def __init__(self, name): Node.__init__(self) self.name = name self.description = None self.tags = None self.attribute = None
def __init__(self, **kwargs): Node.__init__(self) self.start_pos = Point2D(kwargs['start']) self.end_pos = Point2D(kwargs['end']) self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width')
def __init__(self, **kwargs): Node.__init__(self) self.at = Vector2D(kwargs.get('at', (0, 0))) self.radius = float(kwargs['radius']) self.width = float(kwargs['width']) self.layers = kwargs['layers'] self.number = kwargs.get('number', "")
def __init__(self, **kwargs): Node.__init__(self) self.filename = kwargs['filename'] self.at = Vector3D(kwargs.get('at', [0, 0, 0])) self.offset = Vector3D(kwargs.get('offset', [0, 0, 0])) self.scale = Vector3D(kwargs.get('scale', [1, 1, 1])) self.rotate = Vector3D(kwargs.get('rotate', [0, 0, 0]))
def __init__(self, keycap_type: str = None, spacing: float = None, x_spacing: float = None, y_spacing: float = None, width: float = None, rotation: float = 0, x_offset: float = 0, y_offset: float = 0): Node.__init__(self) if spacing is not None: self.x_spacing = spacing self.y_spacing = spacing elif x_spacing is None or y_spacing is None: raise Exception('Keycap spacing not specified') else: self.x_spacing = x_spacing self.y_spacing = y_spacing self.width = width self.rotation = rotation self.x_offset = x_offset self.y_offset = y_offset if keycap_type == 'regular': self.virtual_childs = self._init_regular_keycap() elif keycap_type == 'ISOEnter': self.virtual_childs = self._init_ISOEnter_keycap() else: raise Exception('Keycap type not supported')
def __init__(self, **kwargs): Node.__init__(self) geometricCircle.__init__(self, Vector2D(kwargs['center']), float(kwargs['radius'])) self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width')
def __init__(self, **kwargs): Node.__init__(self) self.radius_ratio = 0 self._initNumber(**kwargs) self._initType(**kwargs) self._initShape(**kwargs) self._initPosition(**kwargs) self._initSize(**kwargs) self._initOffset(**kwargs) self._initDrill(**kwargs) # requires pad type and offset self._initSolderPasteMargin(**kwargs) self._initSolderPasteMarginRatio(**kwargs) self._initSolderMaskMargin(**kwargs) self._initLayers(**kwargs) self._initMirror(**kwargs) if self.shape == self.SHAPE_OVAL and self.size[0] == self.size[1]: self.shape = self.SHAPE_CIRCLE if self.shape == Pad.SHAPE_OVAL or self.shape == Pad.SHAPE_CIRCLE: self.radius_ratio = 0.5 if self.shape == Pad.SHAPE_ROUNDRECT: self._initRadiusRatio(**kwargs) if self.shape == Pad.SHAPE_CUSTOM: self._initAnchorShape(**kwargs) self._initShapeInZone(**kwargs) self.primitives = [] if 'primitives' not in kwargs: raise KeyError('primitives must be declared for custom pads') for p in kwargs['primitives']: self.addPrimitive(p)
def __init__(self, **kwargs): Node.__init__(self) self.start_pos = Point(kwargs["start"], **kwargs) self.end_pos = Point(kwargs["end"], **kwargs) self.layer = kwargs.get("layer", "F.SilkS") self.width = kwargs.get("width")
def __init__(self, **kwargs): Node.__init__(self) self.start_pos = Vector2D(kwargs['start']) self.end_pos = Vector2D(kwargs['end']) self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width')
def __init__(self, **kwargs): Node.__init__(self) # self.virtual_childs = [] # self._initPosition(**kwargs) self._initSize(**kwargs) self._initFootPrint(**kwargs) # # # self._initDesriptionNode(**kwargs) self._initTagNode(**kwargs) self._initAttributeNode(**kwargs) self._initFile3DNameNode(**kwargs) self._initExtraTextNode(**kwargs) self.extraffablines = kwargs.get('extraffablines') self.typeOfBox = str(kwargs.get('typeOfBox')) self.pins = kwargs.get('pins') # # Create foot print parts # # self._createPinsNode() self._createFFabLine() self._createPin1MarkerLine() self._createFSilkSLine() self._createFCrtYdLine()
def __init__(self, **kwargs): Node.__init__(self) self._initPincount(**kwargs) self._initIncrement(**kwargs) self._initInitialNumber(**kwargs) self._initSpacing(**kwargs) self._initStartingPosition(**kwargs) self.virtual_childs = self._createPads(**kwargs)
def __init__(self, **kwargs): Node.__init__(self) self.nodes = [] for n in kwargs['nodes']: self.nodes.append(Point2D(n)) self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width')
def __init__(self, **kwargs): Node.__init__(self) self.center_pos = Point(kwargs['center']) self.start_pos = Point(kwargs['start']) self.angle = kwargs['angle'] self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width')
def __init__(self, **kwargs): Node.__init__(self) self.polygone_line = kwargs['polygone'] self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width') self.virtual_childs = self._createChildNodes(self.polygone_line)
def __init__(self, **kwargs): Node.__init__(self) self._initPincount(**kwargs) self._initInitialNumber(**kwargs) self._initIncrement(**kwargs) self._initSpacing(**kwargs) self._initStartingPosition(**kwargs) self.virtual_childs = self._createPads(**kwargs)
def __init__(self, **kwargs): Node.__init__(self) self.center_pos = Point(kwargs['center']) self.radius = kwargs['radius'] self.end_pos = {'x': self.center_pos.x+self.radius, 'y': self.center_pos.y} self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width')
def __init__(self, **kwargs): Node.__init__(self) self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width') self._initPolyPoint(**kwargs) self.virtual_childs = self._createChildNodes(self.nodes)
def __init__(self, **kwargs): Node.__init__(self) self.start_pos = Vector2D(kwargs['start']) self.end_pos = Vector2D(kwargs['end']) self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width', 0.12) # TODO: auto detection self.virtual_childs = self._createChildNodes(self.start_pos, self.end_pos, self.layer, self.width)
def __init__(self, **kwargs): Node.__init__(self) self.start_pos = Point(kwargs['start']) self.end_pos = Point(kwargs['end']) self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width', 0.15) # TODO: better variation to get line width self.virtual_childs = self._createChildNodes(self.start_pos, self.end_pos, self.layer, self.width)
def __init__(self, **kwargs): Node.__init__(self) self.center_pos = Vector2D(kwargs['center']) self.radius = kwargs['radius'] self.end_pos = Vector2D([self.center_pos.x+self.radius, self.center_pos.y]) self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width')
def __init__(self, name): Node.__init__(self) self.name = name self.description = None self.tags = None self.attribute = None self.maskMargin = None self.pasteMargin = None self.pasteMarginRatio = None
def __init__(self, **kwargs): Node.__init__(self) self.center_pos = Vector2D(kwargs['center']) self.radius = kwargs['radius'] self.end_pos = Vector2D( [self.center_pos.x + self.radius, self.center_pos.y]) self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width')
def __init__(self, **kwargs): Node.__init__(self) self.solder_mask_margin = kwargs.get('solder_mask_margin', 0) self.minimum_overlap = kwargs.get('minimum_overlap', 0.1) self._initPosition(**kwargs) self._initSize(**kwargs) self._initNumber(**kwargs) self._initPasteSettings(**kwargs) self._initNumAnchor(**kwargs) self._generatePads()
def __init__(self, **kwargs): Node.__init__(self) self.reference_arc = geometricArc(geometry=kwargs['reference_arc']) self.width = float(kwargs['width']) self.number = kwargs.get('number', "") self.layers = kwargs['layers'] self.minimum_overlap = kwargs.get('minimum_overlap', 0.1) self.setRoundRadius(**kwargs) self.setLimitingLines(**kwargs)
def __init__(self, **kwargs): Node.__init__(self) self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width', 0.15) self._initMirror(**kwargs) self._initPolygone(**kwargs) self.virtual_childs = self._createChildNodes(self.polygone_line)
def __init__(self, **kwargs): Node.__init__(self) if 'geometry' in kwargs: geometry = kwargs['geometry'] geometricLine.__init__(self, geometry.start_pos, geometry.end_pos) else: geometricLine.__init__(self, start=Vector2D(kwargs['start']), end=Vector2D(kwargs['end'])) self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width')
def __init__(self, **kwargs): Node.__init__(self) self.start_pos = Point(kwargs['start']) self.end_pos = Point(kwargs['end']) self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get( 'width', 0.15) # TODO: better variation to get line width self.virtual_childs = self._createChildNodes(self.start_pos, self.end_pos, self.layer, self.width)
def __init__(self, **kwargs): Node.__init__(self) self.type = kwargs['type'] self.text = kwargs['text'] self.at = Vector2D(kwargs['at']) self.rotation = kwargs.get('rotation', 0) self.layer = kwargs.get('layer', 'F.SilkS') self.size = Vector2D(kwargs.get('size', [1, 1])) self.thickness = kwargs.get('thickness', 0.15) self.hide = kwargs.get('hide', False)
def __init__(self, **kwargs): Node.__init__(self) self._initNumber(**kwargs) self._initType(**kwargs) self._initShape(**kwargs) self._initPosition(**kwargs) self._initSize(**kwargs) self._initOffset(**kwargs) self._initDrill(**kwargs) # requires pad type and offset self._initSolderPasteMargin(**kwargs) self._initLayers(**kwargs)
def __init__(self, **kwargs): Node.__init__(self) self.type = kwargs['type'] self.text = kwargs['text'] self.at = Point(kwargs['at']) self.rotation = kwargs.get('rotation', 0) self.layer = kwargs['layer'] self.size = Point(kwargs.get('size', [1, 1])) self.thickness = kwargs.get('thickness', 0.15) self.hide = kwargs.get('hide', False)
def __init__(self, **kwargs): Node.__init__(self) self.at = Vector2D(kwargs.get('at', [0, 0])) self.size_round_base = kwargs.get('size_round_base', 0.01) self.grid_round_base = kwargs.get('grid_round_base', 0.01) self.radius_ratio = kwargs.get('radius_ratio', 0) self.maximum_radius = kwargs.get('maximum_radius') self._initNumber(**kwargs) self._initSize(**kwargs) self._initThermalVias(**kwargs) self._initPaste(**kwargs)
def __init__(self, name): Node.__init__(self) self.name = name self.description = None self.tags = None self.attribute = None self.clearance = None self.maskMargin = None self.pasteMargin = None self.pasteMarginRatio = None self.zoneConnect = None self.thermalWidth = None self.thermalGap = None
def __init__(self, **kwargs): Node.__init__(self) self._initType(**kwargs) self.text = kwargs['text'] self.at = Vector2D(kwargs['at']) self.rotation = kwargs.get('rotation', 0) self.mirror = kwargs.get('mirror', False) self.layer = kwargs.get('layer', 'F.SilkS') self.size = Vector2D(kwargs.get('size', [1, 1])) self.thickness = kwargs.get('thickness', 0.15) self.hide = kwargs.get('hide', False)
def __init__(self, **kwargs): Node.__init__(self) self.start_pos = Point(kwargs['start']) self.end_pos = Point(kwargs['end']) self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width', 0.15) # TODO: better variation to get line width rect_line = RectLine(**kwargs) rect_line._parent = self rect_fill = RectFill(**kwargs) rect_fill._parent = self self.virtual_childs = [rect_line, rect_fill]
def __init__(self, **kwargs): Node.__init__(self) self.start_pos = Point(kwargs['start']) self.end_pos = Point(kwargs['end']) self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get( 'width', 0.15) # TODO: better variation to get line width rect_line = RectLine(**kwargs) rect_line._parent = self rect_fill = RectFill(**kwargs) rect_fill._parent = self self.virtual_childs = [rect_line, rect_fill]
def __init__(self, **kwargs): Node.__init__(self) self.at = Vector2D(kwargs.get('at', [0, 0])) self.size_round_base = kwargs.get('size_round_base', 0.01) self.grid_round_base = kwargs.get('grid_round_base', 0.01) self.round_radius_handler = RoundRadiusHandler(default_radius_ratio=0, **kwargs) self.kicad4_compatible = kwargs.get('kicad4_compatible', False) self.paste_round_radius_handler = RoundRadiusHandler( radius_ratio=kwargs.get('paste_radius_ratio', 0), maximum_radius=kwargs.get('paste_maximum_radius', None), round_radius_exact=kwargs.get('paste_round_radius_exact', None), kicad4_compatible=self.kicad4_compatible ) self._initNumber(**kwargs) self._initSize(**kwargs) self._initThermalVias(**kwargs) self._initPaste(**kwargs)
def __init__(self, **kwargs): Node.__init__(self) self.filename = kwargs['filename'] self.at = Vector3D(kwargs.get('at', [0, 0, 0])) self.scale = Vector3D(kwargs.get('scale', [1, 1, 1])) self.rotate = Vector3D(kwargs.get('rotate', [0, 0, 0]))
def __init__(self, **kwargs): Node.__init__(self) self.nodes = PolygonPoints(**kwargs) self.layer = kwargs.get('layer', 'F.SilkS') self.width = kwargs.get('width')
def __init__(self, **kwargs): Node.__init__(self) self.filename = kwargs['filename'] self.at = Point(kwargs['at']) self.scale = Point(kwargs['scale']) self.rotate = Point(kwargs['rotate'])
def __init__(self, r): Node.__init__(self) self.rotation = r # in degree
def __init__(self, x, y): Node.__init__(self) # translation information self.offset_x = x self.offset_y = y