def testChips(self):
for k in lib._chip_metric_dimensions.keys():
for p, n in self.PROFILES.items():
for polarized in (True, False):
name = 'chip_m_%s_%s' % (k, n)
name += 'P' if polarized else ''
fp = lib.chip(p, lib.metric(k), polarized)
self._check_svg(name, fp)
for k in lib._chip_imperial_dimensions.keys():
for p, n in self.PROFILES.items():
for polarized in (True, False):
name = 'chip_i_%s_%s' % (k, n)
name += 'P' if polarized else ''
fp = lib.chip(p, lib.imperial(k), polarized)
self._check_svg(name, fp)
from kidraw import footprint as fp
from kidraw import ipc
from kidraw.ipc import library as lib
metric = lambda s: ('metric', s, lib.metric(s))
imperial = lambda s: ('imperial', s, lib.imperial(s))
def test_point(size):
f = fp.Footprint(name='Test Point {0}mm'.format(size))
f.features = [fp.TestPad(name=1, size=(size, size))]
return f
def chip(size, polarized=False, profile=ipc.LandPatternSize.Nominal):
t, n, s = size
desc = '{0} ({1}) {2}chip device'.format(n, t, 'polarized ' if polarized else '')
f = fp.Footprint(name=n, description=desc)
c = lib.chip(profile, s, polarized)
f.from_ipc(c)
return f
def SOIC(A, B, L, T, W, num_pins, pitch=1.27, profile=ipc.LandPatternSize.Nominal):
f = fp.Footprint(name='{0}-SOIC'.format(num_pins),
description='{0}-pin SOIC'.format(num_pins))
f.from_ipc(lib.SOIC(profile, A, B, L, T, W, num_pins, pitch))
return f
def SOP(A, B, L, T, W, num_pins, pitch, profile=ipc.LandPatternSize.Nominal):
f = fp.Footprint(name='{0}-SOP'.format(num_pins),
description='{0}-pin SOP'.format(num_pins))
f.from_ipc(lib.SOP(profile, A, B, L, T, W, num_pins, pitch))
return f
