Issues getting dual y-axis ticks/values to line up

1 vue (au cours des 30 derniers jours)
Adam Goldsmith
Adam Goldsmith le 15 Juin 2015
Commenté : Adam Goldsmith le 16 Juin 2015
I'm making a figure with two y-axes which are mutually a power law function of each other. What I want is for the y-axis ticks on the right to display their equivalent values from the right y-axis; that is, for each tick on the right y-axis I want a corresponding tick with its equivalent value on the left y-axis.
Here's the code that I've written for the figure. Note that I plot a third (empirically measured) variable as a dashed line across the plot:
figure(14)
title(['EDDR and T_{c} vs Temperature for ' sample_name])
[fig14,ax1,ax2] = plotyy([min(realTC) max(realTC)],[esr esr],realTC,Tc_EDDR,@line,@line);
set(ax1,'LineWidth',1.5,'Color','k','LineStyle','--')
set(ax2,'LineWidth',1,'Color','k','LineStyle','-')
set(fig14(1),'YColor','k','LineWidth',1)
set(fig14(2),'YColor','k','LineWidth',1)
xlabel('Temperature (°C)')
fig14(1).YLabel.String = 'Estimated Diffusion Domain Size (\mum)';
fig14(2).YLabel.String = 'Closure temperature (°C, \deltaT/\deltat = 10 °C/m.y.)';
fig14y2 = 50:20:250; % Tc values of ticks on left y-axis
set(fig14(2),'YLim',[min(fig14y2) max(fig14y2)],'YTick',fig14y2) % forces ticks on left y-axis
EDDRTc = polyfit(log(EDDR),log(Tc_EDDR),1); % solves for loglog EDDR v Tc curve as linear
fig14y1 = exp((log(fig14y2) - EDDRTc(2))/EDDRTc(1)); % solve for equivalent EDDR values of Tc ticks
set(fig14(1),'LineWidth',1,'YLim',[min(fig14y1) max(fig14y1)],'YTick',fig14y1) % forces ticks on right y-axis
legend('Observed equivalent spherical radius','Estimated diffusion domain radius')
I've attached a photo of the result, it's not quite what I was going for. Any ideas as to how to get this damn thing to work? Also, how do I limit the number of significant digits on the right y-axis to three?

Connectez-vous pour répondre à cette question.

Réponse acceptée

Eric Lin
Eric Lin le 16 Juin 2015
The following submissions on the MATLAB File Exchange may be of help:
plot2axes: allows you to provide a function that describes the relationship of one axes to another (ex. Celsius and Farenheit)
extendticklabel: allows you to specify the number of significant digits for tick labels
  1 commentaire
Adam Goldsmith
Adam Goldsmith le 16 Juin 2015
Thanks! This seems like it would work, so I'm accepting. But I solved the issue myself with a series of patches. Here's the final code:
TCtoEDDR = polyfit(log(Tc_EDDR),log(EDDR),1); % Tc and EDDR are a power law function of each other
esrTc = exp(log(esr) * EDDRtoTC(1) + EDDRtoTC(2)); % Tc assuming observed Ea and r = ESR
figure(14)
[fig14,ax1,ax2] = plotyy([min(realTC) max(realTC)],[esr esr],realTC,EDDR,@line,@line);
set(ax1,'LineWidth',1.5,'Color','k','LineStyle','--')
set(ax2,'LineWidth',1,'Color','k','LineStyle','-')
set(fig14(1),'YColor','k','LineWidth',1,'box','off')
set(fig14(2),'YColor','k','LineWidth',1)
legend('Observed equivalent spherical radius','Effectivered diffusion domain size')
title(['EDDR and T_{c} vs Temperature for ' sample_name])
xlabel('Temperature (°C)')
fig14(1).YLabel.String = 'Estimated Diffusion Domain Size (\mum)';
fig14(2).YLabel.String = 'Closure temperature (°C, \deltaT/\deltat = 10 °C/m.y.)';
set(fig14(1),'YLim',[min(EDDR)-5 max(EDDR)+5],'YTick',0:EDDRtick:600)
set(fig14(2),'YLim',[min(EDDR)-5 max(EDDR)+5])
fig14y1 = 0:TCtick:250;
fig14y2 = exp(log(fig14y1) * TCtoEDDR(1) + TCtoEDDR(2));
set(fig14(2),'YTickLabel',fig14y1,'YTick',fig14y2)

Connectez-vous pour commenter.

Plus de réponses (0)

Catégories

En savoir plus sur Graphics Object Programming dans Help Center et File Exchange

Tags

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by