Minimal-code to get axes limits of log-log plots, but using gscatter
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I used to specify scatter plots using loglog(X,Y,'o') to plot little circles at the data points. Now, gscatter(X,Y,GroupVector,'br','o') allows me to designate different colours for different data points. In my case, I only had two groups, and with logical GroupVector above designating which points belongs to which group. The 'br' says to use blue and red for the two groups.
Unfortunately, gscatter doesn't have a log scale option. I can set(gca,'xscale','log','yscale','log'), but I get complaints that negative axis limits are ignored. Sure enough, that is because the axis limits do include negative numbers, even if the data does not. As a result of this, the log scale scatter plot does not *automatically* have the nice axis limits that loglog(X,Y,'o') has.
My nonideal solution has been to create both plots, then copy the axes limits from the loglog plot to the gscatter plot. It seems heavily redundant. It sure would be nice to have a log scale option for gscatter. In the meantime, what is the most minimal code alternative of replicating loglog axes limits for gscatter? My method *might* be "minimal code", but I mean without duplicating plots.
0 件のコメント
回答 (3 件)
Fabio Freschi
2022 年 6 月 2 日
You can remove the negative part of the axis before setting the log scale
set(gca,'XLim',[0 max(xlim)],'YLim',[0 max(ylim)]);
set(gca,'XScale','log','YScale','log')
3 件のコメント
Fabio Freschi
2022 年 6 月 2 日
編集済み: Fabio Freschi
2022 年 6 月 2 日
Is this working for you
set(gca,'XLim',[10^floor(log10(max([min(xlim) 0]))) 10^ceil(log10(max(xlim)))],'YLim',[10^floor(log10(max([min(ylim) 0]))) 10^ceil(log10(max(ylim)))]);
set(gca,'XScale','log','YScale','log')
FM
2022 年 6 月 2 日
編集済み: FM
2022 年 6 月 6 日
4 件のコメント
Fabio Freschi
2022 年 6 月 3 日
This code gives an extra space between the data and the boundaries
% Close figure windows and set up data
%-------------------------------------
close all;
x=[
0.3531 0.3531 12.9305 12.9305 0.4744 0.4744 0.3649 0.3649 0.3770 ...
0.3770 0.4318 0.4318 0.2568 0.2568 0.3288 0.3288 0.4668 0.4668 0.3228 ...
0.3228 0.2664 0.2664 1.4536 1.4536 0.2041 0.2934 0.3591 0.3591 0.8932 ...
0.8932 0.3095 0.3095 0.3800 0.3800 0.5411 0.5411 0.3390 0.3390 1.0329 ...
1.0329 0.4423 0.4423 0.5537 0.5537 0.5048 0.5048 0.5338 0.5338 0.8937 ...
0.8937 0.1257 0.1257 0.7695 0.7695 10.5885 10.5885 0.2753 0.2753 ...
0.7879 0.7879 0.2630 0.2630 0.5923 0.5923 0.6481 0.6481 0.3127 0.3127 ...
0.3159 0.3159 10.9593 10.9593 0.4369 0.4369 1.1650 1.1650 0.3901 ...
0.3901 0.2631 0.2631 0.1317 0.1317 13.5365 13.5365 0.3627 0.3627 ...
12.5942 12.5942 0.9374 0.9374 0.3617 0.3617 0.5765 0.5765 0.5280 ...
0.5280 0.4550 0.4550 0.4141 0.4141 0.4400 0.4400 0.5764 0.5764 0.3103 ...
0.3103 0.5172 0.2633 1.5205 1.1162 0.5018 0.5567 0.2402 0.2581 0.5132 ...
1.4910 0.4151 0.7040 12.2202 10.2918 0.3412 0.9795 0.3006 0.4063 ...
0.4293 0.3683 0.4776 10.6593 0.3107 12.9954 0.4495 0.4852 0.4539 ...
0.5873 9.7542 11.7193 0.5353 0.4711 0.3711 0.6086 0.8484 0.3802 0.2874 ...
0.2883 10.3625 0.1769 0.6156 0.2677 12.0048 0.3398 0.7914 13.2012 ...
0.4201 0.3387 ];
y=[
0.3893 0.3695 0.3893 0.3695 0.5019 0.4650 0.5019 0.4650 0.4889 0.5750 ...
0.4889 0.5750 0.2664 0.5354 0.2664 0.5354 0.4596 0.3731 0.4596 0.3731 ...
0.3385 0.3823 0.3385 0.3823 0.3239 0.3239 0.5162 0.7474 0.5162 0.7474 ...
0.4392 0.4705 0.4392 0.4705 0.6075 0.2430 0.6075 0.2430 0.5813 0.4279 ...
0.5813 0.4279 2.0488 0.4991 2.0488 0.4991 0.8421 0.6363 0.8421 0.6363 ...
0.8016 0.5145 0.8016 0.5145 0.4891 0.3124 0.4891 0.3124 0.4811 0.3389 ...
0.4811 0.3389 0.4555 0.3411 0.4555 0.3411 0.8957 0.5301 0.8957 0.5301 ...
0.3736 0.3827 0.3736 0.3827 0.3790 0.5523 0.3790 0.5523 0.6001 0.2787 ...
0.6001 0.2787 0.3654 0.4716 0.3654 0.4716 0.7382 0.3084 0.7382 0.3084 ...
0.6224 0.5768 0.6224 0.5768 0.5205 0.8075 0.5205 0.8075 0.3892 0.7064 ...
0.3892 0.7064 1.0712 0.4087 1.0712 0.4087 0.3074 0.6415 1.0017 0.7258 ...
0.3847 0.9258 0.3310 0.2532 0.9183 0.3233 0.2444 0.6016 0.7064 0.4829 ...
0.6532 0.5670 1.0520 0.8499 0.4388 0.7136 0.3934 0.4591 1.5558 0.9160 ...
0.4748 0.4851 0.4481 0.6678 0.6283 0.6660 0.7489 0.6644 0.3003 0.6246 ...
0.4611 0.7549 0.5237 0.3981 0.3973 0.5200 0.6287 0.3837 0.9782 0.3594 ...
0.8034 0.3673 1.5584 0.3934 ];
% "loglog" layout
%----------------
loglog(x,y,'o');
ax=gca;
% xlim([ min( [ ax.XLim(1) ax.YLim(1) ] ) max( [ ax.XLim(2) ax.YLim(2) ] ) ]);
% ylim(ax.XLim);
% Fabio's third suggestion
figure
gscatter(x,y)
set(gca,'XLim',[min(x)-10^(floor(log10(min(x)))-1) max(x)+10^(floor(log10(max(x)))-1)]);
set(gca,'YLim',[min(y)-10^(floor(log10(min(y)))-1) max(y)+10^(floor(log10(max(y)))-1)]);
set(gca,'XScale','log','YScale','log')
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