf). // Calculation of feedrate was not updated accordingly. If you want to use // this function, fix it first. //std::terminate(); /* If target Z is lower than current Z but higher than nominal Z we don't perform the Z move but we only move in the XY plane and adjust the nominal Z by reducing the lift amount that will be used for unlift. */ // BBS /*如果目标Z低于当前Z但高于标称Z，我们不会执行Z移动，而只会在XY平面内移动，并通过减少用于未点火的升程量来调整标称Z*/ Vec3d dest_point = point; //BBS: a z_hop need to be handle when travel if (std::abs(m_to_lift) > EPSILON) { assert(std::abs(m_lifted) < EPSILON); //BBS: don't need to do real lift if the current position is absolutely same with target. //This ususally happens when the last extrusion line is short and the end of wipe position //is same with the traget point by chance. //BBS：如果当前位置与目标完全相同，则不需要进行真正的提升。 //这通常发生在最后一条挤出线较短，擦拭位置的末端偶然与托盘点相同的情况下。 if ((!this->is_current_position_clear() || m_pos != dest_point) && m_to_lift + m_pos(2) > point(2)) { m_lifted = m_to_lift + m_pos(2) - point(2); dest_point(2) = m_to_lift + m_pos(2); } m_to_lift = 0.; std::string slop_move; //BBS: minus plate offset //BBS：负板偏移 Vec3d source = { m_pos(0) - m_x_offset, m_pos(1) - m_y_offset, m_pos(2) }; Vec3d target = { dest_point(0) - m_x_offset, dest_point(1) - m_y_offset, dest_point(2) }; Vec3d delta = target - source; Vec2d delta_no_z = { delta(0), delta(1) }; //BBS: don'need slope travel because we don't know where is the source position the first time //BBS: Also don't need to do slope move or spiral lift if x-y distance is absolute zero //BBS：不需要斜坡旅行，因为我们第一次不知道震源位置在哪里 //BBS：如果x-y距离为绝对零，也不需要进行斜坡移动或螺旋升降 if (delta(2) > 0 && delta_no_z.norm() != 0.0f) { //BBS: SpiralLift if (m_to_lift_type == LiftType::SpiralLift && this->is_current_position_clear()) { //BBS: todo: check the arc move all in bed area, if not, then use lazy lift //BBS:todo：检查床区的弧形移动，如果没有，则使用LazyLift double radius = delta(2) / (2 * PI * atan(GCodeWriter::slope_threshold)); Vec2d ij_offset = radius * delta_no_z.normalized(); ij_offset = { -ij_offset(1), ij_offset(0) }; slop_move = this->_spiral_travel_to_z(target(2), ij_offset, "spiral lift Z"); } //BBS: LazyLift else if (m_to_lift_type == LiftType::LazyLift && this->is_current_position_clear() && atan2(delta(2), delta_no_z.norm()) < GCodeWriter::slope_threshold) { //BBS: check whether we can make a travel like // _____ // / to make the z list early to avoid to hit some warping place when travel is long. Vec2d temp = delta_no_z.normalized() * delta(2) / tan(GCodeWriter::slope_threshold); Vec3d slope_top_point = Vec3d(temp(0), temp(1), delta(2)) + source; GCodeG1Formatter w0; w0.emit_xyz(slope_top_point); w0.emit_f(this->config.travel_speed.value * 60.0); //BBS w0.emit_comment(GCodeWriter::full_gcode_comment, "slope lift Z"); slop_move = w0.string(); } else if (m_to_lift_type == LiftType::NormalLift) { slop_move = _travel_to_z(target.z(), "normal lift Z"); //slop_move = _travel_to_z_test(target.z(), "normal lift Z"); } } std::string xy_z_move; { GCodeG1Formatter w0; if (this->is_current_position_clear()) { w0.emit_xyz(target); /* //auto dE = m_extruder->E(); auto dE = 1; if (dE > 0) { w0.emit_e(dE); }*/ w0.emit_f(this->config.travel_speed.value * 60.0); w0.emit_comment(GCodeWriter::full_gcode_comment, comment); xy_z_move = w0.string(); } else { w0.emit_xy(Vec2d(target.x(), target.y())); w0.emit_f(this->config.travel_speed.value * 60.0); w0.emit_comment(GCodeWriter::full_gcode_comment, comment); xy_z_move = w0.string() + _travel_to_z(target.z(), comment); } } m_pos = dest_point; this->set_current_position_clear(true); return slop_move + xy_z_move; } else if (!this->will_move_z(point(2))) { double nominal_z = m_pos(2) - m_lifted; m_lifted -= (point(2) - nominal_z); // In case that z_hop == layer_height we could end up with almost zero in_m_lifted // and a retract could be skipped //如果z_hop==layer_height，我们最终可能会得到几乎为零的In_m_leed，并且可以跳过收回操作 if (std::abs(m_lifted) < EPSILON) m_lifted = 0.; //BBS this->set_current_position_clear(true); return this->travel_to_xy(to_2d(point)); //return this->travel_to_xy_test(to_2d(point)); } else { /* In all the other cases, we perform an actual XYZ move and cancel the lift. */ /*在所有其他情况下，我们执行实际的XYZ移动并取消提升*/ m_lifted = 0; } //BBS: take plate offset into consider //BBS：考虑板材偏移 Vec3d point_on_plate = { dest_point(0) - m_x_offset, dest_point(1) - m_y_offset, dest_point(2) }; std::string out_string; GCodeG1Formatter w; if (!this->is_current_position_clear()) { //force to move xy first then z after filament change w.emit_xy(Vec2d(point_on_plate.x(), point_on_plate.y())); w.emit_f(this->config.travel_speed.value * 60.0); w.emit_comment(GCodeWriter::full_gcode_comment, comment); out_string = w.string() + _travel_to_z(point_on_plate.z(), comment); } else { GCodeG1Formatter w; w.emit_xyz(point_on_plate); w.emit_f(this->config.travel_speed.value * 60.0); w.emit_comment(GCodeWriter::full_gcode_comment, comment); out_string = w.string(); } m_pos = dest_point; this->set_current_position_clear(true); return out_string; } std::string GCodeWriter::travel_to_z(double z, const std::string &comment) { /* If target Z is lower than current Z but higher than nominal Z we don't perform the move but we only adjust the nominal Z by reducing the lift amount that will be used for unlift. */ if (!this->will_move_z(z)) { double nominal_z = m_pos(2) - m_lifted; m_lifted -= (z - nominal_z); if (std::abs(m_lifted) < EPSILON) m_lifted = 0.; return ""; } /* In all the other cases, we perform an actual Z move and cancel the lift. */ m_lifted = 0; return this->_travel_to_z(z, comment); } std::string GCodeWriter::_travel_to_z(double z, const std::string &comment) { m_pos(2) = z; double speed = this->config.travel_speed_z.value; if (speed == 0.) speed = this->config.travel_speed.value; GCodeG1Formatter w; w.emit_z(z); w.emit_f(speed * 60.0); //BBS w.emit_comment(GCodeWriter::full_gcode_comment, comment); return w.string(); } std::string GCodeWriter::_travel_to_z_test(double z, const std::string& comment) { m_pos(2) = z; double speed = this->config.travel_speed_z.value; if (speed == 0.) speed = this->config.travel_speed.value; GCodeG1Formatter w; w.emit_z(z); w.emit_f(speed * 60.0); //auto dE = m_extruder->E(); auto dE = 1; if (dE > 0) { w.emit_e(dE); } //BBS w.emit_comment(GCodeWriter::full_gcode_comment, comment); return w.string(); } std::string GCodeWriter::_spiral_travel_to_z(double z, const Vec2d &ij_offset, const std::string &comment) { m_pos(2) = z; double speed = this->config.travel_speed_z.value; if (speed == 0.) speed = this->config.travel_speed.value; std::string output = "G17\n"; GCodeG2G3Formatter w(true); w.emit_z(z); w.emit_ij(ij_offset); w.emit_string(" P1 "); w.emit_f(speed * 60.0); w.emit_comment(GCodeWriter::full_gcode_comment, comment); return output + w.string(); } bool GCodeWriter::will_move_z(double z) const { /* If target Z is lower than current Z but higher than nominal Z we don't perform an actual Z move. */ if (m_lifted > 0) { double nominal_z = m_pos(2) - m_lifted; if (z >= nominal_z && z <= m_pos(2)) return false; } // BBS. // Dont move z if it is the same as target z else if (std::abs(m_pos(2) - z) < EPSILON) { return false; } return true; } std::string GCodeWriter::extrude_to_xy(const Vec2d &point, double dE, const std::string &comment, bool force_no_extrusion) { m_pos(0) = point(0); m_pos(1) = point(1); if (!force_no_extrusion) m_extruder->extrude(dE); //BBS: take plate offset into consider Vec2d point_on_plate = { point(0) - m_x_offset, point(1) - m_y_offset }; GCodeG1Formatter w; w.emit_xy(point_on_plate); if (!force_no_extrusion) w.emit_e(m_extruder->E()); //BBS w.emit_comment(GCodeWriter::full_gcode_comment, comment); return w.string(); } //BBS: generate G2 or G3 extrude which moves by arc //point is end point which means X and Y axis //center_offset is I and J axis std::string GCodeWriter::extrude_arc_to_xy(const Vec2d& point, const Vec2d& center_offset, double dE, const bool is_ccw, const std::string& comment, bool force_no_extrusion) { m_pos(0) = point(0); m_pos(1) = point(1); if (!force_no_extrusion) m_extruder->extrude(dE); Vec2d point_on_plate = { point(0) - m_x_offset, point(1) - m_y_offset }; GCodeG2G3Formatter w(is_ccw); w.emit_xy(point_on_plate); w.emit_ij(center_offset); if (!force_no_extrusion) w.emit_e(m_extruder->E()); //BBS w.emit_comment(GCodeWriter::full_gcode_comment, comment); return w.string(); } std::string GCodeWriter::extrude_to_xyz(const Vec3d &point, double dE, const std::string &comment, bool force_no_extrusion) { m_pos = point; m_lifted = 0; if (!force_no_extrusion) m_extruder->extrude(dE); //BBS: take plate offset into consider Vec3d point_on_plate = { point(0) - m_x_offset, point(1) - m_y_offset, point(2) }; GCodeG1Formatter w; w.emit_xyz(point_on_plate); if (!force_no_extrusion) w.emit_e(m_extruder->E()); //BBS w.emit_comment(GCodeWriter::full_gcode_comment, comment); return w.string(); } std::string GCodeWriter::retract(bool before_wipe) { double factor = before_wipe ? m_extruder->retract_before_wipe() : 1.; assert(factor >= 0. && factor <= 1. + EPSILON); return this->_retract( factor * m_extruder->retraction_length(), factor * m_extruder->retract_restart_extra(), "retract" ); } std::string GCodeWriter::retract_for_toolchange(bool before_wipe) { double factor = before_wipe ? m_extruder->retract_before_wipe() : 1.; assert(factor >= 0. && factor <= 1. + EPSILON); return this->_retract( factor * m_extruder->retract_length_toolchange(), factor * m_extruder->retract_restart_extra_toolchange(), "retract for toolchange" ); } std::string GCodeWriter::_retract(double length, double restart_extra, const std::string &comment) { std::string gcode; if (config.use_firmware_retraction) length = 1; if (double dE = m_extruder->retract(length, restart_extra); dE != 0) { //add firmware retraction if (config.use_firmware_retraction) { gcode = FLAVOR_IS(gcfMachinekit) ? "G22 ;retract" : "G10 ;retract \n"; } else { //BBS GCodeG1Formatter w; w.emit_e(m_extruder->E()); w.emit_f(m_extruder->retract_speed() * 60.); //BBS w.emit_comment(GCodeWriter::full_gcode_comment, comment); gcode = w.string(); } } if (FLAVOR_IS(gcfMakerWare)) gcode += "M103 ; extruder off\n"; return gcode; } std::string GCodeWriter::unretract() { std::string gcode; if (FLAVOR_IS(gcfMakerWare)) gcode = "M101 ; extruder on\n"; if (double dE = m_extruder->unretract(); dE != 0) { if (config.use_firmware_retraction) { gcode += FLAVOR_IS(gcfMachinekit) ? "G23 ;unretract \n" : "G11 ;unretract \n"; gcode += reset_e(); } else { //BBS // use G1 instead of G0 because G0 will blend the restart with the previous travel move GCodeG1Formatter w; w.emit_e(m_extruder->E()); w.emit_f(m_extruder->deretract_speed() * 60.); //BBS w.emit_comment(GCodeWriter::full_gcode_comment, " ; unretract"); gcode += w.string(); } } return gcode; } /* If this method is called more than once before calling unlift(), it will not perform subsequent lifts, even if Z was raised manually (i.e. with travel_to_z()) and thus _lifted was reduced. */ std::string GCodeWriter::lift(LiftType lift_type, bool spiral_vase) { // check whether the above/below conditions are met double target_lift = 0; { //BBS double above = this->config.retract_lift_above.get_at(m_extruder->id()); double below = this->config.retract_lift_below.get_at(m_extruder->id()); if (m_pos.z() >= above && m_pos.z() <= below) target_lift = this->config.z_hop.get_at(m_extruder->id()); } // BBS if (m_lifted == 0 && m_to_lift == 0 && target_lift > 0) { if (spiral_vase) { m_lifted = target_lift; return this->_travel_to_z(m_pos(2) + target_lift, "lift Z"); } else { m_to_lift = target_lift; m_to_lift_type = lift_type; } } return ""; } std::string GCodeWriter::unlift() { std::string gcode; if (m_lifted > 0) { gcode += this->_travel_to_z(m_pos(2) - m_lifted, "restore layer Z"); m_lifted = 0; } m_to_lift = 0.; return gcode; } std::string GCodeWriter::set_fan(const GCodeFlavor gcode_flavor, unsigned int speed) { std::ostringstream gcode; if (speed == 0) { switch (gcode_flavor) { case gcfTeacup: gcode << "M106 S0"; break; case gcfMakerWare: case gcfSailfish: gcode << "M127"; break; default: gcode << "M106 S0"; break; } if (GCodeWriter::full_gcode_comment) gcode << " ; disable fan"; gcode << "\n"; } else { switch (gcode_flavor) { case gcfMakerWare: case gcfSailfish: gcode << "M126"; break; case gcfMach3: case gcfMachinekit: gcode << "M106 P" << 255.0 * speed / 100.0; break; default: gcode << "M106 S" << 255.0 * speed / 100.0; break; } if (GCodeWriter::full_gcode_comment) gcode << " ; enable fan"; gcode << "\n"; } return gcode.str(); } std::string GCodeWriter::set_fan(unsigned int speed) const { //BBS return GCodeWriter::set_fan(this->config.gcode_flavor, speed); } //BBS: set additional fan speed for BBS machine only std::string GCodeWriter::set_additional_fan(unsigned int speed) { std::ostringstream gcode; gcode << "M106 " << "P2 " << "S" << (int)(255.0 * speed / 100.0); if (GCodeWriter::full_gcode_comment) { if (speed == 0) gcode << " ; disable additional fan "; else gcode << " ; enable additional fan "; } gcode << "\n"; return gcode.str(); } std::string GCodeWriter::set_exhaust_fan( int speed,bool add_eol) { std::ostringstream gcode; gcode << "M106" << " P3" << " S" << (int)(speed / 100.0 * 255); if(add_eol) gcode << "\n"; return gcode.str(); } void GCodeWriter::add_object_start_labels(std::string& gcode) { if (!m_gcode_label_objects_start.empty()) { gcode += m_gcode_label_objects_start; m_gcode_label_objects_start = ""; } } void GCodeWriter::add_object_end_labels(std::string& gcode) { if (!m_gcode_label_objects_end.empty()) { gcode += m_gcode_label_objects_end; m_gcode_label_objects_end = ""; } } void GCodeWriter::add_object_change_labels(std::string& gcode) { add_object_end_labels(gcode); add_object_start_labels(gcode); } void GCodeFormatter::emit_axis(const char axis, const double v, size_t digits) { assert(digits <= 9); static constexpr const std::array pow_10{1, 10, 100, 1000, 10000, 100000, 1000000, 10000000, 100000000, 1000000000}; *ptr_err.ptr++ = ' '; *ptr_err.ptr++ = axis; char *base_ptr = this->ptr_err.ptr; auto v_int = int64_t(std::round(v * pow_10[digits])); // Older stdlib on macOS doesn't support std::from_chars at all, so it is used boost::spirit::karma::generate instead of it. // That is a little bit slower than std::to_chars but not much. #ifdef __APPLE__ boost::spirit::karma::generate(this->ptr_err.ptr, boost::spirit::karma::int_generator(), v_int); #else // this->buf_end minus 1 because we need space for adding the extra decimal point. this->ptr_err = std::to_chars(this->ptr_err.ptr, this->buf_end - 1, v_int); #endif size_t writen_digits = (this->ptr_err.ptr - base_ptr) - (v_int < 0 ? 1 : 0); if (writen_digits < digits) { // Number is smaller than 10^digits, so that we will pad it with zeros. size_t remaining_digits = digits - writen_digits; // Move all newly inserted chars by remaining_digits to allocate space for padding with zeros. for (char *from_ptr = this->ptr_err.ptr - 1, *to_ptr = from_ptr + remaining_digits; from_ptr >= this->ptr_err.ptr - writen_digits; --to_ptr, --from_ptr) *to_ptr = *from_ptr; memset(this->ptr_err.ptr - writen_digits, '0', remaining_digits); this->ptr_err.ptr += remaining_digits; } // Move all newly inserted chars by one to allocate space for a decimal point. for (char *to_ptr = this->ptr_err.ptr, *from_ptr = to_ptr - 1; from_ptr >= this->ptr_err.ptr - digits; --to_ptr, --from_ptr) *to_ptr = *from_ptr; *(this->ptr_err.ptr - digits) = '.'; for (size_t i = 0; i < digits; ++i) { if (*this->ptr_err.ptr != '0') break; this->ptr_err.ptr--; } if (*this->ptr_err.ptr == '.') this->ptr_err.ptr--; if ((this->ptr_err.ptr + 1) == base_ptr || *this->ptr_err.ptr == '-') *(++this->ptr_err.ptr) = '0'; this->ptr_err.ptr++; #if 0 // #ifndef NDEBUG { // Verify that the optimized formatter produces the same result as the standard sprintf(). double v1 = atof(std::string(base_ptr, this->ptr_err.ptr).c_str()); char buf[2048]; sprintf(buf, "%.*lf", int(digits), v); double v2 = atof(buf); // Numbers may differ when rounding at exactly or very close to 0.5 due to numerical issues when scaling the double to an integer. // Thus the complex assert. // assert(v1 == v2); assert(std::abs(v1 - v) * pow_10[digits] < 0.50001); assert(std::abs(v2 - v) * pow_10[digits] < 0.50001); } #endif // NDEBUG } } // namespace Slic3r