this is the same for java, C or whatever....

Let me first assume you created an ECC domain with prime group order q yourself and want to use it for cryptography.
Then select a random x coordinate, then calculate y^2 from the elliptic curve equation in weierstrass form.
Hopefully you selected a prime modulus p which is 3 mod 4. In this case determining the squareroot mod p is trivial if it exists. If it does not exist, try another x.
I rarely need more than 2 attempts, mostly the first attempt leads to a valid generator already in newly created domains.

You can use my open source program "Academic Signature" for this purpose.
Manual and link to download page.
If you import a new domain into the domain list, you may try an arbitrary generator for this domain. The generator is checked upon import into Academic Signature. If it is not a valid point on the elliptic curve, the x-coordinate of the Test-Point is increased until a valid x y -coordinate pair is encountered. If you subsequently export the domain, the new generator is included in a plaintext file of the domain parameters.

On this page ECC Domain pageyou can find some domains I created were I used the above mentioned procedure to get generators containing some "hex wordart".

If you didn't create the domain yourself, if it is of prime order and if you already have a generator used for it in some implementation, it is even easier: Multiply the old implementations generator with a random number and you got yourself a new generator which you can use to separate your keyspace from that of other implementations.

Regards
Michael Anders