I also had this problem when trying to follow the same solution. I noticed that running the exact solution code worked fine but when working with my own code I would get the 'wrong shape' error you described. The issue turned out to be NaNs in my data - quiver does not add NaNs to the Head.VertexData so you need to remove any NaNs from your magnitude array before calling histcounts. Here I reproduce the error:

```
x = 1:5;
y = 1:5;
[X,Y] = meshgrid(x, y);
Z = zeros(size(X));
U = zeros(size(X));
V = (x-1).*(y-1)';
% add a single NaN to recreate the issue
V(3,3) = nan;
q = quiver(X, Y, U, V);
%// Compute the magnitude of the vectors
mag = hypot(U(:), V(:));
%// Get the current colormap
vec_cmap = colormap('hot');
%// Now determine the color to make each arrow using a colormap
clims = num2cell([0, max(mag, [], 'all','omitnan')]);
[~, ~, ind] = histcounts(mag, linspace(clims{:}, size(vec_cmap, 1)));
% [~, ~, ind] = histcounts(mag, size(vec_cmap, 1));
%// Now map this to a colormap to get RGB
cmap = uint8(ind2rgb(ind(:), vec_cmap) * 255);
cmap(:,:,4) = 255;
cmap = permute(repmat(cmap, [1 3 1]), [2 1 3]);
%// We repeat each color 3 times (using 1:3 below) because each arrow has 3 vertices
set(q.Head, ...
'ColorBinding', 'interpolated', ...
'ColorData', reshape(cmap(1:3,:,:), [], 4).'); %'
%// We repeat each color 2 times (using 1:2 below) because each tail has 2 vertices
set(q.Tail, ...
'ColorBinding', 'interpolated', ...
'ColorData', reshape(cmap(1:2,:,:), [], 4).');
```

Warning: Error creating or updating LineStrip Error in value of
property ColorData Array is wrong shape or size

Warning: Error creating or updating LineStrip Error in value of property ColorData
Array is wrong shape or size

And then a working version:

```
x = 1:5;
y = 1:5;
[X,Y] = meshgrid(x, y);
Z = zeros(size(X));
U = zeros(size(X));
V = (x-1).*(y-1)';
% add a single NaN to recreate the issue
V(3,3) = nan;
q = quiver(X, Y, U, V);
%// Compute the magnitude of the vectors
mag = hypot(U(:), V(:));
%// Get the current colormap
vec_cmap = colormap('hot');
%// Now determine the color to make each arrow using a colormap
clims = num2cell([0, max(mag, [], 'all','omitnan')]);
% Here is the solution - remove NaNs before binning
mag(isnan(mag)) = [];
[~, ~, ind] = histcounts(mag, linspace(clims{:}, size(vec_cmap, 1)));
% [~, ~, ind] = histcounts(mag, size(vec_cmap, 1));
%// Now map this to a colormap to get RGB
cmap = uint8(ind2rgb(ind(:), vec_cmap) * 255);
cmap(:,:,4) = 255;
cmap = permute(repmat(cmap, [1 3 1]), [2 1 3]);
%// We repeat each color 3 times (using 1:3 below) because each arrow has 3 vertices
set(q.Head, ...
'ColorBinding', 'interpolated', ...
'ColorData', reshape(cmap(1:3,:,:), [], 4).'); %'
%// We repeat each color 2 times (using 1:2 below) because each tail has 2 vertices
set(q.Tail, ...
'ColorBinding', 'interpolated', ...
'ColorData', reshape(cmap(1:2,:,:), [], 4).');
```

Coloured Quiver