Converting Python to Matlab

3 Ansichten (letzte 30 Tage)
Zach Dunagan
Zach Dunagan am 31 Okt. 2017
Kommentiert: Walter Roberson am 5 Jun. 2018
Here is my Python code...
import numpy as np
import matplotlib.pyplot as plt
import copy
def SourceDistOnPt(xc,yc,xp,yp,theta):
ups=np.zeros((len(xc),len(xp)-1))
wps=np.zeros((len(xc),len(xp)-1))
for i in range(len(xc)):
for j in range(len(xp)-1):
r1=((xc[i]-xp[j])**2+(yc[i]-yp[j])**2)**(1/2)
r2=((xc[i]-xp[j+1])**2+(yc[i]-yp[j+1])**2)**(1/2)
nu2=np.arctan2(-(xc[i]-xp[j])*np.sin(theta[j])+(yc[i]-yp[j])*np.cos(theta[j])+(xp[j+1]-xp[j])*np.sin(theta[j])-(yp[j+1]-yp[j])*np.cos(theta[j]),\
(xc[i]-xp[j])*np.cos(theta[j])+(yc[i]-yp[j])*np.sin(theta[j])-(xp[j+1]-xp[j])*np.cos(theta[j])-(yp[j+1]-yp[j])*np.sin(theta[j]))
nu1=np.arctan2(-(xc[i]-xp[j])*np.sin(theta[j])+(yc[i]-yp[j])*np.cos(theta[j]),(xc[i]-xp[j])*np.cos(theta[j])+(yc[i]-yp[j])*np.sin(theta[j]))
ups[i,j]=1/(4*np.pi)*np.log(r1**2/r2**2)
wps[i,j]=1/(2*np.pi)*(nu2-nu1)
return ups,wps
I am trying to obtain a set of outputs for every input. I am not sure if I would add the for loops after the end for the function.
Matlab code...
function [r1, r2, nu2, nu1, ups, wps] = SourceDistOnPt(xc, yc, xp, yp, theta)
ups = zeros(length(xc), length(xp)-1);
wps = zeros(length(xc), length(xp)-1);
for i = 1:length(xp) - 1
for j = 1:length(xc) - 1
r1 = ((xc(i) - xp(j)).^2 + (yc(i) - yp(j)).^2)^(1/2.0);
r2 = ((xc(i) - xp(j+1)).^2 + (yc(i) - yp(j+1)).^2).^(1/2.0);
nu2 = atan2(-(xc(i)-xp(j)) * sin(theta(j)) + (yc(i) - yp(j)) * cos(theta(j))+(xp(j+1) - xp(j)) * sin(theta(j))-(yp(j+1) - yp(j)) * cos(theta(j)),...
(xc(i) - xp(j)) * cos(theta(j)) + (yc(i) - yp(j)) * sin(theta(j)) - (xp(j+1) - xp(j)) * cos(theta(j)) - (yp(j+1) - yp(j)) * sin(theta(j)));
nu1 = atan2(-(xc(i)-xp(j)) * sin(theta(j)) + (yc(i) - yp(j)) * cos(theta(j)), (xc(i) - xp(j)) * cos(theta(j)) + (yc(i) - yp(j)) * sin(theta(j)));
ups(i, j) = 1 /(4 * pi) * log(r1.^2/r2.^2);
wps(i, j) = 1 /(2 * pi) * (nu2-nu1);
end
end
r1 = ((xc(i) - xp(j)).^2 + (yc(i) - yp(j)).^2)^(1/2.0);
r2 = ((xc(i) - xp(j+1)).^2 + (yc(i) - yp(j+1)).^2).^(1/2.0);
nu2 = atan2(-(xc(i)-xp(j)) * sin(theta(j)) + (yc(i) - yp(j)) * cos(theta(j))+(xp(j+1) - xp(j)) * sin(theta(j))-(yp(j+1) - yp(j)) * cos(theta(j)),...
(xc(i) - xp(j)) * cos(theta(j)) + (yc(i) - yp(j)) * sin(theta(j)) - (xp(j+1) - xp(j)) * cos(theta(j)) - (yp(j+1) - yp(j)) * sin(theta(j)));
nu1 = atan2(-(xc(i)-xp(j)) * sin(theta(j)) + (yc(i) - yp(j)) * cos(theta(j)), (xc(i) - xp(j)) * cos(theta(j)) + (yc(i) - yp(j)) * sin(theta(j)));
ups(i, j) = 1 /(4 * pi) * log(r1.^2/r2.^2);
wps(i, j) = 1 /(2 * pi) * (nu2-nu1);

Antworten (2)

Haritha
Haritha am 5 Jun. 2018
Bearbeitet: Walter Roberson am 5 Jun. 2018
I have the code in python
n=6;
for a, b in product(range(n), range(n))
i need this code in matlab. if anyone knows please let me know

Walter Roberson
Walter Roberson am 31 Okt. 2017
for i = 1:length(xp) - 1
Should not have the -1
Python range(n) gives 0 to n-1 but to use as a MATLAB index you need to add 1, so 1:n
Notice that the Python code subtracted 1 from the upper bound but that you coded the same as the one that did not subtract 1. The MATLAB translation of the second one does need to subtract one on the upper bound.
Perhaps it would help to define
PyIdx = @(K) K+1
PyRange = @(N) 0:N-1
And then copy the Python code using the appropriate wrapper, like
for i = PyRange(len(xc))
for j = PyRange(len(xc) - 1)
r1=((xc(PyIdx(i)) -xp(PyIdx(j))**2+(yc(PyIdx(i)) -yp(PyIdx(j))**2)**(1/2);
Get the code working first with something that is an obvious equivalent of the Python. You can always optimize later.
  17 Kommentare
Walter Roberson
Walter Roberson am 9 Nov. 2017
He wants data to be saved on every run?
The pathName line you showed from Python does not save data. It might be setting up a file name for a later command to save data.
The savepath() command from MATLAB does not save data, it saves the current MATLAB path -- the list of directories to search for code. See https://www.mathworks.com/help/matlab/data-import-and-export.html for more on saving data.
Zach Dunagan
Zach Dunagan am 9 Nov. 2017
I will ask him tomorrow. I think I am misunderstanding what he wants exactly.

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