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"""
Library for processing KiCad's symbol files.
"""
import json
import string
import math
import re
import sys
import itertools
from fnmatch import fnmatch
from collections import defaultdict
from dataclasses import field
from pathlib import Path
from typing import Any, Dict, List, Optional, Tuple
from .sexp import *
from .sexp_mapper import *
from .base_types import *
from ...utils import rotate_point, Tag, arc_bounds
from ...newstroke import Newstroke
from .schematic_colors import *
PIN_ETYPE = AtomChoice(Atom.input, Atom.output, Atom.bidirectional, Atom.tri_state, Atom.passive, Atom.free,
Atom.unspecified, Atom.power_in, Atom.power_out, Atom.open_collector, Atom.open_emitter,
Atom.no_connect)
PIN_STYLE = AtomChoice(Atom.line, Atom.inverted, Atom.clock, Atom.inverted_clock, Atom.input_low, Atom.clock_low,
Atom.output_low, Atom.edge_clock_high, Atom.non_logic)
@sexp_type('alternate')
class AltFunction:
name: str = None
etype: PIN_ETYPE = Atom.unspecified
shape: PIN_STYLE = Atom.line
@sexp_type('__styled_text')
class StyledText:
value: str = None
effects: TextEffect = field(default_factory=TextEffect)
@sexp_type('pin')
class Pin:
etype: PIN_ETYPE = Atom.unspecified
style: PIN_STYLE = Atom.line
at: AtPos = field(default_factory=AtPos)
length: Named(float) = 2.54
hide: Flag() = False
name: Rename(StyledText) = field(default_factory=StyledText)
number: Rename(StyledText) = field(default_factory=StyledText)
alternates: List(AltFunction) = field(default_factory=list)
_: SEXP_END = None
unit: object = None
def __after_parse__(self, parent=None):
self.unit = parent
@property
def direction(self):
return {0: 'R', 90: 'U', 180: 'L', 270: 'D'}.get(self.at.rotation, 'R')
@direction.setter
def direction(self, value):
self.at.rotation = {0: 'R', 90: 'U', 180: 'L', 270: 'D'}[value[0].upper()]
def bounding_box(self, default=None):
font = Newstroke.load()
strokes = list(font.render(self.name, size=2.54))
min_x = min(x for st in strokes for x, y in st)
min_y = min(y for st in strokes for x, y in st)
max_x = max(x for st in strokes for x, y in st)
max_y = max(y for st in strokes for x, y in st)
w, h = max_x - min_x, max_y - min_y
l = self.length + 0.2 + w
x1, y1 = x2, y2 = self.at.x, self.at.y
if self.at.rotation == 0:
x2 += w
y1 -= h/2
y2 += h/2
if self.at.rotation == 90:
y2 += w
x1 -= h/2
x2 += h/2
if self.at.rotation == 180:
x1 -= w
y1 -= h/2
y2 += h/2
if self.at.rotation == 270:
y1 -= w
x1 -= h/2
x2 += h/2
else:
raise ValueError(f'Invalid pin rotation {self.at.rotation}')
return (x1, y1), (x2, y2)
def to_svg(self, colorscheme, p_mirror, p_rotation):
if self.hide:
return
psx, psy = (-1 if p_mirror.x else 1), (-1 if p_mirror.y else 1)
x1, y1 = self.at.x, self.at.y
x2, y2 = self.at.x+self.length, self.at.y
if p_mirror.y:
p_xf = f'scale(-1 -1)'
elif p_mirror.x:
p_xf = f'scale(1 1)'
else:
p_xf = f'scale(1 -1)'
p_xf += f'rotate({p_rotation})'
xform = {'transform': f'{p_xf} translate({self.at.x:.3f} {self.at.y:.3f}) rotate({self.at.rotation})'}
style = {'stroke_width': 0.254, 'stroke': colorscheme.lines, 'stroke_linecap': 'round'}
yield Tag('path', **xform, **style, d=f'M 0 0 L {self.length:.3f} 0')
eps = 1
for tag in {
'line': [],
'inverted': [
Tag('circle', **xform, **style, cx=x2-eps/3-0.2, cy=y2, r=eps/3)],
'clock': [
Tag('path', **xform, **style, d=f'M {x2} {y2-eps/2} L {x2+eps/2} {y2} L {x2} {y2+eps/2}')],
'inverted_clock': [
Tag('circle', **xform, **style, cx=x2-eps/3-0.2, cy=y2, r=eps/3),
Tag('path', **xform, **style, d=f'M {x2} {y2-eps/2} L {x2+eps/2} {y2} L {x2} {y2+eps/2}')],
'input_low': [
Tag('path', **xform, **style, d=f'M {x2} {y2} L {x2-eps} {y2-eps} L {x2-eps} {y2}')],
'clock_low': [
Tag('path', **xform, **style, d=f'M {x2} {y2} L {x2-eps} {y2-eps} L {x2-eps} {y2}'),
Tag('path', **xform, **style, d=f'M {x2} {y2-eps/2} L {x2+eps/2} {y2} L {x2} {y2+eps/2}')],
'output_low': [
Tag('path', **xform, **style, d=f'M {x2} {y2-eps} L {x2-eps} {y2}')],
'edge_clock_high': [
Tag('path', **xform, **style, d=f'M {x2} {y2} L {x2-eps} {y2-eps} L {x2-eps} {y2}'),
Tag('path', **xform, **style, d=f'M {x2} {y2-eps/2} L {x2+eps/2} {y2} L {x2} {y2+eps/2}')],
'non_logic': [
Tag('path', **xform, **style, d=f'M {x2-eps/2} {y2-eps/2} L {x2+eps/2} {y2+eps/2}'),
Tag('path', **xform, **style, d=f'M {x2-eps/2} {y2+eps/2} L {x2+eps/2} {y2-eps/2}')],
# FIXME...
}.get(self.style, []):
yield tag
rot = self.at.rotation + p_rotation
trot = self.at.rotation
ax, ay = self.length+0.2, 0
ax, ay = rotate_point(ax, ay, math.radians(-self.at.rotation))
#lx, ly = self.at.x, -self.at.y
#lx, ly = rotate_point(lx, ly, math.radians(p_rotation))
#if p_mirror.y:
# lx, ly = -lx, ly
#elif p_mirror.x:
# lx, ly = lx, -ly
#yield Tag('circle', cx=lx, cy=ly, r='0.5', stroke='blue', stroke_width='0.1', fill='none', z_index='100')
lx, ly = self.at.x + ax, -self.at.y - ay
lx, ly = rotate_point(lx, ly, math.radians(p_rotation))
if p_mirror.y:
lx, ly = -lx, ly
elif p_mirror.x:
lx, ly = lx, -ly
#yield Tag('circle', cx=lx, cy=ly, r='0.5', stroke='red', stroke_width='0.1', fill='none', z_index='100')
h_align = 'left'
if p_mirror.y:
if trot in (0, 180):
trot = 180 - trot
elif p_mirror.x:
if p_rotation == 0:
if trot in (90, 270):
trot = 360-trot
else:
if trot in (0, 180):
trot = 180 - trot
frot = (trot + p_rotation)%360
sx, sy = 1, 1
if frot == 180:
frot = 0
h_align = 'right'
elif frot == 270:
frot = 90
h_align = 'right'
font = Newstroke.load()
if self.name.value != '~' and not self.unit.symbol.pin_names.hide:
yield font.render_svg(self.name.value,
size=self.name.effects.font.size.y or 1.27,
x0=0,
y0=0,
h_align=h_align,
v_align='middle',
rotation=-frot,
stroke=colorscheme.pin_names,
transform=f'translate({lx:.3f} {ly:.3f})',
scale=(sx, sy),
mirror=(False, False),
)
if self.number.value != '~' and not self.unit.symbol.pin_numbers.hide:
yield font.render_svg(self.number.value,
size=self.number.effects.font.size.y or 1.27,
x0=-0.4 if h_align == 'left' else 0.4,
y0=-0.4,
h_align={'left': 'right', 'right': 'left'}[h_align],
v_align='bottom',
rotation=-frot,
stroke=colorscheme.pin_numbers,
scale=(sx, sy),
transform=f'translate({lx:.3f} {ly:.3f})',
mirror=(False, False),
)
@sexp_type('fill')
class Fill:
type: Named(AtomChoice(Atom.none, Atom.outline, Atom.background)) = Atom.none
def svg(self, fg, bg):
if self.type == 'outline':
return fg
elif self.type == 'background':
return bg
else:
return 'none'
@sexp_type('circle')
class Circle:
center: Rename(XYCoord) = field(default_factory=XYCoord)
radius: Named(float) = 0.0
stroke: Stroke = field(default_factory=Stroke)
fill: Fill = field(default_factory=Fill)
def bounding_box(self, default=None):
x, y, r = self.center.x, self.center.y, self.radius
return (x-r, y-r), (x+r, y+r)
def to_svg(self, colorscheme=Colorscheme.KiCad):
yield Tag('circle', cx=f'{self.center.x:.3f}', cy=f'{self.center.y:.3f}', r=f'{self.radius:.3f}',
fill=self.fill.svg(colorscheme.lines, colorscheme.fill),
**self.stroke.svg_attrs(colorscheme.lines))
# https://stackoverflow.com/questions/28910718/give-3-points-and-a-plot-circle
def define_circle(p1, p2, p3):
"""
Returns the center and radius of the circle passing the given 3 points.
In case the 3 points form a line, raises a ValueError.
"""
temp = p2[0] * p2[0] + p2[1] * p2[1]
bc = (p1[0] * p1[0] + p1[1] * p1[1] - temp) / 2
cd = (temp - p3[0] * p3[0] - p3[1] * p3[1]) / 2
det = (p1[0] - p2[0]) * (p2[1] - p3[1]) - (p2[0] - p3[0]) * (p1[1] - p2[1])
if abs(det) < 1.0e-6:
raise ValueError()
# Center of circle
cx = (bc*(p2[1] - p3[1]) - cd*(p1[1] - p2[1])) / det
cy = ((p1[0] - p2[0]) * cd - (p2[0] - p3[0]) * bc) / det
radius = math.sqrt((cx - p1[0])**2 + (cy - p1[1])**2)
return ((cx, cy), radius)
@sexp_type('arc')
class Arc:
start: Rename(XYCoord) = field(default_factory=XYCoord)
mid: Rename(XYCoord) = field(default_factory=XYCoord)
end: Rename(XYCoord) = field(default_factory=XYCoord)
stroke: Stroke = field(default_factory=Stroke)
fill: Fill = field(default_factory=Fill)
def bounding_box(self, default=None):
(cx, cy), r = define_circle((self.start.x, self.start.y), (self.mid.x, self.mid.y), (self.end.x, self.end.y))
x1, y1 = self.start.x, self.start.y
x2, y2 = self.mid.x-x1, self.mid.y-x2
x3, y3 = (self.end.x - x1)/2, (self.end.y - y1)/2
clockwise = math.atan2(x2*y3-x3*y2, x2*x3+y2*y3) > 0
return arc_bounds(x1, y1, self.end.x, self.end.y, cx-x1, cy-y1, clockwise)
def to_svg(self, colorscheme=Colorscheme.KiCad):
(cx, cy), r = define_circle((self.start.x, self.start.y), (self.mid.x, self.mid.y), (self.end.x, self.end.y))
x1r = self.start.x - cx
y1r = self.start.y - cy
x2r = self.end.x - cx
y2r = self.end.y - cy
a1 = math.atan2(x1r, y1r)
a2 = math.atan2(x2r, y2r)
da = (a2 - a1 + math.pi) % (2*math.pi) - math.pi
large_arc = int(da > math.pi)
d = f'M {self.start.x:.3f} {self.start.y:.3f} A {r:.3f} {r:.3f} 0 {large_arc} 0 {self.end.x:.3f} {self.end.y:.3f}'
yield Tag('path', d=d, fill=self.fill.svg(colorscheme.lines, colorscheme.fill),
**self.stroke.svg_attrs(colorscheme.lines))
@sexp_type('polyline')
class Polyline:
pts: PointList = field(default_factory=PointList)
stroke: Stroke = field(default_factory=Stroke)
fill: Fill = field(default_factory=Fill)
@property
def points(self):
return self.pts.xy
@points.setter
def points(self, value):
self.pts.xy = value
@property
def closed(self):
# if the last and first point are the same, we consider the polyline closed
# a closed triangle will have 4 points (A-B-C-A) stored in the list of points
return len(self.points) > 3 and self.points[0].isclose(self.points[-1])
def bounding_box(self, default=None):
if not self.points:
return default
return (min(p.x for p in self.points), min(p.y for p in self.points)), \
(max(p.x for p in self.points), max(p.y for p in self.points))
def as_rectangle(self):
(maxx, maxy, minx, miny) = self.bbox()
return Rectangle(minx, maxy, maxx, miny, self.stroke, self.fill)
def to_svg(self, colorscheme=Colorscheme.KiCad):
p0, *rest = self.points
if not rest:
return
d = ' '.join([f'M {p0.x:.3f} {p0.y:.3f}', *(f'L {pn.x:.3f} {pn.y:.3f}' for pn in rest)])
yield Tag('path', d=d, fill=self.fill.svg(colorscheme.lines, colorscheme.fill), **self.stroke.svg_attrs(colorscheme.lines))
def is_rectangle(self):
# A rectangle has 5 points and is closed
if len(self.points) != 5 or not self.is_closed():
return False
# Check that we have all four corners present
(x1, y1), (x2, y2) = self.bbox()
if not all(any(cand.isclose(pt) for cand in self.points[:-1]) for pt in
[(x1, y1), (x1, y2), (x2, y2), (x2, y1)]):
return False
# Check that we only have horizontal or vertical lines
if any(x2-x1 and y2-y1 for (x1, y1), (x2, y2) in zip(self.points[:-1], self.points[1:])):
return False
return True
@sexp_type('at')
class TextPos(XYCoord):
x: float = 0 # in millimeter
y: float = 0 # in millimeter
rotation: int = 0 # in degrees
def __after_parse__(self, parent):
self.rotation = self.rotation / 10
def __before_sexp__(self):
self.rotation = round((self.rotation % 360) * 10)
@property
def rotation_rad(self):
return math.radians(self.rotation)
@rotation_rad.setter
def rotation_rad(self, value):
self.rotation = math.degrees(value)
@sexp_type('text')
class Text(TextMixin):
text: str = None
at: TextPos = field(default_factory=TextPos)
rotation: float = None
effects: TextEffect = field(default_factory=TextEffect)
def to_svg(self, colorscheme=Colorscheme.KiCad):
yield from TextMixin.to_svg(self, colorscheme.text)
@sexp_type('rectangle')
class Rectangle:
# Some v6 symbols use rectangles, newer ones encode them as polylines.
# At some point in time we can most likely remove this class since its not used anymore
start: Rename(XYCoord) = None
end: Rename(XYCoord) = None
stroke: Stroke = field(default_factory=Stroke)
fill: Fill = field(default_factory=Fill)
def to_polyline(self):
x1, y1 = self.start.x, self.start.y
x2, y2 = self.end.x, self.end.y
return Polyline(PointList([XYCoord(x1, y1), XYCoord(x2, y1), XYCoord(x2, y2), XYCoord(x1, y2), XYCoord(x1, y1)]),
self.stroke, self.fill)
def to_svg(self, colorscheme=Colorscheme.KiCad):
return self.to_polyline().to_svg(colorscheme)
@sexp_type('property')
class Property(TextMixin):
name: str = None
value: str = None
id: Named(int) = None
at: AtPos = field(default_factory=AtPos)
effects: TextEffect = field(default_factory=TextEffect)
# Alias value for text mixin
@property
def text(self):
return self.value
@text.setter
def text(self, value):
self.value = value
def to_svg(self, colorscheme=Colorscheme.KiCad):
yield from TextMixin.to_svg(self, colorscheme.text)
@sexp_type('pin_numbers')
class PinNumberSpec:
hide: Flag() = False
@sexp_type('pin_names')
class PinNameSpec:
offset: OmitDefault(Named(float)) = 0.508
hide: Flag() = False
@sexp_type('symbol')
class Unit:
name: str = None
circles: List(Circle) = field(default_factory=list)
arcs: List(Arc) = field(default_factory=list)
polylines: List(Polyline) = field(default_factory=list)
rectangles: List(Rectangle) = field(default_factory=list)
texts: List(Text) = field(default_factory=list)
pins: List(Pin) = field(default_factory=list)
unit_name: Named(str) = None
_ : SEXP_END = None
unit_global: Flag() = False
style_global: Flag() = False
demorgan_style: int = 1
unit_index: int = 1
symbol = None
def __after_parse__(self, parent):
self.symbol = parent
if not (m := re.fullmatch(r'(.*)_([0-9]+)_([0-9]+)', self.name)):
raise FormatError(f'Invalid unit name "{self.name}"')
sym_name, unit_index, demorgan_style = m.groups()
if sym_name != self.symbol.raw_name.rpartition(':')[2]:
raise FormatError(f'Unit name "{self.name}" does not match symbol name "{self.symbol.name}"')
self.demorgan_style = int(demorgan_style)
self.unit_index = int(unit_index)
self.style_global = self.demorgan_style == 0
self.unit_global = self.unit_index == 0
@property
def graphical_elements(self):
yield from self.rectangles
yield from self.polylines
yield from self.circles
yield from self.arcs
yield from self.texts
def __before_sexp__(self):
self.name = f'{self.symbol.name}_{self.unit_index}_{self.demorgan_style}'
def pin_stacks(self):
stacks = defaultdict(lambda: set())
for pin in self.all_pins():
stacks[(pin.at.x, pin.at.y)].add(pin)
return stacks
@sexp_type('symbol')
class Symbol:
raw_name: str = None
extends: Named(str) = None
power: Wrap(Flag()) = False
pin_numbers: OmitDefault(PinNumberSpec) = field(default_factory=PinNumberSpec)
pin_names: OmitDefault(PinNameSpec) = field(default_factory=PinNameSpec)
in_bom: Named(YesNoAtom()) = True
on_board: Named(YesNoAtom()) = True
properties: List(Property) = field(default_factory=list)
units: List(Unit) = field(default_factory=list)
_ : SEXP_END = None
library = None
name: str = None
library_name: str = None
def __after_parse__(self, parent):
self.library = parent
self.library_name, _, self.name = self.raw_name.rpartition(':')
if self.extends:
self.in_bom = None
self.on_board = None
self.properties = {prop.name: prop for prop in self.properties}
if (prop := self.properties.get('ki_fp_filters')):
prop.value = prop.value.split() if prop.value else []
def __before_sexp__(self):
if (prop := self.properties.get('ki_fp_filters')):
if not isinstance(prop.value, str):
prop.value = ' '.join(prop.value)
self.properties = list(self.properties.values())
def default_properties(self):
for i, (name, value, hide) in enumerate([
('Reference', 'U', False),
('Value', None, False),
('Footprint', None, True),
('Datasheet', None, True),
('ki_locked', None, True),
('ki_keywords', None, True),
('ki_description', None, True),
('ki_fp_filters', None, False),
]):
self.properties[name] = Property(name=name, value=value, id=i, effects=TextEffect(hide=hide))
def resolve(self):
if self.extends:
return self.library[self.extends]
else:
return self
def is_graphic_symbol(self):
return self.extends is None and (
not self.pins or self.get_property("Reference").value == "#SYM"
)
def pins_by_name(self, demorgan_style=None):
pins = defaultdict(lambda: set())
for unit in self.units(demorgan_style):
for pin in unit.all_pins:
pins[pin.name].add(pin)
return pins
def pins_by_number(self, demorgan_style=None):
pins = defaultdict(lambda: set())
for unit in self.units(demorgan_style):
for pin in unit.all_pins:
pins[pin.number].add(pin)
return pins
def filter_pins(self, name=None, direction=None, electrical_type=None):
for pin in self.all_pins:
if name and not fnmatch(pin.name, name):
continue
if direction and not pin.direction in direction:
continue
if electrical_type and not pin.etype in electical_type:
continue
yield pin
def heuristically_small(self):
""" Heuristically try to determine whether this is a "small" component like a resistor, capacitor, LED, diode,
or transistor etc. When we have at most two pins, or there is no filled rectangle as symbol outline and we have
3 or 4 pins, we assume this is a small symbol.
"""
if len(self.all_pins) <= 2:
return True
if len(self.all_pins) > 4:
return False
return bool(self.get_center_rectangle(range(self.unit_count)))
SUPPORTED_FILE_FORMAT_VERSIONS = [20211014, 20220914]
@sexp_type('kicad_symbol_lib')
class Library:
_version: Named(int, name='version') = 20211014
generator: Named(Atom) = Atom.gerbonara
symbols: List(Symbol) = field(default_factory=list)
_ : SEXP_END = None
original_filename: str = None
@property
def version(self):
return self._version
@version.setter
def version(self, value):
if value not in SUPPORTED_FILE_FORMAT_VERSIONS:
raise FormatError(f'File format version {value} is not supported. Supported versions are {", ".join(map(str, SUPPORTED_FILE_FORMAT_VERSIONS))}.')
@classmethod
def open(cls, filename: str):
with open(filename) as f:
return cls.parse(f.read())
def write(self, filename=None):
with open(filename or self.original_filename, 'w') as f:
f.write(build_sexp(sexp(self)))
if __name__ == "__main__":
if len(sys.argv) >= 2:
a = Library.open(sys.argv[1])
print(build_sexp(sexp(a)))
else:
print("pass a .kicad_sym file please")
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