use super::arm7tdmi::{Addr, Bus}; use super::dma::DmaController; use super::gpu::regs::WindowFlags; use super::gpu::*; use super::interrupt::InterruptController; use super::keypad; use super::sound::SoundController; use super::sysbus::BoxedMemory; use super::timer::Timers; use consts::*; #[derive(Debug, Clone, Copy, PartialEq)] pub enum HaltState { Running, Halt, // In Halt mode, the CPU is paused as long as (IE AND IF)=0, Stop, // In Stop mode, most of the hardware including sound and video are paused } pub struct IoDevices { pub intc: InterruptController, pub gpu: Gpu, pub sound: SoundController, pub timers: Timers, pub dmac: DmaController, pub keyinput: u16, pub post_boot_flag: bool, pub waitcnt: WaitControl, // TODO also implement 4000800 pub haltcnt: HaltState, mem: BoxedMemory, } impl IoDevices { pub fn new(gpu: Gpu, sound_controller: SoundController) -> IoDevices { IoDevices { gpu: gpu, sound: sound_controller, timers: Timers::new(), dmac: DmaController::new(), intc: InterruptController::new(), mem: BoxedMemory::new(vec![0; 0x800].into_boxed_slice()), post_boot_flag: false, haltcnt: HaltState::Running, keyinput: keypad::KEYINPUT_ALL_RELEASED, waitcnt: WaitControl(0), } } } impl Bus for IoDevices { fn read_32(&self, addr: Addr) -> u32 { (self.read_16(addr + 2) as u32) << 16 | (self.read_16(addr) as u32) } fn read_16(&self, addr: Addr) -> u16 { let io = self; let io_addr = addr + IO_BASE; if addr > 0x0800 { return 0; } match io_addr { REG_DISPCNT => io.gpu.dispcnt.0, REG_DISPSTAT => io.gpu.dispstat.0, REG_VCOUNT => io.gpu.vcount as u16, REG_BG0CNT => io.gpu.bg[0].bgcnt.0, REG_BG1CNT => io.gpu.bg[1].bgcnt.0, REG_BG2CNT => io.gpu.bg[2].bgcnt.0, REG_BG3CNT => io.gpu.bg[3].bgcnt.0, REG_WIN0H => ((io.gpu.win0.left as u16) << 8 | (io.gpu.win0.right as u16)), REG_WIN1H => ((io.gpu.win1.left as u16) << 8 | (io.gpu.win1.right as u16)), REG_WIN0V => ((io.gpu.win0.top as u16) << 8 | (io.gpu.win0.bottom as u16)), REG_WIN1V => ((io.gpu.win1.top as u16) << 8 | (io.gpu.win1.bottom as u16)), REG_WININ => { ((io.gpu.win1.flags.bits() as u16) << 8) | (io.gpu.win0.flags.bits() as u16) } REG_WINOUT => { ((io.gpu.winobj_flags.bits() as u16) << 8) | (io.gpu.winout_flags.bits() as u16) } REG_BLDCNT => io.gpu.bldcnt.0, REG_BLDALPHA => io.gpu.bldalpha.0, REG_IME => io.intc.interrupt_master_enable as u16, REG_IE => io.intc.interrupt_enable.0 as u16, REG_IF => io.intc.interrupt_flags.0 as u16, REG_TM0CNT_L..=REG_TM3CNT_H => io.timers.handle_read(io_addr), REG_SOUND1CNT_L..DMA_BASE => io.sound.handle_read(io_addr), REG_DMA0CNT_H => io.dmac.channels[0].ctrl.0, REG_DMA1CNT_H => io.dmac.channels[1].ctrl.0, REG_DMA2CNT_H => io.dmac.channels[2].ctrl.0, REG_DMA3CNT_H => io.dmac.channels[3].ctrl.0, REG_WAITCNT => io.waitcnt.0, REG_POSTFLG => io.post_boot_flag as u16, REG_HALTCNT => 0, REG_KEYINPUT => io.keyinput as u16, _ => { // println!( // "Unimplemented read from {:x} {}", // io_addr, // io_reg_string(io_addr) // ); 0 } } } fn read_8(&self, addr: Addr) -> u8 { let t = self.read_16(addr & !1); if addr & 1 != 0 { (t >> 8) as u8 } else { t as u8 } } fn write_32(&mut self, addr: Addr, value: u32) { self.write_16(addr, (value & 0xffff) as u16); self.write_16(addr + 2, (value >> 16) as u16); } fn write_16(&mut self, addr: Addr, value: u16) { let mut io = self; if addr > 0x0800 { return; } let io_addr = addr + IO_BASE; match io_addr { REG_DISPCNT => io.gpu.dispcnt.0 = value, REG_DISPSTAT => io.gpu.dispstat.0 |= value & !3, REG_BG0CNT => io.gpu.bg[0].bgcnt.0 = value, REG_BG1CNT => io.gpu.bg[1].bgcnt.0 = value, REG_BG2CNT => io.gpu.bg[2].bgcnt.0 = value, REG_BG3CNT => io.gpu.bg[3].bgcnt.0 = value, REG_BG0HOFS => io.gpu.bg[0].bghofs = value & 0x1ff, REG_BG0VOFS => io.gpu.bg[0].bgvofs = value & 0x1ff, REG_BG1HOFS => io.gpu.bg[1].bghofs = value & 0x1ff, REG_BG1VOFS => io.gpu.bg[1].bgvofs = value & 0x1ff, REG_BG2HOFS => io.gpu.bg[2].bghofs = value & 0x1ff, REG_BG2VOFS => io.gpu.bg[2].bgvofs = value & 0x1ff, REG_BG3HOFS => io.gpu.bg[3].bghofs = value & 0x1ff, REG_BG3VOFS => io.gpu.bg[3].bgvofs = value & 0x1ff, REG_BG2X_L => io.gpu.bg_aff[0].x |= (value as u32) as i32, REG_BG2X_H => io.gpu.bg_aff[0].x |= ((value as u32) << 16) as i32, REG_BG2Y_L => io.gpu.bg_aff[0].y |= (value as u32) as i32, REG_BG2Y_H => io.gpu.bg_aff[0].y |= ((value as u32) << 16) as i32, REG_BG3X_L => io.gpu.bg_aff[1].x |= (value as u32) as i32, REG_BG3X_H => io.gpu.bg_aff[1].x |= ((value as u32) << 16) as i32, REG_BG3Y_L => io.gpu.bg_aff[1].y |= (value as u32) as i32, REG_BG3Y_H => io.gpu.bg_aff[1].y |= ((value as u32) << 16) as i32, REG_BG2PA => io.gpu.bg_aff[0].pa = value as i16, REG_BG2PB => io.gpu.bg_aff[0].pb = value as i16, REG_BG2PC => io.gpu.bg_aff[0].pc = value as i16, REG_BG2PD => io.gpu.bg_aff[0].pd = value as i16, REG_BG3PA => io.gpu.bg_aff[1].pa = value as i16, REG_BG3PB => io.gpu.bg_aff[1].pb = value as i16, REG_BG3PC => io.gpu.bg_aff[1].pc = value as i16, REG_BG3PD => io.gpu.bg_aff[1].pd = value as i16, REG_WIN0H => { let right = value & 0xff; let left = value >> 8; io.gpu.win0.right = right as u8; io.gpu.win0.left = left as u8; } REG_WIN1H => { let right = value & 0xff; let left = value >> 8; io.gpu.win1.right = right as u8; io.gpu.win1.left = left as u8; } REG_WIN0V => { let bottom = value & 0xff; let top = value >> 8; io.gpu.win0.bottom = bottom as u8; io.gpu.win0.top = top as u8; } REG_WIN1V => { let bottom = value & 0xff; let top = value >> 8; io.gpu.win1.bottom = bottom as u8; io.gpu.win1.top = top as u8; } REG_WININ => { let value = value & !0xc0c0; io.gpu.win0.flags = WindowFlags::from(value & 0xff); io.gpu.win1.flags = WindowFlags::from(value >> 8); } REG_WINOUT => { let value = value & !0xc0c0; io.gpu.winout_flags = WindowFlags::from(value & 0xff); io.gpu.winobj_flags = WindowFlags::from(value >> 8); } REG_MOSAIC => io.gpu.mosaic.0 = value, REG_BLDCNT => io.gpu.bldcnt.0 = value, REG_BLDALPHA => io.gpu.bldalpha.0 = value, REG_BLDY => io.gpu.bldy = value & 0b11111, REG_IME => io.intc.interrupt_master_enable = value != 0, REG_IE => io.intc.interrupt_enable.0 = value, REG_IF => io.intc.interrupt_flags.0 &= !value, REG_TM0CNT_L..=REG_TM3CNT_H => io.timers.handle_write(io_addr, value), REG_SOUND1CNT_L..DMA_BASE => { io.sound.handle_write(io_addr, value); } DMA_BASE..=REG_DMA3CNT_H => { let ofs = io_addr - DMA_BASE; let channel_id = (ofs / 12) as usize; io.dmac.write_16(channel_id, ofs % 12, value) } REG_WAITCNT => io.waitcnt.0 = value, REG_POSTFLG => io.post_boot_flag = value != 0, REG_HALTCNT => { if value & 0x80 != 0 { io.haltcnt = HaltState::Stop; panic!("Can't handle HaltCtrl == Stop yet"); } else { io.haltcnt = HaltState::Halt; } } _ => { // println!( // "Unimplemented write to {:x} {}", // io_addr, // io_reg_string(io_addr) // ); } } } fn write_8(&mut self, addr: Addr, value: u8) { let t = self.read_16(addr & !1); let t = if addr & 1 != 0 { (t & 0xff) | (value as u16) << 8 } else { (t & 0xff00) | (value as u16) }; self.write_16(addr & !1, t); } } bitfield! { #[derive(Default, Copy, Clone, PartialEq)] pub struct WaitControl(u16); impl Debug; u16; sram_wait_control, _: 1, 0; pub ws0_first_access, _: 3, 2; pub ws0_second_access, _: 4, 4; pub ws1_first_access, _: 6, 5; pub ws1_second_access, _: 7, 7; pub ws2_first_access, _: 9, 8; pub ws2_second_access, _: 10, 10; #[allow(non_snake_case)] PHI_terminal_output, _: 12, 11; prefetch, _: 14; } #[rustfmt::skip] pub mod consts { use super::*; pub const IO_BASE: Addr = 0x0400_0000; pub const REG_DISPCNT: Addr = 0x0400_0000; // 2 R/W LCD Control pub const REG_GREENSWAP: Addr = 0x0400_0002; // 2 R/W Undocumented - Green Swap pub const REG_DISPSTAT: Addr = 0x0400_0004; // 2 R/W General LCD Status (STAT,LYC) pub const REG_VCOUNT: Addr = 0x0400_0006; // 2 R Vertical Counter (LY) pub const REG_BG0CNT: Addr = 0x0400_0008; // 2 R/W BG0 Control pub const REG_BG1CNT: Addr = 0x0400_000A; // 2 R/W BG1 Control pub const REG_BG2CNT: Addr = 0x0400_000C; // 2 R/W BG2 Control pub const REG_BG3CNT: Addr = 0x0400_000E; // 2 R/W BG3 Control pub const REG_BG0HOFS: Addr = 0x0400_0010; // 2 W BG0 X-Offset pub const REG_BG0VOFS: Addr = 0x0400_0012; // 2 W BG0 Y-Offset pub const REG_BG1HOFS: Addr = 0x0400_0014; // 2 W BG1 X-Offset pub const REG_BG1VOFS: Addr = 0x0400_0016; // 2 W BG1 Y-Offset pub const REG_BG2HOFS: Addr = 0x0400_0018; // 2 W BG2 X-Offset pub const REG_BG2VOFS: Addr = 0x0400_001A; // 2 W BG2 Y-Offset pub const REG_BG3HOFS: Addr = 0x0400_001C; // 2 W BG3 X-Offset pub const REG_BG3VOFS: Addr = 0x0400_001E; // 2 W BG3 Y-Offset pub const REG_BG2PA: Addr = 0x0400_0020; // 2 W BG2 Rotation/Scaling Parameter A (dx) pub const REG_BG2PB: Addr = 0x0400_0022; // 2 W BG2 Rotation/Scaling Parameter B (dmx) pub const REG_BG2PC: Addr = 0x0400_0024; // 2 W BG2 Rotation/Scaling Parameter C (dy) pub const REG_BG2PD: Addr = 0x0400_0026; // 2 W BG2 Rotation/Scaling Parameter D (dmy) pub const REG_BG2X_L: Addr = 0x0400_0028; // 4 W BG2 Reference Point X-Coordinate, lower 16 bit pub const REG_BG2X_H: Addr = 0x0400_002A; // 4 W BG2 Reference Point X-Coordinate, upper 16 bit pub const REG_BG2Y_L: Addr = 0x0400_002C; // 4 W BG2 Reference Point Y-Coordinate, lower 16 bit pub const REG_BG2Y_H: Addr = 0x0400_002E; // 4 W BG2 Reference Point Y-Coordinate, upper 16 bit pub const REG_BG3PA: Addr = 0x0400_0030; // 2 W BG3 Rotation/Scaling Parameter A (dx) pub const REG_BG3PB: Addr = 0x0400_0032; // 2 W BG3 Rotation/Scaling Parameter B (dmx) pub const REG_BG3PC: Addr = 0x0400_0034; // 2 W BG3 Rotation/Scaling Parameter C (dy) pub const REG_BG3PD: Addr = 0x0400_0036; // 2 W BG3 Rotation/Scaling Parameter D (dmy) pub const REG_BG3X_L: Addr = 0x0400_0038; // 4 W BG3 Reference Point X-Coordinate, lower 16 bit pub const REG_BG3X_H: Addr = 0x0400_003A; // 4 W BG3 Reference Point X-Coordinate, upper 16 bit pub const REG_BG3Y_L: Addr = 0x0400_003C; // 4 W BG3 Reference Point Y-Coordinate, lower 16 bit pub const REG_BG3Y_H: Addr = 0x0400_003E; // 4 W BG3 Reference Point Y-Coordinate, upper 16 bit pub const REG_WIN0H: Addr = 0x0400_0040; // 2 W Window 0 Horizontal Dimensions pub const REG_WIN1H: Addr = 0x0400_0042; // 2 W Window 1 Horizontal Dimensions pub const REG_WIN0V: Addr = 0x0400_0044; // 2 W Window 0 Vertical Dimensions pub const REG_WIN1V: Addr = 0x0400_0046; // 2 W Window 1 Vertical Dimensions pub const REG_WININ: Addr = 0x0400_0048; // 2 R/W Inside of Window 0 and 1 pub const REG_WINOUT: Addr = 0x0400_004A; // 2 R/W Inside of OBJ Window & Outside of Windows pub const REG_MOSAIC: Addr = 0x0400_004C; // 2 W Mosaic Size pub const REG_BLDCNT: Addr = 0x0400_0050; // 2 R/W Color Special Effects Selection pub const REG_BLDALPHA: Addr = 0x0400_0052; // 2 R/W Alpha Blending Coefficients pub const REG_BLDY: Addr = 0x0400_0054; // 2 W Brightness (Fade-In/Out) Coefficient pub const REG_SOUND1CNT_L: Addr = 0x0400_0060; // 2 R/W Channel 1 Sweep register (NR10) pub const REG_SOUND1CNT_H: Addr = 0x0400_0062; // 2 R/W Channel 1 Duty/Length/Envelope (NR11, NR12) pub const REG_SOUND1CNT_X: Addr = 0x0400_0064; // 2 R/W Channel 1 Frequency/Control (NR13, NR14) pub const REG_SOUND2CNT_L: Addr = 0x0400_0068; // 2 R/W Channel 2 Duty/Length/Envelope (NR21, NR22) pub const REG_SOUND2CNT_H: Addr = 0x0400_006C; // 2 R/W Channel 2 Frequency/Control (NR23, NR24) pub const REG_SOUND3CNT_L: Addr = 0x0400_0070; // 2 R/W Channel 3 Stop/Wave RAM select (NR30) pub const REG_SOUND3CNT_H: Addr = 0x0400_0072; // 2 R/W Channel 3 Length/Volume (NR31, NR32) pub const REG_SOUND3CNT_X: Addr = 0x0400_0074; // 2 R/W Channel 3 Frequency/Control (NR33, NR34) pub const REG_SOUND4CNT_L: Addr = 0x0400_0078; // 2 R/W Channel 4 Length/Envelope (NR41, NR42) pub const REG_SOUND4CNT_H: Addr = 0x0400_007C; // 2 R/W Channel 4 Frequency/Control (NR43, NR44) pub const REG_SOUNDCNT_L: Addr = 0x0400_0080; // 2 R/W Control Stereo/Volume/Enable (NR50, NR51) pub const REG_SOUNDCNT_H: Addr = 0x0400_0082; // 2 R/W Control Mixing/DMA Control pub const REG_SOUNDCNT_X: Addr = 0x0400_0084; // 2 R/W Control Sound on/off (NR52) pub const REG_SOUNDBIAS: Addr = 0x0400_0088; // 2 BIOS Sound PWM Control pub const REG_WAVE_RAM: Addr = 0x0400_0090; // Channel 3 Wave Pattern RAM (2 banks!!) pub const REG_FIFO_A: Addr = 0x0400_00A0; // 4 W Channel A FIFO, Data 0-3 pub const REG_FIFO_B: Addr = 0x0400_00A4; // 4 W Channel B FIFO, Data 0-3 pub const DMA_BASE: Addr = REG_DMA0SAD; pub const REG_DMA0SAD: Addr = 0x0400_00B0; // 4 W DMA 0 Source Address pub const REG_DMA0DAD: Addr = 0x0400_00B4; // 4 W DMA 0 Destination Address pub const REG_DMA0CNT_L: Addr = 0x0400_00B8; // 2 W DMA 0 Word Count pub const REG_DMA0CNT_H: Addr = 0x0400_00BA; // 2 R/W DMA 0 Control pub const REG_DMA1SAD: Addr = 0x0400_00BC; // 4 W DMA 1 Source Address pub const REG_DMA1DAD: Addr = 0x0400_00C0; // 4 W DMA 1 Destination Address pub const REG_DMA1CNT_L: Addr = 0x0400_00C4; // 2 W DMA 1 Word Count pub const REG_DMA1CNT_H: Addr = 0x0400_00C6; // 2 R/W DMA 1 Control pub const REG_DMA2SAD: Addr = 0x0400_00C8; // 4 W DMA 2 Source Address pub const REG_DMA2DAD: Addr = 0x0400_00CC; // 4 W DMA 2 Destination Address pub const REG_DMA2CNT_L: Addr = 0x0400_00D0; // 2 W DMA 2 Word Count pub const REG_DMA2CNT_H: Addr = 0x0400_00D2; // 2 R/W DMA 2 Control pub const REG_DMA3SAD: Addr = 0x0400_00D4; // 4 W DMA 3 Source Address pub const REG_DMA3DAD: Addr = 0x0400_00D8; // 4 W DMA 3 Destination Address pub const REG_DMA3CNT_L: Addr = 0x0400_00DC; // 2 W DMA 3 Word Count pub const REG_DMA3CNT_H: Addr = 0x0400_00DE; // 2 R/W DMA 3 Control pub const REG_TM0CNT_L: Addr = 0x0400_0100; // 2 R/W Timer 0 Counter/Reload pub const REG_TM0CNT_H: Addr = 0x0400_0102; // 2 R/W Timer 0 Control pub const REG_TM1CNT_L: Addr = 0x0400_0104; // 2 R/W Timer 1 Counter/Reload pub const REG_TM1CNT_H: Addr = 0x0400_0106; // 2 R/W Timer 1 Control pub const REG_TM2CNT_L: Addr = 0x0400_0108; // 2 R/W Timer 2 Counter/Reload pub const REG_TM2CNT_H: Addr = 0x0400_010A; // 2 R/W Timer 2 Control pub const REG_TM3CNT_L: Addr = 0x0400_010C; // 2 R/W Timer 3 Counter/Reload pub const REG_TM3CNT_H: Addr = 0x0400_010E; // 2 R/W Timer 3 Control pub const REG_SIODATA32: Addr = 0x0400_0120; // 4 R/W SIO Data (Normal-32bit Mode; shared with below) pub const REG_SIOMULTI0: Addr = 0x0400_0120; // 2 R/W SIO Data 0 (Parent) (Multi-Player Mode) pub const REG_SIOMULTI1: Addr = 0x0400_0122; // 2 R/W SIO Data 1 (1st Child) (Multi-Player Mode) pub const REG_SIOMULTI2: Addr = 0x0400_0124; // 2 R/W SIO Data 2 (2nd Child) (Multi-Player Mode) pub const REG_SIOMULTI3: Addr = 0x0400_0126; // 2 R/W SIO Data 3 (3rd Child) (Multi-Player Mode) pub const REG_SIOCNT: Addr = 0x0400_0128; // 2 R/W SIO Control Register pub const REG_SIOMLT_SEND: Addr = 0x0400_012A; // 2 R/W SIO Data (Local of MultiPlayer; shared below) pub const REG_SIODATA8: Addr = 0x0400_012A; // 2 R/W SIO Data (Normal-8bit and UART Mode) pub const REG_KEYINPUT: Addr = 0x0400_0130; // 2 R Key Status pub const REG_KEYCNT: Addr = 0x0400_0132; // 2 R/W Key Interrupt Control pub const REG_RCNT: Addr = 0x0400_0134; // 2 R/W SIO Mode Select/General Purpose Data pub const REG_IR: Addr = 0x0400_0136; // - - Ancient - Infrared Register (Prototypes only) pub const REG_JOYCNT: Addr = 0x0400_0140; // 2 R/W SIO JOY Bus Control pub const REG_JOY_RECV: Addr = 0x0400_0150; // 4 R/W SIO JOY Bus Receive Data pub const REG_JOY_TRANS: Addr = 0x0400_0154; // 4 R/W SIO JOY Bus Transmit Data pub const REG_JOYSTAT: Addr = 0x0400_0158; // 2 R/? SIO JOY Bus Receive Status pub const REG_IE: Addr = 0x0400_0200; // 2 R/W Interrupt Enable Register pub const REG_IF: Addr = 0x0400_0202; // 2 R/W Interrupt Request Flags / IRQ Acknowledge pub const REG_WAITCNT: Addr = 0x0400_0204; // 2 R/W Game Pak Waitstate Control pub const REG_IME: Addr = 0x0400_0208; // 2 R/W Interrupt Master Enable Register pub const REG_POSTFLG: Addr = 0x0400_0300; // 1 R/W Undocumented - Post Boot Flag pub const REG_HALTCNT: Addr = 0x0400_0301; // 1 W Undocumented - Power Down Control } pub fn io_reg_string(addr: u32) -> &'static str { match addr { REG_DISPCNT => "REG_DISPCNT", REG_DISPSTAT => "REG_DISPSTAT", REG_VCOUNT => "REG_VCOUNT", REG_BG0CNT => "REG_BG0CNT", REG_BG1CNT => "REG_BG1CNT", REG_BG2CNT => "REG_BG2CNT", REG_BG3CNT => "REG_BG3CNT", REG_BG0HOFS => "REG_BG0HOFS", REG_BG0VOFS => "REG_BG0VOFS", REG_BG1HOFS => "REG_BG1HOFS", REG_BG1VOFS => "REG_BG1VOFS", REG_BG2HOFS => "REG_BG2HOFS", REG_BG2VOFS => "REG_BG2VOFS", REG_BG3HOFS => "REG_BG3HOFS", REG_BG3VOFS => "REG_BG3VOFS", REG_BG2PA => "REG_BG2PA", REG_BG2PB => "REG_BG2PB", REG_BG2PC => "REG_BG2PC", REG_BG2PD => "REG_BG2PD", REG_BG2X_L => "REG_BG2X_L", REG_BG2X_H => "REG_BG2X_H", REG_BG2Y_L => "REG_BG2Y_L", REG_BG2Y_H => "REG_BG2Y_H", REG_BG3PA => "REG_BG3PA", REG_BG3PB => "REG_BG3PB", REG_BG3PC => "REG_BG3PC", REG_BG3PD => "REG_BG3PD", REG_BG3X_L => "REG_BG3X_L", REG_BG3X_H => "REG_BG3X_H", REG_BG3Y_L => "REG_BG3Y_L", REG_BG3Y_H => "REG_BG3Y_H", REG_WIN0H => "REG_WIN0H", REG_WIN1H => "REG_WIN1H", REG_WIN0V => "REG_WIN0V", REG_WIN1V => "REG_WIN1V", REG_WININ => "REG_WININ", REG_WINOUT => "REG_WINOUT", REG_MOSAIC => "REG_MOSAIC", REG_BLDCNT => "REG_BLDCNT", REG_BLDALPHA => "REG_BLDALPHA", REG_BLDY => "REG_BLDY", REG_SOUND1CNT_L => "REG_SOUND1CNT_L", REG_SOUND1CNT_H => "REG_SOUND1CNT_H", REG_SOUND1CNT_X => "REG_SOUND1CNT_X", REG_SOUND2CNT_L => "REG_SOUND2CNT_L", REG_SOUND2CNT_H => "REG_SOUND2CNT_H", REG_SOUND3CNT_L => "REG_SOUND3CNT_L", REG_SOUND3CNT_H => "REG_SOUND3CNT_H", REG_SOUND3CNT_X => "REG_SOUND3CNT_X", REG_SOUND4CNT_L => "REG_SOUND4CNT_L", REG_SOUND4CNT_H => "REG_SOUND4CNT_H", REG_SOUNDCNT_L => "REG_SOUNDCNT_L", REG_SOUNDCNT_H => "REG_SOUNDCNT_H", REG_SOUNDCNT_X => "REG_SOUNDCNT_X", REG_SOUNDBIAS => "REG_SOUNDBIAS", REG_WAVE_RAM => "REG_WAVE_RAM", REG_FIFO_A => "REG_FIFO_A", REG_FIFO_B => "REG_FIFO_B", REG_DMA0SAD => "REG_DMA0SAD", REG_DMA0DAD => "REG_DMA0DAD", REG_DMA0CNT_L => "REG_DMA0CNT_L", REG_DMA0CNT_H => "REG_DMA0CNT_H", REG_DMA1SAD => "REG_DMA1SAD", REG_DMA1DAD => "REG_DMA1DAD", REG_DMA1CNT_L => "REG_DMA1CNT_L", REG_DMA1CNT_H => "REG_DMA1CNT_H", REG_DMA2SAD => "REG_DMA2SAD", REG_DMA2DAD => "REG_DMA2DAD", REG_DMA2CNT_L => "REG_DMA2CNT_L", REG_DMA2CNT_H => "REG_DMA2CNT_H", REG_DMA3SAD => "REG_DMA3SAD", REG_DMA3DAD => "REG_DMA3DAD", REG_DMA3CNT_L => "REG_DMA3CNT_L", REG_DMA3CNT_H => "REG_DMA3CNT_H", REG_TM0CNT_L => "REG_TM0CNT_L", REG_TM0CNT_H => "REG_TM0CNT_H", REG_TM1CNT_L => "REG_TM1CNT_L", REG_TM1CNT_H => "REG_TM1CNT_H", REG_TM2CNT_L => "REG_TM2CNT_L", REG_TM2CNT_H => "REG_TM2CNT_H", REG_TM3CNT_L => "REG_TM3CNT_L", REG_TM3CNT_H => "REG_TM3CNT_H", REG_SIODATA32 => "REG_SIODATA32", REG_SIOMULTI0 => "REG_SIOMULTI0", REG_SIOMULTI1 => "REG_SIOMULTI1", REG_SIOMULTI2 => "REG_SIOMULTI2", REG_SIOMULTI3 => "REG_SIOMULTI3", REG_SIOCNT => "REG_SIOCNT", REG_SIOMLT_SEND => "REG_SIOMLT_SEND", REG_SIODATA8 => "REG_SIODATA8", REG_KEYINPUT => "REG_KEYINPUT", REG_KEYCNT => "REG_KEYCNT", REG_RCNT => "REG_RCNT", REG_IR => "REG_IR", REG_JOYCNT => "REG_JOYCNT", REG_JOY_RECV => "REG_JOY_RECV", REG_JOY_TRANS => "REG_JOY_TRANS", REG_JOYSTAT => "REG_JOYSTAT", REG_IE => "REG_IE", REG_IF => "REG_IF", REG_WAITCNT => "REG_WAITCNT", REG_IME => "REG_IME", REG_POSTFLG => "REG_POSTFLG", REG_HALTCNT => "REG_HALTCNT", _ => "UNKNOWN", } }