# Code a linear programming exercise by hand

I have been doing linear programming problems in my class by graphing them but I would like to know how to write a program for a particular problem to solve it for me. If there are too many variables or constraints I could never do this by graphing.

Example problem, maximize 5x + 3y with constraints:

• 5x - 2y >= 0
• x + y <= 7
• x <= 5
• x >= 0
• y >= 0

I graphed this and got a visible region with 3 corners. x=5 y=2 is the optimal point.

How do I turn this into code? I know of the simplex method. And very importantly, will all LP problems be coded in the same structure? Would brute force work?

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The simplex method is what you want. –  Vaughn Cato Dec 5 '12 at 6:28
The answer is different if you are looking for Integer Linear Programming or Fractional Linear Programming (since the complexity of the problems is different) –  amit Dec 5 '12 at 6:29
In Numerical Recipes for C online, section 10.8, you can find a straightforward implementation of the Simplex algorithm written in C. –  Anders Gustafsson Dec 5 '12 at 9:29

There are quite a number of Simplex Implementations that you will find if you search.

In addition to the one mentioned in the comment (Numerical Recipes in C), you can also find:

2. Then there's COIN-OR
3. GNU has its own GLPK
4. If you want a C++ implementation, this one in Google Code is actually accessible.
5. There are many implementations in R including the boot package. (In R, you can see the implementation of a function by typing it without the parenthesis.)

1. Will all LPs be coded the same way? Yes, a generic LP solver can be written to load and solve any LP. (There are industry standard formats for reading LP's like `mps` and `.lp`