The wipe tower now respects filament max volumetric flow

The odd commands that lowered the speed override values for PVA, FLEX etc. were removed Now the wipe tower backups user speed override, sets it to 100%, does what is needed and restores the old value when finished. There are no special cases - lowering the speed for certain materials can be achieved by lowering the volumetric flow.
2019-06-10 12:26:47 +02:00 · 2019-06-10 12:26:47 +02:00 · 079e63e190
commit 079e63e190
parent 6f7051c3b1
3 changed files with 46 additions and 59 deletions
--- a/src/libslic3r/GCode/WipeTowerPrusaMM.cpp
+++ b/src/libslic3r/GCode/WipeTowerPrusaMM.cpp
@ -40,7 +40,7 @@ namespace PrusaMultiMaterial {
 class Writer
 {
 public:
-	Writer(float layer_height, float line_width, GCodeFlavor flavor) :
+	Writer(float layer_height, float line_width, GCodeFlavor flavor, const std::vector<WipeTowerPrusaMM::FilamentParameters>& filament_parameters) :
 		m_current_pos(std::numeric_limits<float>::max(), std::numeric_limits<float>::max()),
 		m_current_z(0.f),
 		m_current_feedrate(0.f),
@ -49,7 +49,8 @@ public:
 		m_preview_suppressed(false),
 		m_elapsed_time(0.f),
        m_default_analyzer_line_width(line_width),
-        m_gcode_flavor(flavor)
+        m_gcode_flavor(flavor),
+        m_filpar(filament_parameters)
        {
            // adds tag for analyzer:
            char buf[64];
@ -125,7 +126,7 @@ public:
    float                get_and_reset_used_filament_length() { float temp = m_used_filament_length; m_used_filament_length = 0.f; return temp; }

 	// Extrude with an explicitely provided amount of extrusion.
-	Writer& extrude_explicit(float x, float y, float e, float f = 0.f, bool record_length = false)
+	Writer& extrude_explicit(float x, float y, float e, float f = 0.f, bool record_length = false, bool limit_volumetric_flow = true)
 	{
 		if (x == m_current_pos.x && y == m_current_pos.y && e == 0.f && (f == 0.f || f == m_current_feedrate))
 			// Neither extrusion nor a travel move.
@ -164,8 +165,13 @@ public:
 		if (e != 0.f)
 			m_gcode += set_format_E(e);

-		if (f != 0.f && f != m_current_feedrate)
-            m_gcode += set_format_F(f);
+		if (f != 0.f && f != m_current_feedrate) {
+            if (limit_volumetric_flow) {
+                float e_speed = e / (((len == 0) ? std::abs(e) : len) / f * 60.f);
+                f /= std::max(1.f, e_speed / m_filpar[m_current_tool].max_e_speed);
+            }
+			m_gcode += set_format_F(f);
+        }

        m_current_pos.x = x;
        m_current_pos.y = y;
@ -176,7 +182,7 @@ public:
 		return *this;
 	}

-	Writer& extrude_explicit(const WipeTower::xy &dest, float e, float f = 0.f, bool record_length = false)
+	Writer& extrude_explicit(const WipeTower::xy &dest, float e, float f = 0.f, bool record_length = false, bool limit_volumetric_flow = true)
 		{ return extrude_explicit(dest.x, dest.y, e, f, record_length); }

 	// Travel to a new XY position. f=0 means use the current value.
@ -273,8 +279,8 @@ public:
 	// extrude quickly amount e to x2 with feed f.
 	Writer& ram(float x1, float x2, float dy, float e0, float e, float f)
 	{
-		extrude_explicit(x1, m_current_pos.y + dy, e0, f, true);
-		extrude_explicit(x2, m_current_pos.y, e, 0.f, true);
+		extrude_explicit(x1, m_current_pos.y + dy, e0, f, true, false);
+		extrude_explicit(x2, m_current_pos.y, e, 0.f, true, false);
 		return *this;
 	}

@ -422,6 +428,7 @@ private:
    const float   m_default_analyzer_line_width;
    float         m_used_filament_length = 0.f;
    GCodeFlavor   m_gcode_flavor;
+    const std::vector<WipeTowerPrusaMM::FilamentParameters>& m_filpar;

 	std::string   set_format_X(float x)
 	{
@ -528,15 +535,14 @@ WipeTower::ToolChangeResult WipeTowerPrusaMM::prime(
 	const float prime_section_width = std::min(240.f / tools.size(), 60.f);
 	box_coordinates cleaning_box(xy(5.f, 0.01f + m_perimeter_width/2.f), prime_section_width, 100.f);

-	PrusaMultiMaterial::Writer writer(m_layer_height, m_perimeter_width, m_gcode_flavor);
+	PrusaMultiMaterial::Writer writer(m_layer_height, m_perimeter_width, m_gcode_flavor, m_filpar);
 	writer.set_extrusion_flow(m_extrusion_flow)
 		  .set_z(m_z_pos)
 		  .set_initial_tool(m_current_tool)
 		  .append(";--------------------\n"
 			 	  "; CP PRIMING START\n")
 		  .append(";--------------------\n");
-	if (m_retain_speed_override)
-		writer.speed_override_backup();
+	writer.speed_override_backup();
 	writer.speed_override(100);

 	writer.set_initial_position(xy(0.f, 0.f))	// Always move to the starting position
@ -571,8 +577,7 @@ WipeTower::ToolChangeResult WipeTowerPrusaMM::prime(
 	// Reset the extruder current to a normal value.
 	if (m_set_extruder_trimpot)
 		writer.set_extruder_trimpot(550);
-	if (m_retain_speed_override)
-		writer.speed_override_restore();
+	writer.speed_override_restore();
 	writer.feedrate(6000)
 		  .flush_planner_queue()
 		  .reset_extruder()
@ -630,7 +635,7 @@ WipeTower::ToolChangeResult WipeTowerPrusaMM::tool_change(unsigned int tool, boo
 		(tool != (unsigned int)(-1) ? /*m_layer_info->depth*/wipe_area+m_depth_traversed-0.5*m_perimeter_width
                                    : m_wipe_tower_depth-m_perimeter_width));

-	PrusaMultiMaterial::Writer writer(m_layer_height, m_perimeter_width, m_gcode_flavor);
+	PrusaMultiMaterial::Writer writer(m_layer_height, m_perimeter_width, m_gcode_flavor, m_filpar);
 	writer.set_extrusion_flow(m_extrusion_flow)
 		.set_z(m_z_pos)
 		.set_initial_tool(m_current_tool)
@ -640,8 +645,7 @@ WipeTower::ToolChangeResult WipeTowerPrusaMM::tool_change(unsigned int tool, boo
 		.comment_with_value(" toolchange #", m_num_tool_changes + 1) // the number is zero-based
 		.comment_material(m_filpar[m_current_tool].material)
 		.append(";--------------------\n");
-	if (m_retain_speed_override)
-		writer.speed_override_backup();
+	writer.speed_override_backup();
 	writer.speed_override(100);

 	xy initial_position = cleaning_box.ld + WipeTower::xy(0.f,m_depth_traversed);
@ -679,8 +683,7 @@ WipeTower::ToolChangeResult WipeTowerPrusaMM::tool_change(unsigned int tool, boo

 	if (m_set_extruder_trimpot)
 		writer.set_extruder_trimpot(550);    // Reset the extruder current to a normal value.
-	if (m_retain_speed_override)
-		writer.speed_override_restore();
+	writer.speed_override_restore();
    writer.feedrate(6000)
          .flush_planner_queue()
          .reset_extruder()
@ -711,7 +714,7 @@ WipeTower::ToolChangeResult WipeTowerPrusaMM::toolchange_Brim(bool sideOnly, flo
 		m_wipe_tower_width,
 		m_wipe_tower_depth);

-	PrusaMultiMaterial::Writer writer(m_layer_height, m_perimeter_width, m_gcode_flavor);
+	PrusaMultiMaterial::Writer writer(m_layer_height, m_perimeter_width, m_gcode_flavor, m_filpar);
 	writer.set_extrusion_flow(m_extrusion_flow * 1.1f)
 		  .set_z(m_z_pos) // Let the writer know the current Z position as a base for Z-hop.
 		  .set_initial_tool(m_current_tool)
@ -917,19 +920,7 @@ void WipeTowerPrusaMM::toolchange_Change(
    if (m_current_tool < m_used_filament_length.size())
    	m_used_filament_length[m_current_tool] += writer.get_and_reset_used_filament_length();

-	// Speed override for the material. Go slow for flex and soluble materials.
-	int speed_override;
-	switch (new_material) {
-	case PVA:   speed_override = (m_z_pos < 0.80f) ? 60 : 80; break;
-	case SCAFF: speed_override = 35; break;
-	case FLEX:  speed_override = 35; break;
-	default:    speed_override = 100;
-	}
 	writer.set_tool(new_tool);
-	if (m_retain_speed_override)
-		assert(speed_override == 100);
-	else
-		writer.speed_override(speed_override);
 	writer.flush_planner_queue();
 	m_current_tool = new_tool;
 }
@ -1040,7 +1031,7 @@ WipeTower::ToolChangeResult WipeTowerPrusaMM::finish_layer()
 	// Otherwise the caller would likely travel to the wipe tower in vain.
 	assert(! this->layer_finished());

-	PrusaMultiMaterial::Writer writer(m_layer_height, m_perimeter_width, m_gcode_flavor);
+	PrusaMultiMaterial::Writer writer(m_layer_height, m_perimeter_width, m_gcode_flavor, m_filpar);
 	writer.set_extrusion_flow(m_extrusion_flow)
 		.set_z(m_z_pos)
 		.set_initial_tool(m_current_tool)
--- a/src/libslic3r/GCode/WipeTowerPrusaMM.hpp
+++ b/src/libslic3r/GCode/WipeTowerPrusaMM.hpp
@ -73,17 +73,12 @@ public:
 	// Set the extruder properties.
 	void set_extruder(size_t idx, material_type material, int temp, int first_layer_temp, float loading_speed, float loading_speed_start,
                      float unloading_speed, float unloading_speed_start, float delay, int cooling_moves,
-                      float cooling_initial_speed, float cooling_final_speed, std::string ramming_parameters, float nozzle_diameter)
+                      float cooling_initial_speed, float cooling_final_speed, std::string ramming_parameters, float max_volumetric_speed, float nozzle_diameter)
 	{
        //while (m_filpar.size() < idx+1)   // makes sure the required element is in the vector
        m_filpar.push_back(FilamentParameters());

        m_filpar[idx].material = material;
-        if (material == FLEX || material == SCAFF || material == PVA) {
-    		// MMU2 lowers the print speed using the speed override (M220) for printing of soluble PVA/BVOH and flex materials.
-    		// Therefore it does not make sense to use the new M220 B and M220 R (backup / restore).
-        	m_retain_speed_override = false;
-        }
        m_filpar[idx].temperature = temp;
        m_filpar[idx].first_layer_temperature = first_layer_temp;
        m_filpar[idx].loading_speed = loading_speed;
@ -94,6 +89,8 @@ public:
        m_filpar[idx].cooling_moves = cooling_moves;
        m_filpar[idx].cooling_initial_speed = cooling_initial_speed;
        m_filpar[idx].cooling_final_speed = cooling_final_speed;
+        if (max_volumetric_speed != 0.f)
+            m_filpar[idx].max_e_speed = (max_volumetric_speed / Filament_Area);
        m_filpar[idx].nozzle_diameter = nozzle_diameter; // to be used in future with (non-single) multiextruder MM

        m_perimeter_width = nozzle_diameter * Width_To_Nozzle_Ratio; // all extruders are now assumed to have the same diameter
@ -188,6 +185,24 @@ public:
    virtual std::vector<float> get_used_filament() const override { return m_used_filament_length; }
    virtual int get_number_of_toolchanges() const override { return m_num_tool_changes; }

+    struct FilamentParameters {
+        material_type 	    material = PLA;
+        int  			    temperature = 0;
+        int  			    first_layer_temperature = 0;
+        float               loading_speed = 0.f;
+        float               loading_speed_start = 0.f;
+        float               unloading_speed = 0.f;
+        float               unloading_speed_start = 0.f;
+        float               delay = 0.f ;
+        int                 cooling_moves = 0;
+        float               cooling_initial_speed = 0.f;
+        float               cooling_final_speed = 0.f;
+        float               ramming_line_width_multiplicator = 0.f;
+        float               ramming_step_multiplicator = 0.f;
+        float               max_e_speed = std::numeric_limits<float>::max();
+        std::vector<float>  ramming_speed;
+        float               nozzle_diameter;
+    };

 private:
 	WipeTowerPrusaMM();
@ -224,32 +239,12 @@ private:
    float           m_extra_loading_move        = 0.f;
    float           m_bridging                  = 0.f;
    bool            m_set_extruder_trimpot      = false;
-    bool 			m_retain_speed_override		= true;
    bool            m_adhesion                  = true;
    GCodeFlavor     m_gcode_flavor;

 	float m_perimeter_width = 0.4f * Width_To_Nozzle_Ratio; // Width of an extrusion line, also a perimeter spacing for 100% infill.
 	float m_extrusion_flow = 0.038f; //0.029f;// Extrusion flow is derived from m_perimeter_width, layer height and filament diameter.

-
-    struct FilamentParameters {
-        material_type 	    material = PLA;
-        int  			    temperature = 0;
-        int  			    first_layer_temperature = 0;
-        float               loading_speed = 0.f;
-        float               loading_speed_start = 0.f;
-        float               unloading_speed = 0.f;
-        float               unloading_speed_start = 0.f;
-        float               delay = 0.f ;
-        int                 cooling_moves = 0;
-        float               cooling_initial_speed = 0.f;
-        float               cooling_final_speed = 0.f;
-        float               ramming_line_width_multiplicator = 0.f;
-        float               ramming_step_multiplicator = 0.f;
-        std::vector<float>  ramming_speed;
-        float               nozzle_diameter;
-    };
-
 	// Extruder specific parameters.
    std::vector<FilamentParameters> m_filpar;

--- a/src/libslic3r/Print.cpp
+++ b/src/libslic3r/Print.cpp
@ -121,7 +121,6 @@ bool Print::invalidate_state_by_config_options(const std::vector<t_config_option
        "filament_density",
        "filament_notes",
        "filament_cost",
-        "filament_max_volumetric_speed",
        "first_layer_acceleration",
        "first_layer_bed_temperature",
        "first_layer_speed",
@ -216,6 +215,7 @@ bool Print::invalidate_state_by_config_options(const std::vector<t_config_option
            || opt_key == "filament_cooling_initial_speed"
            || opt_key == "filament_cooling_final_speed"
            || opt_key == "filament_ramming_parameters"
+            || opt_key == "filament_max_volumetric_speed"
            || opt_key == "gcode_flavor"
            || opt_key == "high_current_on_filament_swap"
            || opt_key == "infill_first"
@ -1822,6 +1822,7 @@ void Print::_make_wipe_tower()
            m_config.filament_cooling_initial_speed.get_at(i),
            m_config.filament_cooling_final_speed.get_at(i),
            m_config.filament_ramming_parameters.get_at(i),
+            m_config.filament_max_volumetric_speed.get_at(i),
            m_config.nozzle_diameter.get_at(i));

    m_wipe_tower_data.priming = Slic3r::make_unique<WipeTower::ToolChangeResult>(