def generate_one_footprint(motel, params, options):
# Through-hole type shrouded header, Top entry type
footprint_name = params.file_name
calc_dim = dimensions(params)
body_top_left = [calc_dim.left_to_pin, params.back_to_pin]
body_bottom_right = v_add(body_top_left, [calc_dim.length, calc_dim.width])
silk_top_left = v_offset(body_top_left, options.silk_body_offset)
silk_bottom_right = v_offset(body_bottom_right, options.silk_body_offset)
center_x = (params.num_pins - 1) / 2.0 * params.pin_pitch
kicad_mod = Footprint(footprint_name)
kicad_mod.setDescription(generate_description(params))
kicad_mod.setTags(globalParams.manufacturer_tag + ' connector ' + model)
#add the pads
kicad_mod.append(Pad(number=1, type=Pad.TYPE_THT, shape=Pad.SHAPE_RECT,
at=[0, 0], size=[seriesParams.pin_Sx, seriesParams.pin_Sy], \
drill=seriesParams.drill, layers=globalParams.pin_layers))
for p in range(1, params.num_pins):
Y = 0
X = p * params.pin_pitch
num = p + 1
kicad_mod.append(Pad(number=num, type=Pad.TYPE_THT, shape=Pad.SHAPE_OVAL,
at=[X, Y], size=[seriesParams.pin_Sx, seriesParams.pin_Sy], \
drill=seriesParams.drill, layers=globalParams.pin_layers))
if params.mount_hole:
kicad_mod.append(Pad(number='""', type=Pad.TYPE_NPTH, shape=Pad.SHAPE_CIRCLE,
at=calc_dim.mount_hole_left, size=[seriesParams.mount_drill, seriesParams.mount_drill], \
drill=seriesParams.mount_drill, layers=globalParams.mount_hole_layers))
kicad_mod.append(Pad(number='""', type=Pad.TYPE_NPTH, shape=Pad.SHAPE_CIRCLE,
at=calc_dim.mount_hole_right, size=[seriesParams.mount_drill, seriesParams.mount_drill], \
drill=seriesParams.mount_drill, layers=globalParams.mount_hole_layers))
#add an outline around the pins
# create silscreen
if params.angled:
#kicad_mod.append(RectLine(start=silk_top_left, end=silk_bottom_right, layer='F.SilkS'))
kicad_mod.append(
Line(start=silk_top_left,
end=[silk_top_left[0], silk_bottom_right[1]],
layer='F.SilkS',
width=options.silk_line_width))
kicad_mod.append(
Line(start=[silk_top_left[0], silk_bottom_right[1]],
end=silk_bottom_right,
layer='F.SilkS',
width=options.silk_line_width))
kicad_mod.append(
Line(start=silk_bottom_right,
end=[silk_bottom_right[0], silk_top_left[1]],
layer='F.SilkS',
width=options.silk_line_width))
kicad_mod.append(
Line(start=silk_top_left,
end=[-seriesParams.silkGab, silk_top_left[1]],
layer='F.SilkS',
width=options.silk_line_width))
kicad_mod.append(Line(start=[silk_bottom_right[0], silk_top_left[1]], end=[(params.num_pins-1)*params.pin_pitch+seriesParams.silkGab, silk_top_left[1]],\
layer='F.SilkS', width=options.silk_line_width))
for p in range(params.num_pins - 1):
kicad_mod.append(Line(start=[p*params.pin_pitch+seriesParams.silkGab, silk_top_left[1]], \
end=[(p+1)*params.pin_pitch-seriesParams.silkGab, silk_top_left[1]], layer='F.SilkS', width=options.silk_line_width))
if options.with_fab_layer:
kicad_mod.append(
RectLine(start=body_top_left,
end=body_bottom_right,
layer='F.Fab',
width=options.fab_line_width))
left = silk_top_left[0] + (seriesParams.flange_lenght
if params.flanged else 0)
right = silk_bottom_right[0] - (seriesParams.flange_lenght
if params.flanged else 0)
scoreline_y = seriesParams.scoreline_from_back + params.back_to_pin
kicad_mod.append(
Line(start=[left, scoreline_y],
end=[right, scoreline_y],
layer='F.SilkS',
width=options.silk_line_width))
if options.inner_details_on_fab:
kicad_mod.append(
Line(start=[
left + (0 if params.flanged else options.silk_body_offset),
scoreline_y
],
end=[
right -
(0 if params.flanged else options.silk_body_offset),
scoreline_y
],
layer='F.Fab',
width=options.fab_line_width))
if params.flanged:
kicad_mod.append(
Line(start=[left, silk_top_left[1]],
end=[left, silk_bottom_right[1]],
layer='F.SilkS',
width=options.silk_line_width))
kicad_mod.append(
Line(start=[right, silk_top_left[1]],
end=[right, silk_bottom_right[1]],
layer='F.SilkS',
width=options.silk_line_width))
if options.inner_details_on_fab:
kicad_mod.append(
Line(start=[left, body_top_left[1]],
end=[left, body_bottom_right[1]],
layer='F.Fab',
width=options.fab_line_width))
kicad_mod.append(
Line(start=[right, body_top_left[1]],
end=[right, body_bottom_right[1]],
layer='F.Fab',
width=options.fab_line_width))
else:
if not params.flanged:
kicad_mod.append(
RectLine(start=silk_top_left,
end=silk_bottom_right,
layer='F.SilkS',
width=options.silk_line_width))
if options.with_fab_layer:
kicad_mod.append(
RectLine(start=body_top_left,
end=body_bottom_right,
layer='F.Fab',
width=options.fab_line_width))
else:
flange_cutout = calc_dim.width - calc_dim.flange_width
outline_poly = [{
'x': silk_top_left[0],
'y': silk_bottom_right[1]
}, {
'x': silk_bottom_right[0],
'y': silk_bottom_right[1]
}, {
'x': silk_bottom_right[0],
'y': silk_top_left[1] + flange_cutout
}, {
'x': silk_bottom_right[0] - seriesParams.flange_lenght,
'y': silk_top_left[1] + flange_cutout
}, {
'x': silk_bottom_right[0] - seriesParams.flange_lenght,
'y': silk_top_left[1]
}, {
'x': silk_top_left[0] + seriesParams.flange_lenght,
'y': silk_top_left[1]
}, {
'x': silk_top_left[0] + seriesParams.flange_lenght,
'y': silk_top_left[1] + flange_cutout
}, {
'x': silk_top_left[0],
'y': silk_top_left[1] + flange_cutout
}, {
'x': silk_top_left[0],
'y': silk_bottom_right[1]
}]
kicad_mod.append(
PolygoneLine(polygone=outline_poly,
layer='F.SilkS',
width=options.silk_line_width))
if options.with_fab_layer:
outline_poly = offset_polyline(outline_poly,
-options.silk_body_offset,
(center_x, 0))
kicad_mod.append(
PolygoneLine(polygone=outline_poly,
layer="F.Fab",
width=options.fab_line_width))
if params.flanged:
kicad_mod.append(
Circle(center=calc_dim.mount_hole_left,
radius=1.9,
layer='F.SilkS',
width=options.silk_line_width))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_right,
radius=1.9,
layer='F.SilkS',
width=options.silk_line_width))
if not params.mount_hole:
kicad_mod.append(
Circle(center=calc_dim.mount_hole_left,
radius=1,
layer='F.SilkS',
width=options.silk_line_width))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_right,
radius=1,
layer='F.SilkS',
width=options.silk_line_width))
if options.inner_details_on_fab:
kicad_mod.append(
Circle(center=calc_dim.mount_hole_left,
radius=1.9,
layer='F.Fab',
width=options.fab_line_width))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_right,
radius=1.9,
layer='F.Fab',
width=options.fab_line_width))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_left,
radius=1,
layer='F.Fab',
width=options.fab_line_width))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_right,
radius=1,
layer='F.Fab',
width=options.fab_line_width))
for i in range(params.num_pins):
plug_outline_translation = Translation(i * params.pin_pitch, 0)
plug_outline_poly = [{
'x': -seriesParams.plug_arc_len / 2.0,
'y': calc_dim.plug_front
}, {
'x': -seriesParams.plug_cut_len / 2.0,
'y': calc_dim.plug_front
}, {
'x':
-seriesParams.plug_cut_len / 2.0,
'y':
calc_dim.plug_front - seriesParams.plug_cut_width
}, {
'x':
-seriesParams.plug_seperator_distance / 2.0,
'y':
calc_dim.plug_front - seriesParams.plug_cut_width
}, {
'x':
-seriesParams.plug_seperator_distance / 2.0,
'y':
calc_dim.plug_back + seriesParams.plug_trapezoid_width
}, {
'x':
-seriesParams.plug_trapezoid_short / 2.0,
'y':
calc_dim.plug_back + seriesParams.plug_trapezoid_width
}, {
'x': -seriesParams.plug_trapezoid_long / 2.0,
'y': calc_dim.plug_back
}, {
'x': seriesParams.plug_trapezoid_long / 2.0,
'y': calc_dim.plug_back
}, {
'x':
seriesParams.plug_trapezoid_short / 2.0,
'y':
calc_dim.plug_back + seriesParams.plug_trapezoid_width
}, {
'x':
seriesParams.plug_seperator_distance / 2.0,
'y':
calc_dim.plug_back + seriesParams.plug_trapezoid_width
}, {
'x':
seriesParams.plug_seperator_distance / 2.0,
'y':
calc_dim.plug_front - seriesParams.plug_cut_width
}, {
'x':
seriesParams.plug_cut_len / 2.0,
'y':
calc_dim.plug_front - seriesParams.plug_cut_width
}, {
'x': seriesParams.plug_cut_len / 2.0,
'y': calc_dim.plug_front
}, {
'x': seriesParams.plug_arc_len / 2.0,
'y': calc_dim.plug_front
}]
plug_outline_translation.append(
PolygoneLine(polygone=plug_outline_poly,
layer='F.SilkS',
width=options.silk_line_width))
plug_outline_translation.append(
Arc(start=[
-seriesParams.plug_arc_len / 2.0, calc_dim.plug_front
],
center=[0, calc_dim.plug_front + 1.7],
angle=47.6,
layer='F.SilkS',
width=options.silk_line_width))
if options.inner_details_on_fab:
plug_outline_translation.append(
PolygoneLine(polygone=plug_outline_poly,
layer="F.Fab",
width=options.fab_line_width))
plug_outline_translation.append(
Arc(start=[
-seriesParams.plug_arc_len / 2.0, calc_dim.plug_front
],
center=[0, calc_dim.plug_front + 1.7],
angle=47.6,
layer="F.Fab",
width=options.fab_line_width))
kicad_mod.append(plug_outline_translation)
if params.mount_hole:
kicad_mod.append(
Circle(center=calc_dim.mount_hole_left,
radius=seriesParams.mount_screw_head_r +
options.silk_body_offset,
layer='B.SilkS',
width=options.silk_line_width))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_right,
radius=seriesParams.mount_screw_head_r +
options.silk_body_offset,
layer='B.SilkS',
width=options.silk_line_width))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_right,
radius=seriesParams.mount_screw_head_r,
layer='B.Fab',
width=options.fab_line_width))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_left,
radius=seriesParams.mount_screw_head_r,
layer='B.Fab',
width=options.fab_line_width))
################################################## Courtyard ##################################################
if params.angled:
crtyd_top_left = v_offset([silk_top_left[0], -seriesParams.pin_Sy / 2],
options.courtyard_distance)
else:
crtyd_top_left = v_offset(body_top_left, options.courtyard_distance)
crtyd_bottom_right = v_offset(body_bottom_right,
options.courtyard_distance)
kicad_mod.append(
RectLine(start=round_crty_point(crtyd_top_left,
options.courtyard_grid),
end=round_crty_point(crtyd_bottom_right,
options.courtyard_grid),
layer='F.CrtYd',
width=options.courtyard_line_width))
if params.mount_hole and options.courtyard_for_mountscrews:
kicad_mod.append(
Circle(center=calc_dim.mount_hole_right,
radius=seriesParams.mount_screw_head_r +
options.courtyard_distance,
layer='B.CrtYd',
width=options.courtyard_line_width))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_left,
radius=seriesParams.mount_screw_head_r +
options.courtyard_distance,
layer='B.CrtYd',
width=options.courtyard_line_width))
################################################# Text Fields #################################################
silk_ref_pos = [
center_x + (0 if params.num_pins > 2 else 1),
crtyd_top_left[1] - options.main_ref_fontsize[1] / 2.0
]
fab_ref_pos = [
center_x, (3 if params.angled else -3)
if options.use_second_ref else silk_ref_pos[1]
]
value_pos = [
center_x, silk_bottom_right[1] - 0.5 - options.value_fontsize[1] / 2.0
if options.value_inside else crtyd_bottom_right[1] +
options.value_fontsize[1] / 2.0
]
kicad_mod.append(
Text(type='reference',
text='REF**',
layer=('F.SilkS' if options.main_ref_on_silk else 'F.Fab'),
at=(silk_ref_pos if options.main_ref_on_silk else fab_ref_pos),
size=options.main_ref_fontsize,
thickness=options.main_ref_fontwidth))
if options.use_second_ref:
kicad_mod.append(
Text(
type='user',
text='%R',
layer=('F.SilkS' if not options.main_ref_on_silk else 'F.Fab'),
at=(silk_ref_pos
if not options.main_ref_on_silk else fab_ref_pos)))
kicad_mod.append(
Text(type='value',
text=footprint_name,
layer='F.Fab',
at=value_pos,
size=options.value_fontsize,
thickness=options.value_fontwidth))
################################################# Pin 1 Marker #################################################
if not params.angled:
pin1_marker_poly = create_pin1_marker_corner(
crtyd_top_left[1], body_top_left[0] - options.courtyard_distance +
(seriesParams.flange_lenght if params.flanged else 0), [2, 1.25])
kicad_mod.append(
PolygoneLine(polygone=pin1_marker_poly,
layer='F.SilkS',
width=options.silk_line_width))
if options.with_fab_layer:
kicad_mod.append(
PolygoneLine(polygone=pin1_marker_poly,
layer='F.Fab',
width=options.fab_line_width))
else:
kicad_mod.append(
PolygoneLine(
polygone=create_pin1_marker_triangle(-seriesParams.pin_Sy / 2 -
0.2),
layer='F.SilkS',
width=options.silk_line_width))
if options.with_fab_layer:
kicad_mod.append(
PolygoneLine(polygone=create_pin1_marker_triangle(
bottom_y=0,
dimensions=[seriesParams.pin_Sx - 0.2, -body_top_left[1]],
with_top_line=False),
layer='F.Fab',
width=options.fab_line_width))
#################################################### 3d file ###################################################
p3dname = options.packages_3d + footprint_name + ".wrl"
kicad_mod.append(
Model(filename=p3dname,
at=[0, 0, 0],
scale=[1, 1, 1],
rotate=[0, 0, 0]))
file_handler = KicadFileHandler(kicad_mod)
file_handler.writeFile(options.out_dir + footprint_name + ".kicad_mod")
m ='MCV_01x02_GF_5.08mm_MH'
#to_generate = {m:all_params[m]}
to_generate=all_params
if not os.path.exists(out_dir):
os.makedirs(out_dir)
for model, params in to_generate.iteritems():
# Through-hole type shrouded header, Top entry type
footprint_name = params.file_name
calc_dim = dimensions(params)
body_top_left=[calc_dim.left_to_pin,params.back_to_pin]
body_bottom_right=v_add(body_top_left,[calc_dim.length,calc_dim.width])
silk_top_left=v_offset(body_top_left, globalParams.silk_body_offset)
silk_bottom_right=v_offset(body_bottom_right, globalParams.silk_body_offset)
center_x = (params.num_pins-1)/2.0*params.pin_pitch
kicad_mod = Footprint(footprint_name)
kicad_mod.setDescription(generate_description(params))
kicad_mod.setTags(generate_keyword_str(model))
#add the pads
kicad_mod.append(Pad(number=1, type=Pad.TYPE_THT, shape=Pad.SHAPE_RECT,
at=[0, 0], size=[seriesParams.pin_Sx, seriesParams.pin_Sy], \
def generate_one_footprint(motel, params, configuration):
# Through-hole type shrouded header, Top entry type
subseries, connector_style = params.series_name.split('-')
pitch_mpn = '-{:g}'.format(params.pin_pitch)
lib_name = configuration['lib_name_format_str'].format(
series=series[0], style=series[1], pitch=params.pin_pitch)
mpn = configuration['mpn_format_string'].format(subseries=subseries,
style=connector_style,
rating=series[1],
num_pins=params.num_pins,
pitch=pitch_mpn)
footprint_name = configuration['fp_name_format_string'].format(
man=configuration['manufacturer'],
series=series[0],
mpn=mpn,
num_rows=1,
num_pins=params.num_pins,
pitch=params.pin_pitch,
orientation=configuration['orientation_str'][1]
if params.angled else configuration['orientation_str'][0],
flanged=configuration['flanged_str'][1]
if params.flanged else configuration['flanged_str'][0],
mount_hole=configuration['mount_hole_str'][1]
if params.mount_hole else configuration['mount_hole_str'][0])
calc_dim = dimensions(params)
body_top_left = [calc_dim.left_to_pin, params.back_to_pin]
body_bottom_right = v_add(body_top_left, [calc_dim.length, calc_dim.width])
silk_top_left = v_offset(body_top_left, configuration['silk_fab_offset'])
silk_bottom_right = v_offset(body_bottom_right,
configuration['silk_fab_offset'])
center_x = (params.num_pins - 1) / 2.0 * params.pin_pitch
kicad_mod = Footprint(footprint_name)
body_edge = {
'left': body_top_left[0],
'top': body_top_left[1],
'right': body_bottom_right[0],
'bottom': body_bottom_right[1],
}
mpn = configuration['mpn_format_string_description'].format(
subseries=subseries,
style=connector_style,
rating=series[1],
num_pins=params.num_pins,
pitch=pitch_mpn)
kicad_mod.setDescription(generate_description(params, mpn))
kicad_mod.setTags(configuration['keywords_format_string'].format(
mpn=mpn, param_name=model, order_info=', '.join(params.order_info)))
#add the pads
kicad_mod.append(Pad(number=1, type=Pad.TYPE_THT, shape=Pad.SHAPE_RECT,
at=[0, 0], size=[params.pin_Sx, params.pin_Sy], \
drill=seriesParams.drill, layers=configuration['pin_layers']))
for p in range(1, params.num_pins):
Y = 0
X = p * params.pin_pitch
num = p + 1
kicad_mod.append(Pad(number=num, type=Pad.TYPE_THT, shape=Pad.SHAPE_OVAL,
at=[X, Y], size=[params.pin_Sx, params.pin_Sy], \
drill=seriesParams.drill, layers=configuration['pin_layers']))
if params.mount_hole:
kicad_mod.append(Pad(number='""', type=Pad.TYPE_NPTH, shape=Pad.SHAPE_CIRCLE,
at=calc_dim.mount_hole_left, size=[seriesParams.mount_drill, seriesParams.mount_drill], \
drill=seriesParams.mount_drill, layers=configuration['mount_hole_layers']))
kicad_mod.append(Pad(number='""', type=Pad.TYPE_NPTH, shape=Pad.SHAPE_CIRCLE,
at=calc_dim.mount_hole_right, size=[seriesParams.mount_drill, seriesParams.mount_drill], \
drill=seriesParams.mount_drill, layers=configuration['mount_hole_layers']))
#add an outline around the pins
# create silscreen
if params.angled:
#kicad_mod.append(RectLine(start=silk_top_left, end=silk_bottom_right, layer='F.SilkS'))
silkGab = params.pin_Sx / 2.0 + seriesParams.silk_pad_clearance
kicad_mod.append(
Line(start=silk_top_left,
end=[silk_top_left[0], silk_bottom_right[1]],
layer='F.SilkS',
width=configuration['silk_line_width']))
kicad_mod.append(
Line(start=[silk_top_left[0], silk_bottom_right[1]],
end=silk_bottom_right,
layer='F.SilkS',
width=configuration['silk_line_width']))
kicad_mod.append(
Line(start=silk_bottom_right,
end=[silk_bottom_right[0], silk_top_left[1]],
layer='F.SilkS',
width=configuration['silk_line_width']))
kicad_mod.append(
Line(start=silk_top_left,
end=[-silkGab, silk_top_left[1]],
layer='F.SilkS',
width=configuration['silk_line_width']))
kicad_mod.append(Line(start=[silk_bottom_right[0], silk_top_left[1]], end=[(params.num_pins-1)*params.pin_pitch+silkGab, silk_top_left[1]],\
layer='F.SilkS', width=configuration['silk_line_width']))
for p in range(params.num_pins - 1):
kicad_mod.append(Line(start=[p*params.pin_pitch+silkGab, silk_top_left[1]], \
end=[(p+1)*params.pin_pitch-silkGab, silk_top_left[1]], layer='F.SilkS', width=configuration['silk_line_width']))
if configuration['with_fab_layer']:
kicad_mod.append(
RectLine(start=body_top_left,
end=body_bottom_right,
layer='F.Fab',
width=configuration['fab_line_width']))
left = silk_top_left[0] + (seriesParams.flange_lenght
if params.flanged else 0)
right = silk_bottom_right[0] - (seriesParams.flange_lenght
if params.flanged else 0)
scoreline_y = seriesParams.scoreline_from_back + params.back_to_pin
kicad_mod.append(
Line(start=[left, scoreline_y],
end=[right, scoreline_y],
layer='F.SilkS',
width=configuration['silk_line_width']))
if configuration['inner_details_on_fab']:
kicad_mod.append(
Line(start=[
left + (0 if params.flanged else
configuration['silk_fab_offset']), scoreline_y
],
end=[
right - (0 if params.flanged else
configuration['silk_fab_offset']),
scoreline_y
],
layer='F.Fab',
width=configuration['fab_line_width']))
if params.flanged:
kicad_mod.append(
Line(start=[left, silk_top_left[1]],
end=[left, silk_bottom_right[1]],
layer='F.SilkS',
width=configuration['silk_line_width']))
kicad_mod.append(
Line(start=[right, silk_top_left[1]],
end=[right, silk_bottom_right[1]],
layer='F.SilkS',
width=configuration['silk_line_width']))
if configuration['inner_details_on_fab']:
kicad_mod.append(
Line(start=[left, body_top_left[1]],
end=[left, body_bottom_right[1]],
layer='F.Fab',
width=configuration['fab_line_width']))
kicad_mod.append(
Line(start=[right, body_top_left[1]],
end=[right, body_bottom_right[1]],
layer='F.Fab',
width=configuration['fab_line_width']))
else:
if not params.flanged:
kicad_mod.append(
RectLine(start=silk_top_left,
end=silk_bottom_right,
layer='F.SilkS',
width=configuration['silk_line_width']))
if configuration['with_fab_layer']:
kicad_mod.append(
RectLine(start=body_top_left,
end=body_bottom_right,
layer='F.Fab',
width=configuration['fab_line_width']))
else:
flange_cutout = calc_dim.width - calc_dim.flange_width
outline_poly = [{
'x': silk_top_left[0],
'y': silk_bottom_right[1]
}, {
'x': silk_bottom_right[0],
'y': silk_bottom_right[1]
}, {
'x': silk_bottom_right[0],
'y': silk_top_left[1] + flange_cutout
}, {
'x': silk_bottom_right[0] - seriesParams.flange_lenght,
'y': silk_top_left[1] + flange_cutout
}, {
'x': silk_bottom_right[0] - seriesParams.flange_lenght,
'y': silk_top_left[1]
}, {
'x': silk_top_left[0] + seriesParams.flange_lenght,
'y': silk_top_left[1]
}, {
'x': silk_top_left[0] + seriesParams.flange_lenght,
'y': silk_top_left[1] + flange_cutout
}, {
'x': silk_top_left[0],
'y': silk_top_left[1] + flange_cutout
}, {
'x': silk_top_left[0],
'y': silk_bottom_right[1]
}]
kicad_mod.append(
PolygoneLine(polygone=outline_poly,
layer='F.SilkS',
width=configuration['silk_line_width']))
if configuration['with_fab_layer']:
outline_poly = offset_polyline(
outline_poly, -configuration['silk_fab_offset'],
(center_x, 0))
kicad_mod.append(
PolygoneLine(polygone=outline_poly,
layer="F.Fab",
width=configuration['fab_line_width']))
if params.flanged:
kicad_mod.append(
Circle(center=calc_dim.mount_hole_left,
radius=1.9,
layer='F.SilkS',
width=configuration['silk_line_width']))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_right,
radius=1.9,
layer='F.SilkS',
width=configuration['silk_line_width']))
if not params.mount_hole:
kicad_mod.append(
Circle(center=calc_dim.mount_hole_left,
radius=1,
layer='F.SilkS',
width=configuration['silk_line_width']))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_right,
radius=1,
layer='F.SilkS',
width=configuration['silk_line_width']))
if configuration['inner_details_on_fab']:
kicad_mod.append(
Circle(center=calc_dim.mount_hole_left,
radius=1.9,
layer='F.Fab',
width=configuration['fab_line_width']))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_right,
radius=1.9,
layer='F.Fab',
width=configuration['fab_line_width']))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_left,
radius=1,
layer='F.Fab',
width=configuration['fab_line_width']))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_right,
radius=1,
layer='F.Fab',
width=configuration['fab_line_width']))
for i in range(params.num_pins):
plug_outline_translation = Translation(i * params.pin_pitch, 0)
plug_outline_poly = [{
'x': -seriesParams.plug_arc_len / 2.0,
'y': calc_dim.plug_front
}, {
'x': -seriesParams.plug_cut_len / 2.0,
'y': calc_dim.plug_front
}, {
'x':
-seriesParams.plug_cut_len / 2.0,
'y':
calc_dim.plug_front - seriesParams.plug_cut_width
}, {
'x':
-seriesParams.plug_seperator_distance / 2.0,
'y':
calc_dim.plug_front - seriesParams.plug_cut_width
}, {
'x':
-seriesParams.plug_seperator_distance / 2.0,
'y':
calc_dim.plug_back + seriesParams.plug_trapezoid_width
}, {
'x':
-seriesParams.plug_trapezoid_short / 2.0,
'y':
calc_dim.plug_back + seriesParams.plug_trapezoid_width
}, {
'x': -seriesParams.plug_trapezoid_long / 2.0,
'y': calc_dim.plug_back
}, {
'x': seriesParams.plug_trapezoid_long / 2.0,
'y': calc_dim.plug_back
}, {
'x':
seriesParams.plug_trapezoid_short / 2.0,
'y':
calc_dim.plug_back + seriesParams.plug_trapezoid_width
}, {
'x':
seriesParams.plug_seperator_distance / 2.0,
'y':
calc_dim.plug_back + seriesParams.plug_trapezoid_width
}, {
'x':
seriesParams.plug_seperator_distance / 2.0,
'y':
calc_dim.plug_front - seriesParams.plug_cut_width
}, {
'x':
seriesParams.plug_cut_len / 2.0,
'y':
calc_dim.plug_front - seriesParams.plug_cut_width
}, {
'x': seriesParams.plug_cut_len / 2.0,
'y': calc_dim.plug_front
}, {
'x': seriesParams.plug_arc_len / 2.0,
'y': calc_dim.plug_front
}]
plug_outline_translation.append(
PolygoneLine(polygone=plug_outline_poly,
layer='F.SilkS',
width=configuration['silk_line_width']))
plug_outline_translation.append(
Arc(start=[
-seriesParams.plug_arc_len / 2.0, calc_dim.plug_front
],
center=[0, calc_dim.plug_front + 1.7],
angle=47.6,
layer='F.SilkS',
width=configuration['silk_line_width']))
if configuration['inner_details_on_fab']:
plug_outline_translation.append(
PolygoneLine(polygone=plug_outline_poly,
layer="F.Fab",
width=configuration['fab_line_width']))
plug_outline_translation.append(
Arc(start=[
-seriesParams.plug_arc_len / 2.0, calc_dim.plug_front
],
center=[0, calc_dim.plug_front + 1.7],
angle=47.6,
layer="F.Fab",
width=configuration['fab_line_width']))
kicad_mod.append(plug_outline_translation)
if params.mount_hole:
kicad_mod.append(
Circle(center=calc_dim.mount_hole_left,
radius=seriesParams.mount_screw_head_r +
configuration['silk_fab_offset'],
layer='B.SilkS',
width=configuration['silk_line_width']))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_right,
radius=seriesParams.mount_screw_head_r +
configuration['silk_fab_offset'],
layer='B.SilkS',
width=configuration['silk_line_width']))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_right,
radius=seriesParams.mount_screw_head_r,
layer='B.Fab',
width=configuration['fab_line_width']))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_left,
radius=seriesParams.mount_screw_head_r,
layer='B.Fab',
width=configuration['fab_line_width']))
################################################## Courtyard ##################################################
if params.angled:
crtyd_top_left = v_offset(
[silk_top_left[0], -params.pin_Sy / 2],
configuration['courtyard_offset']['connector'])
else:
crtyd_top_left = v_offset(
body_top_left, configuration['courtyard_offset']['connector'])
crtyd_bottom_right = v_offset(
body_bottom_right, configuration['courtyard_offset']['connector'])
kicad_mod.append(
RectLine(start=round_crty_point(crtyd_top_left,
configuration['courtyard_grid']),
end=round_crty_point(crtyd_bottom_right,
configuration['courtyard_grid']),
layer='F.CrtYd',
width=configuration['courtyard_line_width']))
if params.mount_hole and configuration['courtyard_for_mountscrews']:
kicad_mod.append(
Circle(center=calc_dim.mount_hole_right,
radius=seriesParams.mount_screw_head_r +
configuration['courtyard_offset']['connector'],
layer='B.CrtYd',
width=configuration['courtyard_line_width']))
kicad_mod.append(
Circle(center=calc_dim.mount_hole_left,
radius=seriesParams.mount_screw_head_r +
configuration['courtyard_offset']['connector'],
layer='B.CrtYd',
width=configuration['courtyard_line_width']))
################################################# Text Fields #################################################
addTextFields(kicad_mod=kicad_mod,
configuration=configuration,
body_edges=body_edge,
courtyard={
'top': crtyd_top_left[1],
'bottom': crtyd_bottom_right[1]
},
fp_name=footprint_name,
text_y_inside_position='top')
################################################# Pin 1 Marker #################################################
if not params.angled:
pin1_marker_poly = create_pin1_marker_corner(
crtyd_top_left[1],
body_top_left[0] - configuration['courtyard_offset']['connector'] +
(seriesParams.flange_lenght if params.flanged else 0), [2, 1.25])
kicad_mod.append(
PolygoneLine(polygone=pin1_marker_poly,
layer='F.SilkS',
width=configuration['silk_line_width']))
if configuration['with_fab_layer']:
kicad_mod.append(
PolygoneLine(polygone=pin1_marker_poly,
layer='F.Fab',
width=configuration['fab_line_width']))
else:
kicad_mod.append(
PolygoneLine(
polygone=create_pin1_marker_triangle(-params.pin_Sy / 2 - 0.2),
layer='F.SilkS',
width=configuration['silk_line_width']))
if configuration['with_fab_layer']:
kicad_mod.append(
PolygoneLine(polygone=create_pin1_marker_triangle(
bottom_y=0,
dimensions=[params.pin_Sx - 0.2, -body_top_left[1]],
with_top_line=False),
layer='F.Fab',
width=configuration['fab_line_width']))
#################################################### 3d file ###################################################
p3dname = '{prefix:s}{lib_name:s}.3dshapes/{fp_name}.wrl'.format(
prefix=configuration.get('3d_model_prefix', '${KISYS3DMOD}/'),
lib_name=lib_name,
fp_name=footprint_name)
kicad_mod.append(
Model(filename=p3dname,
at=[0, 0, 0],
scale=[1, 1, 1],
rotate=[0, 0, 0]))
file_handler = KicadFileHandler(kicad_mod)
out_dir = '{:s}.pretty/'.format(lib_name)
if not os.path.exists(out_dir):
os.makedirs(out_dir)
file_handler.writeFile('{:s}.pretty/{:s}.kicad_mod'.format(
lib_name, footprint_name))
from mc_params import seriesParams, dimensions, generate_description, all_params
m = 'MCV_01x02_GF_5.08mm_MH'
#to_generate = {m:all_params[m]}
to_generate = all_params
if not os.path.exists(out_dir):
os.makedirs(out_dir)
for model, params in to_generate.iteritems():
# Through-hole type shrouded header, Top entry type
footprint_name = params.file_name
calc_dim = dimensions(params)
body_top_left = [calc_dim.left_to_pin, params.back_to_pin]
body_bottom_right = v_add(body_top_left, [calc_dim.length, calc_dim.width])
silk_top_left = v_offset(body_top_left, globalParams.silk_body_offset)
silk_bottom_right = v_offset(body_bottom_right,
globalParams.silk_body_offset)
center_x = (params.num_pins - 1) / 2.0 * params.pin_pitch
kicad_mod = Footprint(footprint_name)
kicad_mod.setDescription(generate_description(params))
kicad_mod.setTags(generate_keyword_str(model))
#add the pads
kicad_mod.append(Pad(number=1, type=Pad.TYPE_THT, shape=Pad.SHAPE_RECT,
at=[0, 0], size=[seriesParams.pin_Sx, seriesParams.pin_Sy], \
