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author | jaseg <git@jaseg.de> | 2023-03-26 00:40:43 +0100 |
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committer | jaseg <git@jaseg.de> | 2023-03-26 00:40:43 +0100 |
commit | b4753e66e29af0b6087f591838069deb9689b78f (patch) | |
tree | 65644a64eb79be75b70853fc132e38073eacf563 /svg-flatten/geom_test.py | |
parent | 6b0382ab776dd8abcaefa0103c855f16372f62c3 (diff) | |
download | gerbolyze-b4753e66e29af0b6087f591838069deb9689b78f.tar.gz gerbolyze-b4753e66e29af0b6087f591838069deb9689b78f.tar.bz2 gerbolyze-b4753e66e29af0b6087f591838069deb9689b78f.zip |
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Diffstat (limited to 'svg-flatten/geom_test.py')
-rw-r--r-- | svg-flatten/geom_test.py | 60 |
1 files changed, 60 insertions, 0 deletions
diff --git a/svg-flatten/geom_test.py b/svg-flatten/geom_test.py new file mode 100644 index 0000000..d49b500 --- /dev/null +++ b/svg-flatten/geom_test.py @@ -0,0 +1,60 @@ +#!/usr/bin/env python3 + +from math import * + +def calc(mat): + [xx, yx], [xy, yy] = mat + + a = xx**2 + xy**2 + b = xx*yx + xy*yy + c = yy**2 + yx**2 + + print(f'{a=:.2f} {c=:.2f} {b=:.2f}') + tan_2_alpha = 2*b/(a-c) + print(f'atan2={atan2(2*b, a-c)/pi:.2f}*pi') + #tan_alpha = tan_2_alpha / (1 + sqrt(1 + tan_2_alpha**2)) # FIXME: bounds? + cos_2_alpha = 1/sqrt(1 + tan_2_alpha**2) + sin_2_alpha = tan_2_alpha / sqrt(1 + tan_2_alpha**2) + print(f'tan(2a)={tan_2_alpha:.2f} cos(2a)={cos_2_alpha:.2f} sin(2a)={sin_2_alpha:.2f}') + cos_alpha = sqrt((1 + cos_2_alpha)/2) + sin_alpha = sqrt((1 - cos_2_alpha)/2) + print(f'cos(a)={cos_alpha:.2f} sin(a)={sin_alpha:.2f}') + + for sgn_cos, sgn_sin in [(-1, -1), (-1, 1), (1, -1), (1, 1)]: + p = xx * sgn_cos * cos_alpha + yx * sgn_sin * sin_alpha + q = xy * sgn_cos * cos_alpha + yy * sgn_sin * sin_alpha + dist = hypot(p, q) + yield dist + +def gen(sx, sy, m, theta): + xx = sx * cos(theta) + xy = sx * sin(theta) + yy = sy * (cos(theta) + m * sin(theta)) + yx = sy * (m * cos(theta) - sin(theta)) + + mat = [xx, yx], [xy, yy] + return mat + + +for sx, sy in [ + (1, 0.9), + (1, 1.0), + (1, 1.1), + (0.9, 1), + (1.0, 1), + (1.1, 1)]: + for m in [0, 0.1, 1, 10]: + for theta in [0, pi/8, pi/4, pi/3, pi/2, pi, 3*pi/4]: + print(f'{sx=:.1f} {sy=:.1f} {m=:.1f} theta={theta/pi:.2f}*pi |', end=' ') + mat = gen(sx, sy, m, theta) + + try: + dists = list(calc(mat)) + str_dists = ' '.join(f'{x:.2f}' for x in dists) + print(f'[{str_dists}] | min={min(dists):.2f} max={max(dists):.2f}') + except: + print('E') + break + break + break + |