I was thinking the same, but patches are notoriously difficult to handle in my experience ('how to plot error bar shading'...), just wanted to touch base to wager a guess whether I should even consider spending time or if it would take too long and some sort of library would be recommended instead
@user2305193 I don't see at all why this is an issue. You have the top and bottom lines, you can fuse them together head to tail to get a closed polygon to shade
I'm probably missing something in your use case, so perhaps try articulating why this won't work for you (or just do it and show us why it's insufficient)
In a recent post, I talked about for-loops in MATLAB and how to optimize their use knowing how MATLAB stores arrays in memory. Today I want to talk about getting ready for parallel computation,... read more >>
@AnderBiguri There’s also test-driven developement, where you write the tests first, and then develop the code. When all tests pass, your code is done.
im just currently trying to get this PR finished (github.com/CERN/TIGRE/pull/263) so I can merge tons of tests and bug fixes that came with those "tests" (demos really)
so I Can say I have an almost finished and working python version, and then the bugs will start arising
@CrisLuengo solid advice. I know now how to make the perfect coffee too
in fact excazas PR has solved most of those setatr! <3
I made the msitake of mergin excazas PR before my massive PR and now I am in PR hell, because I have conflicts in ~30 files. I'll need to just do it by hand yes
@AnderBiguri Are you suggesting there should be an automated way to fix these issues? I think if git can't make the call, you need human eyeballs on it.
@Dev-iL "others say it’s too early to throw out the previous calculation" The new calculation matches experimental results, but let's ignore that and instead say that all of physics must be overturned.
hahahha nah, you are right tho :D no offense taken :D
@CrisLuengo thing is, the previous calculation used experimental measurements to do the math, thus still would be weird that it does not match. Weird in a different way
In cancer research something like 40% of experimental results cannot be replicated. In social sciences it's like 99.9% (or so it feels like to me). It's not crazy to think that in physics some results cannot be replicated either.
aparently the new simulation is all 100% CPU powa, but the old one used experimental data for Hadron virtual particles (approximate term), because its too expensive to compute (until the new one came). Apparently this difference makes the new one match the experiments, but now they are all wondering why the fully theoretical one matches experiments, but the one based on experiment does not. So either mayor mistake, or seriously still somethihng about physics wonky there.
@Dev-iL It seems to be related to connections, more than experimental quality. There's a reason that the methods section is not printed in the magazine.
@AndrasDeak it said, "the Budapest-Marseille-Wuppertal (BMW) collaboration", so has to be you. Unless you're saying that you're not an employee of BWM... ;)
I think "our older, easier methods give the wrong result" is a lot less interesting "physics is wrong" than "every method we have give the wrong result"
So even if there's a theoretical bug here, it probably isn't groundbreaking.
(Speaking as someone who doesn't know the field at all and has only seen that article that explains that muons are tiny rod magnets)
poor physicists, they have a model that they know is wrong, and it does not matter how hard they try, they don't seem to be able to find where its wrong because its so right all the time.
I think dark matter is just made up by physicist just to excuse them having a job, because they realised they just discovered everything, so they are out of a job.
Doc does say num2str trims any leading spaces from a character array. But it doesn't say that it inserts spaces between numbers as determined by the longest one