#![feature(exclusive_range_pattern)]

mod processor;

use clap::{ArgGroup, Parser};
use minifb::{Window, WindowOptions};
use processor::{
    memory::{rom::ROM, Memory},
    Registers, CPU,
};
use std::{
    fs,
    io::{self, stdout, Write},
    sync::RwLock,
};

#[macro_export]
macro_rules! verbose_println {
    ($($tts:tt)*) => {
            if crate::is_verbose() {
                    println!($($tts)*);
            }
    };
}

#[macro_export]
macro_rules! verbose_print {
    ($($tts:tt)*) => {
            if crate::is_verbose() {
                    print!($($tts)*);
            }
    };
}

/// Simple program to greet a person
#[derive(Parser, Debug)]
#[command(author, version, about, long_about = None)]
#[command(group(ArgGroup::new("prints").args(["verbose","cycle_count"])))]
struct Args {
    /// ROM path
    #[arg(short, long)]
    rom: String,

    /// BootROM path
    #[arg(short, long)]
    bootrom: String,

    /// Just run BootROM
    #[arg(long)]
    run_bootrom: bool,

    /// Verbose print
    #[arg(short, long)]
    verbose: bool,

    /// Show cycle count
    #[arg(short, long)]
    cycle_count: bool,

    /// Step emulation by...
    #[arg(long)]
    step_by: Option<usize>,
}

fn cpu_ram_init(cpu: &mut CPU) {
    cpu.memory.set(0xFF10, 0x80);
    cpu.memory.set(0xFF11, 0xBF);
    cpu.memory.set(0xFF12, 0xF3);
    cpu.memory.set(0xFF14, 0xBF);
    cpu.memory.set(0xFF16, 0x3F);
    cpu.memory.set(0xFF19, 0xBF);
    cpu.memory.set(0xFF1A, 0x7F);
    cpu.memory.set(0xFF1B, 0xFF);
    cpu.memory.set(0xFF1C, 0x9F);
    cpu.memory.set(0xFF1E, 0xBF);
    cpu.memory.set(0xFF20, 0xFF);
    cpu.memory.set(0xFF23, 0xBF);
    cpu.memory.set(0xFF24, 0x77);
    cpu.memory.set(0xFF25, 0xF3);
    cpu.memory.set(0xFF26, 0xF1);
    cpu.memory.set(0xFF40, 0x91);
    cpu.memory.set(0xFF47, 0xFC);
    cpu.memory.set(0xFF48, 0xFF);
    cpu.memory.set(0xFF49, 0xFF);
}

static mut PAUSE_ENABLED: bool = false;
static mut PAUSE_QUEUED: bool = false;
// static mut VERBOSE: bool = false;
static VERBOSE: RwLock<bool> = RwLock::new(false);

const WIDTH: usize = 160;
const HEIGHT: usize = 144;
const FACTOR: usize = 3;

fn main() {
    let args = Args::parse();
    {
        let mut v = VERBOSE.write().unwrap();
        *v = args.verbose;
    }

    let mut window = Window::new(
        "Gameboy",
        WIDTH * FACTOR,
        HEIGHT * FACTOR,
        WindowOptions::default(),
    )
    .unwrap_or_else(|e| {
        panic!("{}", e);
    });

    window.set_position(500, 50);

    window.topmost(true);

    let rom: ROM = ROM::load(fs::read(args.rom).expect("Could not load ROM"));
    let bootrom: Vec<u8> = fs::read(args.bootrom).expect("Could not load BootROM");

    let mut cpu = CPU::new(Memory::init(bootrom, args.run_bootrom, rom), window);

    if !args.run_bootrom {
        cpu.reg.pc = 0x0100;
        cpu_ram_init(&mut cpu);
    }

    let mut cycle_num = 0;
    let mut instructions_seen = vec![];
    let mut last_state = cpu.reg.clone();
    let mut next_state = last_state;

    verbose_println!("\n\n    Begin execution...\n");
    match args.step_by {
        Some(step_size) => loop {
            for _ in 0..step_size {
                cycle_num += 1;
                if args.cycle_count {
                    print_cycles(&cycle_num);
                }
                run_cycle(
                    &mut cpu,
                    &mut next_state,
                    &mut last_state,
                    &mut instructions_seen,
                );
            }
            print!(
                "                       ...{} cycles - press enter to continue\r",
                cycle_num
            );
            stdout().flush().unwrap();
            pause_once();
        },
        None => loop {
            cycle_num += 1;
            if args.cycle_count {
                print_cycles(&cycle_num);
            }
            run_cycle(
                &mut cpu,
                &mut next_state,
                &mut last_state,
                &mut instructions_seen,
            );
        },
    }
}

fn run_cycle(
    cpu: &mut CPU,
    next_state: &mut Registers,
    last_state: &mut Registers,
    instructions_seen: &mut Vec<u8>,
) {
    let will_pause;
    unsafe {
        will_pause = PAUSE_QUEUED.clone();
    }
    cpu.exec_next();
    unsafe {
        *next_state = cpu.reg;
        if !PAUSE_ENABLED {
            if next_state.pc >= 0x100 {
                PAUSE_ENABLED = true;
            }
        }
        *last_state = *next_state;
        if will_pause {
            pause();
        }
    }
    match instructions_seen.contains(&cpu.last_instruction) {
        true => {}
        false => {
            // println!("new instruction enountered: {:#X}", cpu.last_instruction);
            instructions_seen.push(cpu.last_instruction);
        }
    }
}

fn pause() {
    unsafe {
        if PAUSE_ENABLED {
            let line = &mut String::new();
            io::stdin().read_line(line).unwrap();
            PAUSE_QUEUED = !line.contains("continue");
        }
    }
}

fn pause_once() {
    println!("paused...");
    io::stdin().read_line(&mut String::new()).unwrap();
}

fn print_cycles(cycles: &i32) {
    if *cycles % 45678 != 0 {
        return;
    }
    let instructions_per_second = 400000;
    print!(
        "cycle {} - approx {} seconds on real hardware\r",
        cycles,
        cycles / instructions_per_second
    );
    stdout().flush().unwrap();
}

fn is_verbose() -> bool {
    match VERBOSE.read() {
        Ok(v) => *v,
        Err(_) => false,
    }
}