Hmmm, I don't think this change is too healthy. But I can see you reverted this later on in r24768.
Regards, Edward On 25 July 2014 20:56, <[email protected]> wrote: > Author: tlinnet > Date: Fri Jul 25 20:56:40 2014 > New Revision: 24766 > > URL: http://svn.gna.org/viewcvs/relax?rev=24766&view=rev > Log: > Inverted the input to atan2() function in > specific_analyses/relax_disp/data.py. > > This has no influence on the system tests. > > sr #3124(https://gna.org/support/?3124): Grace graphs production for R1rho > analysis with R2_eff as function of Omega_eff. > sr #3138(https://gna.org/support/?3138): Interpolating theta through > spin-lock offset [Omega], rather than spin-lock field strength [w1]. > > Modified: > branches/r1rho_plotting/specific_analyses/relax_disp/data.py > > Modified: branches/r1rho_plotting/specific_analyses/relax_disp/data.py > URL: > http://svn.gna.org/viewcvs/relax/branches/r1rho_plotting/specific_analyses/relax_disp/data.py?rev=24766&r1=24765&r2=24766&view=diff > ============================================================================== > --- branches/r1rho_plotting/specific_analyses/relax_disp/data.py > (original) > +++ branches/r1rho_plotting/specific_analyses/relax_disp/data.py Fri > Jul 25 20:56:40 2014 > @@ -2135,7 +2135,7 @@ > if Delta_omega == 0.0: > theta = pi / 2.0 > else: > - theta = atan2(omega1, Delta_omega) > + theta = atan2(Delta_omega, omega1) > > # Calculate effective field in rotating frame > w_eff = sqrt( Delta_omega*Delta_omega + omega1*omega1 ) > @@ -2207,7 +2207,7 @@ > if Delta_omega == 0.0: > theta = pi / 2.0 > else: > - theta = atan2(omega1, Delta_omega) > + theta = atan2(Delta_omega, omega1) > > # Calculate effective field in rotating frame > w_eff = sqrt( Delta_omega*Delta_omega + omega1*omega1 ) > @@ -2330,7 +2330,7 @@ > if Delta_omega == 0.0: > theta = pi / 2.0 > else: > - theta = atan2(omega1, Delta_omega) > + theta = atan2(Delta_omega, omega1) > > # Calculate effective field in rotating frame > w_eff = sqrt( Delta_omega*Delta_omega + omega1*omega1 ) > @@ -3610,7 +3610,7 @@ > # Then it should be: theta = pi + atan(-x) = pi - > atan(x) = pi - abs(atan( +/- x)). > # This is taken care of with the atan2(y, x) > function, which return atan(y / x), in radians, and the result is between -pi > and pi. > else: > - theta[ei][si][mi][oi].append(atan2(omega1, > Delta_omega)) > + theta[ei][si][mi][oi].append(atan2(Delta_omega, > omega1)) > > # Calculate effective field in rotating frame > w_eff = sqrt( Delta_omega*Delta_omega + > omega1*omega1 ) > @@ -3683,7 +3683,7 @@ > # Then it should be: theta = pi + atan(-x) = pi - > atan(x) = pi - abs(atan( +/- x)). > # This is taken care of with the atan2(y, x) > function, which return atan(y / x), in radians, and the result is between -pi > and pi. > else: > - theta[ei][si][mi][oi].append(atan2(omega1, > Delta_omega)) > + theta[ei][si][mi][oi].append(atan2(Delta_omega, > omega1)) > > # Calculate effective field in rotating frame > w_eff = sqrt( Delta_omega*Delta_omega + > omega1*omega1 ) > > > _______________________________________________ > relax (http://www.nmr-relax.com) > > This is the relax-commits 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-commits _______________________________________________ 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
