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Update machine methods

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Werner
2021-11-16 12:15:05 -03:00
parent 92576fbdd3
commit ef313c8f66
5 changed files with 375 additions and 265 deletions
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Examples/Simple.bin
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348
Source/Instructions.rs
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@ -1,326 +1,402 @@
use crate::Machine;
pub fn Nothing(vm: &mut Machine) -> bool {
vm.program += 1;
vm.WalkAddress(1);
false
}
pub fn LoadRegister(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1];
let a = vm.memory[vm.program + 2];
let pc = vm.GetAddress();
vm.registers[r as usize] = vm.memory[a as usize];
let reg = vm.GetMemory(pc + 1);
let addr = vm.GetMemory(pc + 2);
vm.program += 3;
let val = vm.GetMemory(addr);
vm.SetRegister(reg, val);
vm.WalkAddress(3);
true
}
pub fn SaveRegister(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1];
let a = vm.memory[vm.program + 2];
let pc = vm.GetAddress();
vm.memory[a as usize] = vm.registers[r as usize];
let addr = vm.GetMemory(pc + 1);
let reg = vm.GetMemory(pc + 2);
vm.program += 3;
let val = vm.GetRegister(reg);
vm.SetMemory(addr, val);
vm.WalkAddress(3);
true
}
pub fn Move(vm: &mut Machine) -> bool {
#[allow(dead_code)]
pub fn Move(_vm: &mut Machine) -> bool {
false
}
pub fn Add(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = a + b;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
let op2 = vm.GetRegister(vm.GetMemory(pc + 3));
vm.SetRegister(reg, op1 + op2);
vm.WalkAddress(4);
true
}
pub fn AddAssign(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let pc = vm.GetAddress();
vm.registers[r] += a;
vm.program += 3;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(reg);
let op2 = vm.GetRegister(vm.GetMemory(pc + 2));
vm.SetRegister(reg, op1 + op2);
vm.WalkAddress(3);
true
}
pub fn Subtract(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = a - b;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
let op2 = vm.GetRegister(vm.GetMemory(pc + 3));
vm.SetRegister(reg, op1 - op2);
vm.WalkAddress(4);
true
}
pub fn SubtractAssign(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let pc = vm.GetAddress();
vm.registers[r] -= a;
vm.program += 3;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(reg);
let op2 = vm.GetRegister(vm.GetMemory(pc + 2));
vm.SetRegister(reg, op1 - op2);
vm.WalkAddress(3);
true
}
pub fn Multiply(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = a * b;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
let op2 = vm.GetRegister(vm.GetMemory(pc + 3));
vm.SetRegister(reg, op1 * op2);
vm.WalkAddress(4);
true
}
pub fn MultiplyAssign(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let pc = vm.GetAddress();
vm.registers[r] *= a;
vm.program += 3;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(reg);
let op2 = vm.GetRegister(vm.GetMemory(pc + 2));
vm.SetRegister(reg, op1 * op2);
vm.WalkAddress(3);
true
}
pub fn Divide(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = a / b;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
let op2 = vm.GetRegister(vm.GetMemory(pc + 3));
vm.SetRegister(reg, op1 / op2);
vm.WalkAddress(4);
true
}
pub fn DivideAssign(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let pc = vm.GetAddress();
vm.registers[r] /= a;
vm.program += 3;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(reg);
let op2 = vm.GetRegister(vm.GetMemory(pc + 2));
vm.SetRegister(reg, op1 / op2);
vm.WalkAddress(3);
true
}
pub fn Remainder(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = a % b;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
let op2 = vm.GetRegister(vm.GetMemory(pc + 3));
vm.SetRegister(reg, op1 % op2);
vm.WalkAddress(4);
true
}
pub fn RemainderAssign(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let pc = vm.GetAddress();
vm.registers[r] %= a;
vm.program += 3;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(reg);
let op2 = vm.GetRegister(vm.GetMemory(pc + 2));
vm.SetRegister(reg, op1 % op2);
vm.WalkAddress(3);
true
}
pub fn Neg(vm: &mut Machine) -> bool {
#[allow(dead_code)]
pub fn Neg(_vm: &mut Machine) -> bool {
false
}
pub fn And(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = a & b;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
let op2 = vm.GetRegister(vm.GetMemory(pc + 3));
vm.SetRegister(reg, op1 & op2);
vm.WalkAddress(4);
true
}
pub fn AndAssign(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let pc = vm.GetAddress();
vm.registers[r] &= a;
vm.program += 3;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(reg);
let op2 = vm.GetRegister(vm.GetMemory(pc + 2));
vm.SetRegister(reg, op1 & op2);
vm.WalkAddress(3);
true
}
pub fn Or(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = a | b;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
let op2 = vm.GetRegister(vm.GetMemory(pc + 3));
vm.SetRegister(reg, op1 | op2);
vm.WalkAddress(4);
true
}
pub fn OrAssign(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let pc = vm.GetAddress();
vm.registers[r] |= a;
vm.program += 3;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(reg);
let op2 = vm.GetRegister(vm.GetMemory(pc + 2));
vm.SetRegister(reg, op1 | op2);
vm.WalkAddress(3);
true
}
pub fn Xor(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = a ^ b;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
let op2 = vm.GetRegister(vm.GetMemory(pc + 3));
vm.SetRegister(reg, op1 ^ op2);
vm.WalkAddress(4);
true
}
pub fn XorAssign(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let pc = vm.GetAddress();
vm.registers[r] ^= a;
vm.program += 3;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(reg);
let op2 = vm.GetRegister(vm.GetMemory(pc + 2));
vm.SetRegister(reg, op1 ^ op2);
vm.WalkAddress(3);
true
}
pub fn Not(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let pc = vm.GetAddress();
vm.registers[r] = !a;
vm.program += 3;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
vm.SetRegister(reg, !op1);
vm.WalkAddress(3);
true
}
pub fn ShiftLeft(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = a << b;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
vm.SetRegister(reg, op1 << 1);
vm.WalkAddress(4);
true
}
pub fn ShiftLeftAssign(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let pc = vm.GetAddress();
vm.registers[r] <<= a;
vm.program += 3;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(reg);
vm.SetRegister(reg, op1 << 1);
vm.WalkAddress(2);
true
}
pub fn ShiftRight(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = a >> b;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
vm.SetRegister(reg, op1 >> 1);
vm.WalkAddress(4);
true
}
pub fn ShiftRightAssign(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let pc = vm.GetAddress();
vm.registers[r] >>= a;
vm.program += 3;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(reg);
vm.SetRegister(reg, op1 >> 1);
vm.WalkAddress(2);
true
}
pub fn Equals(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = (a == b) as u8;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
let op2 = vm.GetRegister(vm.GetMemory(pc + 3));
vm.SetRegister(reg, (op1 == op2) as u8);
vm.WalkAddress(4);
true
}
pub fn NotEquals(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = (a != b) as u8;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
let op2 = vm.GetRegister(vm.GetMemory(pc + 3));
vm.SetRegister(reg, (op1 != op2) as u8);
vm.WalkAddress(4);
true
}
pub fn LessThan(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = (a < b) as u8;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
let op2 = vm.GetRegister(vm.GetMemory(pc + 3));
vm.SetRegister(reg, (op1 < op2) as u8);
vm.WalkAddress(4);
true
}
pub fn LessEquals(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = (a <= b) as u8;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
let op2 = vm.GetRegister(vm.GetMemory(pc + 3));
vm.SetRegister(reg, (op1 <= op2) as u8);
vm.WalkAddress(4);
true
}
pub fn GreaterThan(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = (a > b) as u8;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
let op2 = vm.GetRegister(vm.GetMemory(pc + 3));
vm.SetRegister(reg, (op1 > op2) as u8);
vm.WalkAddress(4);
true
}
pub fn GreaterEquals(vm: &mut Machine) -> bool {
let r = vm.memory[vm.program + 1] as usize;
let a = vm.registers[vm.memory[vm.program + 2] as usize];
let b = vm.registers[vm.memory[vm.program + 3] as usize];
let pc = vm.GetAddress();
vm.registers[r] = (a >= b) as u8;
vm.program += 4;
let reg = vm.GetMemory(pc + 1);
let op1 = vm.GetRegister(vm.GetMemory(pc + 2));
let op2 = vm.GetRegister(vm.GetMemory(pc + 3));
vm.SetRegister(reg, (op1 >= op2) as u8);
vm.WalkAddress(4);
true
}
pub fn Halt(vm: &mut Machine) -> bool {
pub fn Halt(_: &mut Machine) -> bool {
false
}

155
Source/Machine.rs Normal file
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@ -0,0 +1,155 @@
use std::panic;
use crate::Instructions::*;
use crate::Operations::*;
pub const ADDRESS_COUNT: usize = 256;
pub const REGISTER_COUNT: usize = 16;
pub struct Machine {
program: usize,
registers: [u8; REGISTER_COUNT],
memory: [u8; ADDRESS_COUNT],
}
impl Machine {
/// Create a machine with program counter.
pub fn New(pc: u8) -> Self {
Self {
program: pc as usize,
registers: [0; REGISTER_COUNT],
memory: [0; ADDRESS_COUNT],
}
}
pub fn LoadProgram(&mut self, buffer: &[u8], offset: u8) {
let mut i = offset as usize;
for elem in buffer.to_vec().drain(..) {
self.memory[i] = elem;
i += 1;
}
}
pub fn Execute(mut self) {
let mut running = true;
while running {
//self.PrintMemory();
self.PrintRegisters();
let opcode = self.memory[self.program];
running = match opcode {
NOP => Nothing(&mut self),
LDR => LoadRegister(&mut self),
SVR => SaveRegister(&mut self),
//MOV
ADD => Add(&mut self),
ADD_ASSIGN => AddAssign(&mut self),
SUB => Subtract(&mut self),
SUB_ASSIGN => SubtractAssign(&mut self),
MUL => Multiply(&mut self),
MUL_ASSIGN => MultiplyAssign(&mut self),
DIV => Divide(&mut self),
DIV_ASSIGN => DivideAssign(&mut self),
REM => Remainder(&mut self),
REM_ASSIGN => RemainderAssign(&mut self),
//NEG
AND => And(&mut self),
AND_ASSIGN => AndAssign(&mut self),
OR => Or(&mut self),
OR_ASSIGN => OrAssign(&mut self),
XOR => Xor(&mut self),
XOR_ASSIGN => XorAssign(&mut self),
NOT => Not(&mut self),
SHL => ShiftLeft(&mut self),
SHL_ASSIGN => ShiftLeftAssign(&mut self),
SHR => ShiftRight(&mut self),
SHR_ASSIGN => ShiftRightAssign(&mut self),
EQ => Equals(&mut self),
NEQ => NotEquals(&mut self),
LT => LessThan(&mut self),
LE => LessEquals(&mut self),
GT => GreaterThan(&mut self),
GE => GreaterEquals(&mut self),
HLT => Halt(&mut self),
_ => Nothing(&mut self),
}
}
}
#[allow(dead_code)]
fn PrintRegisters(&self) {
for data in self.registers.iter() {
print!("{:02x} ", data);
}
println!();
}
#[allow(dead_code)]
fn PrintMemory(&self) {
let mut address = 0;
for data in self.memory.iter() {
if address % 8 == 0 {
println!();
}
print!("{:02x} ", data);
address += 1;
}
println!();
}
pub fn GetMemory(&self, addr: u8) -> u8 {
let index = addr as usize;
if index < ADDRESS_COUNT {
self.memory[index]
} else {
panic!("Invalid Address!")
}
}
pub fn SetMemory(&mut self, addr: u8, val: u8) {
let index = addr as usize;
if index < ADDRESS_COUNT {
self.memory[index] = val;
}
}
pub fn GetRegister(&self, reg: u8) -> u8 {
let index = reg as usize;
if index < REGISTER_COUNT {
self.registers[index]
} else {
panic!("Invalid Register!")
}
}
pub fn SetRegister(&mut self, reg: u8, val: u8) {
let index = reg as usize;
if index < REGISTER_COUNT {
self.registers[index] = val;
}
}
pub fn GetAddress(&self) -> u8 {
self.program as u8
}
pub fn WalkAddress(&mut self, bytes: i8) {
self.program += bytes as usize;
}
pub fn SetAddress(&mut self, addr: u8) {
self.program = addr as usize;
}
}

8
Source/Operations.rs
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@ -155,28 +155,28 @@ pub const NOT: u8 = 0x15;
/// **0x16** - The left shift operator `<<`.
///
/// ```no_run
/// shl r1 r2 r3 // r1 = r2 << r3
/// shl r1 r2 // r1 = r2 << 1
/// ```
pub const SHL: u8 = 0x16;
/// **0x17** - The left shift assignment operator `<<=`.
///
/// ```no_run
/// shl r1 r2 // r1 <<= r2
/// shl r1 // r1 <<= 1
/// ```
pub const SHL_ASSIGN: u8 = 0x17;
/// **0x18** - The right shift operator `>>`.
///
/// ```no_run
/// shr r1 r2 r3 // r1 = r2 >> r3
/// shr r1 r2 // r1 = r2 >> 1
/// ```
pub const SHR: u8 = 0x18;
/// **0x19** - The right shift assignment operator `>>=`.
///
/// ```no_run
/// shr r1 r2 // r1 >>= r2
/// shr r1 // r1 >>= 1
/// ```
pub const SHR_ASSIGN: u8 = 0x19;

129
Source/lib.rs
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@ -1,130 +1,9 @@
#![allow(dead_code)]
#![allow(non_snake_case)]
#![allow(unused_imports)]
#![allow(unused_variables)]
pub mod Instructions;
mod Instructions;
pub mod Operations;
pub mod Registers;
use Instructions::*;
use Operations::*;
use Registers::*;
//#[path = "World.rs"]
//mod _World;
//pub use self::_World::*;
pub const ADDRESS_COUNT: usize = 256;
pub const REGISTER_COUNT: usize = 16;
pub struct Machine {
pub program: usize,
pub registers: [u8; REGISTER_COUNT],
pub memory: [u8; ADDRESS_COUNT],
}
impl Machine {
/// Create a machine with program counter.
pub fn New(pc: u16) -> Self {
Self {
program: pc as usize,
registers: [0; REGISTER_COUNT],
memory: [0; ADDRESS_COUNT],
}
}
pub fn LoadProgram(&mut self, buffer: &[u8], offset: u16) {
let mut i = offset as usize;
for elem in buffer.to_vec().drain(..) {
self.memory[i] = elem;
i += 1;
}
}
#[allow(unused_mut)]
pub fn Execute(mut self) {
let mut running = true;
while running {
self.PrintMemory();
//self.PrintRegisters();
let opcode = self.memory[self.program];
running = match opcode {
NOP => Nothing(&mut self),
LDR => LoadRegister(&mut self),
SVR => SaveRegister(&mut self),
//MOV
ADD => Add(&mut self),
ADD_ASSIGN => AddAssign(&mut self),
SUB => Subtract(&mut self),
SUB_ASSIGN => SubtractAssign(&mut self),
MUL => Multiply(&mut self),
MUL_ASSIGN => MultiplyAssign(&mut self),
DIV => Divide(&mut self),
DIV_ASSIGN => DivideAssign(&mut self),
REM => Remainder(&mut self),
REM_ASSIGN => RemainderAssign(&mut self),
//NEG
AND => And(&mut self),
AND_ASSIGN => AndAssign(&mut self),
OR => Or(&mut self),
OR_ASSIGN => OrAssign(&mut self),
XOR => Xor(&mut self),
XOR_ASSIGN => XorAssign(&mut self),
NOT => Xor(&mut self),
SHL => ShiftLeft(&mut self),
SHL_ASSIGN => ShiftLeftAssign(&mut self),
SHR => ShiftRight(&mut self),
SHR_ASSIGN => ShiftRightAssign(&mut self),
EQ => Equals(&mut self),
NEQ => NotEquals(&mut self),
LT => LessThan(&mut self),
LE => LessEquals(&mut self),
GT => GreaterThan(&mut self),
GE => GreaterEquals(&mut self),
HLT => Halt(&mut self),
_ => Nothing(&mut self),
}
}
}
fn PrintRegisters(&self) {
for data in self.registers.iter() {
print!("{:02x} ", data);
}
println!();
}
fn PrintMemory(&self) {
let mut address = 0;
for data in self.memory.iter() {
if address % 8 == 0 {
println!();
}
print!("{:02x} ", data);
address += 1;
}
println!();
}
fn GetRegister(&self, register: usize) -> u8 {
self.registers[register]
}
fn GetProgramCounter(&self) -> u16 {
self.program as u16
}
fn SetProgramCounter(&mut self, pc: u16) {
self.program = pc as usize;
}
}
#[path = "Machine.rs"]
mod _Machine;
pub use self::_Machine::*;