# How do I reproduce this heart-shaped mesh in MATLAB?

I want to plot a heart shape in framework as shown in the following image (found on the website zedomax.com/blog/2008/09/03/i-love-meth-t-shirt/):

I have tried to make it by using this MATLAB program:

n=100;
x=linspace(-3,3,n);
y=linspace(-3,3,n);
z=linspace(-3,3,n);
[X,Y,Z]=ndgrid(x,y,z);
F=((-(X.^2) .* (Z.^3) -(9/80).*(Y.^2).*(Z.^3)) + ((X.^2) + (9/4).* (Y.^2) + (Z.^2)-1).^3);
isosurface(F,0)
lighting phong
caxis
axis equal
colormap('flag');
view([55 34]);


But I didn't get the desired shape of framework as shown in the figure.

I have identified the problem: to create a wireframe we usually use the command mesh(). But this plotting facility only allow us to plot a function of two variables such as z=f(x,y). But my program makes use of three variables: F(x,y,z).

How can I solve the problem?

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That link is not accessible without a login. Could you post the image somewhere else, like photobucket.com, etc.? –  gnovice Oct 6 '09 at 17:14
Plese also reformat the code to make it more legible. –  whatnick Oct 6 '09 at 17:17
When I run your program, I didn't see any heart built from wires. Only blue heart with white dots. I think we can only built a heart with wireframe (something like the figure on the course web site) using the matlab function mesh(). Anyway it is a good try. Keep searching in the internet wink. –  izzat Oct 7 '09 at 7:32
It does draw a heart-shaped wireframe, you just have to rotate and zoom in a bit to get the view I showed!! –  Amro Oct 7 '09 at 10:32
@izzat - don't vandalize questions; even your own. –  Marc Gravell Oct 19 '09 at 18:35

Here's my best attempt at reproducing the entire figure:

## Generating the contoured heart mesh:

I used the CONTOURC function to generate a series of contours in the x-y, x-z, and y-z planes. Notice that in the image you want to reproduce, the mesh lines on the back-facing side of the heart are not rendered. The quickest and easiest way I could think of to reproduce that aspect of the plot was to use ISOSURFACE to render a white surface just beneath the inside surface of the mesh, blocking the view of the back side.

Here's the code for the function heart:

function heart

% Initialize the volume data, figure, and axes:

[X,Y,Z] = meshgrid(linspace(-3,3,101));
F = -X.^2.*Z.^3-(9/80).*Y.^2.*Z.^3+(X.^2+(9/4).*Y.^2+Z.^2-1).^3;
hFigure = figure('Position',[200 200 400 400],'Color','w');
hAxes = axes('Parent',hFigure,'Units','pixels',...
'DataAspectRatio',[1 1 1],'Visible','off',...
'CameraViewAngle',10,...
'XLim',[32 70],'YLim',[39 63],'ZLim',[34 73]);
view([-39 30]);

% Create and plot contours in the y-z plane:

for iX = [35 38 41 45 48 51 54 57 61 64 67]
plane = reshape(F(:,iX,:),101,101);
cData = contourc(plane,[0 0]);
xData = iX.*ones(1,cData(2,1));
plot3(hAxes,xData,cData(2,2:end),cData(1,2:end),'k');
end

% Create and plot contours in the x-z plane:

for iY = [41 44 47 51 55 58 61]
plane = reshape(F(iY,:,:),101,101);
cData = contourc(plane,[0 0]);
yData = iY.*ones(1,cData(2,1));
plot3(hAxes,cData(2,2:end),yData,cData(1,2:end),'k');
end

% Create and plot contours in the x-y plane:

for iZ = [36 38 40 42 44 46 48 50 52 54 56 58 60 62 64 66 69 71]
plane = F(:,:,iZ);
cData = contourc(plane,[0 0]);
startIndex = 1;
if size(cData,2) > (cData(2,1)+1)
startIndex = cData(2,1)+2;
zData = iZ.*ones(1,cData(2,1));
plot3(hAxes,cData(1,2:(startIndex-1)),...
cData(2,2:(startIndex-1)),zData,'k');
end
zData = iZ.*ones(1,cData(2,startIndex));
plot3(hAxes,cData(1,(startIndex+1):end),...
cData(2,(startIndex+1):end),zData,'k');
end

% Fill the inside of the mesh with an isosurface to
% block rendering of the back side of the heart:

p = patch(isosurface(F,-0.001));
set(p,'FaceColor','w','EdgeColor','none');

end


## Putting the figure together:

To reproduce the entire figure I first generated the heart mesh using the heart function above, then added the other elements around it. I also used a few submissions from The MathWorks File Exchange:

Here's the code for the function I_Heart_Math (which generates the above figure):

function I_Heart_Math

% Initialize heart plot and adjust figure and axes settings:

heart;
set(gcf,'Position',[200 200 700 300],'Name','Original image');
offset = get(gca,'CameraPosition')-get(gca,'CameraTarget');
offset = 35.*offset./norm(offset);
set(gca,'Position',[65 -9 300 300],'CameraViewAngle',6,...
'XLim',[21+offset(1) 70],'YLim',[16+offset(2) 63],...
'ZLim',[32 81+offset(3)]);

% Create the axes and labels, offsetting them in front of the
% heart to give the appearance they are passing through it:

arrowStarts = [81 51 51; 51 86 51; 51 51 32]+repmat(offset,3,1);
arrowEnds = [21 51 51; 51 16 51; 51 51 81]+repmat(offset,3,1);
arrow(arrowStarts,arrowEnds,5,40,40);
text('Position',[22 52 48]+offset,'String','x','FontSize',12);
text('Position',[50 17 49]+offset,'String','y','FontSize',12);
text('Position',[46.5 51 81.5]+offset,'String','z','FontSize',12);

% Create the equation text:

text('Position',[51 47 28],'FontName','Bookman','FontSize',8,...
'HorizontalAlignment','center',...
'String',{'(x^2+^9/_4y^2+z^2-1)^3-x^2z^3-^9/_{80}y^2z^3=0'; ...
'-3 \leq x,y,z \leq 3'});

% Create the large-type text:

hI = text('Position',[4 52 69.5],'String','I',...
'FontAngle','italic','FontName','Trebuchet MS',...
'FontSize',116,'FontWeight','bold');
hM = text('Position',[80.5 50 42.5],'String','Math',...
'FontAngle','italic','FontName','Trebuchet MS',...
'FontSize',116,'FontWeight','bold');

% Create an anti-aliased version of the figure too (the larger
% fonts need some adjustment to do this... not sure why):

set(hI,'Position',[4 52 68],'FontSize',86);
set(hM,'Position',[80.5 50 41],'FontSize',86);
myaa;
set(hI,'Position',[4 52 69.5],'FontSize',116);
set(hM,'Position',[80.5 50 42.5],'FontSize',116);
set(gcf,'Name','Anti-aliased image');

end

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thanx gnovice!!!!!!!!!!!!!!!!! –  izzat Oct 19 '09 at 17:02
very nice. I was thinking of something of the sort (intersecting the volume with various perpendicular planes (slices), but this is far more better!). I also liked the way you handled hiding the back-face. –  Amro Oct 19 '09 at 20:13
@Amro: Thanks. My first idea to hide the back side of the mesh was to plot each closed contour as a filled patch. This looks fine with parallel planes, but with perpendicular planes that cross one another MATLAB seems to get confused about how to layer the patches and everything looks screwed up. –  gnovice Oct 19 '09 at 20:22
@gnovice: I recalculated your rep, as requested. –  Bill the Lizard Oct 22 '09 at 17:48
@Bill: Thanks... it dropped by pretty much the amount I was expecting. –  gnovice Oct 22 '09 at 17:50

EDIT: Updated to draw wireframe!

step = 0.05;
[X Y Z] = meshgrid(-3:step:3, -3:step:3, -3:step:3);
F=((-(X.^2).*(Z.^3)-(9/80).*(Y.^2).*(Z.^3))+((X.^2)+(9/4).*(Y.^2)+(Z.^2)-1).^3);
p = patch(isosurface(X,Y,Z,F,0));
set(p,'facecolor','w','EdgeColor','b');
daspect([1 1 1]), view(3), axis tight, axis equal


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AMRO U DIDNT UNDERSTAND ME. i wanna plot the heart shape exactly in the picture. your plot contains many undesired lines which is SO DIFFERENT from the picture i showed. NICE TRY!!! –  izzat Oct 19 '09 at 9:49

A very elegant solution is given by gnovice.

I though I extend it by adding the other elements to replicate the figure pointed by the OP. I also added some animation (I just couldn't help myself!)

% Initialize the volume data, figure, and axes:
[X,Y,Z] = meshgrid(linspace(-3,3,101));
F = -X.^2.*Z.^3-(9/80).*Y.^2.*Z.^3+(X.^2+(9/4).*Y.^2+Z.^2-1).^3;
hFigure = figure;
sz = get(hFigure, 'Position');
set(hFigure, 'Position', [sz(1)-0.15*sz(3) sz(2) 1.3*sz(3) sz(4)]);

'DataAspectRatio',[1 1 1],...
'XLim',[30 120],'YLim',[35 65],'ZLim',[30 75]);
view([-39 30]);
axis off

% hidden surface removal
hidden on

% Fill the inside of the mesh with an isosurface to
% block rendering of the back side of the heart
p = patch(isosurface(F,-0.001));
set(p,'FaceColor','w','EdgeColor','none');

% Create and plot contours in the y-z plane:
for iX = [35 38 41 45 48 51 54 57 61 64 67]
plane = reshape(F(:,iX,:),101,101);
cData = contourc(plane,[0 0]);
xData = iX.*ones(1,cData(2,1));
plot3(hAxes,xData,cData(2,2:end),cData(1,2:end),'k');
pause(.1), drawnow
end

% Create and plot contours in the x-z plane:
for iY = [41 44 47 51 55 58 61]
plane = reshape(F(iY,:,:),101,101);
cData = contourc(plane,[0 0]);
yData = iY.*ones(1,cData(2,1));
plot3(hAxes,cData(2,2:end),yData,cData(1,2:end),'k');
pause(.1), drawnow
end

% Create and plot contours in the x-y plane:
for iZ = [36 38 40 42 44 46 48 50 52 54 56 58 60 62 64 66 69 71]
plane = F(:,:,iZ);
cData = contourc(plane,[0 0]);
startIndex = 1;
if size(cData,2) > (cData(2,1)+1)
startIndex = cData(2,1)+2;
zData = iZ.*ones(1,cData(2,1));
plot3(hAxes,cData(1,2:(startIndex-1)),...
cData(2,2:(startIndex-1)),zData,'k');
end
zData = iZ.*ones(1,cData(2,startIndex));
plot3(hAxes,cData(1,(startIndex+1):end),...
cData(2,(startIndex+1):end),zData,'k');
pause(.1), drawnow
end
pause(.2)

text(7,50,70,'I', 'fontWeight','bold','FontAngle','italic','fontsize',100)
pause(.5)
text(80,50,43,'Math', 'fontWeight','bold','FontAngle','italic','fontsize',100)
pause(.2)

line([20 80],[50 50],[52.5 52.5], 'color','k')
line([50 50],[20 80],[52.5 52.5], 'color','k')
line([50 50],[50 50],[30 80], 'color','k')
text(20,50,50,'x')
text(48,20,50,'y')
text(45,50,80,'z')

text(30,60,30,'(x^2+9/4y^2+z^2-1)^3 - x^2z^3-9/80y^2z^3=0', 'fontsize',8)
text(35,45,30,'-3<x,y,z<3', 'fontsize',8)

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