for idx = eles
current = coordinates(elements(idx,[1:4,1])',:);
% current(3,:) = current(3,:)-current(1,:)+current(2,:);
- fill3(current(:,1),current(:,2),current(:,3),'b'); % Zeichnet Oberflaeche
+ fill3(current(:,1),current(:,2),current(:,3),[0,200,100]/255); % Zeichnet Oberflaeche
hold on
end
elseif(e==2)
for idx = eles
current = coordinates(elements(idx,[1:4,1])',:);
% current(3,:) = current(3,:)-current(1,:)+current(2,:);
- plot3(current(:,1),current(:,2),current(:,3),'b'); % Zeichnet nur Kanten
+ plot3(current(:,1),current(:,2),current(:,3),'color',[0,100,100]/255); % Zeichnet nur Kanten
hold on
end
end
+alpha(0.3)
+
%% Zusatz
if(n)
if(n==2)
for idx = eles
current = sum(coordinates(elements(idx,[2,4])',:),1)/2;
if(e)
- cola = 'w';
+ cola = 'bla';
else
cola = 'bla';
end
for idx = coos
current = coordinates(idx,:);
if(e)
- cola = 'w';
+ cola = 'r';
else
cola = 'r';
end
ylabel 'y'
zlabel 'z'
+
+
hold off
end
type = [1];
%LShape adaptiv anisotrop
-% compute('exmpl_2DQuad', steps, 0.7, type, 0.5, 0.5, 0, 'testAA_')
-% compute('exmpl_2DQuad', steps, 0.7, type, 0.5, 0.5, 1, 'testAAvcon_')
+% compute('exmpl_2DQuad', steps, 0.7, type, 0.5, 0.5, 0, 'tsAA_')
+% compute('exmpl_2DQuad', steps, 0.7, type, 0.5, 0.5, 1, 'tsAAvcon_')
% %LShape adaptiv isotrop
-compute('exmpl_2DQuad', steps, 0,type, 0.5, 0, 0, 'testAI_')
+compute('exmpl_2DQuad', steps, 0,type, 0.5, 0, 0, 'tAI_')
%
% %LShape uniform anisotrop
-% % compute('exmpl_2DLShape', steps, 0, type, 1, 0.5, 0, 'testUA_')
+% % compute('exmpl_2DLShape', steps, 0, type, 1, 0.5, 0, 'tsUA_')
%
% %LShape uniform isotrop
-% % compute('exmpl_2DLShape', steps, 0, type, 1, 0, 0, 'testUI_')
+% % compute('exmpl_2DLShape', steps, 0, type, 1, 0, 0, 'tsUI_')
%
%
% %Ausgabe:
projects / bacc.git / commitdiff