mclangc/src/preprocessor.rs

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use std::collections::HashMap;
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use std::path::PathBuf;
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use color_eyre::Result;
use eyre::eyre;
use crate::constants::{Token, Loc, OpType, TokenType};
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use crate::lexer::lex;
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use crate::{lerror, lnote, Args, warn};
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use crate::parser::lookup_word;
#[derive(Debug)]
pub struct Macro {
pub loc: Loc,
pub tokens: Vec<Token>
}
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pub fn preprocess(tokens: Vec<Token>, args: &Args) -> Result<Vec<Token>>{
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let mut program: Vec<Token> = Vec::new();
let mut macros: HashMap<String, Macro> = HashMap::new();
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let mut rtokens = tokens;
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rtokens.reverse();
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while !rtokens.is_empty() {
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let token = rtokens.pop().unwrap();
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let op_type = lookup_word(&token.text, &token.loc());
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match token.clone() {
_ if op_type == OpType::Macro => {
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if rtokens.is_empty(){
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lerror!(&token.loc(), "Macro name not found, expected {} but found nothing", TokenType::Word.human());
return Err(eyre!(""));
}
let macro_name = rtokens.pop().unwrap();
if macro_name.typ != TokenType::Word {
lerror!(&macro_name.loc(), "Bad macro name, expected {} but found {}", TokenType::Word.human(), macro_name.typ.human());
return Err(eyre!(""));
}
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let word = lookup_word(&macro_name.text, &macro_name.loc());
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if word != OpType::None {
lerror!(&macro_name.loc(), "Macro name cannot be a built in word, got '{}'", word.human());
return Err(eyre!(""));
}
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if macros.get(&macro_name.text.clone()).is_some() && crate::constants::ALLOW_MACRO_REDEFINITION {
lerror!(&macro_name.loc(), "Macro redefinition is not allowed");
lnote!(&macros.get(&macro_name.text).unwrap().loc, "First definition here");
return Err(eyre!(""));
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}
let mut macr = Macro{ loc: macro_name.loc(), tokens: Vec::new() };
let mut depth = 0;
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while !rtokens.is_empty() {
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let t = rtokens.pop().unwrap();
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let typ = lookup_word(&t.text, &t.loc());
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if typ == OpType::End && depth == 0 {
break;
} else if typ == OpType::End && depth != 0 {
depth -= 1;
macr.tokens.push(t);
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} else if typ == OpType::If || typ == OpType::Do {
macr.tokens.push(t);
depth += 1;
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} else {
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macr.tokens.push(t);
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}
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}
macros.insert(macro_name.text, macr);
}
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_ if op_type == OpType::Include => {
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if rtokens.is_empty() {
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lerror!(&token.loc(), "Include path not found, expected {} but found nothing", TokenType::String.human());
return Err(eyre!(""));
}
let include_path = rtokens.pop().unwrap();
if include_path.typ != TokenType::String {
lerror!(&include_path.loc(), "Bad include path, expected {} but found {}", TokenType::String.human(), include_path.typ.human());
return Err(eyre!(""));
}
let mut in_paths = args.include.clone();
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in_paths.append(&mut crate::DEFAULT_INCLUDES.to_vec().clone().iter().map(|f| (*f).to_string()).collect::<Vec<String>>());
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let mut include_code = String::new();
for path in in_paths {
let p = PathBuf::from(path);
let p = p.join(include_path.text.clone());
if p.exists() {
include_code = std::fs::read_to_string(p)?;
}
}
if include_code.is_empty() {
lerror!(&include_path.loc(), "Include file in path '{}' was not found", include_path.text);
return Err(eyre!(""));
}
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let mut code = lex(&include_code, &include_path.text, args, false)?;
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code.reverse();
rtokens.append(&mut code);
}
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_ => {
program.push(token);
}
}
}
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//* Feel free to fix this horrifying shit
//* i wanna kms
let mut times = 0;
while program.iter().map(|f| {
if f.typ == TokenType::Word {
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lookup_word(&f.text, &f.loc())
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} else {
OpType::PushInt // i hate myself, this is a randomly picked optype so its happy and works
}
}).collect::<Vec<OpType>>().contains(&OpType::None){
if times >= 50 {
warn!("File import depth maxed out, if the program crashes try reducing the import depth, good luck youll need it");
break
}
program = expand_macros(program, &macros)?;
times += 1;
}
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Ok(program)
}
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pub fn expand_macros(tokens: Vec<Token>, macros: &HashMap<String, Macro>) -> Result<Vec<Token>> {
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let mut program: Vec<Token> = Vec::new();
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let mut rtokens = tokens;
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rtokens.reverse();
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while !rtokens.is_empty() {
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let op = rtokens.pop().unwrap();
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let op_type = lookup_word(&op.text, &op.loc());
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if op.typ == TokenType::Word {
match op_type {
OpType::None => {
let m = macros.get(&op.text);
if m.is_some() {
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if let Some(m) = m {
program.append(&mut m.tokens.clone());
}
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} else {
lerror!(&op.loc(), "Unknown word '{}'", op.text.clone());
return Err(eyre!(""));
}
}
_ => {
program.push(op);
}
}
} else {
program.push(op);
}
}
Ok(program)
}