tmerritt/trevors_chip8_toy
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now passes the flags test rom

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This commit is contained in:
Trevor Merritt 2024-10-10 16:12:48 -04:00
parent e176ee5638
commit 4fc0bfd3d8
2 changed files with 47 additions and 44 deletions
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82
gemma/src/chip8/instructions.rs
View File

@ -141,19 +141,19 @@ impl Chip8CpuInstructions {
0x4000u16 | (*vx_register as u16) << 8 | *byte as u16 0x4000u16 | (*vx_register as u16) << 8 | *byte as u16
} }
Chip8CpuInstructions::SeVxVy(x_register, y_register) => { Chip8CpuInstructions::SeVxVy(x_register, y_register) => {
0x5000u16 | (*x_register as u16) << 8 | (*y_register as u16 )<< 4 0x5000u16 | (*x_register as u16) << 8 | (*y_register as u16) << 4
} }
Chip8CpuInstructions::LdVxByte(x_register, byte) => { Chip8CpuInstructions::LdVxByte(x_register, byte) => {
0x6000u16 | (*x_register as u16) << 8 | ( *byte as u16) 0x6000u16 | (*x_register as u16) << 8 | (*byte as u16)
} }
Chip8CpuInstructions::AddVxByte(x_register, byte) => { Chip8CpuInstructions::AddVxByte(x_register, byte) => {
0x7000u16 | (*x_register as u16) << 8 | *byte as u16 0x7000u16 | (*x_register as u16) << 8 | *byte as u16
} }
Chip8CpuInstructions::LdVxVy(x_register, y_register) => { Chip8CpuInstructions::LdVxVy(x_register, y_register) => {
0x8000u16 | (*x_register as u16) << 8 | (*y_register as u16 )<< 4 0x8000u16 | (*x_register as u16) << 8 | (*y_register as u16) << 4
} }
Chip8CpuInstructions::OrVxVy(x_register, y_register) => { Chip8CpuInstructions::OrVxVy(x_register, y_register) => {
0x8001u16 | (*x_register as u16 )<< 8 | (*y_register as u16) << 4 0x8001u16 | (*x_register as u16) << 8 | (*y_register as u16) << 4
} }
Chip8CpuInstructions::AndVxVy(x_register, y_register) => { Chip8CpuInstructions::AndVxVy(x_register, y_register) => {
0x8002u16 | (*x_register as u16) << 8 | (*y_register as u16) << 4 0x8002u16 | (*x_register as u16) << 8 | (*y_register as u16) << 4
@ -568,20 +568,16 @@ impl Chip8CpuInstructions {
// Set Vx = Vx SHR 1. // Set Vx = Vx SHR 1.
// SHIFT 1 Bit ----> // SHIFT 1 Bit ---->
// If the least-significant bit of Vx is 1, then VF is set to 1, otherwise 0. Then Vx is divided by 2. // If the least-significant bit of Vx is 1, then VF is set to 1, otherwise 0. Then Vx is divided by 2.
let initial_value = input.registers.peek(*x as u8); let initial_value = input.registers.peek(*x);
// overflow check // overflow check
let rotated = initial_value >> 1;
input.registers.poke(*x as u8, rotated);
if initial_value.bitand(0b1) == 1 { if initial_value.bitand(0b1) == 1 {
input.registers.poke(0x0f, 0x01); input.registers.poke(0x0f, 0x01);
} else { } else {
input.registers.poke(0x0f, 0x00); input.registers.poke(0x0f, 0x00);
} }
let rotated = initial_value >> 1;
println!("[{initial_value:80b}] / [{rotated:80b}]");
input.registers.poke(*x as u8, initial_value.shr(1));
} }
Chip8CpuInstructions::SubnVxVy(x, y) => { Chip8CpuInstructions::SubnVxVy(x, y) => {
// 8xy7 - SUBN Vx, Vy // 8xy7 - SUBN Vx, Vy
@ -592,15 +588,18 @@ impl Chip8CpuInstructions {
let x_register = input.registers.peek(*x as u8); let x_register = input.registers.peek(*x as u8);
let mut value_to_poke = 0; let mut value_to_poke = 0;
let new_value = if y_register <= x_register { let new_value = if y_register < x_register {
value_to_poke = (y_register as u16 + 256) - x_register as u16; value_to_poke = (y_register as u16 + 256) - x_register as u16;
1 } else {
value_to_poke = (y_register - x_register) as u16;
0 0
} else {
value_to_poke = (y_register - x_register) as u16;
1
}; };
println!("SUB CARRY -> REGISTER 1 = [0x{x:02x}] / [{x_register}] REGISTER 2 = [0x{y:02x}] / [{y_register}] SUB = {value_to_poke} CARRY = {new_value}");
input.registers.poke(*x, value_to_poke as u8);
input.registers.poke(0xf, new_value); input.registers.poke(0xf, new_value);
input.registers.poke(*x as u8, value_to_poke as u8);
} }
Chip8CpuInstructions::ShlVxVy(x, _) => { Chip8CpuInstructions::ShlVxVy(x, _) => {
@ -608,14 +607,16 @@ impl Chip8CpuInstructions {
// Set Vx = Vx SHL 1. // Set Vx = Vx SHL 1.
// //
// If the most-significant bit of Vx is 1, then VF is set to 1, otherwise to 0. Then Vx is multiplied by 2. // If the most-significant bit of Vx is 1, then VF is set to 1, otherwise to 0. Then Vx is multiplied by 2.
let initial_value = input.registers.peek(*x as u8); let initial_value = input.registers.peek(*x);
let rotated = initial_value.shl(1);
if 0b10000000 & initial_value == 0b10000000 { // overflow check
let rotated = initial_value << 1;
input.registers.poke(*x as u8, rotated);
if initial_value.bitand(0b10000000) == 0b10000000 {
input.registers.poke(0x0f, 0x01); input.registers.poke(0x0f, 0x01);
} else { } else {
input.registers.poke(0x0f, 0x00); input.registers.poke(0x0f, 0x00);
} }
input.registers.poke(*x as u8,rotated);
} }
Chip8CpuInstructions::SneVxVy(vx_register, vy_register) => { Chip8CpuInstructions::SneVxVy(vx_register, vy_register) => {
// 9xy0 - SNE Vx, Vy // 9xy0 - SNE Vx, Vy
@ -655,7 +656,7 @@ impl Chip8CpuInstructions {
let new_value: u8 = random(); let new_value: u8 = random();
input.registers.poke(*x as u8, new_value & *byte as u8) input.registers.poke(*x as u8, new_value & *byte as u8)
} }
Chip8CpuInstructions::DrawVxVyNibble(y,x, n) => { Chip8CpuInstructions::DrawVxVyNibble(y, x, n) => {
// Display n-byte sprite starting at memory location I at (Vx, Vy), set VF = collision. // Display n-byte sprite starting at memory location I at (Vx, Vy), set VF = collision.
// The interpreter reads n bytes from memory, starting at the address stored in I. // The interpreter reads n bytes from memory, starting at the address stored in I.
@ -683,7 +684,7 @@ impl Chip8CpuInstructions {
let current_byte = input.memory.peek(byte_index as u16 + source_memory_offset); let current_byte = input.memory.peek(byte_index as u16 + source_memory_offset);
println!("CHIP8CPUINSTRUCTION:DRAWVXNIBBLE -> READ BYTE [0x{byte_index:2x}]\t{current_byte:02x}\t{current_byte:08b}"); println!("CHIP8CPUINSTRUCTION:DRAWVXNIBBLE -> READ BYTE [0x{byte_index:2x}]\t{current_byte:02x}\t{current_byte:08b}");
for bit_index in 0..8 { for bit_index in 0..8 {
let data_offset = ((x_offset as u16 + byte_index as u16) * 64 ) + (y_offset + bit_index) as u16; let data_offset = ((x_offset as u16 + byte_index as u16) * 64) + (y_offset + bit_index) as u16;
let current_bit = (current_byte.shr(7 - bit_index) & 0x1u8) == 0x1u8; let current_bit = (current_byte.shr(7 - bit_index) & 0x1u8) == 0x1u8;
input.video_memory.poke(data_offset, current_bit); input.video_memory.poke(data_offset, current_bit);
} }
@ -1371,7 +1372,6 @@ mod test {
for (idx, value) in to_load.iter().enumerate() { for (idx, value) in to_load.iter().enumerate() {
assert_eq!(x.registers.peek(idx as u8), *value); assert_eq!(x.registers.peek(idx as u8), *value);
} }
} }
#[test] #[test]
@ -1529,24 +1529,28 @@ mod test {
// If the least-significant bit of Vx is 1, then VF is set to 1, // If the least-significant bit of Vx is 1, then VF is set to 1,
// otherwise 0. Then Vx is divided by 2. // otherwise 0. Then Vx is divided by 2.
let mut x = Chip8Computer::new(); let mut x = Chip8Computer::new();
// 0b10000000 -> 0b01000000 // 0b10101010 -> 0b01010101
let start_value = 0b10000000; x.registers.poke(0x01, 0b10101010);
let end_value = 0b01000000; x.registers.poke(0x0f, 0x0);
x.registers.poke(0x01, start_value);
Chip8CpuInstructions::ShrVxVy(0x01, 0x00).execute(&mut x);
assert_eq!(x.registers.peek(0x01), end_value);
assert_eq!(x.registers.peek(0x0f), 0);
// 0b00000001 -> 0b00000000 Chip8CpuInstructions::ShlVxVy(0x01, 0x00).execute(&mut x);
let start_value = 0b00000001; assert_eq!(x.registers.peek(0x01), 0b01010100);
let end_value = 0b00000000;
let mut x = Chip8Computer::new();
let start_value = 1;
x.registers.poke(0x01, start_value);
Chip8CpuInstructions::ShrVxVy(0x01, 0x00).execute(&mut x);
assert_eq!(x.registers.peek(0x01), end_value);
assert_eq!(x.registers.peek(0x0f), 1); assert_eq!(x.registers.peek(0x0f), 1);
let end_value = start_value / 2;
assert_eq!(end_value, 0); Chip8CpuInstructions::ShlVxVy(0x01, 0x00).execute(&mut x);
assert_eq!(x.registers.peek(0x01), 0b10101000);
assert_eq!(x.registers.peek(0x0f), 0x00);
Chip8CpuInstructions::ShlVxVy(0x01, 0x00).execute(&mut x);
assert_eq!(x.registers.peek(0x01), 0b01010000);
assert_eq!(x.registers.peek(0x0f), 0x01);
Chip8CpuInstructions::ShlVxVy(0x01, 0x00).execute(&mut x);
assert_eq!(x.registers.peek(0x01), 0b10100000);
assert_eq!(x.registers.peek(0x0f), 0x00);
Chip8CpuInstructions::ShlVxVy(0x01, 0x00).execute(&mut x);
assert_eq!(x.registers.peek(0x01), 0b01000000);
assert_eq!(x.registers.peek(0x0f), 0x01);
} }
} }

1
gemma/tests/computer_tests.rs
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@ -6,5 +6,4 @@ fn smoke() { assert!(true) }
#[test] #[test]
fn test_rom_1_works() { fn test_rom_1_works() {
let mut x = Chip8Computer::new(); let mut x = Chip8Computer::new();
} }