that will appear in the parameter window
"""
# display the figure
cnc25d_api.figure_simple_display(simple_figure, overlay_figure, simple_figure_info)
simple_extrude_height = 20.0
# create a FreeCAD part
simple_part = cnc25d_api.figure_to_freecad_25d_part(simple_figure, simple_extrude_height)
# create the test_output_dir
test_output_dir = "test_output"
cnc25d_api.mkdir_p(test_output_dir)
# write the SVG file with mozman svgwrite
cnc25d_api.write_figure_in_svg(simple_figure, "{:s}/simple_part_mozman.svg".format(test_output_dir))
# write the DXF file with mozman dxfwrite
cnc25d_api.write_figure_in_dxf(simple_figure, "{:s}/simple_part_mozman.dxf".format(test_output_dir))
# simple_part in 3D BRep
print("Generate {:s}/simple_part.brep".format(test_output_dir))
simple_part.exportBrep("{:s}/simple_part.brep".format(test_output_dir))
# simple_part in 2D DXF
print("Generate {:s}/simple_part.dxf".format(test_output_dir))
# slice simple_part in the XY plan at a height of simple_extrude_height/2
cnc25d_api.export_to_dxf(simple_part, Base.Vector(0,0,1), simple_extrude_height/2, "{:s}/simple_part.dxf".format(test_output_dir))
# view the simple_part
Part.show(simple_part)
# display the figure
cnc25d_api.figure_simple_display(simple_figure, overlay_figure,
simple_figure_info)
simple_extrude_height = 20.0
# create a FreeCAD part
simple_part = cnc25d_api.figure_to_freecad_25d_part(simple_figure,
simple_extrude_height)
# create the test_output_dir
test_output_dir = "test_output"
cnc25d_api.mkdir_p(test_output_dir)
# write the SVG file with mozman svgwrite
cnc25d_api.write_figure_in_svg(
simple_figure, "{:s}/simple_part_mozman.svg".format(test_output_dir))
# write the DXF file with mozman dxfwrite
cnc25d_api.write_figure_in_dxf(
simple_figure, "{:s}/simple_part_mozman.dxf".format(test_output_dir))
# simple_part in 3D BRep
six.print_(("Generate {:s}/simple_part.brep".format(test_output_dir)))
simple_part.exportBrep("{:s}/simple_part.brep".format(test_output_dir))
# simple_part in 2D DXF
six.print_(("Generate {:s}/simple_part.dxf".format(test_output_dir)))
# slice simple_part in the XY plan at a height of simple_extrude_height/2
cnc25d_api.export_to_dxf(simple_part, Base.Vector(0, 0, 1),
simple_extrude_height / 2,
"{:s}/simple_part.dxf".format(test_output_dir))
#
l_output_dir = "test_output"
print("Create the output directory: {:s}".format(l_output_dir))
cnc25d_api.mkdir_p(l_output_dir)
################################################################
# Write the outline in a SVG file
################################################################
## write my_outline_for_cnc in a SVG file
print("Write the outlines in a SVG file with svgwrite")
output_svg_file_name = "{:s}/outlines_with_svgwrite.svg".format(l_output_dir)
my_circle = (100, 100, 40)
svg_figures = [my_outline_for_cnc, my_outline_for_cnc_rotated, my_circle] # figure = list of (format B) outlines
cnc25d_api.write_figure_in_svg(svg_figures, output_svg_file_name)
################################################################
# Write the outline in a DXF file
################################################################
## write my_outline_for_cnc in a DXF file
print("Write the outlines in a DXF file with dxfwrite")
output_dxf_file_name = "{:s}/outlines_with_dxfwrite.dxf".format(l_output_dir)
dxf_figures = [my_outline_for_cnc, my_outline_for_cnc_rotated, my_circle] # figure = list of (format B) outlines
cnc25d_api.write_figure_in_dxf(dxf_figures, output_dxf_file_name)
################################################################
# Extrude the outline to make it 3D
################################################################
#
l_output_dir = "test_output"
six.print_(("Create the output directory: {:s}".format(l_output_dir)))
cnc25d_api.mkdir_p(l_output_dir)
################################################################
# Write the outline in a SVG file
################################################################
## write my_outline_for_cnc in a SVG file
print("Write the outlines in a SVG file with svgwrite")
output_svg_file_name = "{:s}/outlines_with_svgwrite.svg".format(l_output_dir)
my_circle = (100, 100, 40)
svg_figures = [my_outline_for_cnc, my_outline_for_cnc_rotated, my_circle] # figure = list of (format B) outlines
cnc25d_api.write_figure_in_svg(svg_figures, output_svg_file_name)
################################################################
# Write the outline in a DXF file
################################################################
## write my_outline_for_cnc in a DXF file
print("Write the outlines in a DXF file with dxfwrite")
output_dxf_file_name = "{:s}/outlines_with_dxfwrite.dxf".format(l_output_dir)
dxf_figures = [my_outline_for_cnc, my_outline_for_cnc_rotated, my_circle] # figure = list of (format B) outlines
cnc25d_api.write_figure_in_dxf(dxf_figures, output_dxf_file_name)
################################################################
# Extrude the outline to make it 3D
################################################################
