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 points’ coordinates 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 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 (round(X),round(Y),WHITE); X += Xinc; Y += Yinc; }

## C

`// C program for DDA line generation` `#include<stdio.h>` `#include<graphics.h>` `#include<math.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 (round(X),round(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;` `}` |

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.

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