Include wipe tower in skirt

src/libslic3r/GCode/PrintExtents.cpp

@@ -138,7 +138,7 @@ BoundingBoxf get_wipe_tower_extrusions_extents(const Print &print, const coordf_
     // We need to get position and angle of the wipe tower to transform them to actual position.
     Transform2d trafo =
         Eigen::Translation2d(print.config().wipe_tower_x.value, print.config().wipe_tower_y.value) *
-        Eigen::Rotation2Dd(print.config().wipe_tower_rotation_angle.value);
+        Eigen::Rotation2Dd(Geometry::deg2rad(print.config().wipe_tower_rotation_angle.value));
 
     BoundingBoxf bbox;
     for (const std::vector<WipeTower::ToolChangeResult> &tool_changes : print.wipe_tower_data().tool_changes) {
@@ -160,6 +160,43 @@ BoundingBoxf get_wipe_tower_extrusions_extents(const Print &print, const coordf_
     return bbox;
 }
 
+// Returns a vector of points of a projection of the wipe tower for the layers <= max_print_z.
+// The projection does not contain the priming regions.
+std::vector<Vec2d> get_wipe_tower_extrusions_points(const Print &print, const coordf_t max_print_z)
+{
+    // Wipe tower extrusions are saved as if the tower was at the origin with no rotation
+    // We need to get position and angle of the wipe tower to transform them to actual position.
+    Transform2d trafo =
+        Eigen::Translation2d(print.config().wipe_tower_x.value, print.config().wipe_tower_y.value) *
+        Eigen::Rotation2Dd(Geometry::deg2rad(print.config().wipe_tower_rotation_angle.value));
+
+    BoundingBoxf bbox;
+    for (const std::vector<WipeTower::ToolChangeResult> &tool_changes : print.wipe_tower_data().tool_changes) {
+        if (!tool_changes.empty() && tool_changes.front().print_z > max_print_z)
+            break;
+        for (const WipeTower::ToolChangeResult &tcr : tool_changes) {
+            for (size_t i = 1; i < tcr.extrusions.size(); ++i) {
+                const WipeTower::Extrusion &e = tcr.extrusions[i];
+                if (e.width > 0) {
+                    Vec2d delta = 0.5 * Vec2d(e.width, e.width);
+                    Vec2d p1 = Vec2d((&e - 1)->pos.x, (&e - 1)->pos.y);
+                    Vec2d p2 = Vec2d(e.pos.x, e.pos.y);
+                    bbox.merge(p1.cwiseMin(p2) - delta);
+                    bbox.merge(p1.cwiseMax(p2) + delta);
+                }
+            }
+        }
+    }
+
+    std::vector<Vec2d> points;
+    points.push_back(trafo * Vec2d(bbox.min.x(), bbox.max.y()));
+    points.push_back(trafo * Vec2d(bbox.max.x(), bbox.max.y()));
+    points.push_back(trafo * Vec2d(bbox.max.x(), bbox.min.y()));
+    points.push_back(trafo * Vec2d(bbox.min.x(), bbox.min.y()));
+
+    return points;
+}
+
 // Returns a bounding box of the wipe tower priming extrusions.
 BoundingBoxf get_wipe_tower_priming_extrusions_extents(const Print &print)
 {

src/libslic3r/GCode/PrintExtents.hpp

@@ -22,6 +22,10 @@ BoundingBoxf get_print_object_extrusions_extents(const PrintObject &print_object
 // The projection does not contain the priming regions.
 BoundingBoxf get_wipe_tower_extrusions_extents(const Print &print, const coordf_t max_print_z);
 
+// Returns a vector of points of a projection of the wipe tower for the layers <= max_print_z.
+// The projection does not contain the priming regions.
+std::vector<Vec2d> get_wipe_tower_extrusions_points(const Print &print, const coordf_t max_print_z);
+
 // Returns a bounding box of the wipe tower priming extrusions.
 BoundingBoxf get_wipe_tower_priming_extrusions_extents(const Print &print);
 

src/libslic3r/Print.cpp

@@ -11,6 +11,7 @@
 #include "SupportMaterial.hpp"
 #include "GCode.hpp"
 #include "GCode/WipeTower.hpp"
+#include "GCode/PrintExtents.hpp"
 #include "Utils.hpp"
 
 //#include "PrintExport.hpp"
@@ -143,10 +144,7 @@ bool Print::invalidate_state_by_config_options(const std::vector<t_config_option
         "use_relative_e_distances",
         "use_volumetric_e",
         "variable_layer_height",
-        "wipe",
-        "wipe_tower_x",
-        "wipe_tower_y",
-        "wipe_tower_rotation_angle"
+        "wipe"
     };
 
     static std::unordered_set<std::string> steps_ignore;
@@ -167,7 +165,10 @@ bool Print::invalidate_state_by_config_options(const std::vector<t_config_option
             || opt_key == "skirt_height"
             || opt_key == "skirt_distance"
             || opt_key == "min_skirt_length"
-            || opt_key == "ooze_prevention") {
+            || opt_key == "ooze_prevention"
+            || opt_key == "wipe_tower_x"
+            || opt_key == "wipe_tower_y"
+            || opt_key == "wipe_tower_rotation_angle") {
             steps.emplace_back(psSkirt);
         } else if (opt_key == "brim_width") {
             steps.emplace_back(psBrim);
@@ -208,6 +209,7 @@ bool Print::invalidate_state_by_config_options(const std::vector<t_config_option
             || opt_key == "extra_loading_move"
             || opt_key == "z_offset") {
             steps.emplace_back(psWipeTower);
+            steps.emplace_back(psSkirt);
         } else if (
                opt_key == "first_layer_extrusion_width" 
             || opt_key == "min_layer_height"
@@ -1186,6 +1188,8 @@ std::string Print::validate() const
             return L("The Wipe Tower is currently only supported with the relative extruder addressing (use_relative_e_distances=1).");
         if (m_config.ooze_prevention)
             return L("Ooze prevention is currently not supported with the wipe tower enabled.");
+        if (m_config.use_volumetric_e)
+            return L("The Wipe Tower currently does not support volumetric E (use_volumetric_e=0).");
         
         if (m_objects.size() > 1) {
             bool                                has_custom_layering = false;
@@ -1502,6 +1506,14 @@ void Print::process()
         obj->infill();
     for (PrintObject *obj : m_objects)
         obj->generate_support_material();
+    if (this->set_started(psWipeTower)) {
+        m_wipe_tower_data.clear();
+        if (this->has_wipe_tower()) {
+            //this->set_status(95, L("Generating wipe tower"));
+            this->_make_wipe_tower();
+        }
+        this->set_done(psWipeTower);
+    }
     if (this->set_started(psSkirt)) {
         m_skirt.clear();
         if (this->has_skirt()) {
@@ -1518,14 +1530,6 @@ void Print::process()
         }
        this->set_done(psBrim);
     }
-    if (this->set_started(psWipeTower)) {
-        m_wipe_tower_data.clear();
-        if (this->has_wipe_tower()) {
-            //this->set_status(95, L("Generating wipe tower"));
-            this->_make_wipe_tower();
-        }
-       this->set_done(psWipeTower);
-    }
     BOOST_LOG_TRIVIAL(info) << "Slicing process finished." << log_memory_info();
 }
 
@@ -1602,6 +1606,11 @@ void Print::_make_skirt()
         }
     }
 
+    // Include the wipe tower.
+    if (has_wipe_tower())
+        for (const Vec2d& point : get_wipe_tower_extrusions_points(*this, skirt_height_z))
+            points.push_back(Point(scale_(point.x()), scale_(point.y())));
+
     if (points.size() < 3)
         // At least three points required for a convex hull.
         return;