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Fix product of inertia (Ixy) weighting in cutwp.prop2 (part of #128) #299

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Merged
brookshsmith merged 1 commit into from
Jun 2, 2026
Merged

Fix product of inertia (Ixy) weighting in cutwp.prop2 (part of #128) #299

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2 changes: 1 addition & 1 deletion pycufsm/pre/cutwp.py
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Original file line number Diff line number Diff line change
Expand Up @@ -152,7 +152,7 @@ def prop2(coord: np.ndarray, ends: np.ndarray) -> Sect_Props:
# Compute moment of inertia
I_xx = np.sum((y_diffs**2 / 12 + (y_means - y_centroid) ** 2) * lengths * thicknesses)
I_yy = np.sum((x_diffs**2 / 12 + (x_means - x_centroid) ** 2) * lengths * thicknesses)
I_xy = np.sum((x_diffs * y_diffs / 12 + (x_means - x_centroid) * (y_means - y_centroid) * lengths * thicknesses))
I_xy = np.sum((x_diffs * y_diffs / 12 + (x_means - x_centroid) * (y_means - y_centroid)) * lengths * thicknesses)
if np.abs(I_xy / area**2) < 1e-12:
I_xy = np.float64(0.0)

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47 changes: 47 additions & 0 deletions tests/test_cutwp.py
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@@ -0,0 +1,47 @@
import numpy as np
from pytest import approx

from pycufsm.pre import cutwp


def _independent_ixy(coord: np.ndarray, ends: np.ndarray) -> float:
"""Product of inertia by the standard thin-walled line-element formula.

For each line element the contribution is
``(dx*dy/12 + (xm - xc)*(ym - yc)) * length * thickness`` -- i.e. the
element's own product of inertia about its midpoint plus the parallel-axis
term, both weighted by the element area. This mirrors how ``Ixx``/``Iyy``
are formed in :func:`cutwp.prop2`.
"""
x_mean, y_mean, x_diff, y_diff, length, thick = [], [], [], [], [], []
for start, end, t in ends:
s, e = int(start), int(end)
x_mean.append((coord[s, 0] + coord[e, 0]) / 2)
y_mean.append((coord[s, 1] + coord[e, 1]) / 2)
x_diff.append(coord[e, 0] - coord[s, 0])
y_diff.append(coord[e, 1] - coord[s, 1])
length.append(np.hypot(coord[e, 0] - coord[s, 0], coord[e, 1] - coord[s, 1]))
thick.append(t)
x_mean, y_mean, x_diff, y_diff, length, thick = map(np.array, (x_mean, y_mean, x_diff, y_diff, length, thick))
area = np.sum(length * thick)
x_c = np.sum(length * thick * x_mean) / area
y_c = np.sum(length * thick * y_mean) / area
return float(np.sum((x_diff * y_diff / 12 + (x_mean - x_c) * (y_mean - y_c)) * length * thick))


def describe_prop2():
def context_product_of_inertia():
def it_matches_the_thin_walled_formula_for_inclined_elements():
# A section with an inclined element, so the element's own
# contribution ``dx*dy/12`` to the product of inertia is non-zero
# and must be weighted by ``length * thickness`` (issue #128).
coord = np.array([[0.0, 0.0], [4.0, 0.0], [6.0, 3.0]])
ends = np.array([[0, 1, 0.1], [1, 2, 0.1]], dtype=float)
sect = cutwp.prop2(coord.copy(), ends.copy())
assert sect["Ixy"] == approx(_independent_ixy(coord, ends))

def it_is_zero_for_a_section_symmetric_about_x():
coord = np.array([[0.0, -2.0], [2.0, -2.0], [0.0, 2.0], [2.0, 2.0]])
ends = np.array([[0, 1, 0.1], [2, 3, 0.1], [0, 2, 0.1]], dtype=float)
sect = cutwp.prop2(coord.copy(), ends.copy())
assert sect["Ixy"] == approx(0.0)