mx1.adamsgaard.dk

       tput median value in xlabel - cosmo - front and backend for Markov-Chain Monte Carlo inversion of cosmogenic nuclide concentrations
 (HTM) git clone git://src.adamsgaard.dk/cosmo
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       ---
 (DIR) commit 3a499ebc15c7a4397c2069603a58f567ded159bf
 (DIR) parent b07a1882fe622f24f138058c07a0c9910ced2b4d
 (HTM) Author: Anders Damsgaard <anders.damsgaard@geo.au.dk>
       Date:   Mon,  9 Nov 2015 14:52:48 +0100
       
       put median value in xlabel
       
       Diffstat:
         M matlab/generate_plots.m             |      20 ++++++++++++--------
       
       1 file changed, 12 insertions(+), 8 deletions(-)
       ---
 (DIR) diff --git a/matlab/generate_plots.m b/matlab/generate_plots.m
       t@@ -229,7 +229,7 @@ for i1 = 1:M % for each model parameter
                text(0.02,0.98,'c', 'Units', ...
                    'Normalized', 'VerticalAlignment', 'Top')
            elseif i1 == 4
       -        xlabel(['$\delta^{18}$O$_\mathrm{threshold}$ [' char(8240) ']'],...
       +        xlabel('$\delta^{18}$O$_\mathrm{threshold}$ [$^o/_{oo}$]', ...
                    'Interpreter', 'LaTeX')
                text(0.02,0.98,'d','Units', ...
                    'Normalized', 'VerticalAlignment', 'Top')
       t@@ -338,9 +338,9 @@ for i1 = 1:M % for each model parameter
            % 2nd quartile = median = 50th percentile
            med = median(data);
            plot([med, med], get(gca,'YLim'), 'm-')
       -    ylims = get(gca,'YLim');
       -    text(med, ylims(1) + (ylims(2) - ylims(1))*0.9, ...
       -        [' \leftarrow ' num2str(med)]);
       +    %ylims = get(gca,'YLim');
       +    %text(med, ylims(1) + (ylims(2) - ylims(1))*0.9, ...
       +        %['\leftarrow' num2str(med)]);
            
            % 1st quartile = 25th percentile
            prctile25 = prctile(data, 25);
       t@@ -353,19 +353,23 @@ for i1 = 1:M % for each model parameter
            hold off
            
            if i1 == 1
       -        xlabel('Interglacial erosion rate [mm/yr]')
       +        xlabel(['Interglacial erosion rate [mm/yr], median = ' ...
       +            num2str(med) ' mm/yr'])
                text(0.02,0.98,'a', 'Units', ...
                    'Normalized', 'VerticalAlignment', 'Top')
            elseif i1 == 2
       -        xlabel('Glacial erosion rate [mm/yr]')
       +        xlabel(['Glacial erosion rate [mm/yr], median = ' ...
       +            num2str(med) ' mm/yr'])
                text(0.02,0.98,'b', 'Units', ...
                    'Normalized', 'VerticalAlignment', 'Top')
            elseif i1 == 3
       -        xlabel('Timing of last deglaciation [yr]')
       +        xlabel(['Timing of last deglaciation [yr], median = ' ...
       +            num2str(med) ' yr'])
                text(0.02,0.98,'c', 'Units', ...
                    'Normalized', 'VerticalAlignment', 'Top')
            elseif i1 == 4
       -        xlabel(['$\delta^{18}$O$_\mathrm{threshold}$ [' char(8240) ']'],...
       +        xlabel(['$\delta^{18}$O$_\mathrm{threshold}$ [$^o/_{oo}$]'...
       +            ', median = ' num2str(med) ' $^o/_{oo}$'], ...
                    'Interpreter', 'LaTeX')
                text(0.02,0.98,'d','Units', ...
                    'Normalized', 'VerticalAlignment', 'Top')