Any program that uses optimization must start by building an optimization model. While the exact details of how models are built depend on the programming language, the general concepts are similar in all of our supported languages. We’ll focus on the concepts, and provide details when appropriate. The first two steps in describing an optimization problem, in both CPLEX and Gurobi, are to create an environment and a model. These are objects in our object-oriented interfaces, created using the GRBEnv and GRBModel constructors, respectively. They are pointers in our C interface, returned by our GRBloadenv() and GRBnewmodel() routines. The next step is generally to list your decision variables. This is done using the GRBaddvar() routine in C, and the addVar() method in our object-oriented interfaces. You can add one variable at a time, or you can add multiple variables (using GRBaddvars() or addVars()). We generally find it more convenient to add one variable at a time, and there is no performance penalty for doing so, but you may want to add multiple variables if your CPLEX program already does so.
One difference between Gurobi and CPLEX is that we use a „lazy update“ approach. After making changes to a model, you need to call GRBupdatemodel/GRBModel.update in order for those changes to be visible. To be more specific, you’ll need to call „update“ after adding variables to the model, in order to use those variables in constraints. Our lazy update approach makes it easier and more efficient to build or modify a model, since you have complete control over when the actual changes take place. However, this difference between our interface and the CPLEX interface is something you’ll need to remember. Decision variables have a number of attributes, including variable type (continuous, binary, etc.), lower bound, upper bound, etc. You have two choices for specifying these. The first is to input the desired attribute values when you create the variable (i.e., as arguments to addVar()). The second is to modify the attributes after the variable has been added to the model, using one of the various Gurobi set routines (e.g., GRBsetintattr() in C, GRBVar.set() in C++). Attributes are an important concept in the Gurobi interface. Rather than providing dozens of different routines for accessing and modifying the various attributes of a model, as is done in CPLEX, we handle them through a single interface. To give an example, below is the command, shown in a range of languages, you would use to change the upper bound on variable x to 1.0: