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dip.py
157 lines (136 loc) · 4.03 KB
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dip.py
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import math
import cuflow as cu
T = cu.inches(0.1) # tenth on an inch, used throughout
class dip(cu.Part):
N2 = None
def place(self, dc):
self.chamfered(dc, self.width - T, T * (self.N / 2) + 2)
height = T * ((self.N // 2) - 1)
if self.N2 is None:
nps = [self.N // 2, self.N // 2]
else:
nps = self.N2
for np in nps:
dc.push()
dc.goxy(-self.width / 2, height / 2).left(180)
def gh():
dc.board.hole(dc.xy, .8)
p = dc.copy()
p.part = self.id
self.padfoot(p)
p.contact()
self.pads.append(dc.copy())
self.train(dc, np, gh, cu.inches(.1))
dc.pop()
dc.right(180)
def padfoot(self, p):
p.n_agon(0.8, 60)
class PTH(cu.Part):
r = .8
def gh(self, dc):
dc.board.hole(dc.xy, self.r)
p = dc.copy()
p.n_agon(self.r, 30)
p.contact()
p = dc.copy()
p.part = self.id
self.pads.append(p)
class hdr(PTH):
def place(self, dc):
height = T * ((self.N // 2) - 1)
for i in range(self.N // 2):
dc.push()
dc.goxy(-self.width / 2, height / 2 - T * i)
self.gh(dc)
dc.right(90).forward(self.width).left(90)
self.gh(dc)
dc.pop()
[p.setname(str(i + 1)) for (i, p) in enumerate(self.pads)]
for i in range(1, self.N + 1, 10):
nm = str(i)
pin = self.s(str(i)).copy().left(90).forward(2)
self.text(pin, nm)
class HDR40(hdr):
family = "J"
inBOM = False
width = cu.inches(0.1)
N = 40
def escape(self):
return
class HDR14(hdr):
family = "J"
inBOM = False
width = cu.inches(0.1)
N = 14
def escape(self):
return
class Screw2(hdr):
family = "J"
width = 5
N = 2
r = 1.2
def place(self, dc):
self.chamfered(dc, 10, 10)
hdr.place(self, dc)
def escape(self):
return
class Res10W(hdr):
family = "R"
width = 55
N = 2
r = 1.2
def place(self, dc):
self.chamfered(dc, 49, 13)
hdr.place(self, dc)
class ReedRelay(PTH):
family = "K"
def place(self, dc):
self.chamfered(dc, 5.08, 19.3)
dc.forward(3 * T).left(180)
self.train(dc, 4, lambda: self.gh(dc), 2 * T)
class Hdr_1_7(PTH):
family = "J"
N = 7
def place(self, dc):
self.chamfered(dc, T + 2, T * self.N + 2)
dc.forward(((self.N - 1) / 2) * T).left(180)
self.train(dc, self.N, lambda: self.gh(dc), T)
[p.setname(str(i + 1)) for (i, p) in enumerate(self.pads)]
class SIL(PTH):
family = "J"
def place(self, dc):
self.N = int(self.val)
# self.chamfered(dc, T + 2, T * self.N + 2)
dc.forward(((self.N - 1) / 2) * T).left(180)
self.train(dc, self.N, lambda: self.gh(dc), T)
[p.setname(str(i + 1)) for (i, p) in enumerate(self.pads)]
class SIL_o(PTH):
family = "J"
def place(self, dc):
self.N = int(self.val)
self.chamfered(dc, T, T * self.N)
dc.forward(((self.N - 1) / 2) * T).left(180)
self.train(dc, self.N, lambda: self.gh(dc), T)
[p.setname(str(i + 1)) for (i, p) in enumerate(self.pads)]
class DIP(PTH):
family = "U"
def place(self, dc):
self.chamfered(dc, 6.2, 9.2)
for _ in range(2):
dc.push()
dc.goxy(-1.5 * T, 1.5 * T).left(180)
self.train(dc, self.N // 2, lambda: self.gh(dc), cu.inches(.1))
dc.pop()
dc.right(180)
def escape(self):
ii = cu.inches(.1) / 2
q = math.sqrt((ii ** 2) + (ii ** 2))
for p in self.pads[:4]:
p.w("l 45").forward(q).left(45).forward(1)
for p in self.pads[4:]:
p.w("r 90 f 1")
oo = list(sum(zip(self.pads[4:], self.pads[:4]), ()))
cu.extend2(oo)
return oo
class DIP8(DIP):
N = 8