Short answer: parsing is not a subset of compiling.
Long answer: generally, there are a 3 steps to converting source to another format:
- Lexing, which converts some form of input to a token stream.
- Parsing, which converts the token stream into an abstract syntax tree (AST).
- Compiling, which converts the AST into a set of executable instructions (native code, byte code, etc).
(For very simple languages, you may not even need a parser, you might be able to compile the token stream directly, or your parser could output native code directly.)
So start with a raw string like this:
let x = 0
while x < 10
x := x + 1
A lexer is going to convert it into a token stream, probably something like this:
[LET; String("x"); EQ; Int(0); NEWLINE; WHILE; String("x");
LT; VAL(10); ... ]
The parser will convert the stream into a more meaningful data structure, your abstract syntax tree:
// AST definition
type expr =
| Block of expr list
| Assign of string * expr
| While of expr * expr
| Call of string * expr list
| Add of expr * expr
| Var of string
| Int of int
// AST instance created from token stream
Assign("x", Add(Var("x"), Int(1)));
Once you have an AST, you can do whatever it wants with it:
- You convert the AST to native code (compiling).
- or you could interpret the AST on the fly, which you might do with a dynamic programming language or a templating engine.
- or you could iterate the AST to make a syntax highlighter.
- or you could walk the AST and output equivalent code in another language.
- or you could look for all instances of
Var("x") and replace them with
Var("y") similar to a code refactor tool).
So, while you usually parse input before compiling, that's not the same as saying that parsing is a subset of compiling.