A large part of the answer is this: C++ source code (or any high level programming language) is stored in a text file, just as you might store an essay or a memo. But text characters are stored in numeric form. When the compiler works on this data, therefore, it’s doing another form of number crunching, evaluating data and making decisions according to precise rules.
In case that doesn’t clear things up, imagine this: You have the task of reading letters from a person who knows Japanese but no English. You, meanwhile, know English but not one word of Japanese.
But suppose you have an instruction book that tells you how to translate Japanese characters into their English-language equivalent.The instruction book itself is written in English, so you have no problem using it.
So, even though you don’t understand Japanese, you’re able to translate all the Japanese you want, by carefully following instructions.
That’s what a computer program is, really: an instruction book read by the CPU. A computer program is an inert thing—a sequence of instructions and data—yet the “knowledge” inside computer arises from its programs. Programs enable a computer to do all kinds of clever things—including translating a text file containing C++.
A compiler, of course, is a very special program, but what it does is not at all strange or impossible. As a computer program, it’s an “instruction book,” as described. What it tells how to do is to read a text file containing C++ source code and output another instruction
book: This output is your C++ program in executable form.
The very first compilers had to be written in machine code. Later, old compilers could be used to write new compilers...so, through a bootstrap process, even skilled programmers could rely on writing machine code less and less.