Created
August 17, 2015 06:40
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| #!/usr/bin/python | |
| import sys | |
| import math | |
| import re | |
| import collections | |
| import os | |
| filament_diameter = 1.75; | |
| layer_height = float(os.getenv('layer_height', 0.4)) | |
| point = collections.namedtuple('point', ['x', 'y', 'e']) | |
| area = math.pi * (filament_diameter ** 2) / 4 | |
| def parse_coord(line): | |
| coord_regex = r'([^ ]+)' | |
| x = float(re.search('X' + coord_regex, line).group(1)) | |
| y = float(re.search('Y' + coord_regex, line).group(1)) | |
| e = float(re.search('E' + coord_regex, line).group(1)) | |
| return point(x, y, e) | |
| def distance(p1, p2): | |
| return math.sqrt((p1.x - p2.x) ** 2 + (p1.y - p2.y) ** 2) | |
| def extrusion_width(p1, p2): | |
| dist = distance(p1, p2) | |
| volume = area * abs(p1.e - p2.e) | |
| diameter = layer_height | |
| circle_area = (diameter ** 2) * math.pi / 4 | |
| extrusion_crosssection_area = volume / dist | |
| rectangular_width = ((extrusion_crosssection_area - circle_area) / | |
| layer_height) | |
| return diameter + rectangular_width | |
| line1 = sys.stdin.readline().strip() | |
| line2 = sys.stdin.readline().strip() | |
| point1 = parse_coord(line1) | |
| point2 = parse_coord(line2) | |
| print extrusion_width(point1, point2) |
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