#! /usr/bin/env python # -*- coding: utf-8 -*- # copyright 2014 Hamilton Kibbe # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # http://www.apache.org/licenses/LICENSE-2.0 # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import math from dataclasses import dataclass from copy import deepcopy from enum import Enum import string from .utils import LengthUnit, MM, Inch, Tag from . import graphic_primitives as gp from . import graphic_objects as go @dataclass class FileSettings: ''' .. note:: Format and zero suppression are configurable. Note that the Excellon and Gerber formats use opposite terminology with respect to leading and trailing zeros. The Gerber format specifies which zeros are suppressed, while the Excellon format specifies which zeros are included. This function uses the Gerber-file convention, so an Excellon file in LZ (leading zeros) mode would use `zeros='trailing'` ''' notation : str = 'absolute' unit : LengthUnit = MM angle_unit : str = 'degree' zeros : bool = None number_format : tuple = (2, 5) # input validation def __setattr__(self, name, value): if name == 'unit' and value not in [MM, Inch]: raise ValueError(f'Unit must be either Inch or MM, not {value}') elif name == 'notation' and value not in ['absolute', 'incremental']: raise ValueError(f'Notation must be either "absolute" or "incremental", not {value}') elif name == 'angle_unit' and value not in ('degree', 'radian'): raise ValueError(f'Angle unit may be "degree" or "radian", not {value}') elif name == 'zeros' and value not in [None, 'leading', 'trailing']: raise ValueError(f'zeros must be either "leading" or "trailing" or None, not {value}') elif name == 'number_format': if len(value) != 2: raise ValueError(f'Number format must be a (integer, fractional) tuple of integers, not {value}') if value != (None, None) and (value[0] > 6 or value[1] > 7): raise ValueError(f'Requested precision of {value} is too high. Only up to 6.7 digits are supported by spec.') super().__setattr__(name, value) def to_radian(self, value): value = float(value) return math.radians(value) if self.angle_unit == 'degree' else value def parse_ipc_length(self, value, default=None): if value is None or not str(value).strip(): return default if isinstance(value, str) and value[0].isalpha(): value = value[1:] value = int(value) value *= 0.0001 if self.is_inch else 0.001 return value def format_ipc_number(self, value, digits, key='', sign=False): if value is None: return ' ' * (digits + int(bool(sign)) + len(key)) if isinstance(value, Enum): value = value.value num = format(round(value), f'{"+" if sign else ""}0{digits+int(bool(sign))}d') if len(num) > digits + int(bool(sign)): raise ValueError('Error: Number {num} to wide for IPC-356 field of width {digits}') return key + num def format_ipc_length(self, value, digits, key='', unit=None, sign=False): if value is not None: value = self.unit(value, unit) value /= 0.0001 if self.is_inch else 0.001 return self.format_ipc_number(value, digits, key, sign=sign) @property def is_metric(self): return self.unit == MM @property def is_inch(self): return self.unit == Inch def copy(self): return deepcopy(self) def __str__(self): return f'' @property def incremental(self): return self.notation == 'incremental' @property def absolute(self): return not self.incremental # default to absolute def parse_gerber_value(self, value): if not value: return None # Handle excellon edge case with explicit decimal. "That was easy!" if '.' in value: return float(value) # TARGET3001! exports zeros as "00" even when it uses an explicit decimal point everywhere else. if int(value) == 0: return 0 # Format precision integer_digits, decimal_digits = self.number_format if integer_digits is None or decimal_digits is None: raise SyntaxError('No number format set and value does not contain a decimal point. If this is an Allegro ' 'Excellon drill file make sure either nc_param.txt or ncdrill.log ends up in the same folder as ' 'it, because Allegro does not include this critical information in their Excellon output. If you ' 'call this through ExcellonFile.from_string, you must manually supply from_string with a ' 'FileSettings object from excellon.parse_allegro_ncparam.') # Remove extraneous information sign = '-' if value[0] == '-' else '' value = value.lstrip('+-') if self.zeros == 'leading': value = '0'*decimal_digits + value # pad with zeros to ensure we have enough decimals out = float(sign + value[:-decimal_digits] + '.' + value[-decimal_digits:]) else: # no or trailing zero suppression value = value + '0'*integer_digits out = float(sign + value[:integer_digits] + '.' + value[integer_digits:]) return out def write_gerber_value(self, value, unit=None): """ Convert a floating point number to a Gerber/Excellon-formatted string. """ if unit is not None: value = self.unit(value, unit) integer_digits, decimal_digits = self.number_format if integer_digits is None: integer_digits = 3 if decimal_digits is None: decimal_digits = 3 # negative sign affects padding, so deal with it at the end... sign = '-' if value < 0 else '' # FIXME never use exponential notation here num = format(abs(value), f'0{integer_digits+decimal_digits+1}.{decimal_digits}f').replace('.', '') # Suppression... if self.zeros == 'trailing': num = num.rstrip('0') elif self.zeros == 'leading': num = num.lstrip('0') # Edge case. Per Gerber spec if the value is 0 we should return a single '0' in all cases, see page 77. elif not num.strip('0'): num = '0' return sign + (num or '0') def write_excellon_value(self, value, unit=None): if unit is not None: value = self.unit(value, unit) integer_digits, decimal_digits = self.number_format if integer_digits is None: integer_digits = 2 if decimal_digits is None: decimal_digits = 6 return format(value, f'0{integer_digits+decimal_digits+1}.{decimal_digits}f') class CamFile: def __init__(self, original_path=None, layer_name=None, import_settings=None): self.original_path = original_path self.layer_name = layer_name self.import_settings = import_settings def to_svg(self, tag=Tag, margin=0, arg_unit=MM, svg_unit=MM, force_bounds=None, fg='black', bg='white'): if force_bounds is None: (min_x, min_y), (max_x, max_y) = self.bounding_box(svg_unit, default=((0, 0), (0, 0))) else: (min_x, min_y), (max_x, max_y) = force_bounds min_x = svg_unit(min_x, arg_unit) min_y = svg_unit(min_y, arg_unit) max_x = svg_unit(max_x, arg_unit) max_y = svg_unit(max_y, arg_unit) content_min_x, content_min_y = min_x, min_y content_w, content_h = max_x - min_x, max_y - min_y if margin: margin = svg_unit(margin, arg_unit) min_x -= margin min_y -= margin max_x += margin max_y += margin w, h = max_x - min_x, max_y - min_y w = 1.0 if math.isclose(w, 0.0) else w h = 1.0 if math.isclose(h, 0.0) else h view = tag('sodipodi:namedview', [], id='namedview1', pagecolor=bg, inkscape__document_units=svg_unit.shorthand) tags = [] polyline = None for i, obj in enumerate(self.objects): #if isinstance(obj, go.Flash): # if polyline: # tags.append(polyline.to_svg(tag, fg, bg)) # polyline = None # mask_tags = [ prim.to_svg(tag, 'white', 'black') for prim in obj.to_primitives(unit=svg_unit) ] # mask_tags.insert(0, tag('rect', width='100%', height='100%', fill='black')) # mask_id = f'mask{i}' # tag('mask', mask_tags, id=mask_id) # tag('rect', width='100%', height='100%', mask='url(#{mask_id})', fill=fg) #else: for primitive in obj.to_primitives(unit=svg_unit): if isinstance(primitive, gp.Line): if not polyline: polyline = gp.Polyline(primitive) else: if not polyline.append(primitive): tags.append(polyline.to_svg(tag, fg, bg)) polyline = gp.Polyline(primitive) else: if polyline: tags.append(polyline.to_svg(tag, fg, bg)) polyline = None tags.append(primitive.to_svg(tag, fg, bg)) if polyline: tags.append(polyline.to_svg(tag, fg, bg)) # setup viewport transform flipping y axis xform = f'translate({content_min_x} {content_min_y+content_h}) scale(1 -1) translate({-content_min_x} {-content_min_y})' svg_unit = 'in' if svg_unit == 'inch' else 'mm' # TODO export apertures as where reasonable. return tag('svg', [view, tag('g', tags, transform=xform)], width=f'{w}{svg_unit}', height=f'{h}{svg_unit}', viewBox=f'{min_x} {min_y} {w} {h}', xmlns="http://www.w3.org/2000/svg", xmlns__xlink="http://www.w3.org/1999/xlink", xmlns__sodipodi='http://sodipodi.sourceforge.net/DTD/sodipodi-0.dtd', xmlns__inkscape='http://www.inkscape.org/namespaces/inkscape', root=True) def size(self, unit=MM): (x0, y0), (x1, y1) = self.bounding_box(unit, default=((0, 0), (0, 0))) return (x1 - x0, y1 - y0) def bounding_box(self, unit=MM, default=None): """ Calculate bounding box of file. Returns value given by 'default' argument when there are no graphical objects (default: None) """ bounds = [ p.bounding_box(unit) for p in self.objects ] if not bounds: return default min_x = min(x0 for (x0, y0), (x1, y1) in bounds) min_y = min(y0 for (x0, y0), (x1, y1) in bounds) max_x = max(x1 for (x0, y0), (x1, y1) in bounds) max_y = max(y1 for (x0, y0), (x1, y1) in bounds) #for p in self.objects: # bb = (o_min_x, o_min_y), (o_max_x, o_max_y) = p.bounding_box(unit) # if o_min_x == min_x or o_min_y == min_y or o_max_x == max_x or o_max_y == max_y: # print('\033[91m bounds\033[0m', bb, p) return ((min_x, min_y), (max_x, max_y))