dee() creates "dee" class objects.
plot.dee() if suggested packages {omsvg} and {nanosvgr} are installed.{omsvg} "svg" class object with as_omsvg() if suggested package {omsvg} is installed.dee_options() returns a list of (current or default) {dee} package option values.
Absolute coordinate svg d path command helpers:
A(), AZ() are the elliptical arc curve commands.C(), CZ(), S(), SZ() are the cubic Bézier curve commands.L(), LZ(), H(), HZ(), V(), VZ() are the "lineto" commands.M(), MZ() are the "moveto" commands.Q(), QZ(), T(), TZ() are the quadratic Bézier curve commands.Z() is the "closepath" command.Relative coordinate svg d path command helpers:
aa(), az() are the elliptical arc curve commands.cc(), cz(), ss(), sz() are the cubic Bézier curve commands.ll(), lz(), hh(), hz(), vv(), vz() are the "lineto" commands.mm(), mz() are the "moveto" commands.qq(), qz(), tt(), tz() are the quadratic Bézier curve commands.zz() is the "closepath" command.svg d path convenience wrappers:
d_aabb() is a wrapper around d_rect() to create
an axis-aligned bounding box.
d_arc1() d_arc2(), d_arc3(), d_arc4(),
d_arc12(), d_arc23(), d_arc34(), d_arc41(),
d_arc123(), d_arc234(), d_arc341(), and d_arc412()
are wrappers to create elliptical arc paths.
d_fslash() and d_bslash() are wrappers around MZ() to build
forward/backward slash paths.
d_ellipse() is a wrapper around M() and AZ() to build ellipse paths.
d_circle() is a wrapper around d_ellipse() to build circle paths.d_polygon() is a wrapper around MZ() to build polygon paths.
If its argument offset is nonzero will compute an offset region.
d_isotoxal_2ngon() is a wrapper around d_polygon() to create isotoxal 2n-gon polygons. d_star() is an alias.d_regular_ngon() is a wrapper around d_polygon() to create regular polygons.d_rect() is a wrapper around d_polygon() to build rectangle paths.
Miscellaneous helper functions:
height_slash_left(), height_slash_right(), width_slash_left(), and width_slash_right() return the height or width of the left or right end of a d_fslash() or d_bslash() shape.x_ellipse_left(), x_ellipse_right(), y_ellipse_top(), and y_ellipse_bottom() return the leftmost/rightmost x-coordinate or topmost/bottommost y-coordinate on a (possibly rotated) ellipse at a given y or x value.