# 3D-Animation plot with the hgtransform command in Matlab

I continue to think of the possibilities for the 3d-animation (moving point along a curve). I have written the following code to try it using the hgtransform command but I do not understand why does not work.

 t = 0:pi/50:10*pi;
x = sin(t);
y = cos(t);
z = t;
ah = axes;
set(ah,'XLim',[min(x) max(x)],'YLim',[min(y) max(y)],...
'ZLim',[min(z) max(z)]);
plot3(x,y,z,'Color','red');
hold on;
view(3);
hpoint = line('XData',x(1),'YData',y(1),'ZData',z(1),'Color','black','Marker',...
'o','MarkerSize',10,'MarkerFaceColor','black');
ht = hgtransform('parent',ah);
set(hpoint,'Parent',ht);

for i=2:length(x)
tx = x(i)-x(i-1);
ty = y(i)-y(i-1);
tz = z(i)-z(i-1);
trans = makehgtform('translate',[tx ty tz]),
set(ht,'Matrix',trans);
pause(0.01);
end

-

You have to calculate tx, ty, and tz in your loop as follows:

tx = x(i)-x(1);  %# Note the 1 instead of i-1
ty = y(i)-y(1);
tz = z(i)-z(1);


This is because the transform trans that you apply to the point is an absolute transform. In other words, the transform is applied to the original position of the point on each loop iteration, not to the most recent position.

-
Thank you so much for your answer. You are right (I really thought that the translation vector was applied to the most recent position). Cheers. –  julianfperez Jun 15 '11 at 20:35

Continuing on @gnovice's answer, you could take that part out of the loop to become something like:

%# calculate translation steps  (absolute with respect to original location)
trans = bsxfun(@minus, [x(:) y(:) z(:)], [x(1) y(1) z(1)]);

%# translate point
for i=1:size(trans,1)
set(ht, 'Matrix',makehgtform('translate',trans(i,:)));
pause(0.01);
end

-
Thanks for your interesting solution. Doubtless, asking this question has been an enrichening experience. Best wishes. –  julianfperez Dec 28 '11 at 10:17

As gnovice said, in your code you're setting the absolute transform. You can make your transform relative by multiplying instead of setting. Like this:

tx = x(i)-x(i-1);
ty = y(i)-y(i-1);
tz = z(i)-z(i-1);
trans = makehgtform('translate'),[tx ty tz]),
set(ht,'Matrix',get(ht,'Matrix')*trans);


Multiplying the current value of the Matrix property by trans lets you accumulate your transform step by step.

-
I am grateful for your answer. I am not used to handle the hgtransform function but this question has allowed me to know more about it. Cheers. –  julianfperez Jun 18 '11 at 2:14