Example #1
0
def segments_to_polyline(array, istart=0, tol=1.e-10):
    from youbastard.geometry.Polyline3D import Polyline3D
    first = array[0]
    init = len(array)
    ordered = [array.pop(istart)]
    cont = True
    while len(ordered) <= len(array):
        for i, s in enumerate(array):
            p0 = s[0]
            p1 = s[1]
            last = ordered[-1][1]
            if distance(last, p0) < tol:
                ordered.append(array.pop(i))
                continue
            if distance(last, p1) < tol:
                ordered.append(array.pop(i)[::-1])
                continue
        ordered = [s[::-1] for s in ordered[::-1]]
    if ordered[0] == first:
        ordered = ordered
    else:
        ordered = ordered[::-1]
    pol = [ordered[0][0], ordered[0][1]]
    for s in ordered[1:]:
        pol.append(s[1])
    return Polyline3D(pol)
Example #2
0
def create_window(i1,
                  i2,
                  dist=None,
                  width=1.,
                  height=1.2,
                  bottom_height=1.,
                  close=True):
    create = False
    pts = data['points']
    for w in data['walls']:
        if (i1 in w) and (i2 in w):
            create = True
            break
    if create:
        if not dist:
            dist = 0.5 * distance(pts[i1], pts[i2])
        window = rectangle(width, height)
        op = Opening(pts[i1],
                     pts[i2],
                     thick,
                     dist,
                     bottom_height + 0.5 * height,
                     vertical,
                     window,
                     close=close)
        all_openings.append(op.ex)
        if op.close: all_closings.append(op.close)
Example #3
0
def create_heat(i1,
                i2,
                dist=None,
                width=0.8,
                height=0.6,
                offset=0.05,
                box_thickness=0.05,
                bottom_height=0.2):
    create = False
    pts = data['points']
    for w in data['walls']:
        if (i1 in w) and (i2 in w):
            create = True
            break
    if create:
        if not dist:
            dist = 0.5 * distance(pts[i1], pts[i2])
        heat = rectangle(width, height)
        op = BoxOnWall(pts[i1], pts[i2], thick, box_thickness, offset, dist,
                       0.2 + 0.5 * height, vertical, heat)
        all_heats.append(op.ex)
Example #4
0
}

test_sec = None
all_tree_nodes = []
all_thicknesses = []

for ipoint, point in enumerate(data['points']):
    sector = [point]
    for iwall, wall in enumerate(data['walls']):
        if ipoint in wall[:2]:
            nex = None
            if wall[0] == ipoint:
                nex = data['points'][wall[1]]
            else:
                nex = data['points'][wall[0]]
            length = distance(point, nex)
            vec = Vector([nex[i] - point[i] for i in range(3)]).unit()
            half = Point([point[i] + 0.5 * length * vec[i] for i in range(3)])
            thick = float(wall[2])
            sector.append([half, thick])
    all_tree_nodes.append(
        TreeNode([sector[0]] + [secp[0] for secp in sector[1:]]))
    all_thicknesses.append([secp[1] for secp in sector[1:]])

polylines = []

for itreenode, treenode in enumerate(all_tree_nodes):
    thck = all_thicknesses[itreenode]
    treenode.set_thicknesses(thck)
    pl = treenode.offset()
    polylines.append(pl)
Example #5
0
 def dst2(pt):
     return distance(pt, self.l2[0])
Example #6
0
 def dst1(pt):
     return distance(pt, self.l1[0])
Example #7
0
generator = Spline3D(a_point)
fa = generator.frame_array(mode=Vector([0., 0., 1.]), n=ndisc)

#fa = [Frame([[0.,0.,0.], [[0.,0.,1.],[1.,0.,0.],[0.,1.,0.]]])] + fa

shapes = []
generator_extrados = BRepOffsetAPI_ThruSections(False, True)
generator_intrados = BRepOffsetAPI_ThruSections(False, True)
generator_trailing_edge = BRepOffsetAPI_ThruSections(False, True)
generator = BRepOffsetAPI_ThruSections(False, True)
print dir(generator)

chord = lambda x: max_chord * chordf(x)
for i, f in enumerate(fa):
    # adimensioned position along span
    xspan = distance(fa[0][0], f[0]) / span

    # dimesioned chord value at xspan
    local_chord = chord(xspan)

    # the profile at this position
    pf = Profile(typ='fon',
                 par=[
                     0.89 - 0.2 * xspan, 0.15 - 0.05 * xspan, 0.05,
                     0.05 * (1. - xspan), 0.015
                 ],
                 npt=59)  # creation of the 2d profile
    pol = pf.polyline(
        closed=True)  # TODO : Profile should herit of Polyline_2D
    pp = pol.to_frame(f, scale=local_chord)