If you're interested in compiler design ("how can computer understand what codes mean"), I highly recommend Dragon Book. I used it while in college and went as far as to create programming language myself.
"Every now and then I feel a temptation to design a programming language but then I just lie down until it goes away." — L. Peter Deutsch
EDIT (for those who crave context):
If you want to understand how the computer understands the code, you might want to learn some assembly language. It's a much lower-level language and will give you a better feel for the kinds of simple instructions that really get executed. You should also be able to get a feel for how one implements higher level constructs like loops with only conditional jumps.
For an even lower-level understanding, you'll need to study up on electronics. Digital logic shows you how you can take electronic "gates" and implement a generic CPU that can understand the machine code generated from the assembly language code.
For really-low level stuff, you can study material science which can teach you how to actually make the gates work at an atomic level.
You sound like a resourceful person. You'll want to hunt down books and/or websites on these topics tailored to your level of understanding and that focus on what you're interested in the most. A fairly complete understanding of all of this comes with a BS degree in computer science or computer engineering, but many things are quite understandable to a motivated person in your position.
Yes it's possible to create your own language. Take a look at compiler compilers. Or the source code to some scripting languages if you dare. Some useful tools are yacc and bison and lexx.
Others have mentioned the dragon book. We used a book that I think was called "compiler theory and practice" back in my university days.
The easiest starting program language might be to write a simple text based calculator. i.e. taking a text file, run through it and perform the calculations. You could write that in C++ very easily.
My first language for a college project was a language defined in BNF given to us. We then had to write a parser which parsed it into a tree structure in memory and then into something called 3 address code (which is assembler like). You could quite easily turn 3 address code into either real assembler or write an interpreter for that.
Yup! It's definitely possible. Others have mentioned the Dragon Book, but there is also plenty of information online. llvm, for example, has a tutorial on implementing a programming language: http://llvm.org/docs/tutorial/
I really recommend Programming Language Pragmatics. It's a great book that takes you all the way from what a language is through how compilers work and creating your own. It's a bit more accessible than the Dragon Book and explains how things work before jumping in headfirst.
If you know C -- it sounds like you do -- grab a used copy of this ancient book: http://www.amazon.com/Craft-Take-Charge-Programming-Book-Disk/dp/0078818826
In it there's a chapter where the author creates a "C" interpreter, in C. It's not academically serious like the Dragon book would be, but I remember it being pretty simple, very practical and easy to follow, and since you're just getting started, it would be an awesome introduction to the ideas of a "grammar" for languages, and "tokenizing" a program.
It would be a perfect place for you to start. Also, at $0.01 for a used copy, cheaper than the Dragon Book. ;)
Start with creating a parser. Read up on EBNF grammars. This will answer your question about how the computer can read code. This is a very advanced topic, so don't expect too much of yourself, but have fun. Some resources I've used for this are bison, flex, and PLY.
Yes! Getting interested in compilers was my hook into professional CS (previously I'd been on a route to EE, and only formally switched sides in college), it's a great way to learn a TON about a wide range of computer science topics. You're a bit younger (I was in high school when I started fooling around with parsers and interpreters), but there's a whole lot more information at your fingertips these days.
Start small: Design the tiniest language you can possibly think of -- start with nothing more than a simple math calculator that allows variable assignment and substitution. When you get adventurous, try adding "if" or loops. Forget arcane tools like lex and yacc, try writing a simple recursive descent parser by hand, maybe convert to simple bytecodes and write an interpreter for it (avoid all the hard parts of understanding assembly for a particular machine, register allocation, etc.). You'll learn a tremendous amount just with this project.
Like others, I recommend the Dragon book (1986 edition, I don't like the new one, frankly).
I'll add that for your other projects, I recommending using C or C++, ditch PHP, not because I'm a language bigot, but just because I think that working through the difficulties in C/C++ will teach you a lot more about underlying machine architecture and compiler issues.
(Note: if you were a professional, the advice would be NOT to create a new language. That's almost never the right solution. But as a project for learning and exploration, it's fantastic.)
Check out this book, The Elements of Computing Systems: Building a Modern Computer from First Principles it takes you step by step through several aspects of designing a computer language, a compiler, a vm, the assembler, and the computer. I think this could help you answer some of your questions.