Warren Weckesser

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 Nov10 comment Creating lowpass filter in SciPy - understanding methods and units @Bar: These comments aren't the right place to address your question. You could create a new stackoverflow question, but the moderators might close it because it isn't a programming question. The best place for it is probably dsp.stackexchange.com Nov8 comment rewriting python scipy.integrate.odeint to mimic matlab ode15s Note that the `15` in `ode15s` does not mean 15th order. `ode15s` is a variable order algorithm that uses orders from 1 to 5. Nov8 comment np.savetxt style nicely tabulated output for pandas DataFrame.to_csv I don't know. That confused me, too. Having the same argument name in similar functions behave differently is an unfortunate API design choice. Nov6 comment Identity value for numpy ufunc reducers In your code sample, I think you mean `if foo.size > 0:`. Nov6 comment Python Minimising function with Nelder-Mead algorithm Include the complete traceback in the question. That will let us know which line is causing the error. Nov6 comment Python solving 2nd order ODE with quad function `quad` integrates a scalar function. It does not solve an ordinary differential equation. Look again at the example you linked to--`scipy.integrate.odeint` (not `quad`) is used to generate the solution. See also wiki.scipy.org/Cookbook/CoupledSpringMassSystem Nov5 comment What is the syntax to instantiate a structured dtype in numpy? I think the closest you can get to that is a "scalar array": `bar = np.array((chrom1_array, chrom2_array), dtype=foo)`. `bar` is an array with shape `()`. Nov4 comment non linear system of differential equations The comments are not the right place to address that question. Instead, create a new question. Nov3 comment ValueError: NumPy boolean array indexing assignment cannot assign 0 input values to the N output values where the mask is true It happens. If the problem was just a typographical error, then sure, it would make sense to delete the question. Oct29 comment Imsave changes the color of an image if converted using numpy and scipy.misc.pilutil Could you show `infile.dtype` and `infile.max()`? Note that `imsave` always saves the file using an 8 bit format. Oct27 comment How to plot the Eigenvalues when solving matrix coupled differential equations in PYTHON? Ah, I forgot that the generalized behavior of `np.linalg.eigvals` is also a relatively new feature of numpy. Upgrading makes sense; I'm glad to hear it is working. Oct27 comment How to plot the Eigenvalues when solving matrix coupled differential equations in PYTHON? @string: I updated the file `_odeintw.py` on github to handle pre-1.7 numpy. It worked for me with numpy 1.6.2. Oct27 comment How to plot the Eigenvalues when solving matrix coupled differential equations in PYTHON? The `copy` argument of `astype` was added in numpy 1.7. Oct27 comment How to plot the Eigenvalues when solving matrix coupled differential equations in PYTHON? What version of numpy are you using? I guess the `copy` argument of the `astype` method was added in a later version of numpy. You can remove that argument from the call of `astype(...)`, and the code should still work fine. There are two calls to `astype` in the file--change them both. (I'll put "make odeintw more tolerant of older versions of numpy" on my to-do list. :) Oct27 comment How to plot the Eigenvalues when solving matrix coupled differential equations in PYTHON? Yes, that was the point of my question. Suppose you call the return value `dxdt`. You can adopt whatever convention you like for assigning components of `A`, `B` and `C` to `x`, but you must use the same convention for assigning the time derivatives of those components to `dxdt`. Oct27 comment How to plot the Eigenvalues when solving matrix coupled differential equations in PYTHON? I understand the eqns; my question is about how the real and imag. values in `A`, `B` and `C` are stored in `x`. When you unpack `x` at the start of `system(x,t)`, it is clear that, for example, `x[1]` is the imag. part of `A[0,0]`. So the second element of the list returned by `system(x,t)` should be the time derivative of imaginary part of `A[0,0]`. That is, it should be `dA_dt[0,0].imag`. You return `list_A_real + ...`, which means you are returning `list_A_real[1]` as the time derivative of the imaginary part of `A[0,0]`. But `list_A_real[1]` is `dA_dt[0,1].real`, not `dA_dt[0,0].imag`. Oct27 comment How to plot the Eigenvalues when solving matrix coupled differential equations in PYTHON? Are you sure your code is correct? The line `a1= x[0];a2= x[1];a3= x[2];a4= x[3];...` combined with `A= matrix([ [a1+1j*a2,a3+1j*a4],...` says that the real and imaginary parts of `A` are interleaved in `x`, but when you assemble the return value of `system(x,t)`, you list all the real parts of `dA_dt`, followed by all the imaginary parts. Did you mean to interleave these? Oct25 comment numpy.in1d return incorrect bool values @SaulloCastro, it's the well-known problem of comparing floating point values for equality. I'm sure if you tried other ways of generating `a` and `b`, you would run into a case where it would fail. Oct25 comment How to convert numpy.timedelta64 to minutes In the general case, do you want the fractional part, too? E.g. if the input timedelta is `00:27:45`, do you want 27 or 27.75? Oct25 comment numpy.in1d return incorrect bool values @SaulloCastro: Whether or not it works will depend on how `a` and `b` are created. I can reproduce the result with `a = np.arange(0, 1, 0.1)` and `b = np.arange(0.5, 0.9, 0.1)`. On the other hand, it will work if `b = a[5:-1]`, because then the values in `b` are actually exactly the same values in `a` (they are both views of the same memory).