# Drawing lines with Bresenham's Line Algorithm

My computer graphics homework is to implement OpenGL algorithms using only the ability to draw points.

So obviously I need to get `drawLine()` to work before I can draw anything else. `drawLine()` has to be done using integers only. No floating point.

This is what I was taught. Basically, lines can be broken up into 4 different categories, positive steep, positive shallow, negative steep and negative shallow. This is the picture I am supposed to draw: and this is the picture my program is drawing: The colors are done for us. We are given vertices and we need to use Bresenham's Line algorithm to draw the lines based on the start and end points.

This is what I have so far:

``````int dx = end.x - start.x;
int dy = end.y - start.y;

//initialize varibales
int d;
int dL;
int dU;

if (dy > 0){
if (dy > dx){
//+steep
d = dy - 2*dx;
dL = -2*dx;
dU = 2*dy - 2*dx;

for (int x = start.x, y = start.y; y <= end.y; y++){
Vertex v(x,y);
drawPoint(v);

if (d >= 1){
d += dL;
}else{
x++;
d += dU;
}
}
} else {
//+shallow
d = 2*dy - dx;
dL = 2*dy;
dU = 2*dy - 2*dx;

for (int x = start.x, y = start.y; x <= end.x; x++) {
Vertex v(x,y);
drawPoint(v);

// if choosing L, next y will stay the same, we only need
// to update d by dL
if (d <= 0) {
d += dL;
// otherwise choose U, y moves up 1
} else {
y++;
d += dU;
}
}
}
} else {
if (-dy > dx){
cout << "-steep\n";
//-steep
d = dy - 2*dx;
//south
dL = 2*dx;
//southeast
dU = 2*dy - 2*dx;

for (int x = start.x, y = start.y; y >= end.y; --y){
Vertex v(x,y);
drawPoint(v);

//if choosing L, next x will stay the same, we only need
//to update d
if (d >= 1){
d -= dL;
} else {
x++;
d -= dU;
}
}

} else {
cout << "-shallow\n";
//-shallow
d = 2*dy - dx;
dL = 2*dy;
dU = 2*dy - 2*dx;

for (int x = start.x, y = start.y; x <= end.x; x++){
Vertex v(x,y);
drawPoint(v);

if (d >= 0){
d += dL;
} else {
--y;
d -= dU;
}
}
}
}
``````

I know my error is going to be something silly, but I honestly cannot figure out what I am doing wrong. Why are some of the lines drawn incorrectly as shown above?

• what is not working? – Mitch Wheat Apr 8 '12 at 3:03
• If you look at the two pictures in the paragraph above my code, the "2nd quadrant" and the "4th quadrant" are not drawing right. I put those in quotes because point (0,0) is in the bottom left hand corner of the picture. Basically, the first else statement contains the code that isn't working correctly, -shallow and -steep. – ToastyMallows Apr 8 '12 at 3:10
• run your code on 2 simple examples, one that works, and the one that doesn't. Say (0,0), (5, 5) and (0,5), (5,0), trace through both and see were they diverge. This will be a much better exercise than having someone on SO do it for you. – MK. Apr 8 '12 at 3:24
• I did this and I still can't seem to figure out how to fix the problem. What happens is the if statement that is in all of the loops, if (d >= 0), is not toggling the way it should. For the line from (0,5) to (5,0), it should always subtract y every time so that it makes a line exactly at 45 degrees but it doesn't. – ToastyMallows Apr 8 '12 at 4:45

You can find the complete code in C++ to draw a line using Bresenham Algorithm at http://www.etechplanet.com/codesnippets/computer-graphics-draw-a-line-using-bresenham-algorithm.aspx:

``````/*BRESENHAAM ALGORITHM FOR LINE DRAWING*/
#include<iostream.h>
#include<graphics.h>
#include<stdio.h>
#include<conio.h>
#include<stdlib.h>
#include<math.h>
#include<dos.h>
void bhm_line(int,int,int,int,int);
void main()
{
int ghdriver=DETECT,ghmode,errorcode,x1,x2,y1,y2;
initgraph(&ghdriver,&ghmode,"..\\bgi");
errorcode = graphresult();
if(errorcode !=grOk)
{
cout<<"Graphics error:%s\n"<<grapherrormsg(errorcode);
cout<<"Press any key to halt:";
getch();
exit(1);
}
clrscr();
cout<<"Enter the coordinates (x1,y1): ";
cin>>x1>>y1;
cout<<"Enter the coordinates (x2,y2): ";
cin>>x2>>y2;
bhm_line(x1,y1,x2,y2,1);
getch();
}
void bhm_line(int x1,int y1,int x2,int y2,int c)
{
int x,y,dx,dy,dx1,dy1,px,py,xe,ye,i;
dx=x2-x1;
dy=y2-y1;
dx1=fabs(dx);
dy1=fabs(dy);
px=2*dy1-dx1;
py=2*dx1-dy1;
if(dy1<=dx1)
{
if(dx>=0)
{
x=x1;
y=y1;
xe=x2;
}
else
{
x=x2;
y=y2;
xe=x1;
}
putpixel(x,y,c);
for(i=0;x<xe;i++)
{
x=x+1;
if(px<0)
{
px=px+2*dy1;
}
else
{
if((dx<0 && dy<0) || (dx>0 && dy>0))
{
y=y+1;
}
else
{
y=y-1;
}
px=px+2*(dy1-dx1);
}
delay(0);
putpixel(x,y,c);
}
}
else
{
if(dy>=0)
{
x=x1;
y=y1;
ye=y2;
}
else
{
x=x2;
y=y2;
ye=y1;
}
putpixel(x,y,c);
for(i=0;y<ye;i++)
{
y=y+1;
if(py<=0)
{
py=py+2*dx1;
}
else
{
if((dx<0 && dy<0) || (dx>0 && dy>0))
{
x=x+1;
}
else
{
x=x-1;
}
py=py+2*(dx1-dy1);
}
delay(0);
putpixel(x,y,c);
}
}
}
``````
• What is the "delay(0)" in bhm_line()? – Blake Senftner May 17 '17 at 17:10

In case anyone was wondering what the problem was, I still don't know what it was. What I ended up doing was re-factored my code so that the -shallow and -steep used the same algorithm as +shallow and +steep, respectively. After adjusting the x,y coordinates (negating the x or y coordinate), when I went to plot them I negated my original negation so that it plotted in the right spot.

• I am not familiar with the C language, but maybe some of the fraktional values have to be converted into absolute values? – Dirk Wolfgang Glomp Apr 25 '14 at 10:46

I implemented the original Bresenham's algorithm in C++ and tried to optimize as much as I could (especially regarding removing the IF from the interior loop).

It draws in a linear buffer instead of a surface, and for this matter, this implementation was almost as fast as EFLA (Extremely Fast Line Algorithm) (maybe 5% slower).

``````#include <vector>
#include <math.h>
using namespace std;

vector<unsigned char> buffer;

int imageSide = 2048; // the width of the surface

struct Point2Di
{
int x;
int y;
Point2Di(const int &x, const int &y): x(x), y(y){}
Point2Di(){}

};

void drawLine(const Point2Di &p0, const Point2Di &p1)
{
int dx = p1.x - p0.x;
int dy = p1.y - p0.y;

int dLong = abs(dx);
int dShort = abs(dy);

int offsetLong = dx > 0 ? 1 : -1;
int offsetShort = dy > 0 ? imageSide : -imageSide;

if(dLong < dShort)
{
swap(dShort, dLong);
swap(offsetShort, offsetLong);
}

int error = dLong/2;
int index = p0.y*imageSide + p0.x;
const int offset[] = {offsetLong, offsetLong + offsetShort};
const int abs_d[]  = {dShort, dShort - dLong};
for(int i = 0; i <= dLong; ++i)
{
buffer[index] = 255;  // or a call to your painting method
const int errorIsTooBig = error >= dLong;
index += offset[errorIsTooBig];
error += abs_d[errorIsTooBig];
}
}
``````

The EFLA implementation that I am using is:

``````void drawLine(Point2Di p0,  Point2Di p1)
{
bool yLonger=false;
int shortLen=p1.y-p0.y;
int longLen=p1.x-p0.x;
if (abs(shortLen)>abs(longLen)) {
swap(shortLen, longLen);
yLonger=true;
}
int decInc = longLen==0 ?  decInc=0 : ((shortLen << 16) / longLen);

if (yLonger) {
p0.y*=imageSide;
p1.y*=imageSide;
if (longLen>0)
for (int j=0x8000+(p0.x<<16);p0.y<=p1.y;p0.y+=imageSide, j+=decInc)
buffer[p0.y + (j >> 16)] = 255;  // or a call to your painting method
else
for (int j=0x8000+(p0.x<<16);p0.y>=p1.y;p0.y-=imageSide, j-=decInc)
buffer[p0.y + (j >> 16)] = 255;  // or a call to your painting method
}
else
{
if (longLen>0)
for (int j=0x8000+(p0.y<<16);p0.x<=p1.x;++p0.x, j+=decInc)
buffer[(j >> 16) * imageSide + p0.x] = 255;  // or a call to your painting method
else
for (int j=0x8000+(p0.y<<16);p0.x>=p1.x;--p0.x, j-=decInc)
buffer[(j >> 16) * imageSide + p0.x] = 255;  // or a call to your painting method
}
}
``````