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author | Hiroshi Murayama <opiopan@gmail.com> | 2019-12-28 23:45:33 +0900 |
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committer | Hiroshi Murayama <opiopan@gmail.com> | 2019-12-28 23:45:33 +0900 |
commit | 244fcaa5346f4fad819cc2b72857cfb2c472944a (patch) | |
tree | d849592e18a1afe61fb98f3207dabdaea1f5336e /gerberex/dxf_path.py | |
parent | d7a069324222bb8f69adc9b1c815fc9f3f6a29d6 (diff) | |
download | gerbonara-244fcaa5346f4fad819cc2b72857cfb2c472944a.tar.gz gerbonara-244fcaa5346f4fad819cc2b72857cfb2c472944a.tar.bz2 gerbonara-244fcaa5346f4fad819cc2b72857cfb2c472944a.zip |
add a function that generate filled gerberdata with representing internal shape by fliping polarity
Diffstat (limited to 'gerberex/dxf_path.py')
-rw-r--r-- | gerberex/dxf_path.py | 125 |
1 files changed, 124 insertions, 1 deletions
diff --git a/gerberex/dxf_path.py b/gerberex/dxf_path.py index 1307411..bb620ff 100644 --- a/gerberex/dxf_path.py +++ b/gerberex/dxf_path.py @@ -5,13 +5,17 @@ from gerber.utils import inch, metric, write_gerber_value from gerber.cam import FileSettings -from gerberex.utility import is_equal_point, is_equal_value +from gerberex.utility import is_equal_point, is_equal_value, normalize_vec2d, dot_vec2d from gerberex.excellon import CoordinateStmtEx class DxfPath(object): def __init__(self, statements, error_range=0): self.statements = statements self.error_range = error_range + self.bounding_box = statements[0].bounding_box + self.containers = [] + for statement in statements[1:]: + self._merge_bounding_box(statement.bounding_box) @property def start(self): @@ -116,12 +120,15 @@ class DxfPath(object): if j > 0: del mergee[-j] del self.statements[0:j] + for statement in mergee: + self._merge_bounding_box(statement.bounding_box) self.statements.extend(mergee) return True else: if self.statements[-1].is_equal_to(element, error_range) or \ self.statements[0].is_equal_to(element, error_range): return False + self._merge_bounding_box(element.bounding_box) self.statements.appen(element) return True @@ -153,6 +160,21 @@ class DxfPath(object): self.statements.insert(0, element) return True + def _merge_bounding_box(self, box): + self.bounding_box = (min(self.bounding_box[0], box[0]), + min(self.bounding_box[1], box[1]), + max(self.bounding_box[2], box[2]), + max(self.bounding_box[3], box[3])) + + def may_be_in_collision(self, path): + if self.bounding_box[0] >= path.bounding_box[2] or \ + self.bounding_box[1] >= path.bounding_box[3] or \ + self.bounding_box[2] <= path.bounding_box[0] or \ + self.bounding_box[3] <= path.bounding_box[1]: + return False + else: + return True + def to_gerber(self, settings=FileSettings(), pitch=0, width=0): from gerberex.dxf import DxfArcStatement if pitch == 0: @@ -244,7 +266,61 @@ class DxfPath(object): out += ploter(dot[0], dot[1]) return out + def intersections_with_halfline(self, point_from, point_to, error_range=0): + def calculator(statement): + return statement.intersections_with_halfline(point_from, point_to, error_range) + def validator(pt, statement, idx): + if is_equal_point(pt, statement.end, error_range) and \ + not self._judge_cross(point_from, point_to, idx, error_range): + return False + return True + return self._collect_intersections(calculator, validator, error_range) + + def intersections_with_arc(self, center, radius, angle_regions, error_range=0): + def calculator(statement): + return statement.intersections_with_arc(center, radius, angle_regions, error_range) + return self._collect_intersections(calculator, None, error_range) + def _collect_intersections(self, calculator, validator, error_range): + allpts = [] + last = allpts + for i in range(0, len(self.statements)): + statement = self.statements[i] + cur = calculator(statement) + if cur: + for pt in cur: + for dest in allpts: + if is_equal_point(pt, dest, error_range): + break + else: + if validator is not None and not validator(pt, statement, i): + continue + allpts.append(pt) + last = cur + return allpts + + def _judge_cross(self, from_pt, to_pt, index, error_range): + standard = normalize_vec2d((to_pt[0] - from_pt[0], to_pt[1] - from_pt[1])) + normal = (standard[1], standard[0]) + def statements(): + for i in range(index, len(self.statements)): + yield self.statements[i] + for i in range(0, index): + yield self.statements[i] + dot_standard = None + for statement in statements(): + tstart = statement.start + tend = statement.end + target = normalize_vec2d((tend[0] - tstart[0], tend[1] - tstart[1])) + dot= dot_vec2d(normal, target) + if dot_standard is None: + dot_standard = dot + continue + if is_equal_point(standard, target, error_range): + continue + return (dot_standard > 0 and dot > 0) or (dot_standard < 0 and dot < 0) + raise Exception('inconsistensy is detected while cross judgement between paths') + def generate_paths(statements, error_range=0): from gerberex.dxf import DxfPolylineStatement @@ -287,3 +363,50 @@ def generate_paths(statements, error_range=0): closed_path = list(filter(lambda p: p.is_closed, paths)) open_path = list(filter(lambda p: not p.is_closed, paths)) return (closed_path, open_path) + +def judge_containment(path1, path2, error_range=0): + from gerberex.dxf import DxfArcStatement, DxfLineStatement + + nocontainment = (None, None) + if not path1.may_be_in_collision(path2): + return nocontainment + + def is_in_line_segment(point_from, point_to, point): + dx = point_to[0] - point_from[0] + ratio = (point[0] - point_from[0]) / dx if dx != 0 else \ + (point[1] - point_from[1]) / (point_to[1] - point_from[1]) + return ratio >= 0 and ratio <= 1 + + def contain_in_path(statement, path): + if isinstance(statement, DxfLineStatement): + segment = (statement.start, statement.end) + elif isinstance(statement, DxfArcStatement): + if statement.start == statement.end: + segment = (statement.start, statement.center) + else: + segment = (statement.start, statement.end) + else: + raise Exception('invalid dxf statement type') + pts = path.intersections_with_halfline(segment[0], segment[1], error_range) + if len(pts) % 2 == 0: + return False + for pt in pts: + if is_in_line_segment(segment[0], segment[1], pt): + return False + if isinstance(statement, DxfArcStatement): + pts = path.intersections_with_arc( + statement.center, statement.radius, statement.angle_regions, error_range) + if len(pts) > 0: + return False + return True + + if contain_in_path(path1.statements[0], path2): + containment = [path1, path2] + elif contain_in_path(path2.statements[0], path1): + containment = [path2, path1] + else: + return nocontainment + for i in range(1, len(containment[0].statements)): + if not contain_in_path(containment[0].statements[i], containment[1]): + return nocontainment + return containment |