In any 2-Dimensional plane if we connect two points (x0, y0) and (x1, y1), we get a line segment. But in the case of computer graphics we can not directly join any two coordinate points, for that we should calculate intermediate point’s coordinate and put a pixel for each intermediate point, of the desired color with help of functions like putpixel(x, y, K) in C, where (x,y) is our co-ordinate and K denotes some color.

Examples:

Input: For line segment between (2, 2) and (6, 6) : we need (3, 3) (4, 4) and (5, 5) as our intermediate points. Input: For line segment between (0, 2) and (0, 6) : we need (0, 3) (0, 4) and (0, 5) as our intermediate points.

For using graphics functions, our system output screen is treated as a coordinate system where the coordinate of the top-left corner is (0, 0) and as we move down our y-ordinate increases and as we move right our x-ordinate increases for any point (x, y).

Now, for generating any line segment we need intermediate points and for calculating them we have can use a basic algorithm called DDA(Digital differential analyzer) line generating algorithm.

**DDA Algorithm :**

Consider one point of the line as (X0,Y0) and the second point of the line as (X1,Y1).

// calculate dx , dy dx = X1 - X0; dy = Y1 - Y0; // Depending upon absolute value of dx & dy // choose number of steps to put pixel as // steps = abs(dx) > abs(dy) ? abs(dx) : abs(dy) steps = abs(dx) > abs(dy) ? abs(dx) : abs(dy); // calculate increment in x & y for each steps Xinc = dx / (float) steps; Yinc = dy / (float) steps; // Put pixel for each step X = X0; Y = Y0; for (int i = 0; i <= steps; i++) { putpixel (X,Y,WHITE); X += Xinc; Y += Yinc; }

`// C program for DDA line generation ` `#include<stdio.h> ` `#include<graphics.h> ` ` ` `//Function for finding absolute value ` `int` `abs` `(` `int` `n) ` `{ ` ` ` `return` `( (n>0) ? n : ( n * (-1))); ` `} ` ` ` `//DDA Function for line generation ` `void` `DDA(` `int` `X0, ` `int` `Y0, ` `int` `X1, ` `int` `Y1) ` `{ ` ` ` `// calculate dx & dy ` ` ` `int` `dx = X1 - X0; ` ` ` `int` `dy = Y1 - Y0; ` ` ` ` ` `// calculate steps required for generating pixels ` ` ` `int` `steps = ` `abs` `(dx) > ` `abs` `(dy) ? ` `abs` `(dx) : ` `abs` `(dy); ` ` ` ` ` `// calculate increment in x & y for each steps ` ` ` `float` `Xinc = dx / (` `float` `) steps; ` ` ` `float` `Yinc = dy / (` `float` `) steps; ` ` ` ` ` `// Put pixel for each step ` ` ` `float` `X = X0; ` ` ` `float` `Y = Y0; ` ` ` `for` `(` `int` `i = 0; i <= steps; i++) ` ` ` `{ ` ` ` `putpixel (X,Y,RED); ` `// put pixel at (X,Y) ` ` ` `X += Xinc; ` `// increment in x at each step ` ` ` `Y += Yinc; ` `// increment in y at each step ` ` ` `delay(100); ` `// for visualization of line- ` ` ` `// generation step by step ` ` ` `} ` `} ` ` ` `// Driver program ` `int` `main() ` `{ ` ` ` `int` `gd = DETECT, gm; ` ` ` ` ` `// Initialize graphics function ` ` ` `initgraph (&gd, &gm, ` `""` `); ` ` ` ` ` `int` `X0 = 2, Y0 = 2, X1 = 14, Y1 = 16; ` ` ` `DDA(2, 2, 14, 16); ` ` ` `return` `0; ` `} ` |

*chevron_right*

*filter_none*

Output:

**Advantages :**

- It is simple and easy to implement algorithm.
- It avoid using multiple operations which have high time complexities.
- It is faster than the direct use of the line equation because it does not use any floating point multiplication and it calculates points on the line.

**Disadvantages :**

- It deals with the rounding off operation and floating point arithmetic so it has high time complexity.
- As it is orientation dependent, so it has poor endpoint accuracy.
- Due to the limited precision in the floating point representation it produces cumulative error.

Bresenham’s Line Generation Algorithm

This article is contributed by **Shivam Pradhan (anuj_charm)**. If you like GeeksforGeeks and would like to contribute, you can also write an article using contribute.geeksforgeeks.org or mail your article to contribute@geeksforgeeks.org. See your article appearing on the GeeksforGeeks main page and help other Geeks.

Please write comments if you find anything incorrect, or you want to share more information about the topic discussed above.

Attention reader! Don’t stop learning now. Get hold of all the important DSA concepts with the **DSA Self Paced Course** at a student-friendly price and become industry ready.

## Recommended Posts:

- Comparions between DDA and Bresenham Line Drawing algorithm
- Bresenham’s Line Generation Algorithm
- Mid-Point Line Generation Algorithm
- Point Clipping Algorithm in Computer Graphics
- Painter's Algorithm in Computer Graphics
- Draw a line in C++ graphics
- Draw an ellipse divided by straight line into two colored part in C++ Graphics
- 2D Transformation in Computer Graphics | Set 1 (Scaling of Objects)
- Translation of objects in computer graphics
- Segments in Computer Graphics
- Computer Graphics | Cathode ray tube (video display device)
- Computer Graphics | Antialiasing
- Draw a moving car using computer graphics programming in C
- Computer Graphics | The RGB color model
- Refresh type output devices in Computer Graphics
- Applications of Computer Graphics
- Window to Viewport Transformation in Computer Graphics with Implementation
- Display Processor in Computer Graphics
- Introduction to Computer Graphics
- Difference between Parallel and Perspective Projection in Computer Graphics