#include "BoundingBox.hpp" #include "Surface.hpp" #include "SVG.hpp" namespace Slic3r { Surface::operator Polygons() const { return this->expolygon; } double Surface::area() const { return this->expolygon.area(); } bool Surface::is_solid() const { return this->surface_type == stTop || this->surface_type == stBottom || this->surface_type == stBottomBridge || this->surface_type == stInternalSolid || this->surface_type == stInternalBridge; } bool Surface::is_external() const { return this->surface_type == stTop || this->surface_type == stBottom || this->surface_type == stBottomBridge; } bool Surface::is_internal() const { return this->surface_type == stInternal || this->surface_type == stInternalBridge || this->surface_type == stInternalSolid || this->surface_type == stInternalVoid; } bool Surface::is_bottom() const { return this->surface_type == stBottom || this->surface_type == stBottomBridge; } bool Surface::is_bridge() const { return this->surface_type == stBottomBridge || this->surface_type == stInternalBridge; } BoundingBox get_extents(const Surface &surface) { return get_extents(surface.expolygon.contour); } BoundingBox get_extents(const Surfaces &surfaces) { BoundingBox bbox; if (! surfaces.empty()) { bbox = get_extents(surfaces.front()); for (size_t i = 1; i < surfaces.size(); ++ i) bbox.merge(get_extents(surfaces[i])); } return bbox; } BoundingBox get_extents(const SurfacesPtr &surfaces) { BoundingBox bbox; if (! surfaces.empty()) { bbox = get_extents(*surfaces.front()); for (size_t i = 1; i < surfaces.size(); ++ i) bbox.merge(get_extents(*surfaces[i])); } return bbox; } const char* surface_type_to_color_name(const SurfaceType surface_type) { switch (surface_type) { case stTop: return "rgb(255,0,0)"; // "red"; case stBottom: return "rgb(0,255,0)"; // "green"; case stBottomBridge: return "rgb(0,0,255)"; // "blue"; case stInternal: return "rgb(255,255,128)"; // yellow case stInternalSolid: return "rgb(255,0,255)"; // magenta case stInternalBridge: return "rgb(0,255,255)"; case stInternalVoid: return "rgb(128,128,128)"; case stPerimeter: return "rgb(128,0,0)"; // maroon default: return "rgb(64,64,64)"; }; } Point export_surface_type_legend_to_svg_box_size() { return Point(scale_(1.+10.*8.), scale_(3.)); } void export_surface_type_legend_to_svg(SVG &svg, const Point &pos) { // 1st row coord_t pos_x0 = pos.x + scale_(1.); coord_t pos_x = pos_x0; coord_t pos_y = pos.y + scale_(1.5); coord_t step_x = scale_(10.); svg.draw_legend(Point(pos_x, pos_y), "perimeter" , surface_type_to_color_name(stPerimeter)); pos_x += step_x; svg.draw_legend(Point(pos_x, pos_y), "top" , surface_type_to_color_name(stTop)); pos_x += step_x; svg.draw_legend(Point(pos_x, pos_y), "bottom" , surface_type_to_color_name(stBottom)); pos_x += step_x; svg.draw_legend(Point(pos_x, pos_y), "bottom bridge" , surface_type_to_color_name(stBottomBridge)); pos_x += step_x; svg.draw_legend(Point(pos_x, pos_y), "invalid" , surface_type_to_color_name(SurfaceType(-1))); // 2nd row pos_x = pos_x0; pos_y = pos.y+scale_(2.8); svg.draw_legend(Point(pos_x, pos_y), "internal" , surface_type_to_color_name(stInternal)); pos_x += step_x; svg.draw_legend(Point(pos_x, pos_y), "internal solid" , surface_type_to_color_name(stInternalSolid)); pos_x += step_x; svg.draw_legend(Point(pos_x, pos_y), "internal bridge", surface_type_to_color_name(stInternalBridge)); pos_x += step_x; svg.draw_legend(Point(pos_x, pos_y), "internal void" , surface_type_to_color_name(stInternalVoid)); } bool export_to_svg(const char *path, const Surfaces &surfaces, const float transparency) { BoundingBox bbox; for (Surfaces::const_iterator surface = surfaces.begin(); surface != surfaces.end(); ++surface) bbox.merge(get_extents(surface->expolygon)); SVG svg(path, bbox); for (Surfaces::const_iterator surface = surfaces.begin(); surface != surfaces.end(); ++surface) svg.draw(surface->expolygon, surface_type_to_color_name(surface->surface_type), transparency); svg.Close(); return true; } }