One of the more useful features of modern compilers for computer languages like C/C++, Fortran, Julia, etc, is their ability to perform optimizations on the code before producing the binary. If I were to write a function in, say, Verilog to make an FPGA "hardware" special function, would the compiler perform any optimizations? As a concrete example, say I want to setup a polynomial evaluator that uses Estrin's scheme for parallelized evaluation, and some of the coefficients are 0, will the compiler see that and optimize away the effective NOOPs?
Yes. The optimization in your example is called "constant propagation". When it comes to optimizing Boolean or arithmetic expressions, the techniques are the same in all compilers. The compiler will simplify any expression it can. Another optimization is "dead code elimination" If a branching condition turns out to be a constant, the unchosen branches can be eliminated and the branch taken becomes unconditional. But after RTL is converted to a hardware representation, the optimization process is very different from software compilers.
Verilog has loops in generate statements, which are always fully unrolled at synthesis time.