Hi Edward. Yes, that would be a very very nice representation of the script. That would correspond very well to the guidelines i wrote for the pymolwiki, how to make a good wiki page. http://pymolwiki.org/index.php/Git_script_guidelines
My problem is that the figures still look a little "wrong", so they are not yet good example figures yet. :-) (Looking into my input...) What I would really like, is to add these wiki scripts to a folder: So one could just call in relax import wiki.matplotlib_dpl94_r1rho_r2eff wiki.matplotlib_dpl94_r1rho_r2eff.plot(res_folder = "resultsR1", spin_inte = ":52@N", num_points=100, extend=5000.0 ) ( I would have to make the script into a function :-) ) What I hope for, is a kind of development, where users can write wiki scripts, a little like pymol, which can help setup an analysis. That could for example be functions that do - Given a text file with file positions to .ft2 files, then collect the "apod_rmsd", by calling nmrPipe "showApod test.ft2" - Given a text file with folder positions to varian procpar files, collect offset, spinlock time etc. Best Troels 2014-03-17 14:20 GMT+01:00 Edward d'Auvergne <[email protected]>: > Hi Troels, > > Do you think it would be worth including those three plots you sent me > into the wiki page? Then the visitor to that page will see what the > script is capable of. > > Regards, > > Edward > > > > On 17 March 2014 14:16, Troels E. Linnet > <[email protected]> wrote: >> Update of sr #3124 (project relax): >> >> Priority: 5 - Normal => 3 - Low >> Status: In Progress => Postponed >> >> _______________________________________________________ >> >> Follow-up Comment #42: >> >> This support request has been postponed. >> >> A python matplotlib making these figures has been posted at the wiki: >> http://wiki.nmr-relax.com/Matplotlib_DPL94_R1rho_R2eff >> >> Including interpolation of points, it makes three figures: >> >> Plot 1: R1_rho as function of theta. >> Plot 2: R1_rho_R2eff as function of w_eff >> Plot 3: R1_rho as function of as function of disp_point, the Spin-lock field >> strength >> >> Note, Plot 3 is the usual outcome from the user function: >> relax_disp.plot_disp_curves >> >> _______________________________________________________ >> >> Reply to this item at: >> >> <http://gna.org/support/?3124> >> >> _______________________________________________ >> Message sent via/by Gna! >> http://gna.org/ >> >> >> _______________________________________________ >> relax (http://www.nmr-relax.com) >> >> This is the relax-devel mailing list >> [email protected] >> >> To unsubscribe from this list, get a password >> reminder, or change your subscription options, >> visit the list information page at >> https://mail.gna.org/listinfo/relax-devel _______________________________________________ relax (http://www.nmr-relax.com) This is the relax-devel mailing list [email protected] To unsubscribe from this list, get a password reminder, or change your subscription options, visit the list information page at https://mail.gna.org/listinfo/relax-devel
