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2 Commits
cf14804df2 ... 9c672741ed

Author SHA1 Message Date
Trevor Merritt
9c672741ed start of rom_only PC 2025-07-07 07:36:41 -04:00
Trevor Merritt
b9242b1943 rustfmt cleanup 2025-07-06 13:38:55 -04:00
56 changed files with 2011 additions and 632 deletions
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1
Cargo.lock generated
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@ -366,6 +366,7 @@ checksum = "13dc2df351e3202783a1fe0d44375f7295ffb4049267b0f3018346dc122a1d94"
name = "macroquad"
version = "0.1.0"
dependencies = [
"core",
"macroquad 0.4.14",
]

0
beneater/src/backplane/mod.rs Normal file
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6
beneater/src/bin/beneater.rs
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@ -1,9 +1,9 @@
// This is the GUI for the BenEater PC
use beneater::parts::backplane::Backplane;
use beneater::parts::ben_eater_pc::BenEaterPC;
use beneater::parts::cpu_display::CpuDisplay;
use macroquad::prelude::*;
use macroquad::telemetry::frame;
use beneater::parts::ben_eater_pc::BenEaterPC;
use beneater::parts::backplane::Backplane;
#[macroquad::main("Ben Eaters PC")]
async fn main() {
println!("Taxation is Theft");
@ -21,7 +21,7 @@ async fn main() {
draw_text("Ben Eater", 20.0, 20.0, 30.0, BLACK);
dm.render(20.0, 40.0);
// CpuDisplay::render(&computer.cpu, 20.0, 120.0);
// CpuDisplay::render(&computer.cpu, 20.0, 120.0);
frame_number += 1;

2
beneater/src/bin/make_rom.rs
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@ -1,5 +1,5 @@
use std::fs;
use core::constants::constants_system::SIZE_32KB;
use std::fs;
fn main() {
// make the rom data in memory.

13
beneater/src/bin/urn.rs
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@ -1,20 +1,24 @@
use beneater::parts::backplane::Backplane;
use core::constants::constants_isa_op::*;
use core::constants::constants_system::*;
use std::fs;
use std::ops::Index;
use beneater::parts::backplane::Backplane;
use core::constants::constants_system::*;
use core::constants::constants_isa_op::*;
fn main() {
println!("Taxation is Theft");
let mut backplane = Backplane::new();
backplane.load_rom();
println!("Backplane is live.");
let mut new_program = [0x00u8; SIZE_32KB];
new_program[(OFFSET_RESET_VECTOR - SIZE_32KB as u16) as usize] = 0x00;
new_program[(OFFSET_RESET_VECTOR + 1 - SIZE_32KB as u16) as usize] = 0x60;
println!("Set offset in rom...");
println!("VALUE AT OFFSET_RESET_VECTOR = 0x{:02x} ", new_program[(OFFSET_RESET_VECTOR - SIZE_32KB as u16) as usize]);
println!(
"VALUE AT OFFSET_RESET_VECTOR = 0x{:02x} ",
new_program[(OFFSET_RESET_VECTOR - SIZE_32KB as u16) as usize]
);
// println!("{:?}", new_program);
backplane.rom.program(&new_program);
@ -22,5 +26,4 @@ fn main() {
backplane.memory[0x6000] = ISA_OP_LDA_I;
backplane.memory[0x6001] = 0xab;
backplane.tick();
}

2
beneater/src/lib.rs
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@ -1 +1,3 @@
pub mod parts;
pub mod backplane;
mod backplane;

4
beneater/src/parts/address_bus.rs
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@ -1,9 +1,9 @@
pub struct AddressBus {
pub address: u16
pub address: u16,
}
impl AddressBus {
pub fn new() -> Self {
AddressBus { address: 0x0000 }
}
}
}

117
beneater/src/parts/backplane.rs
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@ -1,15 +1,27 @@
use core::mos6502cpu::Mos6502Cpu;
use crate::parts::mos6522_peripheral::Mos6522Peripheral;
use crate::parts::via6522::VIA6522;
use core::constants::constants_system::*;
use core::mos6502cpu::Mos6502Cpu;
use core::periph::at28c256::At28C256;
use core::periph::rom_chip::RomChip;
/// Backplane
///
/// A Backplane hold and coordinates the cpu with the
/// rest of the peripherals.
///
/// This system has
/// -> VIA6522 for peripherals
/// -> 322KB RAM
/// -> 32KB ROM
pub struct Backplane {
// pub for dev
pub cpu: Mos6502Cpu,
pub via: VIA6522,
pub memory: Box<[u8; SIZE_64KB]>,
pub rom: At28C256
pub memory: Box<[u8; SIZE_32KB]>,
pub rom: At28C256,
data_bus: u8,
address_bus: u16
}
impl Backplane {
@ -17,8 +29,10 @@ impl Backplane {
Backplane {
cpu: Mos6502Cpu::default(),
via: VIA6522::default(),
memory: Box::new([0x00; SIZE_64KB]),
rom: At28C256::default()
memory: Box::new([0x00; SIZE_32KB]),
rom: At28C256::default(),
data_bus: 0x00,
address_bus: 0x0000
}
}
@ -28,46 +42,85 @@ impl Backplane {
pub fn tick(&mut self) {
// is the CPU in read or write state
let address = self.cpu.address_bus();
let data = self.cpu.data_bus();
self.address_bus = self.cpu.address_bus();
self.data_bus = self.cpu.data_bus();
let rw = self.cpu.read_signal;
println!("- TICK START:");
println!("| CPU: Address: 0b{address:016b} Data: 0b{data:08b} CPU RW: {rw}");
println!("| CPU: Address: 0b{:016b} Data: 0b{:08b} CPU RW: {rw}", self.address_bus, self.data_bus);
// via state
println!("| VIA 0b{:08b}/0b{:08b}/0b{:08b}/0b{:08b}/",
println!(
"| VIA 0b{:08b}/0b{:08b}/0b{:08b}/0b{:08b}/",
self.via.read(VIA6522_ORA),
self.via.read(VIA6522_ORA),
self.via.read(VIA6522_DDRB),
self.via.read(VIA6522_DDRA),
);
println!("| LCD");
match address {
/// VIA
0x6000..0x6010 => {
if self.cpu.read_signal {
self.cpu.set_data_bus(self.via.read((address - 0x6000) as u8));
} else {
self.via.write((address - 0x6000) as u8, self.cpu.data_bus());
// if we are reading
if rw {
println!("CPU HAS SET READ FLAG FOR ADDRESS {address:04x} with data 0x{data:02x}");
match self.address_bus {
0x0000..=0x3fff => {
// read from ram
},
0x4000..=0x7fff => {
// read from ROM
}
self.via.tick();
}
/// RAM
0x0000..=0x3fff => {
if self.cpu.read_signal {
self.cpu.set_data_bus(self.memory[address as usize]);
} else {
self.memory[address as usize] = data;
_ => {
println!("READ OUTSIDE DATA RANGE");
}
}
/// ROM
0x4000..=0x7fff => {
self.rom.read(&(address - 0x4000));
}
/// The ether. Scarrrrrrrryyyy......
_ => {
println!("Lost READ:?{} to {:04x}", self.cpu.read_signal, address);
} else {
println!("CPU HAS SET WRITE FLAG FOR ADDRESS 0x{address:04x} with data 0x{data:02x}");
match self.address_bus {
0x6000..=0x600f => {
self.via.write((self.address_bus - 0x6000) as u8, self.data_bus);
},
0x0000..=0x3fff => {
self.memory[self.address_bus] = self.data_bus;
}
_ => {
println!("ATTEMPT TO WRITE OUTSIDE OF MEMORY");
}
}
}
//
//
// match address {
// /// VIA
// 0x6000..=0x600f => {
// if self.cpu.read_signal {
// self.cpu
// .set_data_bus(self.via.read((address - 0x6000) as u8));
// } else {
// self.via
// .write((address - 0x6000) as u8, self.cpu.data_bus());
// }
// self.via.tick();
// }
// /// RAM
// 0x0000..=0x3fff => {
// if self.cpu.read_signal {
// self.cpu.set_data_bus(self.memory[address as usize]);
// } else {
// self.memory[address as usize] = data;
// }
// }
// /// ROM
// 0x4000..=0x7fff => {
// println!("ROM READ AT {address:04x} / ROM OFFSET {:04x}", address - 0x4000);
// self.rom.read(&(address - 0x4000));
// }
// /// The ether. Scarrrrrrrryyyy......
// _ => {
// println!("XXXXLost READ:?{} to {:04x}", self.cpu.read_signal, address);
// }
// }
println!("- TICK DONE");
}
}
}

10
beneater/src/parts/ben_eater_pc.rs
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@ -1,10 +1,10 @@
use crate::parts::clock::Clock;
use core::constants::constants_system::*;
use core::mos6502cpu::Mos6502Cpu;
use std::fs;
use std::fs::File;
use std::io::{BufReader, Read};
use std::path::Path;
use crate::parts::clock::Clock;
use core::mos6502cpu::Mos6502Cpu;
use core::constants::constants_system::*;
pub struct BenEaterPC {
clock: Clock,
@ -19,11 +19,11 @@ impl BenEaterPC {
println!("New BENEATERPC");
BenEaterPC {
clock: Clock::new(),
cpu: Mos6502Cpu::default()
cpu: Mos6502Cpu::default(),
}
}
pub fn tick_system(&mut self) {
pub fn tick_system(&mut self) {
self.cpu.tick();
if self.cpu.microcode_step == 0 {
// tick the clock.

7
beneater/src/parts/clock.rs
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@ -1,13 +1,10 @@
pub struct Clock {
ticks: u32
ticks: u32,
}
impl Clock {
pub fn new() -> Self {
Clock {
ticks: 0
}
Clock { ticks: 0 }
}
pub fn tick(&mut self) {

44
beneater/src/parts/cpu_display.rs
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@ -1,7 +1,7 @@
use core::mos6502cpu::Mos6502Cpu;
use macroquad::color::{BLACK, Color};
use macroquad::prelude::*;
use macroquad::text::draw_text;
use core::mos6502cpu::Mos6502Cpu;
pub struct CpuDisplay {}
impl CpuDisplay {
@ -12,11 +12,41 @@ impl CpuDisplay {
// ...build the interface
Self::draw_square(x_offset, y_offset, x_offset + 300.0, y_offset + 85.0, BLACK);
draw_text(format!("PC: 0x{:04x} / {}", pc, pc).as_str(), x_offset + 5.0, y_offset + 18.0, 15.0, BLACK);
draw_text(format!("A: 0x{:02x} X: 0x{:02x} Y: 0x{:02x}", a, x, y).as_str(), x_offset + 5.0, y_offset + 35.0, 15.0, BLACK);
draw_text(format!("Address: {:016b} | {:04x}", address_bus, address_bus).as_str(), x_offset + 5.0, y_offset + 55.0, 15.0, BLACK);
draw_text(format!("Data: {:08b} | {:02x}", data_bus, data_bus).as_str(), x_offset + 5.0, y_offset + 75.0, 15.0, BLACK);
draw_text(format!("MS: {:02x}", microsteps_remaining).as_str(), x_offset + 5.0, y_offset + 95.0, 15.0, BLACK);
draw_text(
format!("PC: 0x{:04x} / {}", pc, pc).as_str(),
x_offset + 5.0,
y_offset + 18.0,
15.0,
BLACK,
);
draw_text(
format!("A: 0x{:02x} X: 0x{:02x} Y: 0x{:02x}", a, x, y).as_str(),
x_offset + 5.0,
y_offset + 35.0,
15.0,
BLACK,
);
draw_text(
format!("Address: {:016b} | {:04x}", address_bus, address_bus).as_str(),
x_offset + 5.0,
y_offset + 55.0,
15.0,
BLACK,
);
draw_text(
format!("Data: {:08b} | {:02x}", data_bus, data_bus).as_str(),
x_offset + 5.0,
y_offset + 75.0,
15.0,
BLACK,
);
draw_text(
format!("MS: {:02x}", microsteps_remaining).as_str(),
x_offset + 5.0,
y_offset + 95.0,
15.0,
BLACK,
);
}
fn draw_square(x1: f32, y1: f32, x2: f32, y2: f32, color: Color) {
@ -26,4 +56,4 @@ impl CpuDisplay {
draw_line(x1, y2, x2, y2, 1.0, color);
draw_line(x2, y1, x2, y2, 1.0, color);
}
}
}

4
beneater/src/parts/data_bus.rs
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@ -1,9 +1,9 @@
pub struct DataBus {
pub data: u8
pub data: u8,
}
impl DataBus {
pub fn new() -> Self {
DataBus { data: 0x00 }
}
}
}

4
beneater/src/parts/display_matrix.rs
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@ -1,5 +1,5 @@
use std::time::{Duration, Instant};
use crate::parts::mos6522_peripheral::Mos6522Peripheral;
use std::time::{Duration, Instant};
#[derive(Debug)]
pub struct HD44780 {
@ -46,7 +46,7 @@ impl Mos6522Peripheral for HD44780 {
self.write_control_lines(
control & 1 << 2 == 0,
control & 1 << 1 == 0,
control & 1 == 0
control & 1 == 0,
);
}

16
beneater/src/parts/mod.rs
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@ -1,10 +1,10 @@
pub mod clock;
pub mod ben_eater_pc;
pub mod via6522;
pub mod display_matrix;
pub mod address_bus;
pub mod data_bus;
pub mod cpu_display;
pub mod ram_display;
pub mod mos6522_peripheral;
pub mod backplane;
pub mod ben_eater_pc;
pub mod clock;
pub mod cpu_display;
pub mod data_bus;
pub mod display_matrix;
pub mod mos6522_peripheral;
pub mod ram_display;
pub mod via6522;

11
beneater/src/parts/ram_display.rs
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@ -4,10 +4,15 @@ pub struct RamDisplay {}
impl RamDisplay {
pub fn render(ram: &Box<[u8]>, x_offset: f32, y_offset: f32) {
Self::draw_square(x_offset, y_offset, x_offset + 200.0, y_offset + 300.0, BLACK);
Self::draw_square(
x_offset,
y_offset,
x_offset + 200.0,
y_offset + 300.0,
BLACK,
);
draw_text("RAM", x_offset + 5.0, y_offset + 5.0, 15.0, BLACK);
}
fn draw_square(x1: f32, y1: f32, x2: f32, y2: f32, color: Color) {
@ -17,4 +22,4 @@ impl RamDisplay {
draw_line(x1, y2, x2, y2, 1.0, color);
draw_line(x2, y1, x2, y2, 1.0, color);
}
}
}

1
beneater/src/parts/via6522.rs
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@ -57,7 +57,6 @@ impl VIA6522 {
}
}
pub fn read(&self, addr: u8) -> u8 {
match (addr & 0x0F) {
VIA6522_ORB => self.orb,

11
cli/src/bin/decode.rs
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@ -1,5 +1,5 @@
use core::instruction::Instruction;
use core::address_mode::AddressMode;
use core::instruction::Instruction;
use core::operand::Operand;
use core::operation::Operation;
@ -11,12 +11,13 @@ fn main() {
op: Operation::NOP,
mode: AddressMode::Implied,
operand: Operand::None,
}, &[0xea]
)];
},
&[0xea],
)];
for (op, bytes) in instructions {
assert_eq!(Instruction::decode(bytes), Some(op));
}
// let instruction = Instruction::decode(&[0xea]);
// println!("NOP Decoded -> {:?}", instruction);
// let instruction = Instruction::decode(&[0xea]);
// println!("NOP Decoded -> {:?}", instruction);
}

4
cli/src/bin/ticker.rs
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@ -1,7 +1,5 @@
use core::mos6502cpu::Mos6502Cpu;
fn main() {
let x = Mos6502Cpu::default();
}
}

2
core/Cargo.toml
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@ -4,4 +4,4 @@ version = "0.1.0"
edition = "2024"
[dependencies]
log = "0.4"
rand = "0.9.0"
rand = "0.9.0"

1
core/src/address_mode.rs
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@ -1,4 +1,3 @@
/// Represents the various addressing modes of the 6502 CPU.
#[derive(PartialEq, Debug, Copy, Clone)]
pub enum AddressMode {

6
core/src/computers/beneater/beneater.rs
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@ -1,9 +1,5 @@
/// BenEater computer represents the 'Ben Eater' 6502 breadboard computer.
/// This was built along watching the video series where Ben builds a
/// 6502 on a breadboard and explains each step.
///
pub struct BenEater {
}
pub struct BenEater {}

2
core/src/computers/mod.rs
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@ -1,2 +1,2 @@
pub mod beneater;
pub mod rom_only;

25
core/src/computers/rom_only/backplane.rs Normal file
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@ -0,0 +1,25 @@
use crate::constants::constants_system::{SIZE_32KB, SIZE_64KB};
use crate::periph::hm62256::Hm62256;
use crate::periph::rom_chip::RomChip;
pub struct Backplane {
rom: Hm62256
}
impl Backplane {
pub fn new() -> Backplane {
Backplane::program(&[0x00; SIZE_32KB])
}
pub fn program(rom: &[u8; SIZE_32KB]) -> Backplane {
Backplane {
rom: *Hm62256::program(rom)
}
}
pub fn tick(&mut self) {
println!("Preparing to tick.");
println!("Done ticking.");
}
}

1
core/src/computers/rom_only/mod.rs Normal file
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@ -0,0 +1 @@
pub mod backplane;

3
core/src/constants/constants_isa_op.rs
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@ -107,7 +107,6 @@ pub const ISA_OP_LDY_ZP: u8 = 0xa4;
pub const ISA_OP_LDY_ZPX: u8 = 0xb4;
pub const ISA_OP_LDY_ABS: u8 = 0xac;
pub const ISA_OP_LDY_ABSX: u8 = 0xbc;
pub const ISA_OP_LSR_A: u8 = 0x4a;
pub const ISA_OP_LSR_ZP: u8 = 0x46;
pub const ISA_OP_LSR_ZPX: u8 = 0x56;
@ -167,4 +166,4 @@ pub const ISA_OP_TAY: u8 = 0xa8;
pub const ISA_OP_TSX: u8 = 0xba;
pub const ISA_OP_TXA: u8 = 0x8a;
pub const ISA_OP_TXS: u8 = 0x9a;
pub const ISA_OP_TYA: u8 = 0x98;
pub const ISA_OP_TYA: u8 = 0x98;

2
core/src/constants/constants_isa_stub.rs
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@ -54,4 +54,4 @@ pub const ISA_STUB_TAY: &str = "TAY";
pub const ISA_STUB_TSX: &str = "TSX";
pub const ISA_STUB_TXA: &str = "TXA";
pub const ISA_STUB_TXS: &str = "TXS";
pub const ISA_STUB_TYA: &str = "TYA";
pub const ISA_STUB_TYA: &str = "TYA";

1
core/src/constants/constants_system.rs
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@ -5,7 +5,6 @@ pub const SIZE_64KB: usize = SIZE_1KB * 64;
pub const OFFSET_RESET_VECTOR: u16 = 0xfffc;
pub const OFFSET_INT_VECTOR: u16 = 0xfffe;
pub const VIA6522_ORB: u8 = 0;
pub const VIA6522_ORA: u8 = 1;
pub const VIA6522_DDRB: u8 = 2;

2
core/src/constants/mod.rs
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@ -1,3 +1,3 @@
pub mod constants_isa_stub;
pub mod constants_isa_op;
pub mod constants_isa_stub;
pub mod constants_system;

1387
core/src/instruction.rs
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File diff suppressed because it is too large Load Diff

23
core/src/instruction2/from_bytes.rs
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@ -1,23 +0,0 @@
use log::debug;
use crate::address_mode::AddressMode::*;
use crate::constants::constants_isa_op::*;
fn join_word(low: u8, high: u8) -> u16 {
((high as u16) << 8) | low as u16
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn test_join_word() {
let low: u8 = 0xcd;
let high: u8 = 0xab;
assert_eq!(
join_word(low, high),
0xabcd
);
}
}

7
core/src/instruction2/mod.rs
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@ -1,7 +0,0 @@
use crate::address_mode::AddressMode;
use crate::address_mode::AddressMode::*;
use crate::mos6502flags::Mos6502Flag::*;
mod from_bytes;
mod to_bytes;
mod to_string;

38
core/src/instruction2/to_bytes.rs
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@ -1,38 +0,0 @@
use crate::address_mode::AddressMode;
use crate::address_mode::AddressMode::{Absolute, AbsoluteX, AbsoluteY, Immediate, IndirectX, IndirectY, ZeroPage, ZeroPageX, ZeroPageY};
use crate::constants::constants_isa_op::*;
fn split_word_hl(to_split: u16) -> (u8, u8) {
let low = (to_split & 0xff) as u8;
let high = ((to_split & 0xff00) >> 8) as u8;
(high, low)
}
fn split_word_lh(to_split: u16) -> (u8, u8) {
let low = (to_split & 0xff) as u8;
let high = ((to_split & 0xff00) >> 8) as u8;
(low, high)
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn split_le() {
let value = 0xabcd;
let (high, low) = split_word_hl(value);
assert_eq!(low, 0xcd);
assert_eq!(high, 0xab);
}
#[test]
fn split_be() {
let value = 0xabcd;
let (low, high) = split_word_lh(value);
assert_eq!(low, 0xcd);
assert_eq!(high, 0xab);
}
}

18
core/src/instruction2/to_string.rs
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@ -1,18 +0,0 @@
fn format(mode: &AddressMode, prefix: &str) -> String {
// let suffix = match mode {
// AddressMode::Implied => "",
// AddressMode::Accumulator => " A",
// AddressMode::Immediate(value) => &*format!(" #${value:02x}"),
// AddressMode::ZeroPage(value) => &*format!(" ${value:02x}"),
// AddressMode::ZeroPageX(value) => &*format!(" ${value:02x},X"),
// AddressMode::Absolute(offset) => &*format!(" ${offset:04x}"),
// AddressMode::AbsoluteX(offset) => &*format!(" ${offset:04x},X"),
// AddressMode::AbsoluteY(offset) => &*format!(" ${offset:04x},Y"),
// AddressMode::IndirectX(value) => &*format!(" (${value:02x},X)"),
// AddressMode::IndirectY(value) => &*format!(" (${value:02x}),Y"),
// AddressMode::ZeroPageY(value) => &*format!(" ${value:02x},Y")
// };
// format!("{}{}", prefix, suffix)
prefix.to_string()
}

34
core/src/instruction_table.rs
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@ -1,10 +1,36 @@
use crate::address_mode::AddressMode;
use crate::constants::constants_isa_op::{ISA_OP_ADC_ABS, ISA_OP_ADC_ABSX, ISA_OP_ADC_ABSY, ISA_OP_ADC_I, ISA_OP_ADC_INDX, ISA_OP_ADC_INDY, ISA_OP_ADC_Z, ISA_OP_ADC_ZX, ISA_OP_AND_ABS, ISA_OP_AND_ABSX, ISA_OP_AND_ABSY, ISA_OP_AND_I, ISA_OP_AND_INDX, ISA_OP_AND_INDY, ISA_OP_AND_Z, ISA_OP_AND_ZX, ISA_OP_ASL_A, ISA_OP_ASL_ABS, ISA_OP_ASL_ABSX, ISA_OP_ASL_Z, ISA_OP_ASL_ZX, ISA_OP_BCC, ISA_OP_BCS, ISA_OP_BEQ, ISA_OP_BIT_ABS, ISA_OP_BIT_ZP, ISA_OP_BMI, ISA_OP_BNE, ISA_OP_BPL, ISA_OP_BRK, ISA_OP_BVC, ISA_OP_BVS, ISA_OP_CLC, ISA_OP_CLD, ISA_OP_CLI, ISA_OP_CLV, ISA_OP_CMP_ABS, ISA_OP_CMP_ABSX, ISA_OP_CMP_ABSY, ISA_OP_CMP_I, ISA_OP_CMP_INDX, ISA_OP_CMP_INDY, ISA_OP_CMP_ZP, ISA_OP_CMP_ZPX, ISA_OP_CPX_ABS, ISA_OP_CPX_I, ISA_OP_CPX_ZP, ISA_OP_CPY_ABS, ISA_OP_CPY_I, ISA_OP_CPY_ZP, ISA_OP_DEC_ABS, ISA_OP_DEC_ABSX, ISA_OP_DEC_ZP, ISA_OP_DEC_ZPX, ISA_OP_DEX, ISA_OP_DEY, ISA_OP_EOR_ABS, ISA_OP_EOR_ABSX, ISA_OP_EOR_ABSY, ISA_OP_EOR_I, ISA_OP_EOR_INDX, ISA_OP_EOR_INDY, ISA_OP_EOR_ZP, ISA_OP_EOR_ZPX, ISA_OP_INC_ABS, ISA_OP_INC_ABSX, ISA_OP_INC_ZP, ISA_OP_INC_ZPX, ISA_OP_INX, ISA_OP_INY, ISA_OP_JMP_ABS, ISA_OP_JMP_IND, ISA_OP_JSR, ISA_OP_LDA_ABS, ISA_OP_LDA_ABSX, ISA_OP_LDA_ABSY, ISA_OP_LDA_I, ISA_OP_LDA_INDX, ISA_OP_LDA_INDY, ISA_OP_LDA_Z, ISA_OP_LDA_ZX, ISA_OP_LDX_ABS, ISA_OP_LDX_ABSY, ISA_OP_LDX_I, ISA_OP_LDX_ZP, ISA_OP_LDX_ZPY, ISA_OP_LDY_ABS, ISA_OP_LDY_ABSX, ISA_OP_LDY_I, ISA_OP_LDY_ZP, ISA_OP_LDY_ZPX, ISA_OP_LSR_A, ISA_OP_LSR_ABS, ISA_OP_LSR_ABSX, ISA_OP_LSR_ZP, ISA_OP_LSR_ZPX, ISA_OP_NOP, ISA_OP_ORA_ABS, ISA_OP_ORA_ABSX, ISA_OP_ORA_ABSY, ISA_OP_ORA_I, ISA_OP_ORA_INDX, ISA_OP_ORA_INDY, ISA_OP_ORA_ZP, ISA_OP_ORA_ZPX, ISA_OP_PHA, ISA_OP_PHP, ISA_OP_PLA, ISA_OP_PLP, ISA_OP_ROL_A, ISA_OP_ROL_ABS, ISA_OP_ROL_ABSX, ISA_OP_ROL_ZP, ISA_OP_ROL_ZPX, ISA_OP_ROR_A, ISA_OP_ROR_ABS, ISA_OP_ROR_ABSX, ISA_OP_ROR_ZP, ISA_OP_ROR_ZPX, ISA_OP_RTI, ISA_OP_RTS, ISA_OP_SBC_ABS, ISA_OP_SBC_ABSX, ISA_OP_SBC_ABSY, ISA_OP_SBC_I, ISA_OP_SBC_INDX, ISA_OP_SBC_INDY, ISA_OP_SBC_ZP, ISA_OP_SBC_ZPX, ISA_OP_SEC, ISA_OP_SED, ISA_OP_SEI, ISA_OP_STA_ABS, ISA_OP_STA_ABSX, ISA_OP_STA_ABSY, ISA_OP_STA_INDX, ISA_OP_STA_INDY, ISA_OP_STA_ZP, ISA_OP_STA_ZPX, ISA_OP_STX_ABS, ISA_OP_STX_ZP, ISA_OP_STX_ZPY, ISA_OP_STY_ABS, ISA_OP_STY_ZP, ISA_OP_STY_ZPX, ISA_OP_TAX, ISA_OP_TAY, ISA_OP_TSX, ISA_OP_TXA, ISA_OP_TXS, ISA_OP_TYA};
use crate::constants::constants_isa_op::{
ISA_OP_ADC_ABS, ISA_OP_ADC_ABSX, ISA_OP_ADC_ABSY, ISA_OP_ADC_I, ISA_OP_ADC_INDX,
ISA_OP_ADC_INDY, ISA_OP_ADC_Z, ISA_OP_ADC_ZX, ISA_OP_AND_ABS, ISA_OP_AND_ABSX, ISA_OP_AND_ABSY,
ISA_OP_AND_I, ISA_OP_AND_INDX, ISA_OP_AND_INDY, ISA_OP_AND_Z, ISA_OP_AND_ZX, ISA_OP_ASL_A,
ISA_OP_ASL_ABS, ISA_OP_ASL_ABSX, ISA_OP_ASL_Z, ISA_OP_ASL_ZX, ISA_OP_BCC, ISA_OP_BCS,
ISA_OP_BEQ, ISA_OP_BIT_ABS, ISA_OP_BIT_ZP, ISA_OP_BMI, ISA_OP_BNE, ISA_OP_BPL, ISA_OP_BRK,
ISA_OP_BVC, ISA_OP_BVS, ISA_OP_CLC, ISA_OP_CLD, ISA_OP_CLI, ISA_OP_CLV, ISA_OP_CMP_ABS,
ISA_OP_CMP_ABSX, ISA_OP_CMP_ABSY, ISA_OP_CMP_I, ISA_OP_CMP_INDX, ISA_OP_CMP_INDY,
ISA_OP_CMP_ZP, ISA_OP_CMP_ZPX, ISA_OP_CPX_ABS, ISA_OP_CPX_I, ISA_OP_CPX_ZP, ISA_OP_CPY_ABS,
ISA_OP_CPY_I, ISA_OP_CPY_ZP, ISA_OP_DEC_ABS, ISA_OP_DEC_ABSX, ISA_OP_DEC_ZP, ISA_OP_DEC_ZPX,
ISA_OP_DEX, ISA_OP_DEY, ISA_OP_EOR_ABS, ISA_OP_EOR_ABSX, ISA_OP_EOR_ABSY, ISA_OP_EOR_I,
ISA_OP_EOR_INDX, ISA_OP_EOR_INDY, ISA_OP_EOR_ZP, ISA_OP_EOR_ZPX, ISA_OP_INC_ABS,
ISA_OP_INC_ABSX, ISA_OP_INC_ZP, ISA_OP_INC_ZPX, ISA_OP_INX, ISA_OP_INY, ISA_OP_JMP_ABS,
ISA_OP_JMP_IND, ISA_OP_JSR, ISA_OP_LDA_ABS, ISA_OP_LDA_ABSX, ISA_OP_LDA_ABSY, ISA_OP_LDA_I,
ISA_OP_LDA_INDX, ISA_OP_LDA_INDY, ISA_OP_LDA_Z, ISA_OP_LDA_ZX, ISA_OP_LDX_ABS, ISA_OP_LDX_ABSY,
ISA_OP_LDX_I, ISA_OP_LDX_ZP, ISA_OP_LDX_ZPY, ISA_OP_LDY_ABS, ISA_OP_LDY_ABSX, ISA_OP_LDY_I,
ISA_OP_LDY_ZP, ISA_OP_LDY_ZPX, ISA_OP_LSR_A, ISA_OP_LSR_ABS, ISA_OP_LSR_ABSX, ISA_OP_LSR_ZP,
ISA_OP_LSR_ZPX, ISA_OP_NOP, ISA_OP_ORA_ABS, ISA_OP_ORA_ABSX, ISA_OP_ORA_ABSY, ISA_OP_ORA_I,
ISA_OP_ORA_INDX, ISA_OP_ORA_INDY, ISA_OP_ORA_ZP, ISA_OP_ORA_ZPX, ISA_OP_PHA, ISA_OP_PHP,
ISA_OP_PLA, ISA_OP_PLP, ISA_OP_ROL_A, ISA_OP_ROL_ABS, ISA_OP_ROL_ABSX, ISA_OP_ROL_ZP,
ISA_OP_ROL_ZPX, ISA_OP_ROR_A, ISA_OP_ROR_ABS, ISA_OP_ROR_ABSX, ISA_OP_ROR_ZP, ISA_OP_ROR_ZPX,
ISA_OP_RTI, ISA_OP_RTS, ISA_OP_SBC_ABS, ISA_OP_SBC_ABSX, ISA_OP_SBC_ABSY, ISA_OP_SBC_I,
ISA_OP_SBC_INDX, ISA_OP_SBC_INDY, ISA_OP_SBC_ZP, ISA_OP_SBC_ZPX, ISA_OP_SEC, ISA_OP_SED,
ISA_OP_SEI, ISA_OP_STA_ABS, ISA_OP_STA_ABSX, ISA_OP_STA_ABSY, ISA_OP_STA_INDX, ISA_OP_STA_INDY,
ISA_OP_STA_ZP, ISA_OP_STA_ZPX, ISA_OP_STX_ABS, ISA_OP_STX_ZP, ISA_OP_STX_ZPY, ISA_OP_STY_ABS,
ISA_OP_STY_ZP, ISA_OP_STY_ZPX, ISA_OP_TAX, ISA_OP_TAY, ISA_OP_TSX, ISA_OP_TXA, ISA_OP_TXS,
ISA_OP_TYA,
};
use crate::op_info::OpInfo;
use crate::operation::Operation;
use crate::operation::Operation::*;
pub fn INSTRUCTION_CYCLES(instruction: u8) -> u8 {
INSTRUCTION_TABLE[instruction as usize].unwrap().cycles
}
@ -723,7 +749,7 @@ pub const INSTRUCTION_TABLE: [Option<OpInfo>; 256] = {
operation: Operation::ROR,
mode: AddressMode::Accumulator,
length: 1,
cycles: 2
cycles: 2,
});
table[ISA_OP_ROR_ZP as usize] = Some(OpInfo {
operation: Operation::ROR,
@ -996,4 +1022,4 @@ mod test {
defined_count
);
}
}
}

14
core/src/lib.rs
View File

@ -1,11 +1,11 @@
pub mod periph;
pub mod computers;
pub mod address_mode;
pub mod mos6502cpu;
pub mod instruction;
pub mod mos6502flags;
pub mod constants;
pub mod operation;
pub mod instruction;
pub mod instruction_table;
pub mod mos6502cpu;
pub mod mos6502flags;
pub mod op_info;
pub mod operand;
pub mod instruction_table;
pub mod computers;
pub mod operation;
pub mod periph;

388
core/src/mos6502cpu.rs → core/src/mos6502cpu/cpu.rs
View File

@ -1,44 +1,45 @@
use log::trace;
use crate::address_mode::AddressMode;
use crate::constants::constants_isa_op::ISA_OP_NOP;
use crate::constants::constants_system::*;
use crate::instruction::Instruction;
use crate::mos6502flags::{Mos6502Flag, Mos6502Flags};
use crate::instruction_table::INSTRUCTION_TABLE;
use crate::mos6502flags::Mos6502Flag::*;
use crate::mos6502flags::{Mos6502Flag, Mos6502Flags};
use crate::op_info::OpInfo;
use crate::operand::Operand;
use crate::operation::Operation;
use crate::constants::constants_system::*;
use crate::instruction_table::INSTRUCTION_TABLE;
use log::trace;
pub struct Mos6502Cpu {
memory: [u8; SIZE_64KB],
pub(crate) memory: [u8; SIZE_64KB],
/// accumulator
a: u8,
pub(crate) a: u8,
/// x register
x: u8,
pub(crate) x: u8,
/// y register
y: u8,
pub(crate) y: u8,
/// cpu flags
flags: Mos6502Flags,
pub(crate) flags: Mos6502Flags,
/// program counter
pub pc: u16,
/// stack offset
s: u8,
pub(crate) s: u8,
pub microcode_step: u8,
address_bus: u16,
data_bus: u8,
ir: Instruction, // Instruction Register
oi: OpInfo,
has_reset: bool,
iv: u16, // Interrupt Vector
cycle_carry: u16, // Value to hold between microsteps
ir_bytes: [u8; 4],
pub(crate) address_bus: u16,
pub(crate) data_bus: u8,
pub(crate) ir: Instruction, // Instruction Register
pub(crate) oi: OpInfo,
pub(crate) has_reset: bool,
pub(crate) iv: u16, // Interrupt Vector
pub(crate) cycle_carry: u16, // Value to hold between microsteps
pub(crate) ir_bytes: [u8; 4],
/// CPU Read signal
pub read_signal: bool
pub read_signal: bool,
pub(crate) reset_vector: u16,
pub(crate) int_vector: u16
}
impl Mos6502Cpu {
/// set_data_bus
///
/// Sets data on the data bus.
@ -71,7 +72,9 @@ impl Default for Mos6502Cpu {
iv: 0xfffe,
cycle_carry: 0x0000,
ir_bytes: [0x00; 4],
read_signal: true
read_signal: true,
reset_vector: 0x0000,
int_vector: 0x0000
};
working.reset_cpu();
working
@ -87,46 +90,27 @@ impl Mos6502Cpu {
self.data_bus
}
pub fn new() -> Mos6502Cpu {
let array = [0x00u8; SIZE_64KB];
let mut working = Mos6502Cpu {
memory: array,
ir_bytes: [0x00; 4],
..Default::default()
};
working.reset_cpu();
working
}
fn reset_cpu(&mut self) {
// self = &mut Mos6502Cpu::default();
println!("Should tick 7 times.");
// read the value at 0xfffc 0xfffd for our reset vector.
// read the value at 0xfffe 0xffff for our int vector
self.pc = self.read_word(&OFFSET_RESET_VECTOR);
println!("READ FROM {OFFSET_RESET_VECTOR} AND GOT {}", self.pc);
self.iv = self.read_word(&OFFSET_INT_VECTOR);
self.address_bus = self.pc;
self.read_signal = true;
println!("PC and IV are now set from ROM addresses / AB = {:016b}", self.address_bus);
}
fn read_word(&self, offset: &u16) -> u16 {
println!("READING OFFSET 0x{offset:04x} and 0x{:04x}", offset + 1);
let low = self.memory[*offset as usize];
let high = self.memory[*offset as usize + 1];
println!("LOW = 0x{low:02x} HIGH = 0x{high:02x}");
let result = (high as u16) << 8 | low as u16;
// println!("MEMORY: {:?}", self.memory);
println!("READ {result:04x}");
result
}
//
// fn read_word(&self, offset: &u16) -> u16 {
// println!("READING OFFSET 0x{offset:04x} and 0x{:04x}", offset + 1);
// let low = self.memory[*offset as usize];
// let high = self.memory[*offset as usize + 1];
// println!("LOW = 0x{low:02x} HIGH = 0x{high:02x}");
// let result = (high as u16) << 8 | low as u16;
// // println!("MEMORY: {:?}", self.memory);
// println!("READ {result:04x}");
// result
// }
pub fn peek_flag(&self, flag_to_read: Mos6502Flag) -> bool {
self.flags.flag(flag_to_read)
}
pub fn poke_flag(&mut self, flag_to_set: Mos6502Flag, new_value: bool) {
if new_value { self.flags.set_flag(flag_to_set) } else { self.flags.clear_flag(flag_to_set) }
if new_value {
self.flags.set_flag(flag_to_set)
} else {
self.flags.clear_flag(flag_to_set)
}
}
pub fn peek(&self, offset: u16) -> u8 {
@ -139,16 +123,16 @@ impl Mos6502Cpu {
}
pub fn peek_a(&self) -> u8 {
println!("Readding register A => 0x{:02x}", self.a);
self.a
}
pub fn poke_a(&mut self, new_a: u8) {
println!("Updating register A from [{}] to [{}]", self.a, new_a);
self.a = new_a;
println!("Updating register A from [{}] to [{}]", self.a, new_a);
self.a = new_a;
}
pub fn peek_x(&self) -> u8 {
println!("Readding register X => 0x{}", self.x);
self.x
}
@ -175,7 +159,6 @@ impl Mos6502Cpu {
/// Ticks the CPU
pub fn tick(&mut self) {
println!("PREPARiNG TO TICK CPU AT PC 0x{:04x}", self.pc);
if self.microcode_step == 0 {
println!("OUT OF MICROSTEPS. Decoding the next instruction");
@ -190,28 +173,27 @@ impl Mos6502Cpu {
// set the counter to the number of steps left
} else {
// run 1 microcode step
println!("Microstep {}/{} for {:?}", self.microcode_step, self.oi.cycles, self.ir.op);
println!(
"Microstep {}/{} for {:?}",
self.microcode_step, self.oi.cycles, self.ir.op
);
match self.ir.op {
Operation::ADC => {
match self.microcode_step {
1 => {
match self.ir.mode {
AddressMode::Immediate => {}
AddressMode::ZeroPage => {}
AddressMode::ZeroPageX => {}
AddressMode::Absolute => {}
AddressMode::AbsoluteX => {}
AddressMode::AbsoluteY => {}
AddressMode::Indirect => {}
AddressMode::IndirectX => {}
AddressMode::IndirectY => {}
_ => {}
}
},
2 => {},
Operation::ADC => match self.microcode_step {
1 => match self.ir.mode {
AddressMode::Immediate => {}
AddressMode::ZeroPage => {}
AddressMode::ZeroPageX => {}
AddressMode::Absolute => {}
AddressMode::AbsoluteX => {}
AddressMode::AbsoluteY => {}
AddressMode::Indirect => {}
AddressMode::IndirectX => {}
AddressMode::IndirectY => {}
_ => {}
}
}
},
2 => {}
_ => {}
},
Operation::AND => {}
Operation::ASL => {}
Operation::BCC => {}
@ -247,10 +229,8 @@ impl Mos6502Cpu {
AddressMode::ZeroPage => {
// read from
let offset = match self.ir.operand {
Operand::Byte(z) => {
z
}
_ => { 0x00 }
Operand::Byte(z) => z,
_ => 0x00,
};
trace!("READING FROM MEMORY AT 0x{offset:04x}");
self.memory[offset as usize]
@ -258,37 +238,29 @@ impl Mos6502Cpu {
}
AddressMode::ZeroPageX => {
let offset = match self.ir.operand {
Operand::Byte(z) => {
z
}
_ => { 0x00 }
Operand::Byte(z) => z,
_ => 0x00,
};
// self.memory.peek(offset + self.x);
self.memory[offset as usize]
}
AddressMode::Absolute => {
let offset = match self.ir.operand {
Operand::Word(offset) => {
offset
}
_ => { 0x00 }
Operand::Word(offset) => offset,
_ => 0x00,
};
// self.memory.peek(offset)
self.memory[offset as usize]
}
AddressMode::AbsoluteX => {
let offset = match self.ir.operand {
Operand::Word(offset) => {
offset
}
_ => { 0x00 }
Operand::Word(offset) => offset,
_ => 0x00,
};
// self.memory.peek(offset + self.x);
self.memory[offset as usize]
}
_ => {
0x00
}
_ => 0x00,
};
}
// DEC write memory
@ -310,8 +282,8 @@ impl Mos6502Cpu {
(self.y, _) = self.y.overflowing_sub(1);
}
}
Operation::EOR => { }
Operation::INC => { }
Operation::EOR => {}
Operation::INC => {}
Operation::INX => {
if self.microcode_step == 1 {
let (new_x, new_carry) = self.x.overflowing_add(1);
@ -328,75 +300,67 @@ impl Mos6502Cpu {
self.poke_flag(Carry, new_carry);
self.address_bus = self.pc;
self.data_bus = 0x00;
} }
Operation::JMP => {
match self.ir.operand {
Operand::Word(offset) => {
self.pc = offset;
self.address_bus = self.pc;
self.data_bus = 0x00;
}
_ => {}
}
}
Operation::JMP => match self.ir.operand {
Operand::Word(offset) => {
self.pc = offset;
self.address_bus = self.pc;
self.data_bus = 0x00;
}
_ => {}
},
Operation::JSR => {
// push pc to stack.
// jump to the subroutine.
}
Operation::LDA => {
match self.oi.mode {
AddressMode::Immediate => {
match self.ir.operand {
Operand::Byte(value) => {
println!("Loading 0x{value:02x} ({value}) into A");
self.a = value;
}
_ => {}
}
Operation::LDA => match self.oi.mode {
AddressMode::Immediate => match self.ir.operand {
Operand::Byte(value) => {
println!("Loading 0x{value:02x} ({value}) into A");
self.a = value;
}
AddressMode::ZeroPage => {
match self.ir.operand {
Operand::Byte(value) => {
println!("Loading from zero page at 0x{value:02x} ({value})");
self.a = self.memory[value as usize];
}
_ => {}
}
_ => {}
},
AddressMode::ZeroPage => match self.ir.operand {
Operand::Byte(value) => {
println!("Loading from zero page at 0x{value:02x} ({value})");
self.a = self.memory[value as usize];
}
AddressMode::ZeroPageX => {
match self.ir.operand {
Operand::Byte(value) => {
let x_offset = self.x;
self.a = self.memory[(value + x_offset) as usize];
}
_ => {}
}
_ => {}
},
AddressMode::ZeroPageX => match self.ir.operand {
Operand::Byte(value) => {
let x_offset = self.x;
self.a = self.memory[(value + x_offset) as usize];
}
AddressMode::Absolute => {
if let Operand::Word(offset) = self.ir.operand {
println!("Loading from absolute address 0x{offset:04x}");
self.a = self.memory[offset as usize];
}
}
AddressMode::AbsoluteX => {
if let Operand::Word(offset) = self.ir.operand {
self.a = self.memory[(offset + self.x as u16) as usize];
}
}
AddressMode::AbsoluteY => {
if let Operand::Word(offset) = self.ir.operand {
self.a = self.memory[(offset + self.y as u16) as usize];
}
}
AddressMode::Indirect => {}
AddressMode::IndirectX => {}
AddressMode::IndirectY => {}
_ => {
println!("INVALID ADDRESS MODE FOR LDA");
_ => {}
},
AddressMode::Absolute => {
if let Operand::Word(offset) = self.ir.operand {
println!("Loading from absolute address 0x{offset:04x}");
self.a = self.memory[offset as usize];
}
}
}
AddressMode::AbsoluteX => {
if let Operand::Word(offset) = self.ir.operand {
self.a = self.memory[(offset + self.x as u16) as usize];
}
}
AddressMode::AbsoluteY => {
if let Operand::Word(offset) = self.ir.operand {
let real_offset = offset + self.y as u16;
println!("offset: {offset:04x} + {:02x}", self.y);
self.a = self.memory[(offset + self.y as u16) as usize];
}
}
AddressMode::Indirect => {}
AddressMode::IndirectX => {}
AddressMode::IndirectY => {}
_ => {
println!("INVALID ADDRESS MODE FOR LDA");
}
},
Operation::LDX => {}
Operation::LDY => {}
Operation::LSR => {}
@ -501,13 +465,11 @@ impl Mos6502Cpu {
Operation::TAY => {
self.y = self.a;
}
Operation::TSX => {
}
Operation::TSX => {}
Operation::TXA => {
self.a = self.x;
}
Operation::TXS => {
}
Operation::TXS => {}
Operation::TYA => {
self.y = self.a;
}
@ -515,27 +477,13 @@ impl Mos6502Cpu {
self.microcode_step -= 1;
}
}
pub fn dump(&self) {
println!("CPU State: PC: {:04x} / A: {:02x} / X: {:02x} / Y: {:02x} / ADDRESS: {:04x} / DATA: {:02x} / MICROSTEPS: {:02x} / S: {}",
self.pc, self.a, self.x, self.y, self.address_bus, self.data_bus, self.microcode_step, self.flags.dump());
}
/// dump_data
///
/// returns
/// PC, A, X, Y, Address_Bus, Data_Bus, Microcode_Step
pub fn dump_data(&self) -> ( u16, u8, u8, u8, u16, u8, u8) {
(self.pc, self.a, self.x, self.y, self.address_bus, self.data_bus, self.microcode_step)
}
}
#[cfg(test)]
mod test {
use super::*;
use crate::constants::constants_isa_op::*;
use crate::instruction_table::{INSTRUCTION_CYCLES, INSTRUCTION_TABLE};
use super::*;
#[test]
fn clc() {
@ -548,7 +496,9 @@ mod test {
cpu.pc = 0x6000;
// Tick the CPU through the instruction
for _ in 0..INSTRUCTION_TABLE[ISA_OP_CLC as usize].unwrap().cycles { cpu.tick(); }
for _ in 0..INSTRUCTION_CYCLES(ISA_OP_CLC) {
cpu.tick();
}
assert!(!cpu.peek_flag(Carry));
}
@ -560,7 +510,9 @@ mod test {
cpu.memory[0x6000] = ISA_OP_CLD;
cpu.pc = 0x6000;
for _ in 0..INSTRUCTION_TABLE[ISA_OP_CLD as usize].unwrap().cycles { cpu.tick(); }
for _ in 0..INSTRUCTION_CYCLES(ISA_OP_CLD) {
cpu.tick();
}
assert!(!cpu.peek_flag(Decimal));
}
@ -572,10 +524,11 @@ mod test {
cpu.memory[0x6000] = ISA_OP_CLI;
cpu.pc = 0x6000;
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_CLI) { cpu.tick(); }
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_CLI) {
cpu.tick();
}
assert!(!cpu.peek_flag(Interrupt));
}
#[test]
@ -585,7 +538,9 @@ mod test {
cpu.memory[0x6000] = ISA_OP_CLV;
cpu.pc = 0x6000;
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_CLV) { cpu.tick(); }
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_CLV) {
cpu.tick();
}
assert!(!cpu.peek_flag(Overflow));
}
@ -597,7 +552,9 @@ mod test {
cpu.memory[0x6001] = 0xab;
cpu.pc = 0x6000;
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_LDA_I) { cpu.tick(); }
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_LDA_I) {
cpu.tick();
}
assert_eq!(cpu.a, 0xab);
}
@ -611,7 +568,9 @@ mod test {
cpu.memory[0x00ac] = 0xbe;
cpu.pc = 0x6000;
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_LDA_ZX) { cpu.tick(); };
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_LDA_ZX) {
cpu.tick();
}
// println!("MEMORY AT 0x00aa, ab, ac, ad, ae -> {:02x} {:02x} {:02x} {:02x} {:02x}", cpu.memory[0x00aa], cpu.memory[0x00ab], cpu.memory[0x00ac], cpu.memory[0x00ad], cpu.memory[0x00ae]);
// cpu.dump();
@ -630,7 +589,9 @@ mod test {
cpu.memory[0x00ab] = 0xbe;
cpu.pc = 0x6000;
for _ in 0..INSTRUCTION_CYCLES(ISA_OP_LDA_Z) { cpu.tick(); }
for _ in 0..INSTRUCTION_CYCLES(ISA_OP_LDA_Z) {
cpu.tick();
}
assert_eq!(cpu.a, 0xbe);
}
@ -644,7 +605,9 @@ mod test {
cpu.memory[0x0eef] = 0xab;
cpu.pc = 0x6000;
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_LDA_ABS) { cpu.tick(); }
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_LDA_ABS) {
cpu.tick();
}
assert_eq!(cpu.a, 0xab);
}
@ -659,7 +622,9 @@ mod test {
cpu.memory[0x0ef0] = 0xab;
cpu.pc = 0x6000;
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_LDA_ABSX) { cpu.tick(); }
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_LDA_ABSX) {
cpu.tick();
}
assert_eq!(cpu.a, 0xab);
}
@ -669,12 +634,14 @@ mod test {
let mut cpu = Mos6502Cpu::default();
cpu.memory[0x6000] = ISA_OP_LDA_ABSY;
cpu.memory[0x6001] = 0xef;
cpu.memory[0x6002] = 0xbe;
cpu.memory[0x6002] = 0x0e;
cpu.poke_y(0x01);
cpu.memory[0x0ef0] = 0xab;
cpu.pc = 0x6000;
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_LDA_ABSY) { cpu.tick(); }
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_LDA_ABSY) {
cpu.tick();
}
assert_eq!(cpu.a, 0xab);
}
@ -687,9 +654,13 @@ mod test {
cpu.memory[0x6001] = ISA_OP_INX;
cpu.pc = 0x6000;
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_DEX) { cpu.tick(); }
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_DEX) {
cpu.tick();
}
assert_eq!(0xaa, cpu.x);
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_INX) { cpu.tick(); }
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_INX) {
cpu.tick();
}
assert_eq!(0xab, cpu.x);
}
@ -701,9 +672,13 @@ mod test {
cpu.memory[0x6001] = ISA_OP_INY;
cpu.pc = 0x6000;
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_DEY) { cpu.tick(); }
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_DEY) {
cpu.tick();
}
assert_eq!(0xaa, cpu.peek_y());
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_INY) { cpu.tick(); }
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_INY) {
cpu.tick();
}
assert_eq!(0xab, cpu.peek_y());
}
@ -715,9 +690,28 @@ mod test {
cpu.memory[0x6001] = ISA_OP_ROR_A;
cpu.pc = 0x6000;
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_ROL_A) { cpu.tick(); }
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_ROL_A) {
cpu.tick();
}
assert_eq!(cpu.peek_a(), 0b0101_0101);
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_ROR_A) { cpu.tick(); }
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_ROR_A) {
cpu.tick();
}
assert_eq!(cpu.peek_a(), 0b1010_1010);
}
#[test]
fn rol_zp_ror_zp() {
let mut cpu = Mos6502Cpu::default();
cpu.memory[0x00ab] = 0b0101_0101;
cpu.memory[0x6000] = ISA_OP_ROL_ZP;
cpu.memory[0x6001] = 0xab;
cpu.pc = 0x6000;
for _ in 0..=INSTRUCTION_CYCLES(ISA_OP_ROL_ZP) {
cpu.tick();
}
assert_eq!(cpu.memory[0xab], 0b1010_1010);;
}
}

35
core/src/mos6502cpu/dbg.rs Normal file
View File

@ -0,0 +1,35 @@
use crate::mos6502cpu::cpu::Mos6502Cpu;
impl Mos6502Cpu {
/// dump_data
///
/// returns
/// PC, A, X, Y, Address_Bus, Data_Bus, Microcode_Step
pub fn dump_data(&self) -> (u16, u8, u8, u8, u16, u8, u8, u16, u16) {
(
self.pc,
self.a,
self.x,
self.y,
self.address_bus,
self.data_bus,
self.microcode_step,
self.reset_vector,
self.int_vector
)
}
pub fn dump(&self) {
println!(
"CPU State: PC: {:04x} / A: {:02x} / X: {:02x} / Y: {:02x} / ADDRESS: {:04x} / DATA: {:02x} / MICROSTEPS: {:02x} / S: {}",
self.pc,
self.a,
self.x,
self.y,
self.address_bus,
self.data_bus,
self.microcode_step,
self.flags.dump()
);
}
}

6
core/src/mos6502cpu/mod.rs Normal file
View File

@ -0,0 +1,6 @@
pub mod cpu;
pub mod new;
pub mod tick2;
mod dbg;
mod tick_stages;

26
core/src/mos6502cpu/new.rs Normal file
View File

@ -0,0 +1,26 @@
use crate::constants::constants_system::{OFFSET_RESET_VECTOR, SIZE_64KB};
use crate::mos6502cpu::cpu::Mos6502Cpu;
impl Mos6502Cpu {
pub fn new() -> Mos6502Cpu {
let array = [0x00u8; SIZE_64KB];
let mut working = Mos6502Cpu {
memory: array,
ir_bytes: [0x00; 4],
..Default::default()
};
working.reset_cpu();
working
}
pub(crate) fn reset_cpu(&mut self) {
self.microcode_step = 7 + 4;
// self = &mut Mos6502Cpu::default();
println!("Should tick 7 times, then 4 cycles to read the reset and int vectors.");
// read the value at 0xfffc 0xfffd for our reset vector.
// read the value at 0xfffe 0xffff for our int vector
}
}

64
core/src/mos6502cpu/tick2.rs Normal file
View File

@ -0,0 +1,64 @@
use crate::constants::constants_system::{OFFSET_INT_VECTOR, OFFSET_RESET_VECTOR};
use crate::mos6502cpu::cpu::Mos6502Cpu;
impl Mos6502Cpu {
/// AccurateTick
///
/// In: address_bus > Address of data operationm
/// data_bus > Data read or written
/// State:
/// read_bus > Flag for if cpu is reading or writing the data bus
/// cycle_step > Index for what step of the Decode->Load->Execute cycle we are in
/// Out: address_bus > address for operation
/// data_bus > data for the operation
/// read_bus > lets rest of the computer know if the CPU is reading from the address
/// provided or if we are writing to the address
pub fn tick2(&mut self, address_bus: u16, data_bus: u8) -> (u16, u8, bool) {
if self.has_reset {
// we have completed the reset cycle
if self.read_signal {
// we should see new data in the data_bus for us
let read_data = data_bus;
} else {
// we are writing to the bus.
}
} else {
println!("Reset microstep {}", self.microcode_step);
// we need to do the reset steps
// reduce the number of remaining microsteps
self.read_signal = true;
match self.microcode_step {
4 => {
// read first byte of reset vector
self.address_bus = OFFSET_RESET_VECTOR;
}
3 => {
// at this point data holds the upper byte of our reset vector
self.reset_vector = (data_bus as u16) << 8;
// read secondd byte of reset vector
self.address_bus = OFFSET_RESET_VECTOR + 1;
}
2 => {
self.reset_vector |= data_bus as u16;
println!("Loaded reset vector of 0x{:04x}", self.reset_vector);
// read first byte of interrupt vector
self.address_bus = OFFSET_INT_VECTOR;
}
1 => {
// read second byte of interrupt vector
self.address_bus = OFFSET_INT_VECTOR + 1;
}
0 => {
self.int_vector |= data_bus as u16;
println!("Loaded interrupt vector of 0x{:04x}", self.int_vector);
self.pc = self.reset_vector;
println!("Set PC to Reset Vector. Giddy-up!");
}
_ => {
}
}
self.microcode_step -= 1;
}
(self.address_bus, self.data_bus, self.read_signal)
}
}

19
core/src/mos6502cpu/tick_stages.rs Normal file
View File

@ -0,0 +1,19 @@
/// Mos6502TickStates
///
/// The set of what a tick can be doing
///
enum Mos6502TickStates {
/// Loading the first byte into the IR
LoadingInstruction,
/// Loading an 8 bit parameter
Loading8BitParameter,
/// Loading the MSB 8 bits
Loading16BitParameter1,
/// Loading the LSB 8 bits
Loading16BitParameter2,
/// Stalling for accurate emulation
Stall(u8),
/// Completed the instruction
Complete
}

65
core/src/mos6502flags.rs
View File

@ -1,4 +1,6 @@
use crate::mos6502flags::Mos6502Flag::{Break, Carry, Decimal, Interrupt, Negative, Overflow, Zero};
use crate::mos6502flags::Mos6502Flag::{
Break, Carry, Decimal, Interrupt, Negative, Overflow, Zero,
};
pub const BIT_NEGATIVE: u8 = 7;
pub const BIT_OVERFLOW: u8 = 6;
@ -59,7 +61,7 @@ impl Mos6502Flag {
Decimal => BIT_DECIMAL,
Break => BIT_BREAK,
Overflow => BIT_OVERFLOW,
Negative => BIT_NEGATIVE
Negative => BIT_NEGATIVE,
}
}
}
@ -77,14 +79,15 @@ pub struct Mos6502Flags {
impl Mos6502Flags {
pub fn dump(&self) -> String {
format!("{}{}{}{}{}{}{}",
if self.carry { 'C' } else { 'c' },
if self.zero { 'Z' } else { 'z' },
if self.interrupt { 'I' } else { 'i' },
if self.decimal { 'D' } else { 'd' },
if self.break_flag { 'B' } else { 'b' },
if self.overflow { 'O' } else { 'o' },
if self.negative { 'N' } else { 'n' }
format!(
"{}{}{}{}{}{}{}",
if self.carry { 'C' } else { 'c' },
if self.zero { 'Z' } else { 'z' },
if self.interrupt { 'I' } else { 'i' },
if self.decimal { 'D' } else { 'd' },
if self.break_flag { 'B' } else { 'b' },
if self.overflow { 'O' } else { 'o' },
if self.negative { 'N' } else { 'n' }
)
}
}
@ -113,7 +116,8 @@ impl Mos6502Flags {
Break => self.break_flag = false,
Overflow => self.overflow = false,
Negative => self.negative = false,
} }
}
}
fn change_flag(&mut self, flag_to_change: Mos6502Flag, new_value: bool) {
if new_value {
@ -139,25 +143,37 @@ impl Mos6502Flags {
pub fn as_byte(&self) -> u8 {
let mut working = 0x00;
if self.flag(Negative) { working += 1 << Negative.index(); }
if self.flag(Overflow) { working += 1 << Overflow.index(); }
working += 1 << 5; // Always Set
if self.flag(Break) { working += 1 << Break.index(); }
if self.flag(Decimal) { working += 1 << Decimal.index(); }
if self.flag(Interrupt) { working += 1 << Interrupt.index(); }
if self.flag(Zero) { working += 1 << Zero.index(); }
if self.flag(Carry) { working += 1 << Carry.index(); }
if self.flag(Negative) {
working += 1 << Negative.index();
}
if self.flag(Overflow) {
working += 1 << Overflow.index();
}
working += 1 << 5; // Always Set
if self.flag(Break) {
working += 1 << Break.index();
}
if self.flag(Decimal) {
working += 1 << Decimal.index();
}
if self.flag(Interrupt) {
working += 1 << Interrupt.index();
}
if self.flag(Zero) {
working += 1 << Zero.index();
}
if self.flag(Carry) {
working += 1 << Carry.index();
}
working
}
pub fn from_byte(src: u8) -> Self {
let mut working = Self::default();
working.change_flag(Negative, Self::bit(src, Negative.index()));
working.change_flag(Overflow, Self::bit(src, Overflow.index()));
working.change_flag(Overflow, Self::bit(src, Overflow.index()));
working.change_flag(Break, Self::bit(src, Break.index()));
working.change_flag(Decimal, Self::bit(src, Decimal.index()));
working.change_flag(Interrupt, Self::bit(src, Interrupt.index()));
@ -182,14 +198,15 @@ impl Mos6502Flags {
}
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn smoke() { assert!(true); }
fn smoke() {
assert!(true);
}
#[test]
fn sanity() {

3
core/src/operation.rs
View File

@ -356,5 +356,4 @@ pub enum Operation {
///
/// Addressing Modes: Implied
TYA,
}
}

12
core/src/periph/at28c256/default.rs
View File

@ -6,10 +6,10 @@ impl Default for At28C256 {
fn default() -> Self {
let vec = vec![0xea; SIZE_32KB];
let boxed_slice: Box<[u8]> = vec.into_boxed_slice();
let boxed_array: Box<[u8; SIZE_32KB]> = boxed_slice.try_into().expect("Failed to convert Vec to boxed array");
At28C256 {
data: boxed_array,
}
let boxed_array: Box<[u8; SIZE_32KB]> = boxed_slice
.try_into()
.expect("Failed to convert Vec to boxed array");
At28C256 { data: boxed_array }
}
}
@ -18,5 +18,7 @@ mod test {
use super::*;
#[test]
fn smoke() { assert!(true); }
fn smoke() {
assert!(true);
}
}

14
core/src/periph/at28c256/mod.rs
View File

@ -1,9 +1,10 @@
mod default;
mod rom_chip;
pub mod default;
pub mod rom_chip;
pub mod tick;
use std::io::Read;
use crate::constants::constants_system::SIZE_32KB;
use crate::periph::rom_chip::RomChip;
use std::io::Read;
/// At28C256
///
@ -25,8 +26,8 @@ impl At28C256 {
#[cfg(test)]
mod test {
use crate::constants::constants_system::SIZE_1KB;
use super::*;
use crate::constants::constants_system::SIZE_1KB;
#[test]
fn smoke() {
@ -40,9 +41,8 @@ mod test {
data.data[i] = 0xea;
}
for offset in 0..SIZE_32KB {
if offset.is_multiple_of(SIZE_1KB) {
};
assert_eq!(0xea, data.read(&(offset as u16)));
if offset.is_multiple_of(SIZE_1KB) {};
assert_eq!(0xea, data.read(&(offset as u16)));
}
}
}

9
core/src/periph/at28c256/rom_chip.rs
View File

@ -3,7 +3,6 @@ use crate::periph::at28c256::At28C256;
use crate::periph::rom_chip::RomChip;
impl RomChip for At28C256 {
fn read(&self, offset: &u16) -> u8 {
self.data[*offset as usize]
}
@ -21,7 +20,7 @@ mod test {
use super::*;
#[test]
fn smoke() { assert!(true); }
}
fn smoke() {
assert!(true);
}
}

31
core/src/periph/at28c256/tick.rs Normal file
View File

@ -0,0 +1,31 @@
use crate::periph::at28c256::At28C256;
use crate::periph::hm62256::Hm62256;
impl At28C256 {
fn tick(&mut self, address_bus: u16, data_bus: u8, read_mode: bool) -> (u16, u8) {
if !read_mode {
// has to be read mode. its a rom.
return (address_bus, data_bus)
}
(address_bus, self.data[address_bus as usize])
}
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn smoke() { assert!(true); }
#[test]
fn write_to_memory_read_back_works_at_0() {
let mut rom = At28C256::default();
rom.tick(0x0000, 0xab, false);
let (_, new_data) = rom.tick(0x0000, 0x00, true);
assert_eq!(new_data, 0xab);
}
}

45
core/src/periph/hm62256.rs → core/src/periph/hm62256/mod.rs
View File

@ -1,55 +1,40 @@
// HM62256 Static Ram
use log::debug;
pub mod ramchip;
pub mod romchip;
pub mod tick;
use crate::constants::constants_system::SIZE_32KB;
use crate::periph::ram_chip::RamChip;
use crate::periph::rom_chip::RomChip;
use log::debug;
pub struct Hm62256 {
pub(crate) base_offset: u16,
pub(crate) data: Box<[u8]>
pub(crate) data: Box<[u8]>,
}
impl Default for Hm62256 {
fn default() -> Self {
let vec = vec![0x00; SIZE_32KB];
let boxed_slice: Box<[u8]> = vec.into_boxed_slice();
let boxed_array: Box<[u8; SIZE_32KB]> = boxed_slice.try_into().expect("Unable to box the ram");
let boxed_array: Box<[u8; SIZE_32KB]> =
boxed_slice.try_into().expect("Unable to box the ram");
Hm62256 {
base_offset: 0x0000,
data: boxed_array
data: boxed_array,
}
}
}
impl RomChip for Hm62256 {
fn read(&self, offset: &u16) -> u8 {
// loops memory around past 32k
let effective = *offset as i32 % SIZE_32KB as i32;
self.data[effective as usize]
}
fn program(_: &[u8; SIZE_32KB]) -> Box<Self> {
debug!("Dont program ram.");
Hm62256::default().into()
}
}
impl RamChip for Hm62256 {
fn write(&mut self, offset: &u16, value: &u8) {
let effective = *offset as i32 % SIZE_32KB as i32;
println!("Writing at E[{effective:04x}] / O[{offset:04x}]");
self.data[effective as usize] = *value;
}
}
#[cfg(test)]
mod test {
use rand::random;
use super::*;
use rand::random;
#[test]
fn smoke() { assert!(true) }
fn smoke() {
assert!(true)
}
#[test]
fn written_data_comes_back() {
@ -58,8 +43,8 @@ mod test {
// 100,000 random read/writes to ram that all read back right
for _ in 0..100_000 {
let mut offset: u16 = random();
println!("SIze = {SIZE_32KB}");
let value: u8 =random();
println!("Size = {SIZE_32KB}");
let value: u8 = random();
println!("Wrote [{value:02x}] to [{offset:04x}]");
ram.write(&offset, &value);

12
core/src/periph/hm62256/ramchip.rs Normal file
View File

@ -0,0 +1,12 @@
use crate::constants::constants_system::SIZE_32KB;
use crate::periph::hm62256::Hm62256;
use crate::periph::ram_chip::RamChip;
impl RamChip for Hm62256 {
fn write(&mut self, offset: &u16, value: &u8) {
let effective = *offset as i32 % SIZE_32KB as i32;
println!("Writing at E[{effective:04x}] / O[{offset:04x}]");
self.data[effective as usize] = *value;
}
}

19
core/src/periph/hm62256/romchip.rs Normal file
View File

@ -0,0 +1,19 @@
use log::debug;
use crate::constants::constants_system::SIZE_32KB;
use crate::periph::hm62256::Hm62256;
use crate::periph::rom_chip::RomChip;
impl RomChip for Hm62256 {
fn read(&self, offset: &u16) -> u8 {
// loops memory around past 32k
let effective = *offset as i32 % SIZE_32KB as i32;
self.data[effective as usize]
}
fn program(_: &[u8; SIZE_32KB]) -> Box<Self> {
debug!("Dont program ram.");
Hm62256::default().into()
}
}

33
core/src/periph/hm62256/tick.rs Normal file
View File

@ -0,0 +1,33 @@
use crate::periph::hm62256::Hm62256;
impl Hm62256 {
fn tick(&mut self, address_bus: u16, data_bus: u8, read_mode: bool) -> (u16, u8) {
let new_data_bus = if read_mode {
// reading from ram
self.data[address_bus as usize]
} else {
// writing to ram
self.data[address_bus as usize] = data_bus.into();
data_bus
};
(address_bus, new_data_bus)
}
}
#[cfg(test)]
mod test {
use super::*;
#[test]
fn smoke() { assert!(true); }
#[test]
fn write_to_memory_read_back_works_at_0() {
let mut ram = Hm62256::default();
ram.tick(0x0000, 0xab, false);
let (_, new_data) = ram.tick(0x0000, 0x00, true);
assert_eq!(new_data, 0xab);
}
}

3
core/src/periph/mod.rs
View File

@ -1,6 +1,5 @@
pub mod rom_chip;
pub mod at28c256;
pub mod ram_chip;
pub mod hm62256;
pub mod ram_chip;

1
core/tests/execution_tests.rs
View File

@ -0,0 +1 @@

1
core/tests/instruction_encode_decode.rs
View File

@ -0,0 +1 @@

3
macroquad/Cargo.toml
View File

@ -4,4 +4,5 @@ version = "0.1.0"
edition = "2024"
[dependencies]
macroquad.workspace = true
macroquad.workspace = true
core = { path = "../core" }

31
macroquad/src/bin/rom_only.rs Normal file
View File

@ -0,0 +1,31 @@
use macroquad::prelude::*;
use core::computers::rom_only::backplane::Backplane;
pub struct UiState {
display_offset: u16,
current_offset: u16
}
#[macroquad::main("Rom_Only")]
async fn main() {
let mut backplane = Backplane::new();
let mut state = UiState { display_offset: 0x00, current_offset: 0x00 };
loop {
clear_background(BLUE);
draw_text("ROM ONLY", 20.0, 20.0, 30.0, DARKGRAY);
backplane.tick();
draw_text(
format!("Display Offset: 0x{:04x}", state.display_offset).as_str(), 20.0, 60.0, 30.0, DARKGRAY
);
draw_text(
format!("Current Offset: 0x{:04x}", state.current_offset).as_str(), 20.0, 100.0, 30.0, DARKGRAY
);
next_frame().await
}
}