Wed, 24 Jan 2018 23:14:01 +0200
Fix math domain errors in vector_angle
2 | 1 | import linetypes |
2 | import re | |
3 | from geometry import * | |
8 | 4 | from colours import Colour |
2 | 5 | |
6 | class BadLdrawLine(Exception): | |
7 | pass | |
8 | ||
9 | def parse_ldraw_code(line): | |
29 | 10 | if isinstance(line, bytes): |
11 | line = line.decode() | |
2 | 12 | line = line.strip() |
13 | if not line: | |
19 | 14 | return linetypes.EmptyLine() |
2 | 15 | elif line == '0': |
19 | 16 | return linetypes.Comment('') |
2 | 17 | elif line.startswith('0 '): |
19 | 18 | return linetypes.Comment(line[2:].strip()) |
2 | 19 | elif line.startswith('1 '): |
19 | 20 | return parse_ldraw_subfile_reference(line) |
2 | 21 | elif line.startswith('2 '): |
19 | 22 | return parse_ldraw_line(line) |
2 | 23 | elif line.startswith('3 '): |
19 | 24 | return parse_ldraw_triangle(line) |
2 | 25 | elif line.startswith('4 '): |
19 | 26 | return parse_ldraw_quadrilateral(line) |
2 | 27 | elif line.startswith('5 '): |
19 | 28 | return parse_ldraw_contour(line) |
2 | 29 | else: |
30 | raise BadLdrawLine('unknown line type') | |
31 | ||
32 | def parse_ldraw_subfile_reference(line): | |
3
1dc58f44d556
Can now write dat files, added direct color handling
Santeri Piippo
parents:
2
diff
changeset
|
33 | pattern = r'^1\s+([^ ]+)' + r'\s+([^ ]+)' * (3 + 9 + 1) + r'\s*$' |
2 | 34 | match = re.search(pattern, line) |
35 | if not match: | |
36 | raise BadLdrawLine('unable to parse') | |
37 | groups = list(match.groups()) | |
38 | indices = { | |
4 | 39 | 'colour_index': 0, |
2 | 40 | 'anchor': slice(1, 4), |
41 | 'matrix': slice(4, 13), | |
42 | 'subfile_path': 13 | |
43 | } | |
44 | try: | |
4 | 45 | colour = Colour(groups[indices['colour_index']]) |
2 | 46 | vertex_values = [float(x) for x in groups[indices['anchor']]] |
47 | matrix_values = [float(x) for x in groups[indices['matrix']]] | |
48 | except ValueError: | |
49 | raise BadLdrawLine('bad numeric values') | |
50 | return linetypes.SubfileReference( | |
4 | 51 | colour = colour, |
2 | 52 | anchor = Vertex(*vertex_values), |
6
6da1e81c5652
Added code to compute areas of triangles and quadrilaterals
Santeri Piippo
parents:
4
diff
changeset
|
53 | matrix = Matrix3x3(matrix_values), |
2 | 54 | subfile_path = groups[indices['subfile_path']] |
55 | ) | |
56 | ||
57 | def generic_parse_polygon(line, *, type_code, vertex_count): | |
58 | pattern = r'^' \ | |
59 | + str(type_code) \ | |
3
1dc58f44d556
Can now write dat files, added direct color handling
Santeri Piippo
parents:
2
diff
changeset
|
60 | + '\s+([^ ]+)' \ |
2 | 61 | + r'\s+([^ ]+)' * (vertex_count * 3) \ |
62 | + r'\s*$' | |
63 | match = re.search(pattern, line) | |
64 | if not match: | |
65 | raise BadLdrawLine(str.format('cannot parse type-{} line', type_code)) | |
66 | vertices = [] | |
67 | for vertex_index in range(vertex_count): | |
68 | slice_begin = 1 + vertex_index * 3 | |
69 | slice_end = 1 + (vertex_index + 1) * 3 | |
70 | coordinates = match.groups()[slice_begin:slice_end] | |
71 | assert(len(coordinates) == 3) | |
72 | try: | |
73 | coordinates = [float(x) for x in coordinates] | |
74 | except ValueError: | |
75 | raise BadLdrawLine('bad numeric values') | |
76 | vertices.append(Vertex(*coordinates)) | |
77 | return { | |
4 | 78 | 'colour': Colour(match.group(1)), |
2 | 79 | 'vertices': vertices, |
80 | } | |
81 | ||
82 | def parse_ldraw_line(line): | |
83 | parse_result = generic_parse_polygon(line, type_code = 2, vertex_count = 2) | |
84 | return linetypes.LineSegment( | |
4 | 85 | colour = parse_result['colour'], |
2 | 86 | geometry = LineSegment(*parse_result['vertices']), |
87 | ) | |
88 | ||
89 | def parse_ldraw_triangle(line): | |
90 | parse_result = generic_parse_polygon(line, type_code = 3, vertex_count = 3) | |
91 | return linetypes.Triangle( | |
4 | 92 | colour = parse_result['colour'], |
2 | 93 | geometry = Polygon(parse_result['vertices']), |
94 | ) | |
95 | ||
96 | def parse_ldraw_quadrilateral(line): | |
97 | parse_result = generic_parse_polygon(line, type_code = 4, vertex_count = 4) | |
98 | return linetypes.Quadrilateral( | |
4 | 99 | colour = parse_result['colour'], |
2 | 100 | geometry = Polygon(parse_result['vertices']), |
101 | ) | |
102 | ||
103 | def parse_ldraw_contour(line): | |
104 | parse_result = generic_parse_polygon(line, type_code = 5, vertex_count = 4) | |
105 | return linetypes.Contour( | |
4 | 106 | colour = parse_result['colour'], |
2 | 107 | geometry = LineSegment(*parse_result['vertices'][0:2]), |
108 | control_points = parse_result['vertices'][2:], | |
109 | ) |