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fractal_surface.py
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Created
Tue, Oct 1, 00:16
Size
2 KB
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text/x-python
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Thu, Oct 3, 00:16 (2 d)
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blob
Format
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21174759
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rTAMAAS tamaas
fractal_surface.py
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from
rough_contact
import
*
#generate surface
SG
=
SurfaceGeneratorFilterFFT
()
SG
.
getGridSize
()
.
assign
(
512
)
SG
.
getHurst
()
.
assign
(
0.8
)
SG
.
getRMS
()
.
assign
(
1.
);
SG
.
getQ0
()
.
assign
(
4
);
SG
.
getQ1
()
.
assign
(
4
);
SG
.
getQ2
()
.
assign
(
32
);
SG
.
getRandomSeed
()
.
assign
(
156
);
SG
.
Init
()
a
=
SG
.
buildSurface
()
a
.
setL
(
1.
);
#save the surface
a
.
dumpToTextFile
(
'generated-surface.plot'
)
a
.
dumpToTextFileWithImaginary
(
'generated-surface-im.plot'
)
#compute and print surface statistics
class
Stats
:
def
__getitem__
(
self
,
key
):
return
self
.
__dict__
[
key
]
stats
=
Stats
()
stats
.
size
=
SG
.
getGridSize
()
stats
.
hurst
=
SG
.
getHurst
()
.
value
()
stats
.
rms
=
SG
.
getRMS
()
stats
.
k0
=
SG
.
getQ0
()
stats
.
k1
=
SG
.
getQ1
()
.
value
()
stats
.
k2
=
SG
.
getQ2
()
.
value
()
stats
.
seed
=
SG
.
getRandomSeed
()
stats
.
rms_spectral
=
SurfaceStatistics
.
computeSpectralStdev
(
a
);
stats
.
rms_slopes_spectral
=
SurfaceStatistics
.
computeSpectralRMSSlope
(
a
);
stats
.
rms_geometric
=
SurfaceStatistics
.
computeStdev
(
a
);
stats
.
rms_slopes_geometric
=
SurfaceStatistics
.
computeRMSSlope
(
a
);
stats
.
moments
=
SurfaceStatistics
.
computeMoments
(
a
);
stats
.
m0
=
stats
[
'rms_spectral'
]
**
2
stats
.
m2
=
stats
.
moments
[
0
]
stats
.
m4
=
stats
.
moments
[
1
]
stats
.
alpha
=
stats
[
'm0'
]
*
stats
[
'm4'
]
/
(
stats
[
'm2'
]
**
2
)
stats
.
L
=
a
.
getL
()
stats
.
m0prime
=
SurfaceStatistics
.
computeAnalyticFractalMoment
(
0
,
stats
.
k1
,
stats
.
k2
,
stats
.
hurst
,
1.
,
stats
.
L
)
stats
.
moment_A
=
stats
.
m0
/
stats
.
m0prime
stats
.
analytic_m0
=
SurfaceStatistics
.
computeAnalyticFractalMoment
(
0
,
stats
.
k1
,
stats
.
k2
,
stats
.
hurst
,
stats
.
moment_A
,
stats
.
L
);
stats
.
analytic_m2
=
SurfaceStatistics
.
computeAnalyticFractalMoment
(
2
,
stats
.
k1
,
stats
.
k2
,
stats
.
hurst
,
stats
.
moment_A
,
stats
.
L
);
stats
.
analytic_m4
=
SurfaceStatistics
.
computeAnalyticFractalMoment
(
4
,
stats
.
k1
,
stats
.
k2
,
stats
.
hurst
,
stats
.
moment_A
,
stats
.
L
);
stats
.
analytic_alpha
=
stats
.
analytic_m0
*
stats
.
analytic_m4
/
(
stats
.
analytic_m2
*
stats
.
analytic_m2
);
print
"""
[N] {size}
[rms] {rms}
[rmsSpectral] {rms_spectral}
[rmsSlopeSpectral] {rms_slopes_spectral}
[rmsSlopeGeometric] {rms_slopes_geometric}
[Hurst] {hurst}
[k1] {k1}
[k2] {k2}
[moment A] {moment_A}
[m0] {m0}
[analytic m0] {analytic_m0}
[m2] {m2}
[analytic m2] {analytic_m2}
[m4] {m4}
[analytic m4] {analytic_m4}
[alpha] {alpha}
[analytic_alpha] {analytic_alpha}
[seed] {seed}
"""
.
format
(
**
stats
.
__dict__
)
#plot the surface
b
=
a
.
getWrappedNumpy
()
.
real
import
matplotlib.pyplot
as
plt
plt
.
imshow
(
b
)
plt
.
show
()
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