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Croissant Runtime
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crsn/crsn_arith/src/parse.rs

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re-arrange modules, add "plug-in" system so instructions can be defined in multiple crates
4 years ago
use crsn::asm::data::{Rd, Wr};
use crsn::asm::error::{AsmError, Error};
use crsn::asm::instr::op::{OpParser, OpTrait};
use crsn::asm::parse::parse_data::{parse_rd, parse_wr};
use crsn::sexp::Sexp;
use crate::defs::ArithOp;
#[derive(Debug, Clone)]
pub struct ArithOpParser {
_internal: ()
}
impl ArithOpParser {
pub fn new() -> Box<dyn OpParser> {
Box::new(Self {
_internal: ()
})
}
}
impl OpParser for ArithOpParser {
fn parse_op(&self, keyword: &str, _far: bool, arg_tokens_sl: Vec<Sexp>) -> Result<Box<dyn OpTrait>, Error> {
let mut arg_tokens = arg_tokens_sl.into_iter();
Ok(Box::new(match keyword {
"cmp" => {
ArithOp::Compare {
a: parse_rd(arg_tokens.next())?,
b: parse_rd(arg_tokens.next())?,
}
}
"tst" => {
let arg = parse_rd(arg_tokens.next())?;
ArithOp::Test { a: arg }
}
"inc" => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Add {
dst,
a: dst.as_rd(),
b: Rd::immediate(1),
}
}
"dec" => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Sub {
dst,
a: dst.as_rd(),
b: Rd::immediate(1),
}
}
"add" => {
match arg_tokens.len() {
3 => {
ArithOp::Add {
dst: parse_wr(arg_tokens.next())?,
a: parse_rd(arg_tokens.next())?,
b: parse_rd(arg_tokens.next())?,
}
}
2 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Add {
dst,
a: dst.as_rd(),
b: parse_rd(arg_tokens.next())?,
}
}
_ => {
return Err(Error::Parse("Add requires 2 or 3 arguments".into()));
}
}
}
"sub" => {
match arg_tokens.len() {
3 => {
ArithOp::Sub {
dst: parse_wr(arg_tokens.next())?,
a: parse_rd(arg_tokens.next())?,
b: parse_rd(arg_tokens.next())?,
}
}
2 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Sub {
dst,
a: dst.as_rd(),
b: parse_rd(arg_tokens.next())?,
}
}
_ => {
return Err(Error::Parse("Sub requires 2 or 3 arguments".into()));
}
}
}
"mul" => {
match arg_tokens.len() {
3 => {
ArithOp::Mul {
dst: parse_wr(arg_tokens.next())?,
a: parse_rd(arg_tokens.next())?,
b: parse_rd(arg_tokens.next())?,
}
}
2 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Mul {
dst,
a: dst.as_rd(),
b: parse_rd(arg_tokens.next())?,
}
}
_ => {
return Err(Error::Parse("Mul requires 2 or 3 arguments".into()));
}
}
}
"divr" => {
match arg_tokens.len() {
3 => {
let dst = parse_wr(arg_tokens.next())?;
let rem = parse_wr(arg_tokens.next())?;
let div = parse_rd(arg_tokens.next())?;
ArithOp::Div {
dst,
rem,
a: dst.as_rd(),
div,
}
}
4 => {
ArithOp::Div {
dst: parse_wr(arg_tokens.next())?,
rem: parse_wr(arg_tokens.next())?,
a: parse_rd(arg_tokens.next())?,
div: parse_rd(arg_tokens.next())?,
}
}
_ => {
return Err(Error::Parse("DivR requires 3 or 4 arguments".into()));
}
}
}
"div" => {
match arg_tokens.len() {
3 => {
ArithOp::Div {
dst: parse_wr(arg_tokens.next())?,
rem: Wr::discard(),
a: parse_rd(arg_tokens.next())?,
div: parse_rd(arg_tokens.next())?,
}
}
2 => {
let dst = parse_wr(arg_tokens.next())?;
let div = parse_rd(arg_tokens.next())?;
ArithOp::Div {
dst,
rem: Wr::discard(),
a: dst.as_rd(),
div,
}
}
_ => {
return Err(Error::Parse("Div requires 2 or 3 arguments".into()));
}
}
}
"mod" => {
match arg_tokens.len() {
3 => {
ArithOp::Mod {
dst: parse_wr(arg_tokens.next())?,
a: parse_rd(arg_tokens.next())?,
div: parse_rd(arg_tokens.next())?,
}
}
2 => {
let dst = parse_wr(arg_tokens.next())?;
let div = parse_rd(arg_tokens.next())?;
ArithOp::Mod {
dst,
a: dst.as_rd(),
div,
}
}
_ => {
return Err(Error::Parse("Mod requires 2 or 3 arguments".into()));
}
}
}
"and" => {
match arg_tokens.len() {
3 => {
ArithOp::And {
dst: parse_wr(arg_tokens.next())?,
a: parse_rd(arg_tokens.next())?,
b: parse_rd(arg_tokens.next())?,
}
}
2 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::And {
dst,
a: dst.as_rd(),
b: parse_rd(arg_tokens.next())?,
}
}
_ => {
return Err(Error::Parse("And requires 2 or 3 arguments".into()));
}
}
}
"or" => {
match arg_tokens.len() {
3 => {
ArithOp::Or {
dst: parse_wr(arg_tokens.next())?,
a: parse_rd(arg_tokens.next())?,
b: parse_rd(arg_tokens.next())?,
}
}
2 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Or {
dst,
a: dst.as_rd(),
b: parse_rd(arg_tokens.next())?,
}
}
_ => {
return Err(Error::Parse("Or requires 2 or 3 arguments".into()));
}
}
}
"xor" => {
match arg_tokens.len() {
3 => {
ArithOp::Xor {
dst: parse_wr(arg_tokens.next())?,
a: parse_rd(arg_tokens.next())?,
b: parse_rd(arg_tokens.next())?,
}
}
2 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Xor {
dst,
a: dst.as_rd(),
b: parse_rd(arg_tokens.next())?,
}
}
_ => {
return Err(Error::Parse("Xor requires 2 or 3 arguments".into()));
}
}
}
"cpl" => {
match arg_tokens.len() {
2 => {
ArithOp::Cpl {
dst: parse_wr(arg_tokens.next())?,
a: parse_rd(arg_tokens.next())?,
}
}
1 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Cpl {
dst,
a: dst.as_rd(),
}
}
_ => {
return Err(Error::Parse("Cpl requires 1 or 2 arguments".into()));
}
}
}
"rol" => {
match arg_tokens.len() {
3 => {
ArithOp::Rol {
dst: parse_wr(arg_tokens.next())?,
a: parse_rd(arg_tokens.next())?,
n: parse_rd(arg_tokens.next())?,
}
}
2 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Rol {
dst,
a: dst.as_rd(),
n: parse_rd(arg_tokens.next())?,
}
}
1 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Rol {
dst,
a: dst.as_rd(),
n: Rd::immediate(1),
}
}
_ => {
return Err(Error::Parse("Rol requires 1, 2 or 3 arguments".into()));
}
}
}
"ror" => {
match arg_tokens.len() {
3 => {
ArithOp::Ror {
dst: parse_wr(arg_tokens.next())?,
a: parse_rd(arg_tokens.next())?,
n: parse_rd(arg_tokens.next())?,
}
}
2 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Ror {
dst,
a: dst.as_rd(),
n: parse_rd(arg_tokens.next())?,
}
}
1 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Ror {
dst,
a: dst.as_rd(),
n: Rd::immediate(1),
}
}
_ => {
return Err(Error::Parse("Ror requires 1, 2 or 3 arguments".into()));
}
}
}
"lsl" | "asl" => {
match arg_tokens.len() {
3 => {
ArithOp::Lsl {
dst: parse_wr(arg_tokens.next())?,
a: parse_rd(arg_tokens.next())?,
n: parse_rd(arg_tokens.next())?,
}
}
2 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Lsl {
dst,
a: dst.as_rd(),
n: parse_rd(arg_tokens.next())?,
}
}
1 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Lsl {
dst,
a: dst.as_rd(),
n: Rd::immediate(1),
}
}
_ => {
return Err(Error::Parse("Lsl requires 1, 2 or 3 arguments".into()));
}
}
}
"lsr" => {
match arg_tokens.len() {
3 => {
ArithOp::Lsr {
dst: parse_wr(arg_tokens.next())?,
a: parse_rd(arg_tokens.next())?,
n: parse_rd(arg_tokens.next())?,
}
}
2 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Lsr {
dst,
a: dst.as_rd(),
n: parse_rd(arg_tokens.next())?,
}
}
1 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Lsr {
dst,
a: dst.as_rd(),
n: Rd::immediate(1),
}
}
_ => {
return Err(Error::Parse("Lsr requires 1, 2 or 3 arguments".into()));
}
}
}
"asr" => {
match arg_tokens.len() {
3 => {
ArithOp::Asr {
dst: parse_wr(arg_tokens.next())?,
a: parse_rd(arg_tokens.next())?,
n: parse_rd(arg_tokens.next())?,
}
}
2 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Asr {
dst,
a: dst.as_rd(),
n: parse_rd(arg_tokens.next())?,
}
}
1 => {
let dst = parse_wr(arg_tokens.next())?;
ArithOp::Asr {
dst,
a: dst.as_rd(),
n: Rd::immediate(1),
}
}
_ => {
return Err(Error::Parse("Asr requires 1, 2 or 3 arguments".into()));
}
}
}
_other => {
return Err(Error::Asm(AsmError::UnknownInstruction));
}
}))
}
}