from pcbnew import (PLOT_FORMAT_SVG, FromMM, ToMM)
from kiplot.out_any_layer import AnyLayer
from kiplot.drill_marks import DrillMarks
from kiplot.macros import macros, document, output_class  # noqa: F401


@output_class
class SVG(AnyLayer, DrillMarks):
    """ SVG (Scalable Vector Graphics)
        Exports the PCB to a format suitable for 2D graphics software.
        Unlike bitmaps SVG drawings can be scaled without losing resolution.
        This output is what you get from the File/Plot menu in pcbnew. """
    def __init__(self, name, type, description):
        AnyLayer.__init__(self, name, type, description)
        DrillMarks.__init__(self)
        self._plot_format = PLOT_FORMAT_SVG
        # Options
        with document:
            self.line_width = 0.25
            """ [0.02,2] for objects without width [mm] """
            self.mirror_plot = False
            """ plot mirrored """
            self.negative_plot = False
            """ invert black and white """  # pragma: no cover

    def config(self, outdir, options, layers):
        AnyLayer.config(self, outdir, options, layers)
        DrillMarks.config(self)

    def _configure_plot_ctrl(self, po, output_dir):
        AnyLayer._configure_plot_ctrl(self, po, output_dir)
        DrillMarks._configure_plot_ctrl(self, po, output_dir)
        po.SetMirror(self.mirror_plot)
        po.SetLineWidth(FromMM(self.line_width))
        po.SetNegative(self.negative_plot)

    def read_vals_from_po(self, po):
        AnyLayer.read_vals_from_po(self, po)
        DrillMarks.read_vals_from_po(self, po)
        self.line_width = ToMM(po.GetLineWidth())
        self.negative_plot = po.GetNegative()
        self.mirror_plot = po.GetMirror()