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compare: tatami:3e183d51ec4d9a62ff82eb22ac200e087b4dd385
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Author SHA1 Message Date
45Tatami 3e183d51ec implement more inc/dec variants and conditional jump
/ build (push) Successful in 23s Details
2024-04-12 22:00:50 +02:00
45Tatami 74b823aad6 implement post-inc/dec as part of ld 2024-04-12 19:27:29 +02:00
45Tatami 003daaf7a1 implement "and", "xor" 2024-04-12 17:53:28 +02:00
45Tatami a6e7572f72 renaming and formatting chores 2024-04-10 22:14:38 +02:00
2 changed files with 260 additions and 96 deletions
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203
src/emu.rs
View File

@ -21,6 +21,44 @@ pub struct GameBoy {
bp_manager: BreakPointManager, bp_manager: BreakPointManager,
} }
fn add(a: u8, b: u8) -> u8 {
if std::u8::MAX - b < a {
((a as u16 + b as u16) - std::u8::MAX as u16) as u8 - 1
} else {
a + b
}
}
fn sub(a: u8, b: u8) -> u8 {
if a < b {
std::u8::MAX - (b - a) + 1
} else {
a - b
}
}
fn add_inplace(a: &mut u8, b: u8) {
*a = add(*a, b)
}
fn sub_inplace(a: &mut u8, b: u8) {
*a = sub(*a, b)
}
enum Flag {
Z, N, H ,CY
}
fn flag_set(f: Flag, v: u8) -> bool {
use Flag::*;
match f {
Z => v << 0 >> 7 == 1,
N => v << 1 >> 6 == 1,
H => v << 2 >> 5 == 1,
CY => v << 3 >> 4 == 1,
}
}
impl GameBoy { impl GameBoy {
pub fn new() -> GameBoy { pub fn new() -> GameBoy {
GameBoy { GameBoy {
@ -34,10 +72,23 @@ impl GameBoy {
} }
} }
fn set(adr: u16, val: u8) { fn set(adr: u16, val: u8) {
// check for special registers // check for special registers
} }
fn set_flag(&mut self, f: Flag, v: bool) {
let r = &mut self.reg[Register::F];
let v = v as u8;
use Flag::*;
match f {
Z => *r = v << 7,
N => *r = v << 6,
H => *r = v << 5,
CY => *r = v << 4
}
}
fn set_fast(adr: u16, val: u8) { fn set_fast(adr: u16, val: u8) {
// no checks for special registers // no checks for special registers
} }
@ -108,69 +159,80 @@ impl GameBoy {
} }
} }
fn op_ld(&mut self, dst: Loc, src: Loc, modifier: i8) { fn op_ld(&mut self, dst: ValSrc, src: ValSrc, postOp: PostOp) {
let pc = self.pc as usize; let pc = self.pc as usize;
let (val, src_adr) = match src { let (src_ref, src_adr) = match src {
Loc::Reg(i) => (self.reg[i as usize], i as usize), ValSrc::Reg(i) => (&mut self.reg[i as usize], i as usize),
Loc::Val => (self.mem[pc + 1], 0), ValSrc::Direct => (&mut self.mem[pc + 1], 0),
Loc::Mem(ref src) => match src { ValSrc::Mem(ref src) => match src {
AddrLoc::Reg(reg) => { AddrLoc::Reg(reg) => {
let mem_loc = self.reg[*reg] as usize; let mem_loc = self.reg[*reg] as usize;
(self.mem[mem_loc], mem_loc) (&mut self.mem[mem_loc], mem_loc)
} }
AddrLoc::Mem => todo!(), AddrLoc::Direct => todo!(),
AddrLoc::Val => todo!(),
} }
Loc::HMem(_) => todo!(), ValSrc::HMem(_) => todo!(),
}; };
let val = *src_ref;
let src_str = src.repr(src_adr, val);
let (dst_ref, dst_adr) = match dst { let (dst_ref, dst_adr) = match dst {
Loc::Mem(ref src) => match src { ValSrc::Mem(ref src) => match src {
AddrLoc::Val => { AddrLoc::Direct => {
let adr = self.read16(pc) as usize; let adr = self.read16(pc) as usize;
(&mut self.mem[adr], adr) (&mut self.mem[adr], adr)
} }
_ => todo!(), AddrLoc::Reg(reg) => {
let adr = self.reg[*reg] as usize;
(&mut self.mem[adr], adr)
}
}, },
Loc::HMem(ref src) => match src { ValSrc::HMem(ref src) => match src {
AddrLoc::Val => { AddrLoc::Direct => {
let adr = self.mem[pc + 1] as usize + 0xFF00; let adr = self.mem[pc + 1] as usize + 0xFF00;
(&mut self.mem[adr], adr) (&mut self.mem[adr], adr)
} }
_ => todo!(), _ => todo!(),
}, },
Loc::Reg(r) => (&mut self.reg[r as usize], r as usize), ValSrc::Reg(r) => (&mut self.reg[r as usize], r as usize),
Loc::Val => panic!("val as destination should not be possible"), ValSrc::Direct => panic!("val as destination should not be possible"),
}; };
let dst_str = dst.repr(dst_adr, *dst_ref); let dst_str = dst.repr(dst_adr, *dst_ref);
let src_str = src.repr(src_adr, val);
println!("ld {dst_str} <- {src_str} + {modifier}");
*dst_ref = (val as i16 + modifier as i16) as u8; println!("ld {dst_str} <- {src_str}; post: {postOp:?}");
*dst_ref = val;
match postOp {
PostOp::None => (),
PostOp::Inc(reg) => add_inplace(&mut self.reg[reg], 1),
PostOp::Dec(reg) => sub_inplace(&mut self.reg[reg], 1),
}
} }
fn op_ld16(&mut self, dst: Loc, src: Loc) { fn op_ld16(&mut self, dst: ValSrc, src: ValSrc) {
let pc = self.pc as usize; let pc = self.pc as usize;
let (l, h) = match src { let (l, h) = match src {
Loc::Val => (self.mem[pc + 1], self.mem[pc + 2]), ValSrc::Direct => (self.mem[pc + 1], self.mem[pc + 2]),
_ => todo!(), _ => todo!(),
}; };
let dst_ref = match dst { let dst_ref = match dst {
Loc::Reg(reg) => { ValSrc::Reg(reg) => {
// FIXME assuming DD is a typo for DE... // FIXME assuming DD is a typo for DE...
let reg_loc = reg.into(); let reg_loc = reg.into();
&mut self.reg[reg_loc..=reg_loc + 1] &mut self.reg[reg_loc..=reg_loc + 1]
} }
Loc::Val => panic!("value as dst is not allowed!"), ValSrc::Direct => panic!("value as dst is not allowed!"),
_ => todo!(), _ => todo!(),
}; };
match dst { match dst {
Loc::Reg(_) => println!("ld16 {dst:6?} <- 0x{h:02x}{l:02x}"), ValSrc::Reg(_) => println!("ld16 {dst:6?} <- 0x{h:02x}{l:02x}"),
_ => panic!("print address"), _ => panic!("print address"),
} }
@ -185,9 +247,9 @@ impl GameBoy {
(hadr << 8) + ladr (hadr << 8) + ladr
} }
fn store16(&mut self, loc: Loc, _loc_val: u8, h: u8, l: u8) { fn store16(&mut self, loc: ValSrc, _loc_val: u8, h: u8, l: u8) {
match loc { match loc {
Loc::Reg(dst_reg) => { ValSrc::Reg(dst_reg) => {
let dst_reg: usize = dst_reg.into(); let dst_reg: usize = dst_reg.into();
self.reg[dst_reg] = h; self.reg[dst_reg] = h;
self.reg[dst_reg + 1] = l; self.reg[dst_reg + 1] = l;
@ -230,16 +292,34 @@ impl GameBoy {
let new_pc = self.read16(pc+1); let new_pc = self.read16(pc+1);
self.pc = new_pc; self.pc = new_pc;
println!("jp {pc:#06x}->{new_pc:#06x}"); println!("jp {pc:#06x}->{new_pc:#06x}");
// TODO remember cycle count!
return; return;
} }
Jr => { Jr(cond) => {
let jump = match cond {
JmpCond::None => true,
JmpCond::Flags(f) => {
let reg_f = self.reg[Register::F];
match f {
0b00 => !flag_set(Flag::Z, reg_f),
0b01 => flag_set(Flag::Z, reg_f),
0b10 => !flag_set(Flag::CY, reg_f),
0b11 => flag_set(Flag::CY, reg_f),
_ => panic!("invalid jump condition")
}
}
};
if jump {
let e = self.mem[pc + 1] as i8 + 2; let e = self.mem[pc + 1] as i8 + 2;
let old_pc = self.pc; let old_pc = self.pc;
let new_pc = (old_pc as i16 + e as i16) as u16; let new_pc = (old_pc as i16 + e as i16) as u16;
self.pc = new_pc; self.pc = new_pc;
println!("jr {new_pc:#06x} <- {old_pc:#06x} + {e}"); println!("jr {new_pc:#06x} <- {old_pc:#06x} + {e}");
// TODO remember cycle count 3 for jump, 2 for not!!!
return; return;
} }
}
Call => { Call => {
let sp = self.sp as usize; let sp = self.sp as usize;
self.mem[sp - 1] = ((pc+op.offs) >> 8) as u8; self.mem[sp - 1] = ((pc+op.offs) >> 8) as u8;
@ -273,26 +353,26 @@ impl GameBoy {
self.sp += 2; self.sp += 2;
println!("pop Reg({reg:#04b})"); println!("pop Reg({reg:#04b})");
} }
Inc(reg) => { Inc(dst) => {
self.reg[reg] += 1; match dst {
println!("Inc Reg({reg:#04b})"); ValSrc::Reg(reg) => add_inplace(&mut self.reg[reg], 1),
_ => todo!()
} }
Dec(reg) => { println!("Inc {dst:?}");
self.reg[reg as usize] -= 1;
println!("Dec Reg({reg:#04b})");
} }
Ld(dst, src) => self.op_ld(dst, src, 0), Dec(dst) => {
match dst {
ValSrc::Reg(reg) => sub_inplace(&mut self.reg[reg], 1),
_ => todo!()
}
println!("Dec {dst:?}");
}
Ld(dst, src, post_op) => self.op_ld(dst, src, post_op),
Ld16(dst, src) => self.op_ld16(dst, src), Ld16(dst, src) => self.op_ld16(dst, src),
LdInc(src) => { Bit(bit_op, src) => {
self.op_ld(Loc::Reg(Register::A), src, 1)
}
LdDec(src) => {
self.op_ld(Loc::Reg(Register::A), src, -1)
}
Or(src) => {
let v = match src { let v = match src {
Loc::Reg(r) => self.reg[r], ValSrc::Reg(r) => self.reg[r],
Loc::Mem(ref src) => { ValSrc::Mem(ref src) => {
let err_text = "Or Mem(Reg) only defined for register HR)"; let err_text = "Or Mem(Reg) only defined for register HR)";
let AddrLoc::Reg(src) = src else { let AddrLoc::Reg(src) = src else {
panic!("Invalid op: {err_text}"); panic!("Invalid op: {err_text}");
@ -300,11 +380,17 @@ impl GameBoy {
assert!(src == &Register::HL, "{err_text}"); assert!(src == &Register::HL, "{err_text}");
self.mem[self.reg[*src] as usize] self.mem[self.reg[*src] as usize]
}, },
Loc::Val => self.mem[pc+1], ValSrc::Direct => self.mem[pc+1],
_ => panic!("invalid command") _ => panic!("invalid command")
}; };
self.reg[Register::A] |= v;
println!("Or {src:?}"); let dst = &mut self.reg[Register::A];
match bit_op {
BitOp::Or => *dst |= v,
BitOp::And => *dst &= v,
BitOp::Xor => *dst ^= v,
}
println!("{bit_op:?} {src:?}");
} }
Di => println!("FIXME Di instruction not implemented"), Di => println!("FIXME Di instruction not implemented"),
} }
@ -313,3 +399,28 @@ impl GameBoy {
self.pc = pc as u16; self.pc = pc as u16;
} }
} }
#[cfg(test)]
mod tests {
// #[test]
// fn add_overflow() {
// use crate::emu::add;
// assert_eq!(add(1, 1), 2);
// assert_eq!(add(std::u8::MAX, 1), 0);
// assert_eq!(add(std::u8::MAX, 2), 1);
// assert_eq!(add(1, std::u8::MAX), 0);
// assert_eq!(add(std::u8::MAX - 3, 3), std::u8::MAX);
// assert_eq!(add(3, std::u8::MAX - 3), std::u8::MAX);
// }
// #[test]
// fn sub_underflow() {
// use crate::emu::sub;
// assert_eq!(sub(1, 1), 0);
// assert_eq!(sub(1, 2), std::u8::MAX);
// assert_eq!(sub(1, 3), std::u8::MAX - 1);
// }
}

141
src/op.rs
View File

@ -21,58 +21,66 @@ pub enum Instr {
Pop(Register), Pop(Register),
// Load // Load
Ld(Loc, Loc), Ld(ValSrc, ValSrc, PostOp),
Ld16(Loc, Loc), Ld16(ValSrc, ValSrc),
LdInc(Loc), // loads into A
LdDec(Loc), // loads into A
// Arith // Arith
// TODO can we do Inc16/Inc8 with one via Register::WIDE // TODO can we do Inc16/Inc8 with one via Register::WIDE
Inc(Register), Inc(ValSrc),
Dec(Register), Dec(ValSrc),
Or(Loc), // TODO all bit can probably be done with this one Bit(BitOp, ValSrc),
// CPU ctl // CPU ctl
Di, Di,
// Jump // Jump
Jp, Jp,
Jr, Jr(JmpCond),
Call, Call,
Ret, Ret,
} }
#[derive(Debug)] #[derive(Debug)]
pub enum AddrLoc { pub enum PostOp {
Reg(Register), None,
Mem, Inc(Register),
Val, Dec(Register)
} }
#[derive(Debug)] #[derive(Debug)]
pub enum Loc { // TODO this should probably be called ValSrc or similar pub enum AddrLoc {
Reg(Register),
Direct,
}
#[derive(Debug)]
pub enum ValSrc {
Reg(Register), // direct Reg(Register), // direct
Mem(AddrLoc), Mem(AddrLoc),
HMem(AddrLoc), HMem(AddrLoc),
Val, // TODO and then this Direct Direct,
}
#[derive(Debug)]
pub enum JmpCond {
None,
Flags(u8)
} }
#[derive(Debug, Copy, Clone, PartialEq)] #[derive(Debug, Copy, Clone, PartialEq)]
pub enum Register { pub enum Register {
A, A, F,
F, B, C,
B, D, E,
C, H, L,
D,
E,
H,
L,
// Double Width
AF, AF,
BC, BC,
DE, DE,
HL, HL,
// Misc
SP, SP,
} }
@ -140,12 +148,12 @@ impl fmt::Binary for Register {
} }
} }
impl Loc { impl ValSrc {
pub fn repr(&self, adr: usize, val: u8) -> String { pub fn repr(&self, adr: usize, val: u8) -> String {
match self { match self {
Loc::Reg(_) => format!("{self:6?}"), ValSrc::Reg(_) => format!("{self:6?}"),
Loc::Mem(_) | Loc::HMem(_) => format!("({adr:#06x})"), ValSrc::Mem(_) | ValSrc::HMem(_) => format!("({adr:#06x})"),
Loc::Val => format!("{val:#04x}"), ValSrc::Direct => format!("{val:#04x}"),
} }
} }
} }
@ -170,6 +178,13 @@ impl TryFrom<u8> for Register {
} }
} }
#[derive(Debug)]
pub enum BitOp {
Or,
And,
Xor
}
fn payload(v: u8) -> u8 { fn payload(v: u8) -> u8 {
(v & 0b110_000) >> 4 (v & 0b110_000) >> 4
} }
@ -179,29 +194,67 @@ impl TryFrom<u8> for Operation {
fn try_from(value: u8) -> Result<Self, Self::Error> { fn try_from(value: u8) -> Result<Self, Self::Error> {
use Instr::*; use Instr::*;
use Loc::*; use ValSrc::*;
use Register::*;
use BitOp::*;
let (inst, cycl, offs) = match value { let (inst, cycl, offs) = match value {
0b00_000_000 => (Nop, 1, 1), 0b00_000_000 => (Nop, 1, 1),
0b11_000_011 => (Jp, 4, 3), 0b11_000_011 => (Jp, 4, 3),
0b00_011_000 => (Jr, 3, 2), 0b00_011_000 => (Jr(JmpCond::None), 3, 2),
0b11_001_101 => (Call, 6, 3), 0b11_001_101 => (Call, 6, 3),
0b11_001_001 => (Ret, 4, 1), 0b11_001_001 => (Ret, 4, 1),
0b11_110_011 => (Di, 1, 1), 0b11_110_011 => (Di, 1, 1),
0b11_101_010 => (Ld(Mem(AddrLoc::Val), Reg(Register::A)), 4, 3), 0b11_101_010 =>
0b11_100_000 => (Ld(HMem(AddrLoc::Val), Reg(Register::A)), 3, 2), (Ld(Mem(AddrLoc::Direct), Reg(A), PostOp::None), 4, 3),
0b00_101_010 => (LdInc(Mem(AddrLoc::Reg(Register::HL))), 2, 1), 0b11_100_000 =>
0b00_111_010 => (LdDec(Mem(AddrLoc::Reg(Register::HL))), 2, 1), (Ld(HMem(AddrLoc::Direct), Reg(A), PostOp::None), 3, 2),
0b10_110_110 => (Or(Mem(AddrLoc::Reg(Register::HL))), 2, 1), 0b00_100_010 =>
0b11_110_110 => (Or(Val), 2, 1), (Ld(Mem(AddrLoc::Reg(HL)), Reg(A), PostOp::Inc(HL)), 2, 1),
0b00_101_010 =>
(Ld(Reg(A), Mem(AddrLoc::Reg(HL)), PostOp::Inc(HL)), 2, 1),
0b00_110_010 =>
(Ld(Mem(AddrLoc::Reg(HL)), Reg(A), PostOp::Dec(HL)), 2, 1),
0b00_111_010 =>
(Ld(Reg(A), Mem(AddrLoc::Reg(HL)), PostOp::Dec(HL)), 2, 1),
0b10_110_110 => (Bit(Or, Mem(AddrLoc::Reg(HL))), 2, 1),
0b10_101_110 => (Bit(Xor, Mem(AddrLoc::Reg(HL))), 2, 1),
0b10_100_110 => (Bit(And, Mem(AddrLoc::Reg(HL))), 2, 1),
0b11_110_110 => (Bit(Or, Direct), 2, 2), // TODO can bit be grouped via HD & T2?
0b11_101_110 => (Bit(Xor, Direct), 2, 2),
0b11_100_110 => (Bit(And, Direct), 2, 2),
_ if value & (HD_MSK | 0b100_000 | T2_MSK) == 0b00_100_000 => {
let cc = (value & 0b11_000) >> 3;
(Jr(JmpCond::Flags(cc)), 3, 2) // TODO cycle can be 2 or 3!
}
_ if (value & (HD_MSK | T1_MSK) == 0b10_110_000) => { _ if (value & (HD_MSK | T1_MSK) == 0b10_110_000) => {
(Or(Reg(Register::try_from(value & 0b111)?)), 1, 1) (Bit(Or, Reg(Register::try_from(value & 0b111)?)), 1, 1)
}
_ if (value & (HD_MSK | T1_MSK) == 0b10_101_000) => {
(Bit(Xor, Reg(Register::try_from(value & 0b111)?)), 1, 1)
}
_ if (value & (HD_MSK | T1_MSK) == 0b10_100_000) => {
(Bit(And, Reg(Register::try_from(value & 0b111)?)), 1, 1)
} }
_ if (value & (HD_MSK | 0b1_000 | T2_MSK) == 0b00_000_011) => { _ if (value & (HD_MSK | 0b1_000 | T2_MSK) == 0b00_000_011) => {
(Inc(Register::from16_rep(payload(value))), 2, 1) (Inc(Reg(Register::from16_rep(payload(value)))), 2, 1)
} }
_ if (value & (HD_MSK | 0b1_000 | T2_MSK) == 0b00_001_011) => { _ if (value & (HD_MSK | 0b1_000 | T2_MSK) == 0b00_001_011) => {
(Dec(Register::from16_rep(payload(value))), 2, 1) (Dec(Reg(Register::from16_rep(payload(value)))), 2, 1)
}
_ if (value & (HD_MSK | T2_MSK) == 0b00_000_100) => {
if (T1_MSK & value) == 0b110_000 {
(Inc(Mem(AddrLoc::Reg(HL))), 3, 1)
} else {
(Inc(Reg(Register::try_from((value & T1_MSK) >> 3)?)), 1, 1)
}
}
_ if (value & (HD_MSK | T2_MSK) == 0b00_000_101) => {
if (T1_MSK & value) == 0b110_000 {
(Dec(Mem(AddrLoc::Reg(HL))), 3, 1)
} else {
(Dec(Reg(Register::try_from((value & T1_MSK) >> 3)?)), 1, 1)
}
} }
_ if (value & (HD_MSK | 0b1_000 | T2_MSK) == 0b11_000_101) => { _ if (value & (HD_MSK | 0b1_000 | T2_MSK) == 0b11_000_101) => {
(Psh(Register::repr_psh(payload(value))), 4, 1) (Psh(Register::repr_psh(payload(value))), 4, 1)
@ -211,22 +264,22 @@ impl TryFrom<u8> for Operation {
} }
_ if (value & (HD_MSK | T2_MSK)) == 0b00_000_110 => { _ if (value & (HD_MSK | T2_MSK)) == 0b00_000_110 => {
let reg = Register::try_from((value & T1_MSK) >> 3)?; let reg = Register::try_from((value & T1_MSK) >> 3)?;
(Ld(Reg(reg), Val), 2, 2) (Ld(Reg(reg), Direct, PostOp::None), 2, 2)
} }
_ if (value & HD_MSK) == 0b01_000_000 => { _ if (value & HD_MSK) == 0b01_000_000 => {
let dst = Register::try_from((value & T1_MSK) >> 3)?; let dst = Register::try_from((value & T1_MSK) >> 3)?;
let src = Register::try_from(value & T2_MSK)?; let src = Register::try_from(value & T2_MSK)?;
(Ld(Reg(dst), Reg(src)), 1, 1) (Ld(Reg(dst), Reg(src), PostOp::None), 1, 1)
} }
_ if (value & (HD_MSK | 0b1_000 | T2_MSK)) == 0b00_000_001 => { _ if (value & (HD_MSK | 0b1_000 | T2_MSK)) == 0b00_000_001 => {
let reg = match payload(value) { let reg = match payload(value) {
0b00 => Register::B, 0b00 => B,
0b01 => Register::D, 0b01 => D,
0b10 => Register::H, 0b10 => H,
0b11 => Register::SP, 0b11 => SP,
val => return Err(format!("invalid register {val}")), val => return Err(format!("invalid register {val}")),
}; };
(Ld16(Reg(reg), Val), 3, 3) (Ld16(Reg(reg), Direct), 3, 3)
} }
_ => (Unimpl(value), 0, 0), _ => (Unimpl(value), 0, 0),
}; };