1
0
Fork 0
forked from koniifer/ableos

restructure

This commit is contained in:
Able 2023-04-18 21:41:27 -05:00
parent fb2c859db1
commit 28958d0810
3 changed files with 161 additions and 216 deletions

View file

@ -132,230 +132,87 @@ F5-F9 {:016X} {:016X} {:016X} {:016X} {:016X}",
if self.index == self.program.len() { if self.index == self.program.len() {
break; break;
} }
let op = self.program[self.index]; let op = (self.program[self.index], self.program[self.index + 1]);
println!("OP {} INDEX {}", self.program[self.index], self.index); println!("OP {} INDEX {}", op.0, self.index);
match op { match op {
NOP => self.index += 1, (0, _) => {
ADD => { println!("NO OP");
print!("Add");
self.index += 1;
let mut lhs: Vec<u8> = vec![];
let mut rhs: Vec<u8> = vec![];
let mut lhs_signed = false;
let mut rhs_signed = false;
match self.program[self.index] {
CONST_U8 => {
self.index += 1;
lhs.push(self.program[self.index]);
print!(" constant {:?}", lhs[0]);
lhs_signed = false;
self.index += 1; self.index += 1;
} }
CONST_U64 => { // Add a 8 bit num
self.index += 1; (1, 1) => {
lhs.push(self.program[self.index]); let lhs = self.program[self.index + 2];
self.index += 1; println!("LHS 8BIT {}", lhs);
lhs.push(self.program[self.index]); let rhs = self.program[self.index + 3];
self.index += 1; println!("RHS 8BIT {}", rhs);
lhs.push(self.program[self.index]);
self.index += 1;
lhs.push(self.program[self.index]);
lhs_signed = false; let ret = lhs + rhs;
self.index += 1; let reg = self.program[self.index + 4];
}
match reg {
0xA0..=0xC9 => { 0xA0..=0xC9 => {
println!("TRACE: 8 bit lhs"); self.set_register_8(reg, ret);
} }
0xD0..=0xFF => { 0xD0..=0xF9 => {
println!("TRACE: 64 bit lhs"); panic!("Register oversized")
}
_ => {
panic!("Not a register.")
} }
op => return Err(InvalidOpcode(op)),
} }
match self.program[self.index] { self.index += 5;
CONST_U8 => { }
self.index += 1; // Add a 64 bit num
rhs.push(self.program[self.index]); (1, 2) => {
rhs_signed = false; let mut lhs_array = [0; 8];
print!(" constant {:?}", rhs[0]); let mut rhs_array = [0; 8];
self.index += 1;
for (index, byte) in self.program[self.index + 2..self.index + 10]
.into_iter()
.enumerate()
{
lhs_array[index] = *byte;
}
let lhs = u64::from_be_bytes(lhs_array);
println!("LHS 64BIT {}", lhs);
for (index, byte) in self.program[self.index + 10..self.index + 18]
.into_iter()
.enumerate()
{
rhs_array[index] = *byte;
} }
CONST_U64 => { let rhs = u64::from_be_bytes(rhs_array);
self.index += 1;
rhs.push(self.program[self.index]);
self.index += 1;
rhs.push(self.program[self.index]);
self.index += 1;
rhs.push(self.program[self.index]);
self.index += 1;
rhs.push(self.program[self.index]);
print!(" constant {:?}", rhs[0]); println!("RHS 64BIT {}", rhs);
rhs_signed = false;
self.index += 1; let ret = lhs + rhs;
}
let reg = self.program[self.index + 18];
println!("Store {} in {:02X}", ret, reg);
match reg {
0xA0..=0xC9 => { 0xA0..=0xC9 => {
println!("TRACE: 8 bit rhs"); panic!("Register undersized")
} }
0xD0..=0xFF => { 0xD0..=0xF9 => {
println!("TRACE: 64 bit rhs"); self.set_register_64(reg, ret);
}
_ => {
panic!()
}
}
match self.program[self.index] {
0xA0 => {
if lhs.len() > 1 {
panic!("LHS is not an 8 bit number")
}
if rhs.len() > 1 {
panic!("RHS is not an 8 bit number")
}
println!(" store in A0");
let sum = lhs[0] + rhs[0];
self.registers.a0 = sum;
self.index += 1;
}
0xB0 => {
if lhs.len() > 1 {
panic!("LHS is not an 8 bit number")
}
if rhs.len() > 1 {
panic!("RHS is not an 8 bit number")
}
println!(" store in B0");
let sum = lhs[0] + rhs[0];
self.registers.b0 = sum;
self.index += 1;
}
0xC0 => {
if lhs.len() > 1 {
panic!("LHS is not an 8 bit number")
}
if rhs.len() > 1 {
panic!("RHS is not an 8 bit number")
}
println!(" store in C0");
let sum = lhs[0] + rhs[0];
self.registers.c8 = sum;
self.index += 1;
}
0xD0 => {
if lhs.len() > 4 {
panic!("LHS is not an 8 bit number")
}
if rhs.len() > 4 {
panic!("RHS is not an 8 bit number")
}
println!(" store in D0");
let lhs: u64 = Into::<u64>::into(lhs[3]) << 60;
println!("{}", lhs);
println!("{}", 2);
// let rhs: u64 = (rhs[4] << 16).into();
let rhs: u64 = 0;
let sum = lhs + rhs;
self.registers.d0 = sum;
self.index += 1;
}
op => {
println!("{}", op)
}
}
}
SUB => {
print!("Sub");
self.index += 1;
let mut lhs: Vec<u8> = vec![];
let mut rhs: Vec<u8> = vec![];
let mut lhs_signed = false;
let mut rhs_signed = false;
match self.program[self.index] {
0xA0 => {
lhs.push(self.registers.a8);
lhs_signed = false;
print!(" constant {:?}", self.registers.a8);
self.index += 1;
}
0xB0 => {
lhs.push(self.registers.b8);
lhs_signed = false;
print!(" constant {:?}", self.registers.b8);
self.index += 1;
}
CONST_U8 => {
self.index += 1;
lhs.push(self.program[self.index]);
print!(" constant {:?}", lhs[0]);
lhs_signed = false;
self.index += 1;
}
op => return Err(InvalidOpcode(op)),
}
match self.program[self.index] {
0xB0 => {
rhs.push(self.registers.b8);
rhs_signed = false;
print!(" constant {:?}", self.registers.b8);
self.index += 1;
} }
_ => { _ => {
panic!() panic!("Not a register.")
} }
} }
match self.program[self.index] {
0xA0 => {
if lhs.len() > 1 {
panic!("LHS is not an 8 bit number")
}
println!(" store in A8");
let sum = lhs[0] - rhs[0]; self.index += 19;
self.registers.a8 = sum;
self.index += 1;
} }
0xB0 => { op_pair => {
if lhs.len() > 1 { println!("OP Pair {}", op_pair.0);
panic!("LHS is not an 8 bit number")
}
if rhs.len() > 1 {
panic!("RHS is not an 8 bit number")
}
println!(" store in B8");
let sum = lhs[0] - rhs[0];
self.registers.b8 = sum;
self.index += 1;
}
0xC0 => {
if lhs.len() > 1 {
panic!("LHS is not an 8 bit number")
}
if rhs.len() > 1 {
panic!("RHS is not an 8 bit number")
}
println!(" store in B8");
let sum = lhs[0] - rhs[0];
self.registers.c8 = sum;
self.index += 1;
}
_ => {
panic!()
}
}
}
op => {
println!("INVALID OPCODE {}", op);
self.index += 1; self.index += 1;
} }
} }
// Finish step // Finish step
if self.timer_callback.is_some() { if self.timer_callback.is_some() {
@ -367,4 +224,86 @@ F5-F9 {:016X} {:016X} {:016X} {:016X} {:016X}",
} }
Ok(Halted) Ok(Halted)
} }
pub fn set_register_8(&mut self, register: u8, value: u8) {
match register {
0xA0 => self.registers.a0 = value,
0xA1 => self.registers.a1 = value,
0xA2 => self.registers.a2 = value,
0xA3 => self.registers.a3 = value,
0xA4 => self.registers.a4 = value,
0xA5 => self.registers.a5 = value,
0xA6 => self.registers.a6 = value,
0xA7 => self.registers.a7 = value,
0xA8 => self.registers.a8 = value,
0xA9 => self.registers.a9 = value,
//
0xB0 => self.registers.b0 = value,
0xB1 => self.registers.b1 = value,
0xB2 => self.registers.b2 = value,
0xB3 => self.registers.b3 = value,
0xB4 => self.registers.b4 = value,
0xB5 => self.registers.b5 = value,
0xB6 => self.registers.b6 = value,
0xB7 => self.registers.b7 = value,
0xB8 => self.registers.b8 = value,
0xB9 => self.registers.b9 = value,
//
0xC0 => self.registers.c0 = value,
0xC1 => self.registers.c1 = value,
0xC2 => self.registers.c2 = value,
0xC3 => self.registers.c3 = value,
0xC4 => self.registers.c4 = value,
0xC5 => self.registers.c5 = value,
0xC6 => self.registers.c6 = value,
0xC7 => self.registers.c7 = value,
0xC8 => self.registers.c8 = value,
0xC9 => self.registers.c9 = value,
_ => {
panic!("Unlikely you are here if everyone behaved.\nThis register is not 8 bit")
}
}
}
pub fn set_register_64(&mut self, register: u8, value: u64) {
match register {
0xD0 => self.registers.d0 = value,
0xD1 => self.registers.d1 = value,
0xD2 => self.registers.d2 = value,
0xD3 => self.registers.d3 = value,
0xD4 => self.registers.d4 = value,
0xD5 => self.registers.d5 = value,
0xD6 => self.registers.d6 = value,
0xD7 => self.registers.d7 = value,
0xD8 => self.registers.d8 = value,
0xD9 => self.registers.d9 = value,
//
0xE0 => self.registers.f0 = value,
0xE1 => self.registers.f1 = value,
0xE2 => self.registers.f2 = value,
0xE3 => self.registers.f3 = value,
0xE4 => self.registers.f4 = value,
0xE5 => self.registers.f5 = value,
0xE6 => self.registers.f6 = value,
0xE7 => self.registers.f7 = value,
0xE8 => self.registers.f8 = value,
0xE9 => self.registers.f9 = value,
//
0xF0 => self.registers.f0 = value,
0xF1 => self.registers.f1 = value,
0xF2 => self.registers.f2 = value,
0xF3 => self.registers.f3 = value,
0xF4 => self.registers.f4 = value,
0xF5 => self.registers.f5 = value,
0xF6 => self.registers.f6 = value,
0xF7 => self.registers.f7 = value,
0xF8 => self.registers.f8 = value,
0xF9 => self.registers.f9 = value,
_ => {
panic!("Unlikely you are here if everyone behaved.\nThis register is not 64 bit")
}
}
}
} }

View file

@ -11,6 +11,7 @@ pub struct Registers{
pub a8: u8, pub b8: u8, pub c8: u8, pub d8: u64, pub e8: u64, pub f8: u64, pub a8: u8, pub b8: u8, pub c8: u8, pub d8: u64, pub e8: u64, pub f8: u64,
pub a9: u8, pub b9: u8, pub c9: u8, pub d9: u64, pub e9: u64, pub f9: u64, pub a9: u8, pub b9: u8, pub c9: u8, pub d9: u64, pub e9: u64, pub f9: u64,
} }
impl Registers { impl Registers {
#[rustfmt::skip] #[rustfmt::skip]
pub fn new() -> Self{ pub fn new() -> Self{

View file

@ -4,17 +4,22 @@ use holey_bytes::RuntimeErrors;
use holey_bytes::{bytecode::types::CONST_U8, engine::Engine}; use holey_bytes::{bytecode::types::CONST_U8, engine::Engine};
fn main() -> Result<(), RuntimeErrors> { fn main() -> Result<(), RuntimeErrors> {
use holey_bytes::bytecode::ops::MathTypes::*;
#[rustfmt::skip] #[rustfmt::skip]
let prog: Vec<u8> = vec![ let prog: Vec<u8> = vec![
NOP as u8, NOP as u8, NOP as u8,
ADD as u8, CONST_U8, 1, CONST_U8, 20, 0xA0, ADD as u8, EightBit as u8, 100, 20, 0xA7,
ADD as u8, CONST_U8, 1, CONST_U8, 0, 0xB0, ADD as u8,
ADD as u8, CONST_U64, 0, 0, 0, 2, CONST_U64, 0, 0, 0, 2, 0xD0, EightBit as u8, 1, 0, 0xB0,
// SUB, CONST_U8, 4, CONST_U8, 1, 0xC8, ADD as u8,
SixtyFourBit as u8,
0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 0, 0, 0, 0, 0, 2, 0xD0
]; ];
let mut eng = Engine::new(prog); let mut eng = Engine::new(prog);
// eng.timer_callback = Some(time); // eng.timer_callback = Some(time);
eng.run()?; eng.run()?;
// eng.dump(); eng.dump();
Ok(()) Ok(())
} }