tprettier indentation, uncertainties numeric values, add doc - 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) Files
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(DIR) README
(DIR) LICENSE
---
(DIR) commit b78530b6b2d91c57ce162c5f2512139c2fab7a93
(DIR) parent ab35f0a598fc94aea37f57ac90e1e48e7da37a32
(HTM) Author: Anders Damsgaard <anders.damsgaard@geo.au.dk>
Date: Tue, 25 Aug 2015 16:10:34 +0200
prettier indentation, uncertainties numeric values, add doc
Diffstat:
M matlab/import_php_file.m | 52 ++++++++++++++++---------------
1 file changed, 27 insertions(+), 25 deletions(-)
---
(DIR) diff --git a/matlab/import_php_file.m b/matlab/import_php_file.m
t@@ -99,31 +99,33 @@ rawCellColumns = raw(:, [1,2,3,4,5,14,15,16,17]);
%% Allocate imported array to column variable names
-sample_id = rawCellColumns(:, 1);
-name = rawCellColumns(:, 2);
-email = rawCellColumns(:, 3);
-lat = rawCellColumns(:, 4);
-long = rawCellColumns(:, 5);
-be_conc = cell2mat(rawNumericColumns(:, 1));
-al_conc = cell2mat(rawNumericColumns(:, 2));
-c_conc = cell2mat(rawNumericColumns(:, 3));
-ne_conc = cell2mat(rawNumericColumns(:, 4));
-be_uncer = cell2mat(rawNumericColumns(:, 5));
-al_uncer = cell2mat(rawNumericColumns(:, 6));
-c_uncer = cell2mat(rawNumericColumns(:, 7));
-ne_uncer = cell2mat(rawNumericColumns(:, 8));
-be_prod = rawCellColumns(:, 6);
-al_prod = rawCellColumns(:, 7);
-c_prod = rawCellColumns(:, 8);
-ne_prod = rawCellColumns(:, 9);
-rock_density = cell2mat(rawNumericColumns(:, 9));
-epsilon_gla_min = cell2mat(rawNumericColumns(:, 10));
-epsilon_gla_max = cell2mat(rawNumericColumns(:, 11));
-epsilon_int_min = cell2mat(rawNumericColumns(:, 12));
-epsilon_int_max = cell2mat(rawNumericColumns(:, 13));
-t_degla = cell2mat(rawNumericColumns(:, 14));
-t_degla_uncer = cell2mat(rawNumericColumns(:, 15));
-record = cell2mat(rawNumericColumns(:, 16));
+% use rawCellColumns(:, i) for text fields and
+% cell2mat(rawNumericColumns(:, i)) for numeric fields
+sample_id = rawCellColumns(:, 1);
+name = rawCellColumns(:, 2);
+email = rawCellColumns(:, 3);
+lat = rawCellColumns(:, 4);
+long = rawCellColumns(:, 5);
+be_conc = cell2mat(rawNumericColumns(:, 1));
+al_conc = cell2mat(rawNumericColumns(:, 2));
+c_conc = cell2mat(rawNumericColumns(:, 3));
+ne_conc = cell2mat(rawNumericColumns(:, 4));
+be_uncer = cell2mat(rawNumericColumns(:, 5));
+al_uncer = cell2mat(rawNumericColumns(:, 6));
+c_uncer = cell2mat(rawNumericColumns(:, 7));
+ne_uncer = cell2mat(rawNumericColumns(:, 8));
+be_prod = cell2mat(rawNumericColumns(:, 6));
+al_prod = cell2mat(rawNumericColumns(:, 7));
+c_prod = cell2mat(rawNumericColumns(:, 8));
+ne_prod = cell2mat(rawNumericColumns(:, 9));
+rock_density = cell2mat(rawNumericColumns(:, 9));
+epsilon_gla_min = cell2mat(rawNumericColumns(:, 10));
+epsilon_gla_max = cell2mat(rawNumericColumns(:, 11));
+epsilon_int_min = cell2mat(rawNumericColumns(:, 12));
+epsilon_int_max = cell2mat(rawNumericColumns(:, 13));
+t_degla = cell2mat(rawNumericColumns(:, 14));
+t_degla_uncer = cell2mat(rawNumericColumns(:, 15));
+record = cell2mat(rawNumericColumns(:, 16));
record_threshold_min = cell2mat(rawNumericColumns(:, 17));
record_threshold_max = cell2mat(rawNumericColumns(:, 18));