path: root/gerbonara/cad/primitives.py

import math
from copy import copy
from itertools import zip_longest
from dataclasses import dataclass, field, KW_ONLY

from ..utils import LengthUnit, MM, rotate_point
from ..layers import LayerStack
from ..graphic_objects import Line, Arc, Flash
from ..apertures import Aperture, CircleAperture, RectangleAperture, ExcellonTool


def sgn(x):
    return -1 if x < 0 else 1


class Board:
    def __init__(self):
        self.objects = set()

    def to_layer_stack(self, layer_stack):
        if layer_stack is None:
            layer_stack = LayerStack()

        for obj in self.objects:
            obj.render(stack)


@dataclass
class Positioned:
    x: float
    y: float
    _: KW_ONLY
    rotation: float = 0.0
    unit: LengthUnit = MM
    parent: object = None

    @property
    def abs_pos(self, dx, dy, da):
        x, y = rotate_point(self.x, self.y, da)

        if self.parent is None:
            px, py, pa = dx, dy, 0
        else:
            px, py, pa = self.parent.abs_pos(dx, dy, da)

        return x+px, y+py, self.rotation+da+pa


@dataclass
class Pad(Positioned):
    pass

@dataclass
class SMDPad(Pad):
    copper_aperture: Aperture
    mask_aperture: Aperture
    paste_aperture: Aperture
    silk_features: list
    side: str = 'top'

    def to_layer_stack(self, layer_stack):
        x, y, rotation = self.abs_pos
        stack[self.side, 'copper'].objects.append(Flash(x, y, self.copper_aperture.rotated(rotation), unit=self.unit))
        stack[self.side, 'mask'  ].objects.append(Flash(x, y, self.mask_aperture.rotated(rotation), unit=self.unit))
        stack[self.side, 'paste' ].objects.append(Flash(x, y, self.paste_aperture.rotated(rotation), unit=self.unit))
        stack[self.side, 'silk'  ].objects.extend([copy(feature).rotate(rotation).offset(x, y, self.unit)
                                                 for feature in self.silk_features])

    def flip(self):
        self.side = 'top' if self.side == 'bottom' else 'top'


class THTPad(Pad):
    drill_dia: float
    pad_top: SMDPad
    pad_bottom: SMDPad = None
    aperture_inner: Aperture = None
    plated: bool = True

    def __post_init__(self):
        if self.pad_bottom is None:
            self.pad_bottom = copy(self.pad_top)
            self.pad_bottom.flip()

        self.pad_top.parent = self.pad_bottom.parent = self

        if (self.pad_top.side, self.pad_bottom.side) != ('top', 'bottom'):
            raise ValueError(f'The top and bottom pads must have side set to top and bottom, respectively. Currently, the top pad side is set to {self.pad_top.side} and the bottom pad side to {self.pad_bottom.side}.')

    def to_layer_stack(self, layer_stack, x, y, rotation):
        x, y, rotation = self.abs_pos
        self.top_pad.to_layer_stack(layer_stack)
        self.bottom_pad.to_layer_stack(layer_stack)

        for (side, use), layer in layer_stack.inner_layers:
            layer.objects.append(Flash(x, y, self.aperture_inner.rotated(rotation), unit=self.unit))

        hole = Flash(self.x, self.y, ExcellonTool(self.drill_dia, plated=self.plated, unit=self.unit), unit=self.unit)
        if self.plated:
            layer_stack.drill_pth.objects.append(hole)
        else:
            layer_stack.drill_npth.objects.append(hole)


@dataclass
class Via(Positioned):
    diameter: float
    hole: float

    def to_layer_stack(self, layer_stack):
        x, y, rotation = self.abs_pos

        aperture = CircleAperture(diameter=self.diameter, unit=self.unit)
        tool = ExcellonTool(diameter=self.hole, unit=self.unit)
        
        for (side, use), layer in layer_stack.copper_layers:
            layer.objects.append(Flash(x, y, aperture, unit=self.unit))

        layer_stack.drill_pth.objects.append(Flash(x, y, tool, unit=self.unit))


@dataclass
class Trace:
    width: float
    start: object = None
    end: object = None
    side: str = 'top'
    waypoints: [(float, float)] = field(default_factory=list)
    style: str = 'direct'
    orientation: [str] = tuple() # 'top' or 'bottom'
    roundover: float = 0
    unit: LengthUnit = MM
    parent: object = None

    DIRECT = 'direct'
    OBLIQUE = 'oblique'
    ORTHO = 'ortho'

    CW = 'cw'
    CCW = 'ccw'

    def _route(self, p1, p2, orientation):
        x1, y1 = p1
        x2, y2 = p2
        dx = x2-x1
        dy = y2-y1

        yield p1

        if self.style == 'direct' or \
                math.isclose(x1, x2, abs_tol=1e-6) or math.isclose(y1, y2, abs_tol=1e-6) or \
                (self.style == 'oblique' and math.isclose(dx, dy, abs_tol=1e-6)):
            yield p2
            return

        p = (abs(dy) > abs(dx)) == ((dx >= 0) == (dy >= 0))
        if self.style == 'oblique':
            if p == (orientation == 'cw'):
                if abs(dy) > abs(dx):
                    yield (0, sgn(dy)*(abs(dy)-abs(dx)))
                else:
                    yield (sgn(dx)*(abs(dx)-abs(dy)), 0)
            else:
                if abs(dy) > abs(dx):
                    yield (dx, sgn(dy)*abs(dx))
                else:
                    yield (sgn(dx)*abs(dy), dy)
        else: # self.style == 'ortho'
            pass
            #if p == (orientation == 'cw'):

            #else:

        yield p2
        
    def to_layer_stack(self, layer_stack, x, y, rotation):
        start, end = self.start, self.end

        if not isinstance(start, tuple):
            start = start.abs_pos
        if not isinstance(end, tuple):
            end = end.abs_pos

        points = [start, *self.waypoints, end]
        aperture = CircleAperture(diameter=self.width, unit=self.unit)

        for p1, p2, orientation in zip_longest(points[:-1], points[1:], self.orientation):
            layer_stack[self.side, 'copper'].extend(self._route(p1, p2, orientation, aperture))

if __name__ == '__main__':
    from ..utils import setup_svg, Tag
    from ..newstroke import Newstroke

    font = Newstroke()

    tags = []
    for n in range(0, 8*6):
        theta = 2*math.pi / (8*6) * n
        dx, dy = math.cos(theta), math.sin(theta)
        tr = Trace(0.1, style='oblique')
        points_cw = list(tr._route((0, 0), (dx, dy), 'cw'))
        points_ccw = list(tr._route((0, 0), (dx, dy), 'ccw'))

        pd = lambda points: f'M {points[0][0]}, {points[0][1]} ' + ' '.join(f'L {x}, {y}' for x, y in points[1:])

        strokes = list(font.render(f'α={n/(8*6)*360}', size=0.2))
        xs = [x for st in strokes for x, _y in st]
        ys = [y for st in strokes for _x, y in st]
        min_x, min_y, max_x, max_y = min(xs), min(ys), max(xs), max(ys)

        xf = f'translate({n//6*1.1 + 0.1} {n%6*1.3 + 0.3}) scale(0.5 0.5) translate(1 1)'
        txf = f'{xf} translate(0 -1.2) translate({-(max_x-min_x)/2} {-max_y})'

        tags.append(Tag('circle', cx='0', cy='0', r='1',
                        fill='none', stroke='black', opacity='0.5', stroke_width='0.05',
                        transform=xf))
        tags.append(Tag('path',
                        fill='none',
                        stroke='red', opacity='0.5', stroke_width='0.05', stroke_linecap='round',
                        transform=xf, d=pd(points_cw)))
        tags.append(Tag('path',
                        fill='none',
                        stroke='blue', opacity='0.5', stroke_width='0.05', stroke_linecap='round',
                        transform=xf, d=pd(points_ccw)))
        tags.append(Tag('path',
                        fill='none',
                        stroke='black', opacity='0.5', stroke_width='0.02', stroke_linejoin='round', stroke_linecap='round',
                        transform=txf, d=' '.join(pd(points) for points in strokes)))

    print(setup_svg([Tag('g', tags, transform='scale(20 20)')], [(0, 0), (20*10*1.1 + 0.1, 20*10*1.3 + 0.1)]))