I learned by first learning the x86 assembly instruction set and instruction clock timings. Once you know this, you know what the compiler is actually converting your code into, and you get an idea of what it can and cannot do. From there, if I were interested in a particular piece of code, I'd get the assembler output from the compiler and experiment with various ways of coding it. Over the years, I've found a few things... 1) compilers are pretty good at optimizing, often even with coding something several different ways ending up with identical assembly output, 2) I'm often surprised at how much inlining a compiler does, and 3) I'm often surprised about how sometimes a tiny little bit of C++ code results in a huge amount of assembly output. So when you're copying multiple inheritance C++ objects you'll realize how expensive that is, and when you're writing little utility methods to protect object data you'll realize how in-expensive that tool can be. Happy hunting.