# How can I draw a “line” in a 2-D array (simulacrum for a screen)

I'm working on a project that's going to print out to a bitmap(more specifically a RAW, but that's not important to the question), but I'm working in a 2-D array in-program.

I want to be able to draw a line from point (a,b) to point (x,y) for any arbitrary values of a,b,x, and y. I don't need anything fancy like anti-aliasing; at this point nearest-neighbor is fine. for the sake of example, let's assume I've got a 5x5 2d array, like so:

``````00,10,20,30,40
01,11,21,31,41
02,12,22,32,42
03,13,23,33,43
04,14,24,34,44
``````

now, lets assume I want to draw a line between 04 and 42. I want a way of reliably coming up with something like this:

``````0,0,0,0,0
0,0,0,0,0
0,0,0,1,1
0,1,1,1,0
1,1,0,0,0
``````

I'm sure there's someone thinking "guh, is this guy retarded? did he fail here?", but humor me, please!

I'm working in C++, but that should be secondary to the actual question.

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Reminds me of the ACM programming competition questions. –  Simucal Oct 1 '09 at 6:43

Bresenham's line algorithm is what you need:

Illustration of the result of Bresenham's line algorithm.

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Yes, Bresenham has been the standard for decades. There are alternatives, but not many, and not common. –  Bob Murphy Oct 1 '09 at 6:46

Like Simucal said, Bresenham is the way to go. Here is a naive implementation.

Not perfect C code, and you have to do some magic if you want thickness on the line segments. Also, you should traverse along x, instead of y like I do here. It is more cache-friendly. If you want anti-aliasing, search for "Wu-lines". It's a clever trick to use the fraction from the positions as a gradient.

Tips for line thickness: Calculate the normalized vector V(-y,x) from v1 - v0 if your vertices are in counter-clockwise order, or V(y,-x) if your vertices are in clockwise order. Then you have four points defined by: v0, v0 + V * linewidth, v1 and v1 + V * linewidth. Rasterize that quadrangle by interpolating along the edges. But if you already want to go that far, you would probably code a triangle rasterizer instead.

``````typedef struct Point
{
int x, y;
} Point;

typedef struct Color {
unsigned char r,g,b;
} Color;

#define RGB(x) (x->r << 16) | (x->g << 8) | (x->b)

int DrawLinestrip(int width, int height, unsigned int* buffer,
Color* color, Point* verts, int count)
{
int i, x,y,xbegin, xdelta, ydelta, xdiff, ydiff, accum, sign;
Point *p1, *p2;
if(!verts || count < 2)
return -1;

for(i=1; i<count; ++i){
if(verts[i].y > verts[i-1].y){ /* sort by y */
p1 = &verts[i-1];
p2 = &verts[i];
} else {
p1 = &verts[i];
p2 = &verts[i-1];
}

xdelta = p2->x - p1->x;
ydelta = p2->y - p1->y;
accum = 0;
sign = 0;

if(!xdelta && !ydelta)
continue;
else if(!xdelta && ydelta){ /* Special case: straight vertical line */
x = p1->x;
for(y=p1->y; y<(p1->y + ydelta); ++y){
buffer[x + y*width] = RGB(color);
}
}
else if(xdelta && !ydelta){ /* Special case: straight horisontal line */
y = p1->y;
xbegin = (p1->x < p2->x ? p1->x : p2->x);
for(x=xbegin; x<=xbegin+abs(xdelta); ++x){
buffer[x + y*width] = RGB(color);
}
}
else {
xdiff = (xdelta << 16) / ydelta;
ydiff = (ydelta << 16) / xdelta;

if( abs(xdiff) > abs(ydiff) ){ /* horizontal-major */
y = p1->y;
if(xdelta < 0){ /* traversing negative x */
for(x=p1->x; x >= p2->x; --x){
buffer[x + y*width] = RGB(color);
accum += abs(ydiff);
while(accum >= (1<<16)){
++y;
accum -= (1<<16);
}
}
} else { /* traversing positive x */
for(x=p1->x; x <= p2->x; ++x){
buffer[x + y*width] = RGB(color);
accum += abs(ydiff);
while(accum >= (1<<16)){
++y;
accum -= (1<<16);
}
}
}
} else if( abs(ydiff) > abs(xdiff) ){ /* vertical major */
sign = (xdelta > 0 ? 1 : -1);
x = p1->x;
for(y=p1->y; y <= p2->y; ++y){
buffer[x + y*width] = RGB(color);
accum += abs(xdiff);
while(accum >= (1<<16)){
x += sign;
accum -= (1<<16);
}
}
} else if( abs(ydiff) == abs(xdiff) ){ /* 45 degrees */
sign = (xdelta > 0 ? 1 : -1);
x = p1->x;
for(y=p1->y; y <= p2->y; ++y){
buffer[x + y*width] = RGB(color);
x+= sign;
}
}
}
}
return 0;
}
``````
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