Here's an example, probably not big and complex but it should give you a realistic idea about how constraints can be used. Here you'll see the following concepts used:

**randc and rand** - Cylic and Non-Cyclic Random Variables
- The two types of
**Distributed Constraints**
- Using if conditions within a constraint using the
**Implication operator** ... *Address calculated depending on another variable*
**Constraint order solver**
- Constraining the default range of a random variable in the constructor
- Using an enumerated type in constraints

Hope this helps ... and watch for the comments in-line:

```
class RandomConstraints;
enum IpVersionType {IPV4=2, IPV6, IPVx}
//Randomly iterate over values without repetition
randc bit [7:0] cyclicCounter;
//Regular random variables
rand bit [15:0] destAddress;
rand bit [15:0] sourceAddress;
rand bit [15:0] numberOfPackets;
rand bit [15:0] packetLength;
rand bit [7:0] var1;
rand bit [7:0] var2;
IpVersionType ipVersion;
//Non-random variables that can be used to control constraints
bit [15:0] minNumberOfPackets, maxNumberOfPackets;
bit [15:0] minPacketLength, maxPacketLength;
integer IPV4Weight, IPV6Weight;
constraint cPacketLength {
packetLength in { minPacketLength : maxPacketLength }
}
constraint cChannelNumber {
channelNumber in {0:1}
}
constraint cIPVersionType {
ipVersion dist { IPV4 := IPV4Weight, IPV6 := IPV6Weight, IPVX := (100 - IPV4Weight - IPV6Weight) }
}
//Probability of var1 being 1,2,3,4,5 in the ratio 1,2,4,4,4
constraint cDist1 {
var1 dist { 1 := 1, 2 := 2, [3:4] := 4 }
}
//Probability of var2 being 1,2,3,4,5 is in the ratio 1,2,4/3,4/3,4/3
constraint cDist2 {
var2 dist { 1 := 1, 2 := 2, [3:5] :/ 4 }
}
//Implication constraint - if(channelNum == i) then { ... }
constraint cImplication {
(channelNumber == 0) => {
destAddress in {0:200};
sourceAddress in {201:400};
}
(channelNumber == 1) => {
destAddress in {201:400};
sourceAddress in {0:200};
}
}
//Controlling order of constraints solved using a constraint solver
constraint order_solver {
solver channelNumber before destAddress;
solver channelNumber before sourceAddress;
}
function new();
//Setting default min/max packets and min/max packet length
minNumberOfPackets = 100;
maxNumberOfPackets = 1000;
minPacketLength = 128;
maxPacketLength = 256;
IPV4Weight = 50;
IPV6Weight = 30;
endfunction
endclass
```