disassemble.rs: Update function names to match cpu.rs

This commit is contained in:
John 2023-03-29 23:46:57 -05:00
parent 6453a9f267
commit e54f66f6c4

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@ -87,15 +87,15 @@ impl Disassemble {
// | 2aaa | Pushes pc onto the stack, then jumps to a // | 2aaa | Pushes pc onto the stack, then jumps to a
0x2 => self.call(a), 0x2 => self.call(a),
// | 3xbb | Skips next instruction if register X == b // | 3xbb | Skips next instruction if register X == b
0x3 => self.skip_if_x_equal_byte(x, b), 0x3 => self.skip_equals_immediate(x, b),
// | 4xbb | Skips next instruction if register X != b // | 4xbb | Skips next instruction if register X != b
0x4 => self.skip_if_x_not_equal_byte(x, b), 0x4 => self.skip_not_equals_immediate(x, b),
// # Performs a register-register comparison // # Performs a register-register comparison
// |opcode| effect | // |opcode| effect |
// |------|------------------------------------| // |------|------------------------------------|
// | 9XY0 | Skip next instruction if vX == vY | // | 9XY0 | Skip next instruction if vX == vY |
0x5 => match n { 0x5 => match n {
0x0 => self.skip_if_x_equal_y(x, y), 0x0 => self.skip_equals(x, y),
_ => self.unimplemented(opcode), _ => self.unimplemented(opcode),
}, },
// 6xbb: Loads immediate byte b into register vX // 6xbb: Loads immediate byte b into register vX
@ -115,15 +115,15 @@ impl Disassemble {
// | 8xy7 | X = Y - X; Set vF=carry | // | 8xy7 | X = Y - X; Set vF=carry |
// | 8xyE | X = X << 1 | // | 8xyE | X = X << 1 |
0x8 => match n { 0x8 => match n {
0x0 => self.load_y_into_x(x, y), 0x0 => self.load(x, y),
0x1 => self.x_orequals_y(x, y), 0x1 => self.or(x, y),
0x2 => self.x_andequals_y(x, y), 0x2 => self.and(x, y),
0x3 => self.x_xorequals_y(x, y), 0x3 => self.xor(x, y),
0x4 => self.x_addequals_y(x, y), 0x4 => self.add(x, y),
0x5 => self.x_subequals_y(x, y), 0x5 => self.sub(x, y),
0x6 => self.shift_right_x(x), 0x6 => self.shift_right(x),
0x7 => self.backwards_subtract(x, y), 0x7 => self.backwards_sub(x, y),
0xE => self.shift_left_x(x), 0xE => self.shift_left(x),
_ => self.unimplemented(opcode), _ => self.unimplemented(opcode),
}, },
// # Performs a register-register comparison // # Performs a register-register comparison
@ -131,11 +131,11 @@ impl Disassemble {
// |------|------------------------------------| // |------|------------------------------------|
// | 9XY0 | Skip next instruction if vX != vY | // | 9XY0 | Skip next instruction if vX != vY |
0x9 => match n { 0x9 => match n {
0 => self.skip_if_x_not_equal_y(x, y), 0 => self.skip_not_equals(x, y),
_ => self.unimplemented(opcode), _ => self.unimplemented(opcode),
}, },
// Aaaa: Load address #a into register I // Aaaa: Load address #a into register I
0xa => self.load_indirect_register(a), 0xa => self.load_i_immediate(a),
// Baaa: Jump to &adr + v0 // Baaa: Jump to &adr + v0
0xb => self.jump_indexed(a), 0xb => self.jump_indexed(a),
// Cxbb: Stores a random number + the provided byte into vX // Cxbb: Stores a random number + the provided byte into vX
@ -149,8 +149,8 @@ impl Disassemble {
// | eX9e | Skip next instruction if key == #X | // | eX9e | Skip next instruction if key == #X |
// | eXa1 | Skip next instruction if key != #X | // | eXa1 | Skip next instruction if key != #X |
0xe => match b { 0xe => match b {
0x9e => self.skip_if_key_equals_x(x), 0x9e => self.skip_key_equals(x),
0xa1 => self.skip_if_key_not_x(x), 0xa1 => self.skip_key_not_equals(x),
_ => self.unimplemented(opcode), _ => self.unimplemented(opcode),
}, },
@ -167,15 +167,15 @@ impl Disassemble {
// | fX55 | DMA Stor from I to registers 0..X | // | fX55 | DMA Stor from I to registers 0..X |
// | fX65 | DMA Load from I to registers 0..X | // | fX65 | DMA Load from I to registers 0..X |
0xf => match b { 0xf => match b {
0x07 => self.get_delay_timer(x), 0x07 => self.load_delay_timer(x),
0x0A => self.wait_for_key(x), 0x0A => self.wait_for_key(x),
0x15 => self.load_delay_timer(x), 0x15 => self.store_delay_timer(x),
0x18 => self.load_sound_timer(x), 0x18 => self.store_sound_timer(x),
0x1E => self.add_to_indirect(x), 0x1E => self.add_to_indirect(x),
0x29 => self.load_sprite_x(x), 0x29 => self.load_sprite(x),
0x33 => self.bcd_convert_i(x), 0x33 => self.bcd_convert(x),
0x55 => self.dma_store(x), 0x55 => self.store_dma(x),
0x65 => self.dma_load(x), 0x65 => self.load_dma(x),
_ => self.unimplemented(opcode), _ => self.unimplemented(opcode),
}, },
_ => unreachable!("Extracted nibble from byte, got >nibble?"), _ => unreachable!("Extracted nibble from byte, got >nibble?"),
@ -212,19 +212,19 @@ impl Disassemble {
format!("call {a:03x}").style(self.normal).to_string() format!("call {a:03x}").style(self.normal).to_string()
} }
/// `3xbb`: Skips the next instruction if register X == b /// `3xbb`: Skips the next instruction if register X == b
pub fn skip_if_x_equal_byte(&self, x: Reg, b: u8) -> String { pub fn skip_equals_immediate(&self, x: Reg, b: u8) -> String {
format!("se #{b:02x}, v{x:X}") format!("se #{b:02x}, v{x:X}")
.style(self.normal) .style(self.normal)
.to_string() .to_string()
} }
/// `4xbb`: Skips the next instruction if register X != b /// `4xbb`: Skips the next instruction if register X != b
pub fn skip_if_x_not_equal_byte(&self, x: Reg, b: u8) -> String { pub fn skip_not_equals_immediate(&self, x: Reg, b: u8) -> String {
format!("sne #{b:02x}, v{x:X}") format!("sne #{b:02x}, v{x:X}")
.style(self.normal) .style(self.normal)
.to_string() .to_string()
} }
/// `5xy0`: Skips the next instruction if register X != register Y /// `5xy0`: Skips the next instruction if register X != register Y
pub fn skip_if_x_equal_y(&self, x: Reg, y: Reg) -> String { pub fn skip_equals(&self, x: Reg, y: Reg) -> String {
format!("se v{x:X}, v{y:X}") format!("se v{x:X}, v{y:X}")
.style(self.normal) .style(self.normal)
.to_string() .to_string()
@ -243,64 +243,64 @@ impl Disassemble {
.to_string() .to_string()
} }
/// `8xy0`: Loads the value of y into x /// `8xy0`: Loads the value of y into x
pub fn load_y_into_x(&self, x: Reg, y: Reg) -> String { pub fn load(&self, x: Reg, y: Reg) -> String {
format!("mov v{y:X}, v{x:X}") format!("mov v{y:X}, v{x:X}")
.style(self.normal) .style(self.normal)
.to_string() .to_string()
} }
/// `8xy1`: Performs bitwise or of vX and vY, and stores the result in vX /// `8xy1`: Performs bitwise or of vX and vY, and stores the result in vX
pub fn x_orequals_y(&self, x: Reg, y: Reg) -> String { pub fn or(&self, x: Reg, y: Reg) -> String {
format!("or v{y:X}, v{x:X}") format!("or v{y:X}, v{x:X}")
.style(self.normal) .style(self.normal)
.to_string() .to_string()
} }
/// `8xy2`: Performs bitwise and of vX and vY, and stores the result in vX /// `8xy2`: Performs bitwise and of vX and vY, and stores the result in vX
pub fn x_andequals_y(&self, x: Reg, y: Reg) -> String { pub fn and(&self, x: Reg, y: Reg) -> String {
format!("and v{y:X}, v{x:X}") format!("and v{y:X}, v{x:X}")
.style(self.normal) .style(self.normal)
.to_string() .to_string()
} }
/// `8xy3`: Performs bitwise xor of vX and vY, and stores the result in vX /// `8xy3`: Performs bitwise xor of vX and vY, and stores the result in vX
pub fn x_xorequals_y(&self, x: Reg, y: Reg) -> String { pub fn xor(&self, x: Reg, y: Reg) -> String {
format!("xor v{y:X}, v{x:X}") format!("xor v{y:X}, v{x:X}")
.style(self.normal) .style(self.normal)
.to_string() .to_string()
} }
/// `8xy4`: Performs addition of vX and vY, and stores the result in vX /// `8xy4`: Performs addition of vX and vY, and stores the result in vX
pub fn x_addequals_y(&self, x: Reg, y: Reg) -> String { pub fn add(&self, x: Reg, y: Reg) -> String {
format!("add v{y:X}, v{x:X}") format!("add v{y:X}, v{x:X}")
.style(self.normal) .style(self.normal)
.to_string() .to_string()
} }
/// `8xy5`: Performs subtraction of vX and vY, and stores the result in vX /// `8xy5`: Performs subtraction of vX and vY, and stores the result in vX
pub fn x_subequals_y(&self, x: Reg, y: Reg) -> String { pub fn sub(&self, x: Reg, y: Reg) -> String {
format!("sub v{y:X}, v{x:X}") format!("sub v{y:X}, v{x:X}")
.style(self.normal) .style(self.normal)
.to_string() .to_string()
} }
/// `8xy6`: Performs bitwise right shift of vX /// `8xy6`: Performs bitwise right shift of vX
pub fn shift_right_x(&self, x: Reg) -> String { pub fn shift_right(&self, x: Reg) -> String {
format!("shr v{x:X}").style(self.normal).to_string() format!("shr v{x:X}").style(self.normal).to_string()
} }
/// `8xy7`: Performs subtraction of vY and vX, and stores the result in vX /// `8xy7`: Performs subtraction of vY and vX, and stores the result in vX
pub fn backwards_subtract(&self, x: Reg, y: Reg) -> String { pub fn backwards_sub(&self, x: Reg, y: Reg) -> String {
format!("bsub v{y:X}, v{x:X}") format!("bsub v{y:X}, v{x:X}")
.style(self.normal) .style(self.normal)
.to_string() .to_string()
} }
/// 8X_E: Performs bitwise left shift of vX /// 8X_E: Performs bitwise left shift of vX
pub fn shift_left_x(&self, x: Reg) -> String { pub fn shift_left(&self, x: Reg) -> String {
format!("shl v{x:X}").style(self.normal).to_string() format!("shl v{x:X}").style(self.normal).to_string()
} }
/// `9xy0`: Skip next instruction if X != y /// `9xy0`: Skip next instruction if X != y
pub fn skip_if_x_not_equal_y(&self, x: Reg, y: Reg) -> String { pub fn skip_not_equals(&self, x: Reg, y: Reg) -> String {
format!("sne v{x:X}, v{y:X}") format!("sne v{x:X}, v{y:X}")
.style(self.normal) .style(self.normal)
.to_string() .to_string()
} }
/// Aadr: Load address #adr into register I /// Aadr: Load address #adr into register I
pub fn load_indirect_register(&self, a: Adr) -> String { pub fn load_i_immediate(&self, a: Adr) -> String {
format!("mov ${a:03x}, I").style(self.normal).to_string() format!("mov ${a:03x}, I").style(self.normal).to_string()
} }
/// Badr: Jump to &adr + v0 /// Badr: Jump to &adr + v0
@ -321,18 +321,18 @@ impl Disassemble {
.to_string() .to_string()
} }
/// `Ex9E`: Skip next instruction if key == #X /// `Ex9E`: Skip next instruction if key == #X
pub fn skip_if_key_equals_x(&self, x: Reg) -> String { pub fn skip_key_equals(&self, x: Reg) -> String {
format!("sek v{x:X}").style(self.normal).to_string() format!("sek v{x:X}").style(self.normal).to_string()
} }
/// `ExaE`: Skip next instruction if key != #X /// `ExaE`: Skip next instruction if key != #X
pub fn skip_if_key_not_x(&self, x: Reg) -> String { pub fn skip_key_not_equals(&self, x: Reg) -> String {
format!("snek v{x:X}").style(self.normal).to_string() format!("snek v{x:X}").style(self.normal).to_string()
} }
/// `Fx07`: Get the current DT, and put it in vX /// `Fx07`: Get the current DT, and put it in vX
/// ```py /// ```py
/// vX = DT /// vX = DT
/// ``` /// ```
pub fn get_delay_timer(&self, x: Reg) -> String { pub fn load_delay_timer(&self, x: Reg) -> String {
format!("mov DT, v{x:X}").style(self.normal).to_string() format!("mov DT, v{x:X}").style(self.normal).to_string()
} }
/// `Fx0A`: Wait for key, then vX = K /// `Fx0A`: Wait for key, then vX = K
@ -343,14 +343,14 @@ impl Disassemble {
/// ```py /// ```py
/// DT = vX /// DT = vX
/// ``` /// ```
pub fn load_delay_timer(&self, x: Reg) -> String { pub fn store_delay_timer(&self, x: Reg) -> String {
format!("mov v{x:X}, DT").style(self.normal).to_string() format!("mov v{x:X}, DT").style(self.normal).to_string()
} }
/// `Fx18`: Load vX into ST /// `Fx18`: Load vX into ST
/// ```py /// ```py
/// ST = vX; /// ST = vX;
/// ``` /// ```
pub fn load_sound_timer(&self, x: Reg) -> String { pub fn store_sound_timer(&self, x: Reg) -> String {
format!("mov v{x:X}, ST").style(self.normal).to_string() format!("mov v{x:X}, ST").style(self.normal).to_string()
} }
/// `Fx1e`: Add vX to I, /// `Fx1e`: Add vX to I,
@ -364,19 +364,19 @@ impl Disassemble {
/// ```py /// ```py
/// I = sprite(X); /// I = sprite(X);
/// ``` /// ```
pub fn load_sprite_x(&self, x: Reg) -> String { pub fn load_sprite(&self, x: Reg) -> String {
format!("font v{x:X}, I").style(self.normal).to_string() format!("font v{x:X}, I").style(self.normal).to_string()
} }
/// `Fx33`: BCD convert X into I`[0..3]` /// `Fx33`: BCD convert X into I`[0..3]`
pub fn bcd_convert_i(&self, x: Reg) -> String { pub fn bcd_convert(&self, x: Reg) -> String {
format!("bcd v{x:X}, &I").style(self.normal).to_string() format!("bcd v{x:X}, &I").style(self.normal).to_string()
} }
/// `Fx55`: DMA Stor from I to registers 0..X /// `Fx55`: DMA Stor from I to registers 0..X
pub fn dma_store(&self, x: Reg) -> String { pub fn store_dma(&self, x: Reg) -> String {
format!("dmao v{x:X}").style(self.normal).to_string() format!("dmao v{x:X}").style(self.normal).to_string()
} }
/// `Fx65`: DMA Load from I to registers 0..X /// `Fx65`: DMA Load from I to registers 0..X
pub fn dma_load(&self, x: Reg) -> String { pub fn load_dma(&self, x: Reg) -> String {
format!("dmai v{x:X}").style(self.normal).to_string() format!("dmai v{x:X}").style(self.normal).to_string()
} }
} }