For smallish problems, post=processing to remove unwanted soultions might be best. For larger problems there are at least two useful approaches.
(1) If the allowed values are say contiguous, or nearly so, could create 0-1 variables for the grid of each original variable and possible value. For example, if your vbariables are intended to fill out a standard sudoku array, then x[i,j,k]=1 could be used to indicate that the value in row i, col j, is k. The constraints that e.g. no value in row 1 is repeated would be
If not all values need to be used in all places (e.g. rows) then these could be made into inequalities instead.
(2) Another approach is to use 0-1 variables for each pair if values that needs to be distinct. We assume there is at least a known upper and lower bound on value ranges. Call it m. So for any pair of variables x and y we know that the difference is between -m and m (could add/subtract ones there, but not essential).
For the pair x[i] and x[j] that need to be distinct, add a new variable 0-1 k[i,j]. The idea is it will need to be 1 if x[i]>x[j] and 0 if x[j]>x[i].*
For this pair we add two equations. I will show them in non-expanded form as that might be slightly easier to understand.
x[i]-x[j] >= k[i,j] + m*(k[i,j]-1)
x[j]-x[i] >= (1-k[i,j]) + m*(-k[i,j])
If x[i]>x[j] then both are satisfied only for k[i,j]==1. Vice versa for x[j]>x[i] and k[i.j]==0.
This might be the preferred method when variables can span a range of values substantially larger than the number of variables, or when far fewer that all pairs are constrained to be distinct values.
*It's late Saturday night, so reverse anything I got backwards. Also please fix all typos while you are at it.