Ondrej Certik wrote: > On Wed, Oct 22, 2008 at 7:11 AM, Alan Bromborsky <[EMAIL PROTECTED]> wrote: > >> Using sympy I have attached a program (LaTeX.py) demonstrating Maxwell's >> equations using geometric calculus. Also attached is a version of >> GAsympy.py with some geometric calculus extensions (the version in sympy >> only does geometric algebra). The demo program is called LaTeX.py since >> it uses LaTeX to show the equations in a nice format. Eventually I will >> use the standard latex printing system in sympy with some >> modifications. Just run LaTeX.py and see what come out! >> > > Wow, this is impressive! Thanks for doing this. > > I would like the LaTeX class to be integrated with our LatexPrinter, > see sympy/printing/latex.py. Do you have any comments on that? Because > you are duplicating a lot of stuff in your own class. > > Ondrej > > > > > I need to consult with you more on how your printer classes in general work before starting integrating my latex with your latex. Also with regard to the actual math part of geometric calculus, now that I can do geometric derivatives in rectangular coordinates I need to implement curvilinear coordinates for practical applications which means I need to do some pencil and paper derivations.
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