Okay, your last comment is much more answerable.
Some more specific details: we have an interpreter that understands language A in a very verbose syntax. Now, we invented a new language B with a very compact syntax that is a complete departure from that of A. So, a user can now write the code in compact language B, translate to the verbose language A using a translator program that I have written. The problem is how to prove/guarantee that all possible such translations will preserve the semantics of the original language A that the interpreter understands.
The short answer is: You don't. For one thing, when you add syntactic sugar you usually just capture a well-known, wide-used pattern and give it special, nicer syntax - you don't replace large parts of the language's syntax. For such small replacements, the translation can be formulated with informative descriptions and examples - for example, PEP 343 defines the "with" statement relatively informatively.
Now, when the change in syntax is so radical the new language has hardly anything in common with the backend language, we're not talking about change of syntax - we're talking about a compiler. But compilers aren't proven correct either. Well, some people actually try it. But for real-world compilers, this rarely happens; instead testing checks the correctness, by countless users and their programs.
And of course, all serious language implementations have a wide range of test cases (read: example programs, from basic to absurd) that should run and pass (or in some cases, generate an error) at least in official releases. When they do (and the test suite is worth its salt), you still don't know that there are no bugs, but at least it's some confidence. As Dijkstra said: "Testing shows the presence, not the absence of bugs."