Stumped again... Converting Python to Matlab

22 Okt. 2017
2 Antworten
Antwort akzeptiert
Aktualisiert 24 Okt. 2017
8 Ansichten (30 Tage)

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Here is the bit of Python code I am trying to convert to Matlab. code:
# thetas for each panel in global frame
theta=np.zeros((numPanels,1))
for i in range(numPanels):
theta[i]=np.arctan2(yp[i+1]-yp[i],xp[i+1]-xp[i])
output:
-2.63356
-2.92712
-2.98475
-3.01668
-3.03837
-3.05471
-3.06785
-3.07891
-3.08853
-3.09713
-3.10498
-3.11228
-3.11917
-3.12577
-3.13217
-3.13846
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.14159
3.13846
3.13217
3.12577
3.11917
3.11228
3.10498
3.09713
3.08853
3.07891
3.06785
3.05471
3.03837
3.01668
2.98475
2.92712
2.63356
0.508031
0.21447
0.156842
0.124909
0.103226
0.0868853
0.0737421
0.0626828
0.053059
0.0444609
0.0366123
0.0293165
0.0224263
0.0158261
0.00942088
0.00312805
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
-0.00312805
-0.00942088
-0.0158261
-0.0224263
-0.0293165
-0.0366123
-0.0444609
-0.053059
-0.0626828
-0.0737421
-0.0868853
-0.103226
-0.124909
-0.156842
-0.21447
-0.508031
These are my Matlab arrays, where xpAdd = xp[i+1] and xp = xp[i]
xpAdd =
0.0600
0.0581
0.0562
0.0544
0.0525
0.0506
0.0488
0.0469
0.0450
0.0431
0.0412
0.0394
0.0375
0.0356
0.0319
0.0300
0.0281
0.0262
0.0244
0.0225
0.0206
0.0188
0.0169
0.0150
0.0131
0.0112
0.0094
0.0075
0.0056
0.0038
0.0019
0
-0.0019
-0.0038
-0.0056
-0.0075
-0.0094
-0.0112
-0.0131
-0.0150
-0.0169
-0.0188
-0.0206
-0.0225
-0.0244
-0.0262
-0.0281
-0.0300
-0.0319
-0.0338
-0.0356
-0.0375
-0.0394
-0.0412
-0.0431
-0.0450
-0.0469
-0.0488
-0.0506
-0.0525
-0.0544
-0.0562
-0.0581
-0.0600
-0.0600
-0.0581
-0.0562
-0.0544
-0.0525
-0.0506
-0.0488
-0.0469
-0.0450
-0.0431
-0.0412
-0.0394
-0.0375
-0.0356
-0.0319
-0.0300
-0.0281
-0.0262
-0.0244
-0.0225
-0.0206
-0.0188
-0.0169
-0.0150
-0.0131
-0.0112
-0.0094
-0.0075
-0.0056
-0.0038
-0.0019
0
0.0019
0.0038
0.0056
0.0075
0.0094
0.0112
0.0131
0.0150
0.0169
0.0188
0.0206
0.0225
0.0244
0.0262
0.0281
0.0300
0.0319
0.0338
0.0356
0.0375
0.0394
0.0412
0.0431
0.0450
0.0469
0.0488
0.0506
0.0525
0.0544
0.0562
0.0581
0.0600
xp' =
0.0600
0.0581
0.0562
0.0544
0.0525
0.0506
0.0488
0.0469
0.0450
0.0431
0.0412
0.0394
0.0375
0.0356
0.0319
0.0300
0.0281
0.0262
0.0244
0.0225
0.0206
0.0188
0.0169
0.0150
0.0131
0.0112
0.0094
0.0075
0.0056
0.0038
0.0019
0
-0.0019
-0.0038
-0.0056
-0.0075
-0.0094
-0.0112
-0.0131
-0.0150
-0.0169
-0.0188
-0.0206
-0.0225
-0.0244
-0.0262
-0.0281
-0.0300
-0.0319
-0.0338
-0.0356
-0.0375
-0.0394
-0.0412
-0.0431
-0.0450
-0.0469
-0.0488
-0.0506
-0.0525
-0.0544
-0.0562
-0.0581
-0.0600
Does anyone have an idea what this is doing theta[i]=np.arctan2(yp[i+1]-yp[i],xp[i+1]-xp[i]) ? I believe it's finding the angle and x1 and x2 points.

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 Akzeptierte Antwort

Walter Roberson
Walter Roberson am 22 Okt. 2017

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It is finding the angle from (xp(i),yp(i)) to (xp(i+1),yp(i+1))

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Zach Dunagan
Zach Dunagan am 22 Okt. 2017
Suggestions? Am I needing to find angles at each xp(i) and yp(i)? Take the difference and find the angles? Take the difference between xp(i) and xp(i+1) ?
Walter Roberson
Walter Roberson am 22 Okt. 2017
Bearbeitet: Walter Roberson am 22 Okt. 2017
Find the angles between what and each xp(i) and yp(i) ?
The code that is there now is answering the question: "if you are at (xp(i), yp(i)) and you want to go to (xp(i+1),yp(i+1)) then what angle do you need to travel?"
If that is not what you need to calculate, then please explain in words what you do need to calculate ?
If you are just looking for the MATLAB equivalent,
theta[i]=np.arctan2(yp[i+1]-yp[i],xp[i+1]-xp[i])
translates as
theta(i) = atan2(yp(i+1)-yp(i), xp(i+1)-xp(i));
and the code can be written without a loop as:
theta = atan2( diff(yp), diff(xp) );
When I glance at the python code I think it might possibly try to go past the end of the vector, but I am not certain as I do not use python.
Walter Roberson
Walter Roberson am 22 Okt. 2017
Bearbeitet: Walter Roberson am 24 Okt. 2017
The MATLAB equivalent code is:
% thetas for each panel in global frame
theta = zeros(numPanels, 1);
for i = 1 : numPanels
theta(i) = atan2( yp(i+1)-yp(i), xp(i+1)-xp(i) );
end
If numPanels is not at least one less than length(xp) then this code will crash trying to go past the end of xp or yp. (You said you wanted the equivalent MATLAB code, not that you wanted correct code.)

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Weitere Antworten (1)

Zach Dunagan
Zach Dunagan am 24 Okt. 2017
Bearbeitet: Walter Roberson am 24 Okt. 2017

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The only value that appears is the last one in the array.
xp(66:end) = flipud(xp(1:numPanels/2));
yp(66:end) = -flipud(yp(1:numPanels/2));
% collocation points
xc = zeros(numPanels, 1);
yc = zeros(numPanels, 1);
for k = numPanels
xc(k) = (xp(k) + xp(k+1))/2;
yc(k) = (yp(k) + yp(k+1))/2;
end
I have some code that will output the values, but I am trying to learn how to use these loops.

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Walter Roberson
Walter Roberson am 24 Okt. 2017
for k = 1 : numPanels
Zach Dunagan
Zach Dunagan am 24 Okt. 2017
Thank you for the quick response.

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