mx1.adamsgaard.dk

       tfix indexing of raw cell array - cosmo - front and backend for Markov-Chain Monte Carlo inversion of cosmogenic nuclide concentrations
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       ---
 (DIR) commit 309bf370a7f522da7bdaa600b422d98830245296
 (DIR) parent 322232d46af279d96b5946420764ea9d551e704d
 (HTM) Author: Anders Damsgaard <anders.damsgaard@geo.au.dk>
       Date:   Tue,  1 Dec 2015 11:34:09 +0100
       
       fix indexing of raw cell array
       
       Diffstat:
         M matlab/import_php_file.m            |      36 ++++++++++++++++----------------
       
       1 file changed, 18 insertions(+), 18 deletions(-)
       ---
 (DIR) diff --git a/matlab/import_php_file.m b/matlab/import_php_file.m
       t@@ -137,25 +137,25 @@ al_uncer             = cell2mat(rawNumericColumns(:, 6));  % 11
        c_uncer              = cell2mat(rawNumericColumns(:, 7));  % 12
        ne_uncer             = cell2mat(rawNumericColumns(:, 8));  % 13
        zobs                 = cell2mat(rawNumericColumns(:, 9));  % 14
       -be_prod_spall        = cell2mat(rawNumericColumns(:, 13)); % 15
       -al_prod_spall        = cell2mat(rawNumericColumns(:, 14)); % 16
       -c_prod_spall         = cell2mat(rawNumericColumns(:, 15)); % 17
       -ne_prod_spall        = cell2mat(rawNumericColumns(:, 16)); % 18
       -be_prod_muon         = cell2mat(rawNumericColumns(:, 17)); % 19
       -al_prod_muon         = cell2mat(rawNumericColumns(:, 18)); % 20
       -c_prod_muon          = cell2mat(rawNumericColumns(:, 19)); % 21
       -ne_prod_muon         = cell2mat(rawNumericColumns(:, 20)); % 22
       -rock_density         = cell2mat(rawNumericColumns(:, 21)); % 23
       -epsilon_gla_min      = cell2mat(rawNumericColumns(:, 22)); % 24
       -epsilon_gla_max      = cell2mat(rawNumericColumns(:, 23)); % 25
       -epsilon_int_min      = cell2mat(rawNumericColumns(:, 24)); % 26
       -epsilon_int_max      = cell2mat(rawNumericColumns(:, 25)); % 27
       -t_degla_min          = cell2mat(rawNumericColumns(:, 26)); % 28
       -t_degla_max          = cell2mat(rawNumericColumns(:, 27)); % 29
       +be_prod_spall        = cell2mat(rawNumericColumns(:, 10)); % 15
       +al_prod_spall        = cell2mat(rawNumericColumns(:, 11)); % 16
       +c_prod_spall         = cell2mat(rawNumericColumns(:, 12)); % 17
       +ne_prod_spall        = cell2mat(rawNumericColumns(:, 13)); % 18
       +be_prod_muon         = cell2mat(rawNumericColumns(:, 14)); % 19
       +al_prod_muon         = cell2mat(rawNumericColumns(:, 15)); % 20
       +c_prod_muon          = cell2mat(rawNumericColumns(:, 16)); % 21
       +ne_prod_muon         = cell2mat(rawNumericColumns(:, 17)); % 22
       +rock_density         = cell2mat(rawNumericColumns(:, 18)); % 23
       +epsilon_gla_min      = cell2mat(rawNumericColumns(:, 19)); % 24
       +epsilon_gla_max      = cell2mat(rawNumericColumns(:, 20)); % 25
       +epsilon_int_min      = cell2mat(rawNumericColumns(:, 21)); % 26
       +epsilon_int_max      = cell2mat(rawNumericColumns(:, 22)); % 27
       +t_degla_min          = cell2mat(rawNumericColumns(:, 23)); % 28
       +t_degla_max          = cell2mat(rawNumericColumns(:, 24)); % 29
        record               = rawCellColumns(:, 6);               % 30
       -record_threshold_min = cell2mat(rawNumericColumns(:, 28)); % 31
       -record_threshold_max = cell2mat(rawNumericColumns(:, 29)); % 32
       -nwalkers             = cell2mat(rawNumericColumns(:, 30)); % 33
       +record_threshold_min = cell2mat(rawNumericColumns(:, 25)); % 31
       +record_threshold_max = cell2mat(rawNumericColumns(:, 26)); % 32
       +nwalkers             = cell2mat(rawNumericColumns(:, 27)); % 33
        
        
        %% Change units