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#
# This work may be reproduced, modified, distributed,
# performed, and displayed for any purpose, but must
# acknowledge this project. Copyright is retained and
# must be preserved. The work is provided as is; no
# warranty is provided, and users accept all liability.
#
############################################################
# uncomment for desired output
############################################################
output = "top, labels, and exterior"
#output = "top, labels, holes, and exterior"
#output = "bottom traces reversed and exterior"
#output = "holes"
############################################################
############################################################
############################################################
############################################################
# circle(x,y,r)
# cylinder(x,y,z0,z1,r)
# cone(x,y,z0,z1,r)
# sphere(x,y,z,r)
# torus(x,y,z,r0,r1)
# rectangle(x0,x1,y0,y1)
# cube(x0,x1,y0,y1,z0,z1)
# line(x0,y0,x1,y1,z,width)
# right_triangle(x,y,h)
# triangle(x0,y0,x1,y1,x2,y2) (points in clockwise order)
# pyramid(x0,x1,y0,y1,z0,z1)
# function(Z_of_XY)
# functions(upper_Z_of_XY,lower_Z_of_XY)
# add(part1,part2)
# subtract(part1,part2)
# intersect(part1,part2)
# move(part,dx,dy)
# translate(part,dx,dy,dz)
# rotate(part, angle)
# rotate_x(part,angle)
# rotate_y(part,angle)
# rotate_z(part,angle)
# rotate_90(part)
# rotate_180(part)
# rotate_270(part)
# reflect_x(part,x0)
# reflect_y(part,y0)
# reflect_z(part,z0)
# reflect_xy(part)
# reflect_xz(part)
# reflect_yz(part)
# scale_x(part,x0,sx)
# scale_y(part,y0,sy)
# scale_z(part,z0,sz)
# scale_xy(part,x0,y0,sxy)
# scale_xyz(part,x0,y0,z0,sxyz)
# coscale_x_y(part,x0,y0,y1,angle0,angle1,amplitude,offset)
# coscale_x_z(part,x0,z0 z1,angle0,angle1,amplitude,offset)
# coscale_xy_z(part,x0,y0,z0,z1,angle0,angle1,amplitude,offset)
# taper_x_y(part,x0,y0,y1,s0,s1)
# taper_x_z(part,x0,z0,z1,s0,s1)
# taper_xy_z(part,x0,y0,z0,z1,s0,s1)
# shear_x_y(part,y0,y1,dx0,dx1)
# shear_x_z(part,z0,z1,dx0,dx1)
part = '('+str(color)+'*(('+part+')!=0))'
return part
Red = (225 << 0)
Green = (225 << 8)
Blue = (225 << 16)
Gray = (128 << 16) + (128 << 8) + (128 << 0)
White = (255 << 16) + (255 << 8) + (255 << 0)
Teal = (255 << 16) + (255 << 8)
Pink = (255 << 16) + (255 << 0)
Yellow = (255 << 8) + (255 << 0)
Brown = (45 << 16) + (82 << 8) + (145 << 0)
Navy = (128 << 16) + (0 << 8) + (0 << 0)
Tan = (60 << 16) + (90 << 8) + (125 << 0)
part = "(((X-(x0))*(X-(x0)) + (Y-(y0))*(Y-(y0))) <= (r*r))"
part = part.replace('x0',str(x0))
part = part.replace('y0',str(y0))
part = part.replace('r',str(r))
return part
part = "(((X-(x0))*(X-(x0)) + (Y-(y0))*(Y-(y0)) <= (r*r)) & (Z >= (z0)) & (Z <= (z1)))"
part = part.replace('x0',str(x0))
part = part.replace('y0',str(y0))
part = part.replace('z0',str(z0))
part = part.replace('z1',str(z1))
part = part.replace('r',str(r))
return part
part = cylinder(x0, y0, z0, z1, r0)
part = taper_xy_z(part, x0, y0, z0, z1, 1.0, 0.0)
return part
part = "(((X-(x0))*(X-(x0)) + (Y-(y0))*(Y-(y0)) + (Z-(z0))*(Z-(z0))) <= (r*r))"
part = part.replace('x0',str(x0))
part = part.replace('y0',str(y0))
part = part.replace('z0',str(z0))
part = part.replace('r',str(r))
return part
part = "(((r0 - sqrt((X-(x0))*(X-(x0)) + (Y-(y0))*(Y-(y0))))*(r0 - sqrt((X-(x0))*(X-(x0)) + (Y-(y0))*(Y-(y0))) + (Z-(z0))*(Z-(z0))) <= (r1*r1))"
part = part.replace('x0',str(x0))
part = part.replace('y0',str(y0))
part = part.replace('z0',str(z0))
part = part.replace('r0',str(r0))
part = part.replace('r1',str(r1))
return part
part = "((X >= (x0)) & (X <= (x1)) & (Y >= (y0)) & (Y <= (y1)))"
part = part.replace('x0',str(x0))
part = part.replace('x1',str(x1))
part = part.replace('y0',str(y0))
part = part.replace('y1',str(y1))
return part
part = "((X >= (x0)) & (X <= (x1)) & (Y >= (y0)) & (Y <= (y1)) & (Z >= (z0)) & (Z <= (z1)))"
part = part.replace('x0',str(x0))
part = part.replace('x1',str(x1))
part = part.replace('y0',str(y0))
part = part.replace('y1',str(y1))
part = part.replace('z0',str(z0))
part = part.replace('z1',str(z1))
return part
def line(x0,y0,x1,y1,z,width):
dx = x1-x0
dy = y1-y0
l = math.sqrt(dx*dx+dy*dy)
nx = dx/l
ny = dy/l
rx = -ny
ry = nx
roundoff = 1e-6
part = "((((X-(x0))*(nx)+(Y-(y0))*(ny)) >= 0) & (((X-(x0))*(nx)+(Y-(y0))*(ny)) <= l) & (((X-(x0))*(rx)+(Y-(y0))*(ry)) >= (-width/2)) & (((X-(x0))*(rx)+(Y-(y0))*(ry)) <= (width/2)) & (Z > (z-roundoff)) & (Z < (z+roundoff)))"
part = part.replace('x0',str(x0))
part = part.replace('x1',str(x1))
part = part.replace('y0',str(y0))
part = part.replace('y1',str(y1))
part = part.replace('nx',str(nx))
part = part.replace('ny',str(ny))
part = part.replace('rx',str(rx))
part = part.replace('ry',str(ry))
part = part.replace('l',str(l))
part = part.replace('z',str(z))
part = part.replace('roundoff',str(roundoff))
part = part.replace('width',str(width))
return part
def right_triangle(x0,y0,l):
part = "((X > x0) & (X < x0 + l - (Y-y0)) & (Y > y0))"
part = part.replace('x0',str(x0))
part = part.replace('y0',str(y0))
part = part.replace('l',str(l))
return part
def triangle(x0,y0,x1,y1,x2,y2): # points in clockwise order
part = "(((((y1)-(y0))*(X-(x0))-((x1)-(x0))*(Y-(y0))) >= 0) & ((((y2)-(y1))*(X-(x1))-((x2)-(x1))*(Y-(y1))) >= 0) & ((((y0)-(y2))*(X-(x2))-((x0)-(x2))*(Y-(y2))) >= 0))"
part = part.replace('x0',str(x0))
part = part.replace('y0',str(y0))
part = part.replace('x1',str(x1))
part = part.replace('y1',str(y1))
part = part.replace('x2',str(x2))
part = part.replace('y2',str(y2))
return part
part = cube(x0, x1, y0, y1, z0, z1)
part = taper_xy_z(part, (x0+x1)/2., (y0+y1)/2., z0, z1, 1.0, 0.0)
return part
def function(Z_of_XY):
part = '(Z <= '+Z_of_XY+')'
return part
def functions(upper_Z_of_XY,lower_Z_of_XY):
part = '(Z <= '+upper_Z_of_XY+') & (Z >= '+lower_Z_of_XY+')'
return part
part = "part1 | part2"
part = part.replace('part1',part1)
part = part.replace('part2',part2)
return part
part = "(part1) & ~(part2)"
part = part.replace('part1',part1)
part = part.replace('part2',part2)
return part
part = "(part1) & (part2)"
part = part.replace('part1',part1)
part = part.replace('part2',part2)
return part
def move(part,dx,dy):
part = part.replace('X','(X-('+str(dx)+'))')
part = part.replace('Y','(Y-('+str(dy)+'))')
return part
def translate(part,dx,dy,dz):
part = part.replace('X','(X-('+str(dx)+'))')
part = part.replace('Y','(Y-('+str(dy)+'))')
part = part.replace('Z','(Z-('+str(dz)+'))')
return part
angle = angle*math.pi/180
part = part.replace('X','(math.cos(angle)*X+math.sin(angle)*y)')
part = part.replace('Y','(-math.sin(angle)*X+math.cos(angle)*y)')
part = part.replace('y','Y')
part = part.replace('angle',str(angle))
return part
angle = angle*math.pi/180
part = part.replace('Y','(math.cos(angle)*Y+math.sin(angle)*z)')
part = part.replace('Z','(-math.sin(angle)*Y+math.cos(angle)*z)')
part = part.replace('z','Z')
part = part.replace('angle',str(angle))
return part
angle = angle*math.pi/180
part = part.replace('X','(math.cos(angle)*X+math.sin(angle)*z)')
part = part.replace('Z','(-math.sin(angle)*X+math.cos(angle)*z)')
part = part.replace('z','Z')
part = part.replace('angle',str(angle))
return part
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angle = angle*math.pi/180
part = part.replace('X','(math.cos(angle)*X+math.sin(angle)*y)')
part = part.replace('Y','(-math.sin(angle)*X+math.cos(angle)*y)')
part = part.replace('y','Y')
part = part.replace('angle',str(angle))
return part
def rotate_90(part):
part = reflect_y(part,0)
part = reflect_xy(part)
return part
def rotate_180(part):
part = rotate_90(part)
part = rotate_90(part)
return part
def rotate_270(part):
part = rotate_90(part)
part = rotate_90(part)
part = rotate_90(part)
return part
def reflect_x(part,x0):
part = part.replace('X','(x0-X)')
part = part.replace('x0',str(x0))
return part
def reflect_y(part,y0):
part = part.replace('Y','(y0-Y)')
part = part.replace('y0',str(y0))
return part
def reflect_z(part,z0):
part = part.replace('Z','(z0-Z)')
part = part.replace('z0',str(z0))
return part
def reflect_xy(part):
part = part.replace('X','temp')
part = part.replace('Y','X')
part = part.replace('temp','Y')
return part
def reflect_xz(part):
part = part.replace('X','temp')
part = part.replace('Z','X')
part = part.replace('temp','Z')
return part
def reflect_yz(part):
part = part.replace('Y','temp')
part = part.replace('Z','Y')
part = part.replace('temp','Z')
return part
part = part.replace('X','((x0) + (X-(x0))/(sx))')
part = part.replace('x0',str(x0))
part = part.replace('sx',str(sx))
return part
part = part.replace('Y','((y0) + (Y-(y0))/(sy))')
part = part.replace('y0',str(y0))
part = part.replace('sy',str(sy))
return part
part = part.replace('Z','((z0) + (Z-(z0))/(sz))')
part = part.replace('z0',str(z0))
part = part.replace('sz',str(sz))
return part
part = part.replace('X','((x0) + (X-(x0))/(sxy))')
part = part.replace('Y','((y0) + (Y-(y0))/(sxy))')
part = part.replace('x0',str(x0))
part = part.replace('y0',str(y0))
part = part.replace('sxy',str(sxy))
return part
part = part.replace('X','((x0) + (X-(x0))/(sxyz))')
part = part.replace('Y','((y0) + (Y-(y0))/(sxyz))')
part = part.replace('Z','((z0) + (Z-(z0))/(sxyz))')
part = part.replace('x0',str(x0))
part = part.replace('y0',str(y0))
part = part.replace('z0',str(z0))
part = part.replace('sxyz',str(sxyz))
return part
def coscale_x_y(part,x0,y0,y1,angle0,angle1,amplitude,offset):
phase0 = math.pi*angle0/180.
phase1 = math.pi*angle1/180.
part = part.replace('X','((x0) + (X-(x0))/((offset) + (amplitude)*math.cos((phase0) + ((phase1)-(phase0))*(Y-(y0))/((y1)-(y0)))))')
part = part.replace('x0',str(x0))
part = part.replace('y0',str(y0))
part = part.replace('y1',str(y1))
part = part.replace('phase0',str(phase0))
part = part.replace('phase1',str(phase1))
part = part.replace('amplitude',str(amplitude))
part = part.replace('offset',str(offset))
return part
def coscale_x_z(part,x0,z0,z1,angle0,angle1,amplitude,offset):
phase0 = math.pi*angle0/180.
phase1 = math.pi*angle1/180.
part = part.replace('X','((x0) + (X-(x0))/((offset) + (amplitude)*math.cos((phase0) + ((phase1)-(phase0))*(Z-(z0))/((z1)-(z0)))))')
part = part.replace('x0',str(x0))
part = part.replace('z0',str(z0))
part = part.replace('z1',str(z1))
part = part.replace('phase0',str(phase0))
part = part.replace('phase1',str(phase1))
part = part.replace('amplitude',str(amplitude))
part = part.replace('offset',str(offset))
return part
def coscale_xy_z(part,x0,y0,z0,z1,angle0,angle1,amplitude,offset):
phase0 = math.pi*angle0/180.
phase1 = math.pi*angle1/180.
part = part.replace('X','((x0) + (X-(x0))/((offset) + (amplitude)*math.cos((phase0) + ((phase1)-(phase0))*(Z-(z0))/((z1)-(z0)))))')
part = part.replace('Y','((y0) + (Y-(y0))/((offset) + (amplitude)*math.cos((phase0) + ((phase1)-(phase0))*(Z-(z0))/((z1)-(z0)))))')
part = part.replace('x0',str(x0))
part = part.replace('y0',str(y0))
part = part.replace('z0',str(z0))
part = part.replace('z1',str(z1))
part = part.replace('phase0',str(phase0))
part = part.replace('phase1',str(phase1))
part = part.replace('amplitude',str(amplitude))
part = part.replace('offset',str(offset))
return part
part = part.replace('X','((x0) + (X-(x0))*((y1)-(y0))/((s1)*(Y-(y0)) + (s0)*((y1)-Y)))')
part = part.replace('x0',str(x0))
part = part.replace('y0',str(y0))
part = part.replace('y1',str(y1))
part = part.replace('s0',str(s0))
part = part.replace('s1',str(s1))
return part
part = part.replace('X','((x0) + (X-(x0))*((z1)-(z0))/((s1)*(Z-(z0)) + (s0)*((z1)-Z)))')
part = part.replace('x0',str(x0))
part = part.replace('z0',str(z0))
part = part.replace('z1',str(z1))
part = part.replace('s0',str(s0))
part = part.replace('s1',str(s1))
return part
part = part.replace('X','((x0) + (X-(x0))*((z1)-(z0))/((s1)*(Z-(z0)) + (s0)*((z1)-Z)))')
part = part.replace('Y','((y0) + (Y-(y0))*((z1)-(z0))/((s1)*(Z-(z0)) + (s0)*((z1)-Z)))')
part = part.replace('x0',str(x0))
part = part.replace('y0',str(y0))
part = part.replace('z0',str(z0))
part = part.replace('z1',str(z1))
part = part.replace('s0',str(s0))
part = part.replace('s1',str(s1))
return part
part = part.replace('X','(X - (dx0) - ((dx1)-(dx0))*(Y-(y0))/((y1)-(y0)))')
part = part.replace('y0',str(y0))
part = part.replace('y1',str(y1))
part = part.replace('dx0',str(dx0))
part = part.replace('dx1',str(dx1))
return part
part = part.replace('X','(X - (dx0) - ((dx1)-(dx0))*(Z-(z0))/((z1)-(z0)))')
part = part.replace('z0',str(z0))
part = part.replace('z1',str(z1))
part = part.replace('dx0',str(dx0))
part = part.replace('dx1',str(dx1))
return part
def coshear_x_z(part,z0,z1,angle0,angle1,amplitude,offset):
phase0 = math.pi*angle0/180.
phase1 = math.pi*angle1/180.
part = part.replace('X','(X - (offset) - (amplitude)*math.cos((phase0) + ((phase1)-(phase0))*(Z-(z0))/((z1)-(z0))))')
part = part.replace('z0',str(z0))
part = part.replace('z1',str(z1))
part = part.replace('phase0',str(phase0))
part = part.replace('phase1',str(phase1))
part = part.replace('amplitude',str(amplitude))
part = part.replace('offset',str(offset))
return part
############################################################
############################################################
def __init__(self,text,x,y,z=0,line='',height='',width='',space='',align='CC',color=White,angle=0):
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#
# parameters
#
if (line == ''):
line = 1
if (height == ''):
height = 6*line
if (width == ''):
width = 4*line
if (space == ''):
space = line/2.0
self.width = 0
self.height = 0
self.text = text
#
# construct shape dictionary
#
shapes = {}
shape = triangle(0,0,width/2.0,height,width,0)
cutout = triangle(0,-2.5*line,width/2.0,height-2.5*line,width,-2.5*line)
cutout = subtract(cutout,rectangle(0,width,height/4-line/2,height/4+line/2))
shape = subtract(shape,cutout)
shapes['A'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/4))
shape = add(shape,rectangle(width-line,width,0,height/3))
shapes['a'] = shape
shape = rectangle(0,width-height/4,0,height)
shape = add(shape,circle(width-height/4,height/4,height/4))
shape = add(shape,circle(width-height/4,3*height/4,height/4))
w = height/2-1.5*line
shape = subtract(shape,rectangle(line,line+w/1.5,height/2+line/2,height-line))
shape = subtract(shape,circle(line+w/1.5,height/2+line/2+w/2,w/2))
shape = subtract(shape,rectangle(line,line+w/1.5,line,height/2-line/2))
shape = subtract(shape,circle(line+w/1.5,height/2-line/2-w/2,w/2))
shapes['B'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/4))
shape = add(shape,rectangle(0,line,0,height))
shapes['b'] = shape
shape = circle(width/2,width/2,width/2)
shape = add(shape,circle(width/2,height-width/2,width/2))
shape = add(shape,rectangle(0,width,line+w/2,height-line-w/2))
w = width-2*line
shape = subtract(shape,circle(width/2,line+w/2,w/2))
shape = subtract(shape,circle(width/2,height-line-w/2,w/2))
shape = subtract(shape,rectangle(line,width,line+w/2,height-line-w/2))
shapes['C'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/4))
shape = subtract(shape,rectangle(width/2,width,width/2-line/1.5,width/2+line/1.5))
shapes['c'] = shape
shape = circle(line,width-line,width-line)
shape = subtract(shape,circle(line,width-line,width-2*line))
shape = subtract(shape,rectangle(-width,line,0,height))
shape = scale_y(shape,0,height/(2*(width-line)))
shape = add(shape,rectangle(0,line,0,height))
shapes['D'] = shape
shape = rectangle(width-line,width,0,height)
shape = add(shape,circle(width/2,width/2,width/2))
shape = subtract(shape,circle(width/2,width/2,width/2-line))
shapes['d'] = shape
shape = rectangle(0,line,0,height)
shape = add(shape,rectangle(0,width,height-line,height))
shape = add(shape,rectangle(0,2*width/3,height/2-line/2,height/2+line/2))
shape = add(shape,rectangle(0,width,0,line))
shapes['E'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/2-line))
shape = subtract(shape,triangle(width,0,width/2,width/2-line/2,width,width/2-line/2))
shape = add(shape,rectangle(0,width,width/2-line/2,width/2+line/2))
shapes['e'] = shape
shape = rectangle(0,line,0,height)
shape = add(shape,rectangle(0,width,height-line,height))
shape = add(shape,rectangle(0,2*width/3,height/2-line/2,height/2+line/2))
shapes['F'] = shape
shape = circle(width-line/2,height-width/2,width/2)
shape = subtract(shape,circle(width-line/2,height-width/2,width/2-line))
shape = subtract(shape,rectangle(0,width-line/2,0,height-width/2))
shape = subtract(shape,rectangle(width-line/2,2*width,0,height))
shape = add(shape,rectangle(width/2-line/2,width/2+line/2,0,height-width/2))
shape = add(shape,rectangle(width/5,4*width/5,height/2-line/2,height/2+line/2))
shapes['f'] = shape
shape = circle(width/2,width/2,width/2)
shape = add(shape,circle(width/2,height-width/2,width/2))
shape = add(shape,rectangle(0,width,line+w/2,height-line-w/2))
w = width-2*line
shape = subtract(shape,circle(width/2,line+w/2,w/2))
shape = subtract(shape,circle(width/2,height-line-w/2,w/2))
shape = subtract(shape,rectangle(line,width,line+w/2,height-line-w/2))
shape = add(shape,rectangle(width/2,width,line+w/2,2*line+w/2))
shapes['G'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/2-line))
w = height/3-width/2
shape = add(shape,rectangle(width-line,width,w,width))
shape = add(shape,subtract(subtract(circle(width/2,w,width/2),circle(width/2,w,width/2-line)),rectangle(0,width,w,height)))
shapes['g'] = shape
shape = rectangle(0,line,0,height)
shape = add(shape,rectangle(width-line,width,0,height))
shape = add(shape,rectangle(0,width,height/2-line/2,height/2+line/2))
shapes['H'] = shape
w = width/2
shape = circle(width/2,w,width/2)
shape = subtract(shape,circle(width/2,w,width/2-line))
shape = subtract(shape,rectangle(0,width,0,w))
shape = add(shape,rectangle(0,line,0,height))
shape = add(shape,rectangle(width-line,width,0,w))
shapes['h'] = shape
shape = rectangle(width/2-line/2,width/2+line/2,0,height)
shape = add(shape,rectangle(width/5,4*width/5,0,line))
shape = add(shape,rectangle(width/5,4*width/5,height-line,height))
shapes['I'] = shape
shape = rectangle(width/2-line/2,width/2+line/2,0,height/2)
shape = add(shape,circle(width/2,3*height/4,.6*line))
shapes['i'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/2-line))
shape = subtract(shape,rectangle(0,width,width/2,height))
shape = add(shape,rectangle(width-line,width,width/2,height))
shapes['J'] = shape
w = height/3-width/2
shape = rectangle(width/2-line/2,width/2+line/2,w,height/2)
shape = add(shape,subtract(subtract(subtract(circle(width/4-line/2,w,width/2),circle(width/4-line/2,w,width/2-line)),rectangle(0,width,w,height)),rectangle(-width,width/4-line/2,-height/3,height)))
shape = add(shape,circle(width/2,3*height/4,.6*line))
shapes['j'] = shape
shape = rectangle(0,width,0,height)
shape = subtract(shape,triangle(line,height,width-1.1*line,height,line,height/2+.5*line))
shape = subtract(shape,triangle(width,0,line+0.8*line,height/2,width,height))
shape = subtract(shape,triangle(line,0,line,height/2-.5*line,width-1.1*line,0))
shapes['K'] = shape
shape = rectangle(0,width,0,height)
shape = subtract(shape,rectangle(line,width,2*height/3,height))
shape = subtract(shape,triangle(line,2*height/3,width-1.3*line,2*height/3,line,height/3+.5*line))
shape = subtract(shape,triangle(width,0,line+0.8*line,height/3,width,2*height/3))
shape = subtract(shape,triangle(line,0,line,height/3-0.5*line,width-1.3*line,0))
shapes['k'] = shape
shape = rectangle(0,line,0,height)
shape = add(shape,rectangle(0,width,0,line))
shapes['L'] = shape
shape = rectangle(width/2-line/2,width/2+line/2,0,height)
shapes['l'] = shape
shape = rectangle(0,width,0,height)
shape = subtract(shape,triangle(line,0,line,height-3*line,width/2-line/3,0))
shape = subtract(shape,triangle(line,height,width-line,height,width/2,1.5*line))
shape = subtract(shape,triangle(width/2+line/3,0,width-line,height-3*line,width-line,0))
shapes['M'] = shape
w = width/2
l = 1.3*line
shape = circle(width/2,w,width/2)
shape = subtract(shape,circle(width/2,w,width/2-l))
shape = subtract(shape,rectangle(0,width,0,w))
shape = add(shape,rectangle(width-l,width,0,w))
shape = add(shape,move(shape,width-l,0))
shape = add(shape,rectangle(0,l,0,width))
shape = scale_x(shape,0,width/(2*width-l))
shapes['m'] = shape
shape = rectangle(0,width,0,height)
shape = subtract(shape,triangle(line,height+1.5*line,width-line,height+1.5*line,width-line,1.5*line))
shape = subtract(shape,triangle(line,-1.5*line,line,height-1.5*line,width-line,-1.5*line))
shapes['N'] = shape
w = width/2
shape = circle(width/2,w,width/2)
shape = subtract(shape,circle(width/2,w,width/2-line))
shape = subtract(shape,rectangle(0,width,0,w))
shape = add(shape,rectangle(0,line,0,width))
shape = add(shape,rectangle(width-line,width,0,w))
shapes['n'] = shape
shape = circle(width/2,width/2,width/2)
shape = add(shape,circle(width/2,height-width/2,width/2))
shape = add(shape,rectangle(0,width,line+w/2,height-line-w/2))
w = width-2*line
shape = subtract(shape,circle(width/2,line+w/2,w/2))
shape = subtract(shape,circle(width/2,height-line-w/2,w/2))
shape = subtract(shape,rectangle(line,width-line,line+w/2,height-line-w/2))
shapes['O'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/2-line))
shapes['o'] = shape
shape = rectangle(0,line,0,height)
w = 2*height/3
shape = add(shape,circle(width-w/2,height-w/2,w/2))
shape = add(shape,rectangle(0,width-w/2,height-w,height))
shape = subtract(shape,circle(width-w/2,height-w/2,w/2-line))
shape = subtract(shape,rectangle(line,width-w/2,height-w+line,height-line))
shapes['P'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/4))
shape = add(shape,rectangle(0,line,-height/3,width))
shapes['p'] = shape
shape = subtract(circle(width/2,width/2,width/2),circle(width/2,width/2,width/2-.9*line))
shape = scale_y(shape,0,height/width)
shape = add(shape,move(rotate(rectangle(-line/2,line/2,-width/4,width/4),30),3*width/4,width/4))
shapes['Q'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/2-line))
shape = add(shape,rectangle(width-line,width,-height/3,width))
shapes['q'] = shape
shape = rectangle(0,line,0,height)
w = 2*height/3
shape = add(shape,circle(width-w/2,height-w/2,w/2))
shape = add(shape,rectangle(0,width-w/2,height-w,height))
shape = subtract(shape,circle(width-w/2,height-w/2,w/2-line))
shape = subtract(shape,rectangle(line,width-w/2,height-w+line,height-line))
leg = triangle(line,0,line,height,width,0)
leg = subtract(leg,triangle(line,-2.0*line,line,height-2.0*line,width,-2.0*line))
leg = subtract(leg,rectangle(0,width,height/3,height))
shape = add(shape,leg)
shapes['R'] = shape
shape = circle(width,0,width)
shape = subtract(shape,circle(width,0,width-line))
shape = subtract(shape,rectangle(.8*width,2*width,-height,height))
shape = subtract(shape,rectangle(0,2*width,-height,0))
shape = add(shape,rectangle(0,line,0,width))
shapes['r'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/2-line))
shape = subtract(shape,rectangle(0,width/2,width/2,width))
shape = add(shape,move(reflect_y(reflect_x(shape,width),width),0,width-line))
shape = scale_y(shape,0,height/(2*width-line))
shapes['S'] = shape
w = width/3
shape = circle(w,w,w)
shape = subtract(shape,circle(w,w,w-.9*line))
shape = subtract(shape,rectangle(0,w,w,2*w))
shape = add(shape,move(reflect_y(reflect_x(shape,2*w),2*w),0,2*w-.9*line))
shape = scale_y(shape,0,(2*height/3)/(4*w-.9*line))
shape = move(shape,(width/2)-w,0)
shapes['s'] = shape
shape = rectangle(width/2-line/2,width/2+line/2,0,height)
shape = add(shape,rectangle(0,width,height-line,height))
shapes['T'] = shape
shape = circle(0,3*width/8,3*width/8)
shape = subtract(shape,circle(0,3*width/8,3*width/8-line))
shape = subtract(shape,rectangle(-width,width,3*width/8,height))
shape = subtract(shape,rectangle(0,width,-height,height))
shape = move(shape,width/2-line/2+3*width/8,0)
shape = add(shape,rectangle(width/2-line/2,width/2+line/2,width/4,3*height/4))
shape = add(shape,rectangle(width/5,4*width/5,height/2-line/2,height/2+line/2))
shapes['t'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/2-line))
shape = subtract(shape,rectangle(0,width,width/2,height))
shape = add(shape,rectangle(0,line,width/2,height))
shape = add(shape,rectangle(width-line,width,width/2,height))
shapes['U'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/2-line))
shape = subtract(shape,rectangle(0,width,width/2,height))
shape = add(shape,rectangle(0,line,width/2,2*height/3))
shape = add(shape,rectangle(width-line,width,0,2*height/3))
shapes['u'] = shape
shape = triangle(0,height,width,height,width/2,0)
shape = subtract(shape,triangle(0,height+3*line,width,height+3*line,width/2,3*line))
shapes['V'] = shape
w = 2*height/3.0
shape = triangle(0,w,width,w,width/2,0)
shape = subtract(shape,triangle(0,w+2*line,width,w+2*line,width/2,2*line))
shapes['v'] = shape
shape = triangle(0,height,width,height,width/2,0)
shape = add(shape,move(shape,.6*width,0))
cutout = triangle(0,height+4*line,width,height+4*line,width/2,4*line)
cutout = add(cutout,move(cutout,.6*width,0))
shape = subtract(shape,cutout)
shape = scale_x(shape,0,1/1.6)
shapes['W'] = shape
shape = scale_y(shapes['W'],0,width/height)
shapes['w'] = shape
shape = rectangle(0,width,0,height)
shape = subtract(shape,triangle(0,0,0,height,width/2-.7*line,height/2))
shape = subtract(shape,triangle(width,0,width/2+.7*line,height/2,width,height))
shape = subtract(shape,triangle(1.1*line,height,width-1.1*line,height,width/2,height/2+line))
shape = subtract(shape,triangle(1.1*line,0,width/2,height/2-line,width-1.1*line,0))
shapes['X'] = shape
w = 2*height/3.0
shape = rectangle(0,width,0,w)
shape = subtract(shape,triangle(0,0,0,w,width/2-.75*line,w/2))
shape = subtract(shape,triangle(width,0,width/2+.75*line,w/2,width,w))
shape = subtract(shape,triangle(1.25*line,0,width/2,w/2-.75*line,width-1.25*line,0))
shape = subtract(shape,triangle(1.25*line,w,width-1.25*line,w,width/2,w/2+.75*line))
shapes['x'] = shape
w = height/2
shape = rectangle(0,width,w,height)
shape = subtract(shape,triangle(0,w,0,height,width/2-line/2,w))
shape = subtract(shape,triangle(width/2+line/2,w,width,height,width,w))
shape = subtract(shape,triangle(1.1*line,height,width-1.1*line,height,width/2,w+1.1*line))
shape = add(shape,rectangle(width/2-line/2,width/2+line/2,0,w))
shapes['Y'] = shape
shape = rectangle(0,width,-height/3,width)
shape = subtract(shape,triangle(0,-height/3,0,width,width/2-.9*line,0))
shape = subtract(shape,triangle(1.1*line,width,width-1.1*line,width,width/2-.2*line,1.6*line))
shape = subtract(shape,triangle(1.2*line,-height/3,width,width,width,-height/3))
shapes['y'] = shape
shape = rectangle(0,width,0,height)
shape = subtract(shape,triangle(0,line,0,height-line,width-1.4*line,height-line))
shape = subtract(shape,triangle(1.4*line,line,width,height-line,width,line))
shapes['Z'] = shape
w = 2*height/3
shape = rectangle(0,width,0,w)
shape = subtract(shape,triangle(0,line,0,w-line,width-1.6*line,w-line))
shape = subtract(shape,triangle(width,line,1.6*line,line,width,w-line))
shapes['z'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/2-.9*line))
shape = scale_y(shape,0,height/width)
shapes['0'] = shape
shape = rectangle(width/2-line/2,width/2+line/2,0,height)
w = width/2-line/2
cutout = circle(0,height,w)
shape = add(shape,rectangle(0,width/2,height-w-line,height))
shape = subtract(shape,cutout)
shape = move(shape,(width/2+line/2)/4,0)
shapes['1'] = shape
shape = circle(width/2,height-width/2,width/2)
shape = subtract(shape,circle(width/2,height-width/2,width/2-line))
shape = subtract(shape,rectangle(0,width/2,0,height-width/2))
shape = add(shape,rectangle(0,width,0,height-width/2))
shape = subtract(shape,triangle(0,line,0,height-width/2,width-line,height-width/2))
shape = subtract(shape,triangle(1.5*line,line,width,height-width/2-.5*line,width,line))
shapes['2'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/2-line))
shape = scale_y(shape,0,(height/2+line/2)/width)
shape = add(shape,move(shape,0,height/2-line/2))
shape = subtract(shape,rectangle(0,width/2,height/4,3*height/4))
shapes['3'] = shape
shape = rectangle(width-line,width,0,height)
shape = add(shape,triangle(0,height/3,width-line,height,width-line,height/3))
shape = subtract(shape,triangle(1.75*line,height/3+line,width-line,height-1.5*line,width-line,height/3+line))
shapes['4'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/2-line))
shape = subtract(shape,rectangle(0,width/2,width/2,width))
shape = add(shape,rectangle(0,width/2,width-line,width))
shape = add(shape,rectangle(0,line,width-line,height))
shape = add(shape,rectangle(0,width,height-line,height))
shapes['5'] = shape
shape = circle(width/2,height-width/2,width/2)
shape = subtract(shape,circle(width/2,height-width/2,width/2-line))
shape = subtract(shape,rectangle(0,width,0,height-width/2))
shape = subtract(shape,triangle(width,height,width,height/2,width/2,height/2))
shape = add(shape,circle(width/2,width/2,width/2))
shape = subtract(shape,circle(width/2,width/2,width/2-line))
shape = add(shape,rectangle(0,line,width/2,height-width/2))
shapes['6'] = shape
shape = rectangle(0,width,0,height)
shape = subtract(shape,triangle(0,0,0,height-line,width-line,height-line))
shape = subtract(shape,triangle(line,0,width,height-line,width,0))
shapes['7'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/2-line))
shape = scale_y(shape,0,(height/2+line/2)/width)
shape = add(shape,move(shape,0,height/2-line/2))
shapes['8'] = shape
shape = circle(width/2,width/2,width/2)
shape = subtract(shape,circle(width/2,width/2,width/2-line))
shape = subtract(shape,rectangle(0,width,width/2,height))
shape = subtract(shape,triangle(0,0,0,height/2,width/2,height/2))
shape = add(shape,circle(width/2,height-width/2,width/2))
shape = subtract(shape,circle(width/2,height-width/2,width/2-line))
shape = add(shape,rectangle(width-line,width,width/2,height-width/2))
shapes['9'] = shape
w = width/2
shape = circle(w,w,w)
shape = subtract(shape,circle(w,w,w-line))
shape = subtract(shape,rectangle(w,width,0,height))
shape = scale_y(shape,0,height/width)
shape = move(shape,w/2,0)
shapes['('] = shape
shape = reflect_x(shape,width)
shapes[')'] = shape
shapes[' '] = false
shape = rectangle(width/2-width/3,width/2+width/3,height/2-line/2,height/2+line/2)
shape = add(shape,rectangle(width/2-line/2,width/2+line/2,height/2-width/3,height/2+width/3))
shapes['+'] = shape
shape = rectangle(width/2-width/3,width/2+width/3,height/2-line/2,height/2+line/2)
shapes['-'] = shape
shape = circle(width/2,line,.75*line)
shapes['.'] = shape
shape = rectangle(0,width,0,height)
d = .8*line
shape = subtract(shape,triangle(d,0,width,height-d,width,0))
shape = subtract(shape,triangle(0,d,0,height,width-d,height))
shapes['/'] = shape
#
# to be done
#
shapes['~'] = shape
shapes['!'] = shape
shapes['@'] = shape
shapes['#'] = shape
shapes['$'] = shape
shapes['%'] = shape
shapes['^'] = shape
shapes['&'] = shape
shapes['&'] = shape
shapes['_'] = shape
shapes['='] = shape
shapes['['] = shape
shapes['{'] = shape
shapes[']'] = shape
shapes['}'] = shape
shapes[';'] = shape
shapes[':'] = shape
shapes["'"] = shape
shapes['"'] = shape
shapes[','] = shape
shapes['<'] = shape
shapes['>'] = shape
shapes['?'] = shape
#
# add a line to text shape
#
def addline(lineshape):
#
# LR align
#
if (align[0] == 'C'):
lineshape = move(lineshape,-self.width/2.0,0)
elif (align[0] == 'R'):
lineshape = move(lineshape,-self.width,0)
#
# add
#
self.shape = add(self.shape,lineshape)
#
# loop over chars
#
dx = 0
dy = -height
self.width = -space
self.height = height
lineshape = false
self.shape = false
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self.width = -space
self.height += 1.5*self.height
lineshape = false
else:
lineshape = add(lineshape,move(shapes[chr],dx,dy))
self.width += space + width
dx += width + space
addline(lineshape)
#
# UD align
#
if (align[1] == 'C'):
self.shape = move(self.shape,0,self.height/2.0)
elif (align[1] == 'B'):
self.shape = move(self.shape,0,self.height)
#
# rotate
#
if (angle == 90):
self.shape = rotate_90(self.shape)
elif (angle == 180):
self.shape = rotate_180(self.shape)
elif ((angle == 270) | (angle == -90)):
self.shape = rotate_270(self.shape)
elif (angle != 0):
self.shape = rotate(self.shape,angle)
#
# translate
#
self.shape = move(self.shape,x,y)
#
# color
#
self.shape = '('+str(color)+'*(('+self.shape+')!=0))'
############################################################
############################################################
class PCB:
def __init__(self,x0,y0,width,height,mask):
self.board = false
self.labels = false
self.interior = rectangle(x0,x0+width,y0,y0+height)
self.exterior = subtract(true,rectangle(x0,x0+width,y0,y0+height))
self.mask = false
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def add(self,part):
self.board = add(self.board,part)
self.mask = add(self.mask,move(part,-mask,mask))
self.mask = add(self.mask,move(part,-mask,-mask))
self.mask = add(self.mask,move(part,mask,mask))
self.mask = add(self.mask,move(part,mask,-mask))
return self
class point:
def __init__(self,x,y,z=0):
self.x = x
self.y = y
self.z = z
class part:
class text:
def __init__(self,x,y,z=0,text='',line=0.006,angle=0):
self.x = x
self.y = y
self.z = z
self.text = text
self.line = line
self.angle = angle
def add(self,pcb,x,y,z=0,angle=0,line=0.007):
self.x = x
self.y = y
self.z = z
self.angle = angle
if (angle == 90):
self.shape = rotate_90(self.shape)
elif (angle == 180):
self.shape = rotate_180(self.shape)
elif ((angle == 270) | (angle == -90)):
self.shape = rotate_270(self.shape)
elif (angle != 0):
self.shape = rotate(self.shape,angle)
self.shape = translate(self.shape,x,y,z)
if (angle == 90):
self.holes = rotate_90(self.holes)
elif (angle == 180):
self.holes = rotate_180(self.holes)
elif ((angle == 270) | (angle == -90)):
self.holes = rotate_270(self.holes)
elif (angle != 0):
self.holes = rotate(self.holes,angle)
if hasattr(self,'cutout'):
if (angle == 90):
self.cutout = rotate_90(self.cutout)
elif (angle == 180):
self.cutout = rotate_180(self.cutout)
elif ((angle == 270) | (angle == -90)):
self.cutout = rotate_270(self.cutout)
elif (angle != 0):
self.cutout = rotate(self.cutout,angle)
self.cutout = translate(self.cutout,x,y,z)
for i in range(len(self.pad)):
xnew = math.cos(angle)*self.pad[i].x - math.sin(angle)*self.pad[i].y
ynew = math.sin(angle)*self.pad[i].x + math.cos(angle)*self.pad[i].y
self.pad[i].x = x + xnew
self.pad[i].y = y + ynew
self.pad[i].z += z
pcb.labels = add(pcb.labels,text(self.value,x,y,z,line=line,color=Green).shape)
for i in range(len(self.labels)):
xnew = math.cos(angle)*self.labels[i].x - math.sin(angle)*self.labels[i].y
ynew = math.sin(angle)*self.labels[i].x + math.cos(angle)*self.labels[i].y
self.labels[i].x = x + xnew
self.labels[i].y = y + ynew
self.labels[i].z += z
if ((-90 < deg_angle) & (deg_angle <= 90)):
pcb.labels = add(pcb.labels,text(self.labels[i].text,self.labels[i].x,self.labels[i].y,self.labels[i].z,self.labels[i].line,color=Red,angle=deg_angle-self.labels[i].angle).shape)
else:
pcb.labels = add(pcb.labels,text(self.labels[i].text,self.labels[i].x,self.labels[i].y,self.labels[i].z,self.labels[i].line,color=Red,angle=(deg_angle-self.labels[i].angle-180)).shape)
pcb = pcb.add(self.shape)
if hasattr(self,'holes'):
pcb.holes = add(pcb.holes,self.holes)
if hasattr(self,'cutout'):
pcb.interior = subtract(pcb.interior,self.cutout)
pcb.exterior = add(pcb.exterior,self.cutout)
def wire(pcb,width,*points):
x0 = points[0].x
y0 = points[0].y
z0 = points[0].z
roundoff = 1e-6
pcb.board = add(pcb.board,cylinder(x0,y0,z0-roundoff,z0+roundoff,width/2))
for i in range(1,len(points)):
x0 = points[i-1].x
y0 = points[i-1].y
z0 = points[i-1].z
x1 = points[i].x
y1 = points[i].y
z1 = points[i].z
pcb.board = add(pcb.board,cylinder(x1,y1,z1-roundoff,z1+roundoff,width/2))
for i in range(1,len(points)):
x0 = points[i-1].x
y0 = points[i-1].y
z0 = points[i-1].z
x1 = points[i].x
y1 = points[i].y
z1 = points[i].z
if (x0 < x1):
pcb.board = add(pcb.board,cube(x0-width/2,x1+width/2,y0-width/2,y0+width/2,z0,z0))
elif (x1 < x0):
pcb.board = add(pcb.board,cube(x1-width/2,x0+width/2,y0-width/2,y0+width/2,z0,z0))
if (y0 < y1):
pcb.board = add(pcb.board,cube(x1-width/2,x1+width/2,y0-width/2,y1+width/2,z0,z0))
elif (y1 < y0):
pcb.board = add(pcb.board,cube(x1-width/2,x1+width/2,y1-width/2,y0+width/2,z0,z0))
############################################################
############################################################
class via(part):
#
# via
#
def __init__(self,zb,zt,rv,rp,value=''):
self.value = value
self.labels = []
self.pad = [point(0,0,0)]
self.shape = cylinder(0,0,zb,zt,rp)
self.holes = cylinder(0,0,zb,zt,rv)
self.pad.append(point(0,0,zt))
self.pad.append(point(0,0,zb))
class SJ(part):
#
# solder jumper
#
def __init__(self,value=''):
pad_SJ = cube(-.02,.02,-.03,.03,0,0)
self.value = value
self.labels = []
self.pad = [point(0,0,0)]
self.shape = translate(pad_SJ,-.029,0,0)
self.pad.append(point(-.029,0,0))
self.shape = add(self.shape,translate(pad_SJ,.029,0,0))
self.pad.append(point(.029,0,0))
############################################################
############################################################
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class ST4EB(part):
#
# Nidec Copal ST4ETB103 trimpot
#
def __init__(self,value=''):
pad1 = cube(-.032,.032,-.039,.039,0,0)
pad2 = cube(-.039,.039,-.039,.039,0,0)
self.value = value
self.labels = []
self.pad = [point(0,0,0)]
self.shape = translate(pad1,-.046,-.118,0)
self.pad.append(point(-.046,-.118,0))
self.shape = add(self.shape,translate(pad1,.046,-.118,0))
self.pad.append(point(.046,-.118,0))
self.shape = add(self.shape,translate(pad2,0,.118,0))
self.pad.append(point(0,.118,0))
class C_FND(part):
#
# Panasonic FN series, size code D
# 100uF: EEE-FN1E101UL
#
def __init__(self,value=''):
pad = cube(-.032,.032,-.06,.06,0,0)
self.value = value
self.labels = []
self.pad = [point(0,0,0)]
self.shape = translate(pad,0,.11,0)
self.pad.append(point(0,.11,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'+',angle=90))
self.shape = add(self.shape,translate(pad,0,-.11,0))
self.pad.append(point(0,-.11,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'-',angle=90))
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pad_0402 = cube(-.0175,.0175,-.014,.014,0,0)
class R_0402(part):
#
# 0402 resistor
#
def __init__(self,value=''):
self.value = value
self.labels = []
self.pad = [point(0,0,0)]
self.shape = translate(pad_0402,-.0265,0,0)
self.pad.append(point(-.0265,0,0))
self.shape = add(self.shape,translate(pad_0402,.0265,0,0))
self.pad.append(point(.0265,0,0))
pad_1206 = cube(-.032,.032,-.034,.034,0,0)
class R_1206(part):
#
# 1206 resistor
#
def __init__(self,value=''):
self.value = value
self.labels = []
self.pad = [point(0,0,0)]
self.shape = translate(pad_1206,-.06,0,0)
self.pad.append(point(-.06,0,0))
self.shape = add(self.shape,translate(pad_1206,.06,0,0))
self.pad.append(point(.06,0,0))
class C_1206(part):
#
# 1206 capacitor
#
def __init__(self,value=''):
self.value = value
self.labels = []
self.pad = [point(0,0,0)]
self.shape = translate(pad_1206,-.06,0,0)
self.pad.append(point(-.06,0,0))
self.shape = add(self.shape,translate(pad_1206,.06,0,0))
self.pad.append(point(.06,0,0))
pad_1210 = cube(-.032,.032,-.048,.048,0,0)
class L_1210(part):
#
# 1210 inductor
#
def __init__(self,value=''):
self.value = value
self.labels = []
self.pad = [point(0,0,0)]
self.shape = translate(pad_1210,-.06,0,0)
self.pad.append(point(-.06,0,0))
self.shape = add(self.shape,translate(pad_1210,.06,0,0))
self.pad.append(point(.06,0,0))
pad_choke = cube(-.06,.06,-.06,.06,0,0)
class choke(part):
#
# Panasonic ELLCTV
#
def __init__(self,value=''):
self.value = value
self.labels = []
self.pad = [point(0,0,0)]
self.shape = translate(pad_choke,-.177,-.177,0)
self.pad.append(point(-.177,-.177,0))
self.shape = add(self.shape,translate(pad_choke,.177,.177,0))
self.pad.append(point(.177,.177,0))
############################################################
############################################################
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class header_IMU_2738(part):
#
# Pololu 2736 MinIMU-9 v5 IMU
#
def __init__(self,value=''):
pad_header = cylinder(0,0,0,0,.03)
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,0,.2,0)
self.pad.append(point(0,.2,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1SCL'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,0,.1,0))
self.pad.append(point(0,.1,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SDA'))
#
# pin 3
#
self.shape = add(self.shape,translate(pad_header,0,.0,0))
self.pad.append(point(0,.0,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
#
# pin 4
#
self.shape = add(self.shape,translate(pad_header,0,-0.1,0))
self.pad.append(point(0,-0.1,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VIN'))
#
# pin 5
#
self.shape = add(self.shape,translate(pad_header,0,-0.2,0))
self.pad.append(point(0,-0.2,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VDD'))
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class USB_micro(part):
#
# micro USB
# AMP/FCI 10118194-0001LF
#
def __init__(self,value=''):
w = 0.0049 # pad half width
h = .55/25.4/2 # pad half height
p = .65/25.4 # pad pitch
l = 0.006 # text
pad_header = cube(-w,w,-h,h,0,0)
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,-2*p,0,0)
self.pad.append(point(-2*p,0,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'V',line=l))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,-p,0,0))
self.pad.append(point(-p,0,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'-',line=l))
#
# pin 3
#
self.shape = add(self.shape,translate(pad_header,0,0,0))
self.pad.append(point(0,0,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'+',line=l))
#
# pin 4
#
self.shape = add(self.shape,translate(pad_header,p,0,0))
self.pad.append(point(p,0,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'I',line=l))
#
# pin 5
#
self.shape = add(self.shape,translate(pad_header,2*p,0,0))
self.pad.append(point(2*p,0,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'G',line=l))
#
# holes
#
self.holes = cylinder(2.5/25.4,0,zb,zt,0.016)
self.holes = add(self.holes,cylinder(-2.5/25.4,0,zb,zt,0.016))
self.holes = add(self.holes,cylinder(-3.5/25.4,-2.7/25.4,zb,zt,.9/25.4/2))
self.holes = add(self.holes,cylinder(3.5/25.4,-2.7/25.4,zb,zt,.9/25.4/2))
class header_serial_M(part):
#
# 4x1x0.1 serial cable header
# Sullins GEC36SBSN-M89
#
def __init__(self,value=''):
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,0,.15,0)
self.pad.append(point(0,.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'.Rx'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,0,.05,0))
self.pad.append(point(0,.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Tx'))
#
# pin 3
#
self.shape = add(self.shape,translate(pad_header,0,-.05,0))
self.pad.append(point(0,-.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'5V'))
#
# pin 4
#
self.shape = add(self.shape,translate(pad_header,0,-0.15,0))
self.pad.append(point(0,-.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'G'))
class header_serial_F(part):
#
# 4x1x0.1 serial cable header
# Sullins GEC36SBSN-M89
#
def __init__(self,value=''):
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,0,.15,0)
self.pad.append(point(0,.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'.G'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,0,.05,0))
self.pad.append(point(0,.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'5V'))
#
# pin 3
#
self.shape = add(self.shape,translate(pad_header,0,-.05,0))
self.pad.append(point(0,-.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Rx'))
#
# pin 4
#
self.shape = add(self.shape,translate(pad_header,0,-0.15,0))
self.pad.append(point(0,-.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Tx'))
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class header_2H(part):
#
# 2x1x0.1 cable header
# Sullins GEC36SBSN-M89
#
def __init__(self,value=''):
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,0,.05,0)
self.pad.append(point(0,.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,0,-.05,0))
self.pad.append(point(0,-.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'2'))
class header_4H(part):
#
# 4x1x0.1 cable header
# Sullins GEC36SBSN-M89
#
def __init__(self,value=''):
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,0,.15,0)
self.pad.append(point(0,.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,0,.05,0))
self.pad.append(point(0,.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'2'))
#
# pin 3
#
self.shape = add(self.shape,translate(pad_header,0,-.05,0))
self.pad.append(point(0,-.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'3'))
#
# pin 4
#
self.shape = add(self.shape,translate(pad_header,0,-0.15,0))
self.pad.append(point(0,-.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'4'))
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class header_NEO_6M(part):
#
# NEO_6M GPS module
#
def __init__(self,value=''):
pad_header = cylinder(0,0,0,0,.03)
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,0,.2,0)
self.pad.append(point(0,.2,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'PPS'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,0,.1,0))
self.pad.append(point(0,.1,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'TXD'))
#
# pin 3
#
self.shape = add(self.shape,translate(pad_header,0,0,0))
self.pad.append(point(0,0,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RXD'))
#
# pin 4
#
self.shape = add(self.shape,translate(pad_header,0,-.1,0))
self.pad.append(point(0,-.1,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
#
# pin 5
#
self.shape = add(self.shape,translate(pad_header,0,-.2,0))
self.pad.append(point(0,-.2,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VCC'))
class header_MFRC522(part):
#
# MFCR522 RFID module
#
def __init__(self,value=''):
pad_header = cylinder(0,0,0,0,.03)
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,0,.35,0)
self.pad.append(point(0,.35,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1SDA'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,0,.25,0))
self.pad.append(point(0,.25,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SCK'))
#
# pin 3
#
self.shape = add(self.shape,translate(pad_header,0,.15,0))
self.pad.append(point(0,.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'COPI'))
#
# pin 4
#
self.shape = add(self.shape,translate(pad_header,0,0.05,0))
self.pad.append(point(0,0.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'CIPO'))
#
# pin 5
#
self.shape = add(self.shape,translate(pad_header,0,-.05,0))
self.pad.append(point(0,-.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'IRQ'))
#
# pin 6
#
self.shape = add(self.shape,translate(pad_header,0,-.15,0))
self.pad.append(point(0,-.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
#
# pin 7
#
self.shape = add(self.shape,translate(pad_header,0,-.25,0))
self.pad.append(point(0,-.25,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RST'))
#
# pin 8
#
self.shape = add(self.shape,translate(pad_header,0,-.35,0))
self.pad.append(point(0,-.35,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'3.3V'))
class header_LSM6DS33_2736(part):
#
# LSD6DS33 carrier
# Pololu 2736
#
def __init__(self,value=''):
pad_header = cylinder(0,0,0,0,.03)
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,0,.4,0)
self.pad.append(point(0,.4,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1VDD'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,0,.3,0))
self.pad.append(point(0,.3,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VIN'))
#
# pin 3
#
self.shape = add(self.shape,translate(pad_header,0,.2,0))
self.pad.append(point(0,.2,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
#
# pin 4
#
self.shape = add(self.shape,translate(pad_header,0,0.1,0))
self.pad.append(point(0,0.1,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SDA'))
#
# pin 5
#
self.shape = add(self.shape,translate(pad_header,0,0,0))
self.pad.append(point(0,0,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SCL'))
#
# pin 6
#
self.shape = add(self.shape,translate(pad_header,0,-.1,0))
self.pad.append(point(0,-.1,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SDO'))
#
# pin 7
#
self.shape = add(self.shape,translate(pad_header,0,-.2,0))
self.pad.append(point(0,-.2,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'CS'))
#
# pin 8
#
self.shape = add(self.shape,translate(pad_header,0,-.3,0))
self.pad.append(point(0,-.3,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'INT2'))
#
# pin 9
#
self.shape = add(self.shape,translate(pad_header,0,-.4,0))
self.pad.append(point(0,-.4,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'INT1'))
class header_VL53L1X_3415(part):
#
# VL53L1X carrier
# Pololu 3415
#
def __init__(self,value=''):
pad_header = cylinder(0,0,0,0,.03)
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,0,.3,0)
self.pad.append(point(0,.3,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1VDD'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,0,.2,0))
self.pad.append(point(0,.2,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VIN'))
#
# pin 3
#
self.shape = add(self.shape,translate(pad_header,0,.1,0))
self.pad.append(point(0,.1,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
#
# pin 4
#
self.shape = add(self.shape,translate(pad_header,0,0,0))
self.pad.append(point(0,0,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SDA'))
#
# pin 5
#
self.shape = add(self.shape,translate(pad_header,0,-.1,0))
self.pad.append(point(0,-.1,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SCL'))
#
# pin 6
#
self.shape = add(self.shape,translate(pad_header,0,-.2,0))
self.pad.append(point(0,-.2,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'XSHUT'))
#
# pin 7
#
self.shape = add(self.shape,translate(pad_header,0,-.3,0))
self.pad.append(point(0,-.3,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GPIO1'))
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# ESP-WROOM-02D
#
def __init__(self,value=''):
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
pad = cube(-1/25.4,1/25.4,-.45/25.4,.45/25.4,0,0)
width = 17.5/25.4
pitch = 1.5/25.4
#
# pin 1
#
self.shape = translate(pad,-width/2,4*pitch,0)
self.shape = add(self.shape,cylinder(-width/2-.75/25.4,4*pitch,0,0,.45/25.4))
self.pad.append(point(-width/2,4*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'3V3'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad,-width/2,3*pitch,0))
self.pad.append(point(-width/2,3*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'EN'))
#
# pin 3
#
self.shape = add(self.shape,translate(pad,-width/2,2*pitch,0))
self.pad.append(point(-width/2,2*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'IO14'))
#
# pin 4
#
self.shape = add(self.shape,translate(pad,-width/2,1*pitch,0))
self.pad.append(point(-width/2,1*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'IO12'))
#
# pin 5
#
self.shape = add(self.shape,translate(pad,-width/2,0*pitch,0))
self.pad.append(point(-width/2,0*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'IO13'))
#
# pin 6
#
self.shape = add(self.shape,translate(pad,-width/2,-1*pitch,0))
self.pad.append(point(-width/2,-1*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'IO15'))
#
# pin 7
#
self.shape = add(self.shape,translate(pad,-width/2,-2*pitch,0))
self.pad.append(point(-width/2,-2*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'IO2'))
#
# pin 8
#
self.shape = add(self.shape,translate(pad,-width/2,-3*pitch,0))
self.pad.append(point(-width/2,-3*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'IO0'))
#
# pin 9
#
self.shape = add(self.shape,translate(pad,-width/2,-4*pitch,0))
self.pad.append(point(-width/2,-4*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
#
# pin 10
#
self.shape = add(self.shape,translate(pad,width/2,-4*pitch,0))
self.pad.append(point(width/2,-4*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'IO4'))
#
# pin 11
#
self.shape = add(self.shape,translate(pad,width/2,-3*pitch,0))
self.pad.append(point(width/2,-3*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RXD'))
#
# pin 12
#
self.shape = add(self.shape,translate(pad,width/2,-2*pitch,0))
self.pad.append(point(width/2,-2*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'TXD'))
#
# pin 13
#
self.shape = add(self.shape,translate(pad,width/2,-1*pitch,0))
self.pad.append(point(width/2,-1*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
#
# pin 14
#
self.shape = add(self.shape,translate(pad,width/2,0*pitch,0))
self.pad.append(point(width/2,0*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'IO5'))
#
# pin 15
#
self.shape = add(self.shape,translate(pad,width/2,1*pitch,0))
self.pad.append(point(width/2,1*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RST'))
#
# pin 16
#
self.shape = add(self.shape,translate(pad,width/2,2*pitch,0))
self.pad.append(point(width/2,2*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'TOUT'))
#
# pin 17
#
self.shape = add(self.shape,translate(pad,width/2,3*pitch,0))
self.pad.append(point(width/2,3*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'IO16'))
#
# pin 18
#
self.shape = add(self.shape,translate(pad,width/2,4*pitch,0))
self.pad.append(point(width/2,4*pitch,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
#
# pin 19
#
padg = cube(-2/25.4,2/25.4,-2/25.4,2/25.4,0,0)
self.shape = add(self.shape,translate(padg,(1.5/2+7.1+2-17.5/2)/25.4,(4*1.5+7.1-20+4.29+2)/25.4,0))
self.pad.append(point((1.5/2+7.1+2-17.5/2)/25.4,(4*1.5+7.1-20+4.29+2)/25.4,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
class ESP_01(part):
#
# ESP-01 4x2 vertical
# Sullins NPTC042KFMS-RC
#
def __init__(self,value=''):
pad_header = cube(-.075/2,.075/2,-.04/2,.04/2,0,0)
d = .305/2-.07/2
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,d,.15,0)
self.shape = add(self.shape,cylinder(d+.061/2,.15,0,0,.039/2))
self.pad.append(point(d,.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,-d,.15,0))
self.pad.append(point(-d,.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Tx'))
#
# pin 3
#
self.shape = add(self.shape,translate(pad_header,d,.05,0))
self.pad.append(point(d,.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'IO2'))
#
# pin 4
#
self.shape = add(self.shape,translate(pad_header,-d,.05,0))
self.pad.append(point(-d,.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'EN'))
#
# pin 5
#
self.shape = add(self.shape,translate(pad_header,d,-.05,0))
self.pad.append(point(d,-.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'IO0'))
#
# pin 6
#
self.shape = add(self.shape,translate(pad_header,-d,-.05,0))
self.pad.append(point(-d,-.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RST'))
#
# pin 7
#
self.shape = add(self.shape,translate(pad_header,d,-.15,0))
self.pad.append(point(d,-.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Rx'))
#
# pin 8
#
self.shape = add(self.shape,translate(pad_header,-d,-.15,0))
self.pad.append(point(-d,-.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VCC'))
class header_serial_reverse_5V(part):
#
# serial cable header, reverse for female connector, 5V output
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# GCT BG300-06-A-L-A
#
def __init__(self,value=''):
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,0,-.25,0)
self.shape = add(self.shape,cylinder(-.05,-.25,0,0,.025))
self.pad.append(point(0,-.25,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,0,-.15,0))
self.pad.append(point(0,-.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'CTS'))
#
# pin 3
#
self.shape = add(self.shape,translate(pad_header,0,-.05,0))
self.pad.append(point(0,-.05,0))
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self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'5V'))
#
# pin 4
#
self.shape = add(self.shape,translate(pad_header,0,0.05,0))
self.pad.append(point(0,.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Tx'))
#
# pin 5
#
self.shape = add(self.shape,translate(pad_header,0,.15,0))
self.pad.append(point(0,.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Rx'))
#
# pin 6
#
self.shape = add(self.shape,translate(pad_header,0,.25,0))
self.pad.append(point(0,.25,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RTS'))
class header_serial_reverse_3V3(part):
#
# serial cable header, reverse for female connector, 3.3V output
# GCT BG300-06-A-L-A
#
def __init__(self,value=''):
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,0,-.25,0)
self.shape = add(self.shape,cylinder(-.05,-.25,0,0,.025))
self.pad.append(point(0,-.25,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,0,-.15,0))
self.pad.append(point(0,-.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'CTS'))
#
# pin 3
#
self.shape = add(self.shape,translate(pad_header,0,-.05,0))
self.pad.append(point(0,-.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'3.3V'))
#
# pin 4
#
self.shape = add(self.shape,translate(pad_header,0,0.05,0))
self.pad.append(point(0,.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Tx'))
#
# pin 5
#
self.shape = add(self.shape,translate(pad_header,0,.15,0))
self.pad.append(point(0,.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'Rx'))
#
# pin 6
#
self.shape = add(self.shape,translate(pad_header,0,.25,0))
self.pad.append(point(0,.25,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RTS'))
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class TFT8x1v(part):
#
# TFT 8x1 vertical
# 2x Sullins S5635-ND
#
def __init__(self,value=''):
pad_header = cube(-.079/2,.079/2,-.039/2,.039/2,0,0)
d = .209/2-.079/2
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,-d,-.35,0)
self.pad.append(point(-d,-.35,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'1LED'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,d,-.25,0))
self.pad.append(point(d,-.25,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'SCK'))
#
# pin 3
#
self.shape = add(self.shape,translate(pad_header,-d,-.15,0))
self.pad.append(point(-d,-.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'MOSI'))
#
# pin 4
#
self.shape = add(self.shape,translate(pad_header,d,-.05,0))
self.pad.append(point(d,-.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'DC'))
#
# pin 5
#
self.shape = add(self.shape,translate(pad_header,-d,.05,0))
self.pad.append(point(-d,.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RST'))
#
# pin 6
#
self.shape = add(self.shape,translate(pad_header,d,.15,0))
self.pad.append(point(d,.15,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'CS'))
#
# pin 7
#
self.shape = add(self.shape,translate(pad_header,-d,.25,0))
self.pad.append(point(-d,.25,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
#
# pin 8
#
self.shape = add(self.shape,translate(pad_header,d,.35,0))
self.pad.append(point(d,.35,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VCC'))
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# Sullins GRPB022VWQS-RC 2x2x0.05"
#
def __init__(self,value=''):
pad_header = cube(-.043,.043,-.015,.015,0,0)
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,-.072,.025,0)
self.shape = add(self.shape,cylinder(-.116,.025,0,0,.015))
self.pad.append(point(-.072,.025,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'CLK'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,.072,.025,0))
self.pad.append(point(.072,.025,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'DIO'))
#
# pin 3
#
self.shape = add(self.shape,translate(pad_header,-.072,-.025,0))
self.pad.append(point(-.072,-.025,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RST'))
#
# pin 4
#
self.shape = add(self.shape,translate(pad_header,.072,-.025,0))
self.pad.append(point(.072,-.025,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
class header_SWD_4_1(part):
#
# 4-pin header
# FCI 95278-101a04lf Bergstik 2x2x0.1"
#
pad_header = cube(-.05,.05,-.025,.025,0,0)
def __init__(self,value=''):
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1
#
self.shape = translate(pad_header,-.107,.05,0)
#self.shape = add(self.shape,cylinder(-.157,.05,0,0,.025))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'.CLK'))
#
# pin 2
#
self.shape = add(self.shape,translate(pad_header,.107,.05,0))
self.pad.append(point(.107,.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'DIO'))
#
# pin 3
#
self.shape = add(self.shape,translate(pad_header,-.107,-.05,0))
self.pad.append(point(-.107,-.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'RST'))
#
# pin 4
#
self.shape = add(self.shape,translate(pad_header,.107,-.05,0))
self.pad.append(point(.107,-.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
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class header_UPDI(part):
#
# UPDI header
# Sullins GEC36SBSN-M89
#
def __init__(self,value=''):
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1: UPDI
#
self.shape = translate(pad_header,0,-.05,0)
self.pad.append(point(0,-.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'UPDI'))
#
# pin 2: GND
#
self.shape = add(self.shape,translate(pad_header,0,.05,0))
self.pad.append(point(0,.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
class header_UPDI_reverse(part):
#
# UPDI header, reverse for female connector
# GCT BG300-03-A-L-A
#
def __init__(self,value=''):
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1: UPDI
#
self.shape = translate(pad_header,0,.05,0)
self.shape = add(self.shape,cylinder(.05,.05,0,0,.025))
self.pad.append(point(0,.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'UPDI'))
#
# pin 2: GND
#
self.shape = add(self.shape,translate(pad_header,0,-.05,0))
self.pad.append(point(0,-.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
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class USB_A_plug(part):
#
# USB type A PCB plug
#
def __init__(self,value=''):
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
#
# pin 1: 5V
#
self.shape = translate(cube(-.05,.242,-.02,.02,0,0),0,.138,0)
self.pad.append(point(0,.138,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'5V'))
#
# pin 2: D-
#
self.shape = add(self.shape,translate(cube(-0.05,.202,-.02,.02,0,0),0,.039,0))
self.pad.append(point(0,.039,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'D-'))
#
# pin 3: D+
#
self.shape = add(self.shape,translate(cube(-.05,.202,-.02,.02,0,0),0,-.039,0))
self.pad.append(point(0,-.039,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'D+'))
#
# pin 4: GND
#
self.shape = add(self.shape,translate(cube(-.05,.242,-.02,.02,0,0),0,-.138,0))
self.pad.append(point(0,-.138,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
#
# plug cutout
#
self.cutout = cube(-.05,1,.24,10,zb,zt)
self.cutout = add(self.cutout,cube(-.05,10,-10,-.24,zb,zt))
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class header_SWD(part):
#
# Serial Wire Debug programming header
# Amphenol 20021121-00010T1LF 2x5x0.05
#
def __init__(self,value=''):
self.value = value
self.pad = [point(0,0,0)]
self.labels = []
d = 0.077
w = 0.015
h = .047
pad = cube(-h,h,-w,w,0,0)
#
# pin 1: VCC
#
self.shape = translate(pad,d,-.1,0)
self.shape = add(self.shape,cylinder(d+h,-.1,0,0,w))
self.pad.append(point(d,-.1,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'VCC'))
#
# pin 2: DIO
#
self.shape = add(self.shape,translate(pad,-d,-.1,0))
self.pad.append(point(-d,-.1,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'DIO'))
#
# pin 3: GND
#
self.shape = add(self.shape,translate(pad,d,-.05,0))
self.pad.append(point(d,-.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'GND'))
#
# pin 4: CLK
#
self.shape = add(self.shape,translate(pad,-d,-.05,0))
self.pad.append(point(-d,-.05,0))
self.labels.append(self.text(self.pad[-1].x,self.pad[-1].y,self.pad[-1].z,'CLK'))
#
# pin 5: GND
#
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