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author | Dan Goodliffe <dan@randomdan.homeip.net> | 2024-01-07 18:02:56 +0000 |
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committer | Dan Goodliffe <dan@randomdan.homeip.net> | 2024-01-07 18:02:56 +0000 |
commit | 509c955aac687a6e8daa80906d593cb24f83c64d (patch) | |
tree | 0b551c1a26a2c08973e9dcf298f9da286687fc20 /lib | |
parent | Merge branch 'template-types' (diff) | |
parent | Simplify find_arcs_radius (diff) | |
download | ilt-509c955aac687a6e8daa80906d593cb24f83c64d.tar.bz2 ilt-509c955aac687a6e8daa80906d593cb24f83c64d.tar.xz ilt-509c955aac687a6e8daa80906d593cb24f83c64d.zip |
Merge branch 'global-network'
Diffstat (limited to 'lib')
-rw-r--r-- | lib/maths.h | 16 |
1 files changed, 8 insertions, 8 deletions
diff --git a/lib/maths.h b/lib/maths.h index b5af9ca..a867c39 100644 --- a/lib/maths.h +++ b/lib/maths.h @@ -157,9 +157,9 @@ find_arc_centre(glm::vec<2, T, Q> start, Rotation2D startDir, glm::vec<2, T, Q> { const auto det = endDir.x * startDir.y - endDir.y * startDir.x; if (det != 0) { // near parallel line will yield noisy results - const auto d = end - start; + const glm::vec<2, RelativeDistance, Q> d = end - start; const auto u = (d.y * endDir.x - d.x * endDir.y) / det; - return {start + startDir * u, u < 0}; + return {start + glm::vec<2, T, Q>(startDir * u), u < 0}; } throw std::runtime_error("no intersection"); } @@ -186,16 +186,16 @@ find_arcs_radius(glm::vec<2, T, Q> start, Rotation2D ad, glm::vec<2, T, Q> end, // r=(-2 m X+2 X o+2 m Z-2 o Z-2 n Y+2 Y p+2 n W-2 p W-sqrt((2 m X-2 X o-2 m Z+2 o Z+2 n Y-2 Y p-2 n W+2 p W)^(2)-4 // (X^(2)-2 X Z+Z^(2)+Y^(2)-2 Y W+W^(2)-4) (m^(2)-2 m o+o^(2)+n^(2)-2 n p+p^(2))))/(2 (X^(2)-2 X Z+Z^(2)+Y^(2)-2 Y // W+W^(2)-4)) + // Locally simplified to work relative, removing one half of the problem and operating on relative positions. // These exist cos limitations of online formula rearrangement, and I'm OK with that. - const auto &m {start.x}, &n {start.y}, &o {end.x}, &p {end.y}; + const RelativePosition2D diff {end - start}; + const auto &o {diff.x}, &p {diff.y}; const auto &X {ad.x}, &Y {ad.y}, &Z {bd.x}, &W {bd.y}; - return (2 * m * X - 2 * X * o - 2 * m * Z + 2 * o * Z + 2 * n * Y - 2 * Y * p - 2 * n * W + 2 * p * W - - sqrt(sq(-2 * m * X + 2 * X * o + 2 * m * Z - 2 * o * Z - 2 * n * Y + 2 * Y * p + 2 * n * W - - 2 * p * W) - - (4 * (sq(X) - 2 * X * Z + sq(Z) + sq(Y) - 2 * Y * W + sq(W) - 4) - * (sq(m) - 2 * m * o + sq(o) + sq(n) - 2 * n * p + sq(p))))) + return (-2 * X * o + 2 * o * Z - 2 * Y * p + 2 * p * W + - sqrt(sq(2 * X * o - 2 * o * Z + 2 * Y * p - 2 * p * W) + - (4 * (sq(X) - 2 * X * Z + sq(Z) + sq(Y) - 2 * Y * W + sq(W) - 4) * (sq(o) + sq(p))))) / (2 * (sq(X) - 2 * X * Z + sq(Z) + sq(Y) - 2 * Y * W + sq(W) - 4)); } |