I've been interested in compiler/interpreter design/implementation for as long as I've been programming (only 5 years now) and it's always seemed like the "magic" behind the scenes that nobody really talks about (I know of at least 2 forums for operating system development, but I don't know of any community for compiler/interpreter/language development). Anyways, recently I've decided to start working on my own, in hopes to expand my knowledge of programming as a whole (and hey, it's pretty fun :). So, based off the limited amount of reading material I have, and Wikipedia, I've developed this concept of the components for a compiler/interpreter:
Source code -> Lexical Analysis -> Abstract Syntax Tree -> Syntactic Analysis -> Semantic Analysis -> Code Generation -> Executable Code.
(I know there's more to code generation and executable code, but I haven't gotten that far yet :)
And with that knowledge, I've created a very basic lexer (in Java) to take input from a source file, and output the tokens into another file. A sample input/output would look like this:
int a := 2 if(a = 3) then print "Yay!" endif
Output (from lexer):
INTEGER A ASSIGN 2 IF L_PAR A COMP 3 R_PAR THEN PRINT YAY! ENDIF
Personally, I think it would be really easy to go from there to syntactic/semantic analysis, and possibly even code generation, which leads me to question: Why use an AST, when it seems that my lexer is doing just as good a job? However, 100% of my sources I use to research this topic all seem adamant that this is a necessary part of any compiler/interpreter. Am I missing the point of what an AST really is (a tree that shows the logical flow of a program)?
TL;DR: Currently in route to develop a compiler, finished the lexer, seems to me like the output would make for easy syntactic analysis/semantic analysis, rather than doing an AST. So why use one? Am I missing the point of one?