def get_up_vectors(self):
""" Finds the up_vectors of each point of the boundary. A smoothing step is also included. """
up_vectors = []
for i, p in enumerate(self.points):
v1 = Vector.from_start_end(p,
self.points[(i + 1) % len(self.points)])
cross = v1.cross(self.normals[i])
v = Vector(*normalize_vector(cross))
if v[2] < 0:
v.scale(-1)
up_vectors.append(v)
up_vectors = utils.smooth_vectors(up_vectors,
strength=0.4,
iterations=3)
return up_vectors
viewer.add(mesh,
settings={
'color': '#cccccc',
'vertices.on': True,
'edges.on': False,
'opacity': 0.7,
'vertices.size': 5
})
for vertex in mesh.vertices():
if mesh.is_vertex_on_boundary(vertex):
continue
point = Point(*mesh.vertex_coordinates(vertex))
normal = Vector(*mesh.vertex_normal(vertex))
c = curvature[vertex]
normal.scale(10 * c)
color = '#ff0000' if c > 0 else '#0000ff'
viewer.add(Line(point, point + normal),
settings={
'vertices.on': False,
'edges.color': color,
'edges.width': 3
})
viewer.update()
viewer.show()
def gusset_points(self):
'''
Gusset points defined in Q1 of XY plane: all transformation done wrt
this system.
'''
pt0 = list(Point(self.eb, self.ec))
pt1 = translate_points_xy([pt0], Vector(self.width, 0, 0))[0]
pt2 = translate_points_xy([pt1], Vector(0, self.offset, 0))[0]
pt6 = translate_points_xy([pt0], Vector(0, self.height, 0))[0]
pt5 = translate_points_xy([pt6], Vector(self.offset, 0, 0))[0]
# Brace CL
brace_vector = Vector(sin(radians(self.design_angle)),
cos(radians(self.design_angle)), 0)
brace_vector.unitize()
brace_vector.scale(100)
brace_pt = translate_points_xy([self.work_point], brace_vector)[0]
test = brace_vector.copy()
test.scale(1)
brace_pt_out = translate_points_xy([self.work_point], test)[0]
brace_CL = Line(self.work_point, brace_pt)
self.gusset_lines.append(Line(self.work_point, brace_pt_out))
brace_vector.unitize()
brace_vector.scale(self.connection_length)
# Brace shoulder lines
brace_depth = self.get_brace_depth()
column_offset = brace_depth * 0.5 + self.offset
beam_offset = -(brace_depth * 0.5 + self.offset)
column_line = Line(pt5, Point(pt5[0], 0, 0))
beam_line = Line(pt2, Point(0, pt2[1], 0))
self.gusset_lines.append(column_line)
self.gusset_lines.append(beam_line)
def get_brace_points(offset_value,
offset_member,
brace_CL,
brace_vector,
offset_dir='+'):
offset_brace = offset_line(brace_CL, offset_value)
if offset_dir == '+':
offset_brace_signed = offset_line(brace_CL,
offset_value - self.offset)
elif offset_dir == '-':
offset_brace_signed = offset_line(brace_CL,
offset_value + self.offset)
else:
raise ValueError
brace_member_int = intersection_line_line_xy(
offset_brace, offset_member)
brace_pt = translate_points_xy([brace_member_int], brace_vector)[0]
pt_mirrored = mirror_points_line([brace_pt], brace_CL)
line_segment = Line(brace_pt, pt_mirrored)
pt_CL = intersection_line_line_xy(line_segment, brace_CL)
pt_distance = distance_point_point(self.work_point, pt_CL)
return line_segment, pt_distance, offset_brace, offset_brace_signed
column_line, col_dist, os_brace_column, os_column = get_brace_points(
column_offset, column_line, brace_CL, brace_vector, offset_dir='+')
beam_line, beam_dist, os_brace_beam, os_beam = get_brace_points(
beam_offset, beam_line, brace_CL, brace_vector, offset_dir='-')
self.gusset_lines.append(os_brace_column)
self.gusset_lines.append(os_brace_beam)
self.gusset_lines.append(os_column)
self.gusset_lines.append(os_beam)
self.gusset_lines.append(column_line)
self.gusset_lines.append(beam_line)
if col_dist > beam_dist:
pt3 = column_line[1]
pt4 = column_line[0]
else:
pt3 = beam_line[0]
pt4 = beam_line[1]
# TODO: set check to make sure gusset is non concave
# (i.e. force points to line between pt2 and pt5)
# Points list to point
pt0 = Point(pt0[0], pt0[1], pt0[2])
pt1 = Point(pt1[0], pt1[1], pt1[2])
pt2 = Point(pt2[0], pt2[1], pt2[2])
pt6 = Point(pt6[0], pt6[1], pt6[2])
pt5 = Point(pt5[0], pt5[1], pt5[2])
self._gusset_points = [pt0, pt1, pt2, pt3, pt4, pt5, pt6]
return self._gusset_points
