250 lines
9.8 KiB
Python
250 lines
9.8 KiB
Python
import argparse, textwrap
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import olefile
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import re
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import json
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import copy
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import math
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import logging as lg
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lg.basicConfig(level=lg.DEBUG)
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def parse(input, format, **kwargs):
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fullPath = input
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blah = olefile.OleFileIO(fullPath)
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stream = blah.openstream('FileHeader')
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# split binary stream into lines using a repeated 5 byte signature
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pattern = re.compile(b'.{3}\x00\x00\|')
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lines = pattern.split(stream.read()[5:-1]) # lopping off first 4 bytes, and last byte, since they don't seem to matter?
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schematic = {}
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datums = []
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# loop through every "line" and parse each into a dictionary
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for line in lines:
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datum = {}
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pairs = line.split(b"|")
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for pair in pairs:
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data = pair.split(b"=")
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datum[data[0].decode()] = data[1].decode()
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datums.append(datum)
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# separate out the header dictionary from the "records" dictionaries
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schematic["header"] = [x for x in datums if 'HEADER' in x.keys()]
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schematic["records"] = [x for x in datums if 'RECORD' in x.keys()]
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hierarchy_schematic = determine_hierarchy(schematic)
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if format == 'all-hierarchy':
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schematic = hierarchy_schematic
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elif format == 'parts-list':
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schematic = determine_parts_list(hierarchy_schematic)
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elif format == 'net-list':
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schematic = determine_net_list(hierarchy_schematic)
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return schematic
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def determine_hierarchy(schematic):
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"""Convert a dict containing a flat list of records
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into a dict of records in a hierarchy
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:param schematic: dict with 'header' and 'records' populated
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:return: the input dict with 'records' assembled into parent/child hierarchy
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"""
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# prep a scratchpad copy of records to build hierarchy from
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records_copy = copy.deepcopy(schematic["records"])
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schematic["hierarchy"] = []
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# loop through all "records" and organize them into owner/children
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for i, current in enumerate(records_copy):
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current['index'] = i
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s = current.get("OWNERINDEX")
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if (s is None):
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schematic["hierarchy"].append(current)
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else:
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ownerIndex = int(s)
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owner = records_copy[ownerIndex]
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if (owner.get("children") == None):
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owner["children"] = []
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owner["children"].append(current)
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schematic["records"] = schematic["hierarchy"]
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schematic.pop("hierarchy", None)
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return schematic
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def determine_parts_list(schematic):
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parts_list = {
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"records": [ record for record in schematic["records"] if record["RECORD"] is "1" ]
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}
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return parts_list
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def determine_net_list(schematic):
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_, wires = find_record(schematic, key="RECORD", value="27")
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_, pins = find_record(schematic, key="RECORD", value="2")
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_, labels = find_record(schematic, key="RECORD", value="25")
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_, power_ports = find_record(schematic, key="RECORD", value="17")
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devices = wires + pins + labels + power_ports
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p = re.compile('^(?P<prefix>X)(?P<index>\d+)$')
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for device in devices:
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# if a Pin, do some fancy geometry math
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if device["RECORD"] == "2":
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rotation = (int(device["PINCONGLOMERATE"]) & 0x03) * 90
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device['coords'] = [[
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int(int(device['LOCATION.X']) + math.cos(rotation / 180 * math.pi) * int(device['PINLENGTH'])),
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int(int(device['LOCATION.Y']) + math.sin(rotation / 180 * math.pi) * int(device['PINLENGTH']))
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]]
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# if a Wire, follow inconsistent location key names (X1 vs LOCATION.X, etc..)
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elif device["RECORD"] == "27":
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coord_name_matches = [x for x in [p.match(key) for key in device.keys()] if x]
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device['coords'] = [ ( int(device['X' + match.group('index')]) , int(device['Y' + match.group('index')]) )
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for match in coord_name_matches ]
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# everything else, just convert the location values to ints
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else:
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device['coords'] = [(int(device['LOCATION.X']), int(device['LOCATION.Y']))]
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nets = []
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for device in devices:
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if device["index"] not in [d['index'] for net in nets for d in net['devices']]:
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net = {'name': None,
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'devices': find_connected_wires(device, devices, [], schematic)}
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nets.append(net)
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for net in nets:
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net['devices'].sort(key=lambda k: k['index'])
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if not net['name']:
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net['name'] = next(iter(d['TEXT'] for d in net['devices'] if ((d['RECORD'] == '17') or (d['RECORD'] == '25'))), None)
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if not net['name']:
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naming_pin = next(iter(d for d in net['devices'] if d['RECORD'] == '2'), None)
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parent = next(iter(find_record(schematic, key="index", value=int(naming_pin['OWNERINDEX']))[1]), None) if naming_pin else None
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net['name'] = next(iter('Net' + r['TEXT'] for r in parent['children'] if (r['RECORD'] == '34')), None) if parent else None
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schematic["nets"] = nets
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return schematic
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def find_record(schematic, key, value, record=None, visited=None, found=None):
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lg.debug("finding records where: {0} = {1}".format(key, value))
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if visited == None:
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visited = []
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if found == None:
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found = []
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if record == None:
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for record in schematic['records']:
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visited, found = find_record(schematic, key, value, record=record, visited=visited, found=found)
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else:
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if record['index'] not in [r['index'] for r in visited]:
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visited.append(record)
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if key in record.keys():
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if record[key] == value:
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found.append(record)
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if "children" in record.keys():
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for child_record in record["children"]:
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visited, found = find_record(schematic, key, value, record=child_record, visited=visited, found=found)
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return visited, found
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def find_connected_wires(wire, devices, visited, schematic):
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neighbors = find_neighbors(wire, devices, schematic)
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lg.debug('entering: {0}'.format(wire['index']))
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if wire['index'] not in [w['index'] for w in visited]:
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lg.debug('adding: {0} to {1}'.format(wire['index'], [w['index'] for w in visited]))
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visited.append(wire)
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for neighbor in neighbors:
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lg.debug('trying: {0} of {1}'.format(neighbor['index'], [x['index'] for x in neighbors]))
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visited = find_connected_wires(neighbor, devices, visited, schematic)
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lg.debug('visited = {0}'.format([w['index'] for w in visited]))
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else:
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lg.debug('skipping: {0} already in list {1}'.format(wire['index'], [w['index'] for w in visited]))
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lg.debug('returning: {0}'.format(wire['index']))
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return visited
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def find_neighbors(wire, devices, schematic):
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all_wires = devices
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other_wires = [record for record in all_wires if record != wire]
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neighbors = []
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for other_wire in other_wires:
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if is_connected(wire, other_wire):
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neighbors.append(other_wire)
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return neighbors
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def is_connected(wire_a, wire_b):
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if wire_a["RECORD"] == "27":
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a_line_segments = [(wire_a['coords'][i], wire_a['coords'][i + 1]) for i in
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range(len(wire_a['coords']) - 1)]
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else:
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a_line_segments = [(wire_a['coords'][0], wire_a['coords'][0])]
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if wire_b["RECORD"] == "27":
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b_line_segments = [(wire_b['coords'][i], wire_b['coords'][i + 1]) for i in
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range(len(wire_b['coords']) - 1)]
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else:
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b_line_segments = [(wire_b['coords'][0], wire_b['coords'][0])]
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# check if any vertices in wire_a lie on wire_b
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for vertex in [vx for line in a_line_segments for vx in line]:
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for b_line in b_line_segments:
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b_xs = sorted(list(zip(*b_line))[0])
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b_ys = sorted(list(zip(*b_line))[1])
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if ((min(b_xs) <= vertex[0] <= max(b_xs))
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and (min(b_ys) <= vertex[1] <= max(b_ys))):
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return True
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# check if any vertices in wire_b lie on wire_a
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for vertex in [vx for line in b_line_segments for vx in line]:
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for a_line in a_line_segments:
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a_xs = sorted(list(zip(*a_line))[0])
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a_ys = sorted(list(zip(*a_line))[1])
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if ((min(a_xs) <= vertex[0] <= max(a_xs))
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and (min(a_ys) <= vertex[1] <= max(a_ys))):
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return True
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# check if both items are Power Ports with the same TEXT value
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if ( wire_a["RECORD"] == "17" ) and ( wire_b["RECORD"] == "17" ) and ( wire_a["TEXT"] == wire_b["TEXT"] ):
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return True
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return False
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def main(args):
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schematic = parse(**vars(args))
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if args.output:
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json_file = open(args.output, 'w')
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json.dump(schematic, json_file, indent=4)
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else:
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print(schematic)
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if __name__ == "__main__":
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parser = argparse.ArgumentParser(description='Converts Altium .SchDoc files into json.', formatter_class=argparse.RawTextHelpFormatter)
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parser.add_argument('input',
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help='path/to/altiumschematic.schdoc file to parse')
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parser.add_argument('-o', '--output', dest='output',
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help='path/to/jsonfile.json file to output json to, otherwise prints to terminal')
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parser.add_argument('-f', '--format', dest='format', default='all-hierarchy',
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choices=['all-list', 'all-hierarchy', 'parts-list', 'net-list'],
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help=textwrap.dedent('''\
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all-list: All records in a flattened list
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all-hierarchy: All records in an owner/child "hierarchy"
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parts-list: A listing of parts and their designators
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net-list: A listing of nets between parts pins, referred to by their designators'''))
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args = parser.parse_args()
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main(args) |