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Able 2023-04-18 18:08:30 -05:00
parent 1bf49eafe1
commit fb2c859db1
11 changed files with 523 additions and 367 deletions

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@ -1,2 +1,37 @@
Holey Bytes has two bit widths Holey Bytes has two bit widths
8 bit to help with byte level manipulation and 64 bit numbers because nothing else should ever be used. 8 bit to help with byte level manipulation and 64 bit numbers because nothing else should ever be used in a modern setting
this leaves us with an amount of registers that should be defined
I'd like to use a letter and a number to represent registers
like `a0` or `d0` the first of which would be reserved for 8 bit numbers and the later of which 64 bit.
instructions
### NOP
`0`
### ADD_8 TYPE LHS RHS LOCATION
`1`
### SUB TYPE LHS RHS LOCATION
`2`
### MUL TYPE LHS RHS LOCATION
`3`
### MUL TYPE LHS RHS LOCATION
`4`
### DIV TYPE LHS RHS LOCATION
`5`
### JUMP ADDR
`100`
an unconditional jump to an address
### JUMP_EQ LHS RHS ADDR
`101`
A conditional jump
if LHS is equal to RHS then jump to address
### JUMP_NEQ LHS RHS ADDR
`102`
A conditional jump
if LHS is not equal to RHS then jump to address
### RET
pop off the callstack

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@ -1,49 +0,0 @@
pub const NOP: u8 = 0;
pub const ADD: u8 = 1;
pub const SUB: u8 = 2;
pub const MML: u8 = 3;
pub const DIV: u8 = 4;
pub const CONST_U8: u8 = 0x00;
pub const CONST_I8: i8 = 0x01;
pub const CONST_U16: u8 = 0x02;
pub const CONST_I16: u8 = 0x03;
pub const CONST_U32: u8 = 0x04;
pub const CONST_I32: u8 = 0x05;
pub const CONST_F32: u8 = 0x06;
pub const CONST_U64: u8 = 0x07;
pub const CONST_I64: u8 = 0x08;
pub const CONST_F64: u8 = 0x09;
pub const ADDRESS: u8 = 0x10;
pub const RegisterA8: u8 = 0xA0;
pub const RegisterB8: u8 = 0xB0;
pub const RegisterC8: u8 = 0xC0;
pub const RegisterD8: u8 = 0xD0;
pub const RegisterE8: u8 = 0xE0;
pub const RegisterF8: u8 = 0xF0;
pub const RegisterA16: u8 = 0xA1;
pub const RegisterB16: u8 = 0xB1;
pub const RegisterC16: u8 = 0xC1;
pub const RegisterD16: u8 = 0xD1;
pub const RegisterE16: u8 = 0xE1;
pub const RegisterF16: u8 = 0xF1;
pub const RegisterA32: u8 = 0xA2;
pub const RegisterB32: u8 = 0xB2;
pub const RegisterC32: u8 = 0xC2;
pub const RegisterD32: u8 = 0xD2;
pub const RegisterE32: u8 = 0xE2;
pub const RegisterF32: u8 = 0xF2;
pub const RegisterA64: u8 = 0xA3;
pub const RegisterB64: u8 = 0xB3;
pub const RegisterC64: u8 = 0xC3;
pub const RegisterD64: u8 = 0xD3;
pub const RegisterE64: u8 = 0xE3;
pub const RegisterF64: u8 = 0xF3;

2
src/bytecode/mod.rs Normal file
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pub mod ops;
pub mod types;

32
src/bytecode/ops.rs Normal file
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#[repr(u8)]
pub enum Operations {
NOP = 0,
ADD = 1,
SUB = 2,
MUL = 3,
DIV = 4,
// READs a register/memory address/constant into a register
READ = 5,
// WRITEs a register/memory address/constant into a memory address
WRITE = 6,
JUMP = 100,
JumpEq = 101,
JumpNeq = 102,
RET = 103,
}
pub enum MathTypes {
EightBit = 1,
SixtyFourBit = 2,
}
pub enum RWTypes {
RegisterToAddress = 0,
RegisterToRegister = 1,
ConstantToAddress = 2,
ConstantToRegister = 3,
AddressToRegister = 4,
AddressToAddress = 5,
}

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src/bytecode/types.rs Normal file
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pub const CONST_U8: u8 = 0x00;
pub const CONST_I8: i8 = 0x01;
pub const CONST_U64: u8 = 0x02;
pub const CONST_I64: u8 = 0x03;
pub const CONST_F64: u8 = 0x04;
pub const ADDRESS: u8 = 0x05;

4
src/engine/call_stack.rs Normal file
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pub type CallStack = Vec<FnCall>;
pub struct FnCall {
ret: usize,
}

13
src/engine/config.rs Normal file
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pub struct EngineConfig {
pub call_stack_depth: usize,
pub quantum: u32,
}
impl EngineConfig {
pub fn default() -> Self {
Self {
call_stack_depth: 32,
quantum: 0,
}
}
}

370
src/engine/mod.rs Normal file
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pub mod call_stack;
pub mod config;
pub mod regs;
use crate::bytecode::ops::*;
use crate::bytecode::types::*;
use crate::HaltStatus;
use crate::Page;
use crate::RuntimeErrors;
use config::EngineConfig;
use regs::Registers;
use self::call_stack::CallStack;
pub struct Engine {
pub index: usize,
program: Vec<u8>,
registers: Registers,
config: EngineConfig,
/// BUG: This DOES NOT account for overflowing
last_timer_count: u32,
timer_callback: Option<fn() -> u32>,
memory: Vec<Page>,
call_stack: CallStack,
}
impl Engine {
pub fn new(program: Vec<u8>) -> Self {
Self {
index: 0,
program,
registers: Registers::new(),
config: EngineConfig::default(),
last_timer_count: 0,
timer_callback: None,
memory: vec![],
call_stack: vec![],
}
}
pub fn dump(&self) {
println!("Registers");
println!(
"A {:02X} {:02X} {:02X} {:02X} {:02X} {:02X} {:02X} {:02X} {:02X} {:02X}",
self.registers.a0,
self.registers.a1,
self.registers.a2,
self.registers.a3,
self.registers.a4,
self.registers.a5,
self.registers.a6,
self.registers.a7,
self.registers.a8,
self.registers.a9,
);
println!(
"B {:02X} {:02X} {:02X} {:02X} {:02X} {:02X} {:02X} {:02X} {:02X} {:02X}",
self.registers.b0,
self.registers.b1,
self.registers.b2,
self.registers.b3,
self.registers.b4,
self.registers.b5,
self.registers.b6,
self.registers.b7,
self.registers.b8,
self.registers.b9,
);
println!(
"C {:02X} {:02X} {:02X} {:02X} {:02X} {:02X} {:02X} {:02X} {:02X} {:02X}",
self.registers.c0,
self.registers.c1,
self.registers.c2,
self.registers.c3,
self.registers.c4,
self.registers.c5,
self.registers.c6,
self.registers.c7,
self.registers.c8,
self.registers.c9,
);
println!(
"D0-D4 {:016X} {:016X} {:016X} {:016X} {:016X}
D5-D9 {:016X} {:016X} {:016X} {:016X} {:016X}",
self.registers.d0,
self.registers.d1,
self.registers.d2,
self.registers.d3,
self.registers.d4,
self.registers.d5,
self.registers.d6,
self.registers.d7,
self.registers.d8,
self.registers.d9,
);
println!(
"E0-E4 {:016X} {:016X} {:016X} {:016X} {:016X}
E5-E9 {:016X} {:016X} {:016X} {:016X} {:016X}",
self.registers.e0,
self.registers.e1,
self.registers.e2,
self.registers.e3,
self.registers.e4,
self.registers.e5,
self.registers.e6,
self.registers.e7,
self.registers.e8,
self.registers.e9,
);
println!(
"F0-F4 {:016X} {:016X} {:016X} {:016X} {:016X}
F5-F9 {:016X} {:016X} {:016X} {:016X} {:016X}",
self.registers.f0,
self.registers.f1,
self.registers.f2,
self.registers.f3,
self.registers.f4,
self.registers.f5,
self.registers.f6,
self.registers.f7,
self.registers.f8,
self.registers.f9,
);
}
pub fn run(&mut self) -> Result<HaltStatus, RuntimeErrors> {
use HaltStatus::*;
use RuntimeErrors::*;
loop {
// Break out of the loop
if self.index == self.program.len() {
break;
}
let op = self.program[self.index];
println!("OP {} INDEX {}", self.program[self.index], self.index);
match op {
NOP => self.index += 1,
ADD => {
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;
}
CONST_U64 => {
self.index += 1;
lhs.push(self.program[self.index]);
self.index += 1;
lhs.push(self.program[self.index]);
self.index += 1;
lhs.push(self.program[self.index]);
self.index += 1;
lhs.push(self.program[self.index]);
lhs_signed = false;
self.index += 1;
}
0xA0..=0xC9 => {
println!("TRACE: 8 bit lhs");
}
0xD0..=0xFF => {
println!("TRACE: 64 bit lhs");
}
op => return Err(InvalidOpcode(op)),
}
match self.program[self.index] {
CONST_U8 => {
self.index += 1;
rhs.push(self.program[self.index]);
rhs_signed = false;
print!(" constant {:?}", rhs[0]);
self.index += 1;
}
CONST_U64 => {
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]);
rhs_signed = false;
self.index += 1;
}
0xA0..=0xC9 => {
println!("TRACE: 8 bit rhs");
}
0xD0..=0xFF => {
println!("TRACE: 64 bit rhs");
}
_ => {
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!()
}
}
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.registers.a8 = 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 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;
}
}
// Finish step
if self.timer_callback.is_some() {
let ret = self.timer_callback.unwrap()();
if (ret - self.last_timer_count) >= self.config.quantum {
return Ok(Running);
}
}
}
Ok(Halted)
}
}

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src/engine/regs.rs Normal file
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#[rustfmt::skip]
pub struct Registers{
pub a0: u8, pub b0: u8, pub c0: u8, pub d0: u64, pub e0: u64, pub f0: u64,
pub a1: u8, pub b1: u8, pub c1: u8, pub d1: u64, pub e1: u64, pub f1: u64,
pub a2: u8, pub b2: u8, pub c2: u8, pub d2: u64, pub e2: u64, pub f2: u64,
pub a3: u8, pub b3: u8, pub c3: u8, pub d3: u64, pub e3: u64, pub f3: u64,
pub a4: u8, pub b4: u8, pub c4: u8, pub d4: u64, pub e4: u64, pub f4: u64,
pub a5: u8, pub b5: u8, pub c5: u8, pub d5: u64, pub e5: u64, pub f5: u64,
pub a6: u8, pub b6: u8, pub c6: u8, pub d6: u64, pub e6: u64, pub f6: u64,
pub a7: u8, pub b7: u8, pub c7: u8, pub d7: u64, pub e7: u64, pub f7: 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,
}
impl Registers {
#[rustfmt::skip]
pub fn new() -> Self{
Self {
a0: 0, b0: 0, c0: 0, d0: 0, e0: 0, f0: 0,
a1: 0, b1: 0, c1: 0, d1: 0, e1: 0, f1: 0,
a2: 0, b2: 0, c2: 0, d2: 0, e2: 0, f2: 0,
a3: 0, b3: 0, c3: 0, d3: 0, e3: 0, f3: 0,
a4: 0, b4: 0, c4: 0, d4: 0, e4: 0, f4: 0,
a5: 0, b5: 0, c5: 0, d5: 0, e5: 0, f5: 0,
a6: 0, b6: 0, c6: 0, d6: 0, e6: 0, f6: 0,
a7: 0, b7: 0, c7: 0, d7: 0, e7: 0, f7: 0,
a8: 0, b8: 0, c8: 0, d8: 0, e8: 0, f8: 0,
a9: 0, b9: 0, c9: 0, d9: 0, e9: 0, f9: 0,
}
}
}

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@ -1,71 +1,17 @@
#![allow(unused_assignments)]
#![allow(unused_must_use)]
pub mod bytecode; pub mod bytecode;
use bytecode::*; pub mod engine;
use bytecode::ops::*;
use bytecode::types::{CONST_F64, CONST_U8};
use engine::Engine;
pub struct Page { pub struct Page {
data: [u8; 4096], pub data: [u8; 4096 * 2],
} }
#[repr(u16)]
/// All instructions will use `op src dest` format (if they take arguments)
/// most `src`s can be replaced with a constant
pub enum Instructions {
Nop = 0, // No Operation or nothing to do
// Add takes two `src`s and adds into a `dest`
// add
Add,
Sub,
Mul,
Div, //HTML Div not division for that refer to ~~Blam~~
Store,
// Load a value from one src to one dest
// `load a8 c8`
Load,
}
// A `src` may be any of the following
// Memory Address
// Register
// Constant
// ~~Port~~
// A `dest` may be any of the following
// Memory Address
// Register
// 0000 ;; NOP
// // Once we get to an instruction that makes sense we can interpret the next bytes relative to that instruction
// 0001 ;; add
// // EXAMPLE
// 0001
// // This grouping is called a pairing and is useful as a short little guide for how to read AOB
// (0xC0 0x03)/*0xC0 represents a constant that is size u8, 0x03 is 3*/
// (0xC1 0x01)/*0xC1 represents a constant that is size i8, 0x01 is 1*/
// (0xA0 0x01)/* 0xA0 represents a the a8 register as an unsigned number, 0x01 is 1*/
// 0002
// (0xC3 0x01 0x00)/*0xC3 represents a constant that is size u16 , 0x01 0x00 is 256*/
#[test]
fn main() {
#[rustfmt::skip]
let prog: Vec<u8> = vec![
NOP,
ADD, CONST_U8, 1, CONST_U8, 20, RegisterA8,
ADD, CONST_U8, 1, CONST_U8, 0, RegisterB8,
SUB, CONST_U8, 3, RegisterA8, RegisterC8,
];
let mut eng = Engine::new(prog);
// eng.timer_callback = Some(time);
eng.run();
eng.dump();
}
pub fn time() -> u32 { pub fn time() -> u32 {
9 9
} }
#[derive(Debug)]
pub enum RuntimeErrors { pub enum RuntimeErrors {
InvalidOpcode(u8), InvalidOpcode(u8),
RegisterTooSmall, RegisterTooSmall,
@ -77,265 +23,9 @@ pub enum HaltStatus {
Running, Running,
} }
#[rustfmt::skip]
pub struct Registers{
a8: u8, a16: u16, a32: u32, a64: u64,
b8: u8, b16: u16, b32: u32, b64: u64,
c8: u8, c16: u16, c32: u32, c64: u64,
d8: u8, d16: u16, d32: u32, d64: u64,
e8: u8, e16: u16, e32: u32, e64: u64,
f8: u8, f16: u16, f32: u32, f64: u64,
}
impl Registers {
#[rustfmt::skip]
pub fn new() -> Self{
Self{
a8: 0, a16: 0, a32: 0, a64: 0,
b8: 0, b16: 0, b32: 0, b64: 0,
c8: 0, c16: 0, c32: 0, c64: 0,
d8: 0, d16: 0, d32: 0, d64: 0,
e8: 0, e16: 0, e32: 0, e64: 0,
f8: 0, f16: 0, f32: 0, f64: 0,
}
}
}
pub const ENGINE_DELTA: u32 = 1;
pub struct Engine {
index: usize,
program: Vec<u8>,
registers: Registers,
/// BUG: This DOES NOT account for overflowing
last_timer_count: u32,
timer_callback: Option<fn() -> u32>,
}
impl Engine {
pub fn new(program: Vec<u8>) -> Self {
Self {
index: 0,
program,
registers: Registers::new(),
last_timer_count: 0,
timer_callback: None,
}
}
pub fn dump(&self) {
println!("Reg A8 {}", self.registers.a8);
println!("Reg B8 {}", self.registers.b8);
println!("Reg C8 {}", self.registers.c8);
println!("Reg D8 {}", self.registers.d8);
println!("Reg E8 {}", self.registers.e8);
println!("Reg F8 {}", self.registers.f8);
}
pub fn run(&mut self) -> Result<HaltStatus, RuntimeErrors> {
use HaltStatus::*;
use RuntimeErrors::*;
loop {
// Break out of the loop
if self.index == self.program.len() {
break;
}
let op = self.program[self.index];
match op {
NOP => self.index += 1,
ADD => {
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;
}
op => return Err(InvalidOpcode(op)),
}
match self.program[self.index] {
CONST_U8 => {
self.index += 1;
rhs.push(self.program[self.index]);
rhs_signed = false;
print!(" constant {:?}", rhs[0]);
self.index += 1;
}
_ => {
panic!()
}
}
match self.program[self.index] {
RegisterA8 => {
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 A8");
let sum = lhs[0] + rhs[0];
self.registers.a8 = sum;
self.index += 1;
}
RegisterB8 => {
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.b8 = sum;
self.index += 1;
}
RegisterC8 => {
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 C8");
let sum = lhs[0] + rhs[0];
self.registers.c8 = sum;
self.index += 1;
}
RegisterD8 => {
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 D8");
let sum = lhs[0] + rhs[0];
self.registers.d8 = sum;
self.index += 1;
}
_ => {
panic!()
}
}
}
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] {
RegA8 => {
lhs.push(self.registers.a8);
lhs_signed = false;
print!(" constant {:?}", self.registers.a8);
self.index += 1;
}
RegB8 => {
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] {
RegB8 => {
rhs.push(self.registers.b8);
rhs_signed = false;
print!(" constant {:?}", self.registers.b8);
self.index += 1;
}
_ => {
panic!()
}
}
match self.program[self.index] {
RegisterA8 => {
if lhs.len() > 1 {
panic!("LHS is not an 8 bit number")
}
println!(" store in A8");
let sum = lhs[0] - rhs[0];
self.registers.a8 = sum;
self.index += 1;
}
RegisterB8 => {
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.b8 = sum;
self.index += 1;
}
RegisterC8 => {
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;
}
}
// Finish step
if self.timer_callback.is_some() {
let ret = self.timer_callback.unwrap()();
if (ret - self.last_timer_count) >= ENGINE_DELTA {
return Ok(Running);
}
}
}
Ok(Halted)
}
}
pub struct HandSide { pub struct HandSide {
signed: bool, signed: bool,
float: bool,
num8: Option<u8>, num8: Option<u8>,
num64: Option<u64>, num64: Option<u64>,
} }
pub fn math_handler(math_op: u8, lhs: (bool, [u8; 4]), rhs: [u8; 4]) {
match math_op {
ADD => {}
_ => {}
}
}

20
src/main.rs Normal file
View file

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