## Aggregate per type

You can find the total thickness of each rock type by using accumarray:

```
total_type_thickness = accumarray(A(:,1),A(:,2));
```

It sums up all values of the second column with equal number in the first column. So for your example data, this returns:

```
total_type_thickness =
72.5000
349.5000
52.0000
6.5000
19.5000
```

The difficult thing is displaying it as a single stacked bar, you can try using this workaround:

http://www.mathworks.com/matlabcentral/newsreader/view_thread/57304

which leaves you with an empty column, which you can hide by setting the x limits:

```
bar([total_type_thickness'; zeros(size(total_type_thickness'))],'stacked');
xlim([0.25 1.75])
% add a legend with 'Rock Type <ii>'
legend(arrayfun(@(ii) sprintf('Rock type %d',ii), 1:length(total_type_thickness), 'uni',false));
```

For now, I haven't found a better alternative, as matlab won't stack the bars if you input vector data, it plots the bars separately in that case..

## Display all values, same color per type

For plotting all the data (all layers), you can use the same approach, but now set the color data manually with colormap:

```
N = size(A,1); % number of layers
M = max(A(:,1)); % number of different rock types
bar([A(:,2)' ; NaN(1,N)],'stacked','facecolor','flat');
xlim([0.25 1.75])
cc = jet(M); % create colormap with N different colors
colormap(cc(A(:,1),:)); % pick for each layer, the correct color and use it as a colormap
```

For easier adding a legend, I'll add `M`

dummy values to the original data:

```
bar([NaN(1,M) A(:,2)' ; NaN(1,N+M)],'stacked','facecolor','flat');
xlim([0.25 1.75])
cc = jet(M); % create colormap with N different colors
colormap(cc([(1:M)' ;A(:,1)],:)); % pick for each layer, the correct color and use it as a colormap
```

Now the first `M`

elements in the legend will correspond to Rock type 1,2,.. M:

```
legend(arrayfun(@(ii) sprintf('Rock type %d',ii), 1:length(total_type_thickness), 'uni',false));
```