Look up the optimization manuals for your CPU. That's the only place you're going to find answers.
Get your compiler to output the generated assembly. Download the manuals for your CPU. Look up the instructions used by the compiler in the manual, and you know how they perform.
Of course, this presumes that you already know the basics of how a pipelined, superscalar out-of-order CPU operates, what branch prediction, instruction and data cache and everything else means. Do your homework.
Performance is a ridiculously complicated subject. Depending on context, floating-point code may be as fast as (or faster than) integer code, or it may be four times slower. Usually branches carry almost no penalty, but in special cases, they can be crippling. Sometimes, recomputing data is more efficient than caching it, and sometimes not.
Understand your programming language. Understand your compiler. Understand your CPU. And then examine exactly what the compiler is doing in your case, by profiling/timing, and on when necessary by examining the individual instructions. (and when timing your code, be aware of all the caveats and gotchas that can invalidate your benchmarks: Make sure optimizations are enabled, but also that the code you're trying to measure isn't optimized away. Take the cache into account (if the data is already in the CPU cache, it'll run much faster. If it has to read from physical memory to begin with, it'll take extra time. Both can invalidate your measurements if you're not careful. Keep in mind what you want to measure exactly)
For your specific examples, why should
++i be faster than
i += 1? They do the exact same thing? Sometimes, it may make a difference whether you're adding a constant or a variable, but in this case, you're adding the constant one in both cases.
And in general, instructions take a fixed constant time regardless of their operands. adding one to something takes just as long as adding -2000 or 1772051912. The same goes for multiplication or division.
But if you care about performance, you need to understand how the entire technology stack works, not just rely on a few simple rules of thumb like "integer is faster than floating point, and
++ is faster than
+=" (Apart from anything else, such simple rules of thumb are almost never true, at least not in every case)