boxespy/boxes/generators/atreus21.py

197 lines
5.9 KiB
Python

"""Generator for a split atreus keyboard."""
from copy import deepcopy
from boxes import Boxes, Color, holeCol, restore, boolarg
from boxes.edges import FingerJointSettings
class Atreus21(Boxes):
"""Generator for a split atreus keyboard."""
ui_group = 'Misc'
btn_size = 15.6
btn_outer = btn_size + 3.4
border = 6
row_offsets=[3, 6, 11, 5, 0, btn_size * .5]
row_keys=[4, 4, 4, 4, 4, 1]
def __init__(self):
super().__init__()
self.argparser.add_argument(
'--top1_thickness', action='store', type=float, default=1.5,
help=('thickness of the button hold layer, cherry like switches '
'need 1.5mm or smaller to snap in')
)
self.argparser.add_argument(
'--top2_enable', action='store', type=boolarg, default=False,
help=('enables another top layer that can hold CPG151101S11 '
'sockets')
)
self.argparser.add_argument(
'--top2_thickness', action='store', type=float, default=1.5,
help=('thickness of the hotplug layer, CPG151101S11 sockets '
'need 1.2mm to 1.5mm')
)
self.addSettingsArgs(FingerJointSettings, surroundingspaces=1)
def render(self):
"""Renders the keypad."""
# deeper edge for top to add multiple layers
deep_edge = deepcopy(self.edges['f'].settings)
deep_edge.thickness = self.thickness + self.top1_thickness
if self.top2_enable:
deep_edge.thickness += self.top2_thickness
deep_edge.edgeObjects(self, 'gGH', True)
self.moveTo(10, 30)
case_x, case_y = self._case_x_y()
self.hole(0, 0, d=0.7)
for reverse in [False, True]:
# keyholder
self.outer()
self.half(reverse=reverse)
self.holes()
self.moveTo(case_x + 13)
# support
self.outer()
self.half(self.support, reverse=reverse)
self.holes()
self.moveTo(-case_x - 13, case_y + 13)
# hotplug
self.outer()
self.half(self.hotplug, reverse=reverse)
self.holes()
self.moveTo(case_x + 13)
# border
self.outer()
self.rim()
self.holes()
self.moveTo(-case_x - 13, case_y + 13)
def holes(self):
case_x, case_y = self._case_x_y()
self.hole(-1.5, -1.5, d=3)
self.hole(case_x + 1.5, -1.5, d=3)
self.hole(-1.5, case_y + 1.5, d=3)
self.hole(case_x + 1.5, case_y + 1.5, d=3)
def micro(self):
x = 17.9
y = 33
b = self.border
case_x, case_y = self._case_x_y()
self.rectangularHole(
x * -.5 + case_x + b * .5,
y * -.5 + case_y + b * .5,
x, y
)
def rim(self):
s = 5
x, y = self._case_x_y()
self.moveTo(x * .5, y * .5)
self.rectangularHole(0, 0, x, y, 5)
self.moveTo(x * -.5, y * -.5)
def outer(self):
x, y = self._case_x_y()
b = self.border
self.moveTo(0, -b)
corner = [90, b]
self.polyline(*([x, corner, y, corner] * 2))
self.moveTo(0, b)
def half(self, cb=None, reverse=False):
row_offsets=self.row_offsets
row_keys=self.row_keys
scheme = list(zip(row_offsets, row_keys))
if reverse:
scheme.reverse()
for offset, keys in scheme:
self.moveTo(0, offset)
self.key_row(keys, cb)
self.moveTo(self.btn_outer)
self.moveTo(0, -offset)
total_moved_rows = len(row_offsets) * (self.btn_outer)
self.moveTo(total_moved_rows * -1, 0)
def key_row(self, n, hole_cb=None):
"""Callback for the key holes."""
if hole_cb == None:
hole_cb = self.key
for _ in range(n):
hole_cb()
self.moveTo(0, -n * (self.btn_outer))
def support(self):
btn = [11.6, (-90, 2)] * 4
self.set_source_color(Color.BLUE)
self.moveTo(0, 2, 90)
self.polyline(*btn)
self.moveTo(-2, 0, 270)
self.moveTo(0, self.btn_outer)
self.set_source_color(Color.BLACK)
def hotplug(self):
self.moveTo(7.8 , 7.8)
self.hole(0, 0, d=4)
self.hole(1.27 * -3, 1.27 * 2, d=2.9)
self.hole(1.27 * 2, 1.27 * 4, d=2.9)
# pcb mounts
self.hole(1.27 * -4, 0, d=1.7)
self.hole(1.27 * 4, 0, d=1.7)
self.moveTo(-7.8, -7.8)
self.moveTo(0, self.btn_outer)
def key(self):
self.set_source_color(Color.BLUE)
# draw clock wise to work with burn correction
btn_half_side = [0.98, 90, 0.81, -90, 3.5, -90, 0.81, 90, 2.505]
btn_full_side = [*btn_half_side, 0, *btn_half_side[::-1]]
btn = [*btn_full_side, -90] * 4
self.moveTo(0.81, 0.81, 90)
self.polyline(*btn)
self.moveTo(0, 0, 270)
self.moveTo(-0.81, -0.81)
self.moveTo(0, self.btn_outer)
self.set_source_color(Color.BLACK)
# stolen form electronics-box
def wallx_cb(self):
"""Callback for triangle holes on x-side."""
x, _ = self._get_x_y()
t = self.thickness
self.fingerHolesAt(0, self.h - 1.5 * t, self.triangle, 0)
self.fingerHolesAt(x, self.h - 1.5 * t, self.triangle, 180)
# stolen form electronics-box
def wally_cb(self):
"""Callback for triangle holes on y-side."""
_, y = self._get_x_y()
t = self.thickness
self.fingerHolesAt(0, self.h - 1.5 * t, self.triangle, 0)
self.fingerHolesAt(y, self.h - 1.5 * t, self.triangle, 180)
# get case sizes
def _case_x_y(self):
x = len(self.row_offsets) * self.btn_outer - 4
y = sum([
max(self.row_keys) * self.btn_outer, # total button sizes
max(self.row_offsets), # offset of highest row
-4,
])
return x, y