📄 bresenham_line3d.m
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% Generate X Y Z coordinates of a 3D Bresenham's line between
% two given points.
%
% A very useful application of this algorithm can be found in the
% implementation of Fischer's Bresenham interpolation method in my
% another program that can rotate three dimensional image volume
% with an affine matrix:
% http://www.mathworks.com/matlabcentral/fileexchange/loadFile.do?objectId=21080
%
% Usage: [X Y Z] = bresenham_line3d(P1, P2, [precision]);
%
% P1 - vector for Point1, where P1 = [x1 y1 z1]
%
% P2 - vector for Point2, where P2 = [x2 y2 z2]
%
% precision (optional) - Although according to Bresenham's line
% algorithm, point coordinates x1 y1 z1 and x2 y2 z2 should
% be integer numbers, this program extends its limit to all
% real numbers. If any of them are floating numbers, you
% should specify how many digits of decimal that you would
% like to preserve. Be aware that the length of output X Y
% Z coordinates will increase in 10 times for each decimal
% digit that you want to preserve. By default, the precision
% is 0, which means that they will be rounded to the nearest
% integer.
%
% X - a set of x coordinates on Bresenham's line
%
% Y - a set of y coordinates on Bresenham's line
%
% Z - a set of z coordinates on Bresenham's line
%
% Therefore, all points in XYZ set (i.e. P(i) = [X(i) Y(i) Z(i)])
% will constitute the Bresenham's line between P1 and P1.
%
% Example:
% P1 = [12 37 6]; P2 = [46 3 35];
% [X Y Z] = bresenham_line3d(P1, P2);
% figure; plot3(X,Y,Z,'s','markerface','b');
%
% This program is ported to MATLAB from:
%
% B.Pendleton. line3d - 3D Bresenham's (a 3D line drawing algorithm)
% ftp://ftp.isc.org/pub/usenet/comp.sources.unix/volume26/line3d, 1992
%
% Which is also referenced by:
%
% Fischer, J., A. del Rio (2004). A Fast Method for Applying Rigid
% Transformations to Volume Data, WSCG2004 Conference.
% http://wscg.zcu.cz/wscg2004/Papers_2004_Short/M19.pdf
%
% - Jimmy Shen (jimmy@rotman-baycrest.on.ca)
%
function [X,Y,Z] = bresenham_line3d(P1, P2, precision)
if ~exist('precision','var') | isempty(precision) | round(precision) == 0
precision = 0;
P1 = round(P1);
P2 = round(P2);
else
precision = round(precision);
P1 = round(P1*(10^precision));
P2 = round(P2*(10^precision));
end
d = max(abs(P2-P1)+1);
X = zeros(1, d);
Y = zeros(1, d);
Z = zeros(1, d);
x1 = P1(1);
y1 = P1(2);
z1 = P1(3);
x2 = P2(1);
y2 = P2(2);
z2 = P2(3);
dx = x2 - x1;
dy = y2 - y1;
dz = z2 - z1;
ax = abs(dx)*2;
ay = abs(dy)*2;
az = abs(dz)*2;
sx = sign(dx);
sy = sign(dy);
sz = sign(dz);
x = x1;
y = y1;
z = z1;
idx = 1;
if(ax>=max(ay,az)) % x dominant
yd = ay - ax/2;
zd = az - ax/2;
while(1)
X(idx) = x;
Y(idx) = y;
Z(idx) = z;
idx = idx + 1;
if(x == x2) % end
break;
end
if(yd >= 0) % move along y
y = y + sy;
yd = yd - ax;
end
if(zd >= 0) % move along z
z = z + sz;
zd = zd - ax;
end
x = x + sx; % move along x
yd = yd + ay;
zd = zd + az;
end
elseif(ay>=max(ax,az)) % y dominant
xd = ax - ay/2;
zd = az - ay/2;
while(1)
X(idx) = x;
Y(idx) = y;
Z(idx) = z;
idx = idx + 1;
if(y == y2) % end
break;
end
if(xd >= 0) % move along x
x = x + sx;
xd = xd - ay;
end
if(zd >= 0) % move along z
z = z + sz;
zd = zd - ay;
end
y = y + sy; % move along y
xd = xd + ax;
zd = zd + az;
end
elseif(az>=max(ax,ay)) % z dominant
xd = ax - az/2;
yd = ay - az/2;
while(1)
X(idx) = x;
Y(idx) = y;
Z(idx) = z;
idx = idx + 1;
if(z == z2) % end
break;
end
if(xd >= 0) % move along x
x = x + sx;
xd = xd - az;
end
if(yd >= 0) % move along y
y = y + sy;
yd = yd - az;
end
z = z + sz; % move along z
xd = xd + ax;
yd = yd + ay;
end
end
if precision ~= 0
X = X/(10^precision);
Y = Y/(10^precision);
Z = Z/(10^precision);
end
return; % bresenham_line3d
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