Merge c58bba1f4c into 4847744518

Code Cleanup
This adds some new directives for clippy and fixes all warnings. Also updated the dependencies to their latest versions.
2024-04-26 10:04:00 +00:00 · 2024-04-26 12:03:56 +02:00
7 changed files with 166 additions and 93 deletions
--- a/.gitignore
+++ b/.gitignore
@ -66,3 +66,4 @@ TAGS.vi
 src/.DS_Store
 tmp.*.rs
 .vscode
 Cargo.lock
--- a/Cargo.toml
+++ b/Cargo.toml
@ -40,8 +40,8 @@ edition = "2021"
 name = "mos6502"
 [dependencies]
-bitflags = "2.3.3"
+bitflags = "2.5.0"
-log = "0.4.19"
+log = "0.4.21"
 [features]
 decimal_mode = []
--- a/src/cpu.rs
+++ b/src/cpu.rs
@ -47,6 +47,10 @@ where
 }
 impl<M: Bus, V: Variant> CPU<M, V> {
    // Allowing `needless_pass_by_value` to simplify construction. Passing by
    // value avoids the borrow and improves readability when constructing the
    // CPU.
    #[allow(clippy::needless_pass_by_value)]
    pub fn new(memory: M, _variant: V) -> CPU<M, V> {
        CPU {
            registers: Registers::new(),
@ -56,10 +60,23 @@ impl<M: Bus, V: Variant> CPU<M, V> {
    }
    pub fn reset(&mut self) {
-        //TODO: // should read some bytes from the stack and also get the PC from the reset vector
+        //TODO: should read some bytes from the stack and also get the PC from the reset vector
    }
    /// Get the next byte from memory and decode it into an instruction and addressing mode.
    ///
    /// # Panics
    ///
    /// This function will panic if the instruction is not recognized
    /// (i.e. the opcode is invalid or has not been implemented).
    pub fn fetch_next_and_decode(&mut self) -> Option<DecodedInstr> {
        // Helper function to read a 16-bit address from memory
        fn read_address<M: Bus>(mem: &mut M, addr: u16) -> [u8; 2] {
            let lo = mem.get_byte(addr);
            let hi = mem.get_byte(addr.wrapping_add(1));
            [lo, hi]
        }
        let x: u8 = self.memory.get_byte(self.registers.program_counter);
        match V::decode(x) {
@ -87,12 +104,6 @@ impl<M: Bus, V: Variant> CPU<M, V> {
                let memory = &mut self.memory;
                fn read_address<M: Bus>(mem: &mut M, addr: u16) -> [u8; 2] {
                    let lo = mem.get_byte(addr);
                    let hi = mem.get_byte(addr.wrapping_add(1));
                    [lo, hi]
                }
                let am_out = match am {
                    AddressingMode::Accumulator | AddressingMode::Implied => {
                        // Always the same -- no input
@ -213,24 +224,25 @@ impl<M: Bus, V: Variant> CPU<M, V> {
        }
    }
    #[allow(clippy::too_many_lines)]
    pub fn execute_instruction(&mut self, decoded_instr: DecodedInstr) {
        match decoded_instr {
            (Instruction::ADC, OpInput::UseImmediate(val)) => {
-                debug!("add with carry immediate: {}", val);
+                log::debug!("add with carry immediate: {}", val);
                self.add_with_carry(val);
            }
            (Instruction::ADC, OpInput::UseAddress(addr)) => {
                let val = self.memory.get_byte(addr);
-                debug!("add with carry. address: {:?}. value: {}", addr, val);
+                log::debug!("add with carry. address: {:?}. value: {}", addr, val);
                self.add_with_carry(val);
            }
            (Instruction::ADCnd, OpInput::UseImmediate(val)) => {
-                debug!("add with carry immediate: {}", val);
+                log::debug!("add with carry immediate: {}", val);
                self.add_with_no_decimal(val);
            }
            (Instruction::ADCnd, OpInput::UseAddress(addr)) => {
                let val = self.memory.get_byte(addr);
-                debug!("add with carry. address: {:?}. value: {}", addr, val);
+                log::debug!("add with carry. address: {:?}. value: {}", addr, val);
                self.add_with_no_decimal(val);
            }
@ -301,7 +313,7 @@ impl<M: Bus, V: Variant> CPU<M, V> {
            (Instruction::BMI, OpInput::UseRelative(rel)) => {
                let addr = self.registers.program_counter.wrapping_add(rel);
-                debug!("branch if minus relative. address: {:?}", addr);
+                log::debug!("branch if minus relative. address: {:?}", addr);
                self.branch_if_minus(addr);
            }
@ -317,7 +329,7 @@ impl<M: Bus, V: Variant> CPU<M, V> {
                self.push_on_stack(self.registers.status.bits());
                let pcl = self.memory.get_byte(0xfffe);
                let pch = self.memory.get_byte(0xffff);
-                self.jump(((pch as u16) << 8) | pcl as u16);
+                self.jump((u16::from(pch) << 8) | u16::from(pcl));
                self.registers.status.or(Status::PS_DISABLE_INTERRUPTS);
            }
@ -412,32 +424,32 @@ impl<M: Bus, V: Variant> CPU<M, V> {
            }
            (Instruction::LDA, OpInput::UseImmediate(val)) => {
-                debug!("load A immediate: {}", val);
+                log::debug!("load A immediate: {}", val);
                self.load_accumulator(val);
            }
            (Instruction::LDA, OpInput::UseAddress(addr)) => {
                let val = self.memory.get_byte(addr);
-                debug!("load A. address: {:?}. value: {}", addr, val);
+                log::debug!("load A. address: {:?}. value: {}", addr, val);
                self.load_accumulator(val);
            }
            (Instruction::LDX, OpInput::UseImmediate(val)) => {
-                debug!("load X immediate: {}", val);
+                log::debug!("load X immediate: {}", val);
                self.load_x_register(val);
            }
            (Instruction::LDX, OpInput::UseAddress(addr)) => {
                let val = self.memory.get_byte(addr);
-                debug!("load X. address: {:?}. value: {}", addr, val);
+                log::debug!("load X. address: {:?}. value: {}", addr, val);
                self.load_x_register(val);
            }
            (Instruction::LDY, OpInput::UseImmediate(val)) => {
-                debug!("load Y immediate: {}", val);
+                log::debug!("load Y immediate: {}", val);
                self.load_y_register(val);
            }
            (Instruction::LDY, OpInput::UseAddress(addr)) => {
                let val = self.memory.get_byte(addr);
-                debug!("load Y. address: {:?}. value: {}", addr, val);
+                log::debug!("load Y. address: {:?}. value: {}", addr, val);
                self.load_y_register(val);
            }
@ -527,32 +539,33 @@ impl<M: Bus, V: Variant> CPU<M, V> {
                self.registers.status = Status::from_bits_truncate(val);
                let pcl: u8 = self.pull_from_stack();
                let pch: u8 = self.fetch_from_stack();
-                self.registers.program_counter = ((pch as u16) << 8) | pcl as u16;
+                self.registers.program_counter = (u16::from(pch) << 8) | u16::from(pcl);
            }
            (Instruction::RTS, OpInput::UseImplied) => {
                self.pull_from_stack();
                let pcl: u8 = self.pull_from_stack();
                let pch: u8 = self.fetch_from_stack();
-                self.registers.program_counter = (((pch as u16) << 8) | pcl as u16).wrapping_add(1);
+                self.registers.program_counter =
                    ((u16::from(pch) << 8) | u16::from(pcl)).wrapping_add(1);
            }
            (Instruction::SBC, OpInput::UseImmediate(val)) => {
-                debug!("subtract with carry immediate: {}", val);
+                log::debug!("subtract with carry immediate: {}", val);
                self.subtract_with_carry(val);
            }
            (Instruction::SBC, OpInput::UseAddress(addr)) => {
                let val = self.memory.get_byte(addr);
-                debug!("subtract with carry. address: {:?}. value: {}", addr, val);
+                log::debug!("subtract with carry. address: {:?}. value: {}", addr, val);
                self.subtract_with_carry(val);
            }
            (Instruction::SBCnd, OpInput::UseImmediate(val)) => {
-                debug!("subtract with carry immediate: {}", val);
+                log::debug!("subtract with carry immediate: {}", val);
                self.subtract_with_no_decimal(val);
            }
            (Instruction::SBCnd, OpInput::UseAddress(addr)) => {
                let val = self.memory.get_byte(addr);
-                debug!("subtract with carry. address: {:?}. value: {}", addr, val);
+                log::debug!("subtract with carry. address: {:?}. value: {}", addr, val);
                self.subtract_with_no_decimal(val);
            }
@ -605,10 +618,10 @@ impl<M: Bus, V: Variant> CPU<M, V> {
            }
            (Instruction::NOP, OpInput::UseImplied) => {
-                debug!("NOP instruction");
+                log::debug!("NOP instruction");
            }
            (_, _) => {
-                debug!(
+                log::debug!(
                    "attempting to execute unimplemented or invalid \
                     instruction"
                );
@ -628,23 +641,23 @@ impl<M: Bus, V: Variant> CPU<M, V> {
        }
    }
-    fn set_flags_from_i8(status: &mut Status, value: i8) {
+    /// Checks if a given `u8` value should be interpreted as negative when
-        let is_zero = value == 0;
+    /// considered as `i8`.
-        let is_negative = value < 0;
+    ///
-
+    /// In an 8-bit unsigned integer (`u8`), values range from 0 to 255. When
-        status.set_with_mask(
+    /// these values are interpreted as signed integers (`i8`), values from 128
-            Status::PS_ZERO | Status::PS_NEGATIVE,
+    /// to 255 are considered negative, corresponding to the signed range -128
-            Status::new(StatusArgs {
+    /// to -1. This function checks if the provided `u8` value falls within that
-                zero: is_zero,
+    /// range, effectively determining if the most significant bit is set, which
-                negative: is_negative,
+    /// indicates a negative number in two's complement form.
-                ..StatusArgs::none()
+    /// ```
-            }),
+    const fn value_is_negative(value: u8) -> bool {
-        );
+        value > 127
    }
    fn set_flags_from_u8(status: &mut Status, value: u8) {
        let is_zero = value == 0;
-        let is_negative = value > 127;
+        let is_negative = Self::value_is_negative(value);
        status.set_with_mask(
            Status::PS_ZERO | Status::PS_NEGATIVE,
@ -668,7 +681,7 @@ impl<M: Bus, V: Variant> CPU<M, V> {
                ..StatusArgs::none()
            }),
        );
-        CPU::<M, V>::set_flags_from_i8(status, *p_val as i8);
+        CPU::<M, V>::set_flags_from_u8(status, *p_val);
    }
    fn shift_right_with_flags(p_val: &mut u8, status: &mut Status) {
@ -682,7 +695,7 @@ impl<M: Bus, V: Variant> CPU<M, V> {
                ..StatusArgs::none()
            }),
        );
-        CPU::<M, V>::set_flags_from_i8(status, *p_val as i8);
+        CPU::<M, V>::set_flags_from_u8(status, *p_val);
    }
    fn rotate_left_with_flags(p_val: &mut u8, status: &mut Status) {
@ -698,7 +711,7 @@ impl<M: Bus, V: Variant> CPU<M, V> {
                ..StatusArgs::none()
            }),
        );
-        CPU::<M, V>::set_flags_from_i8(status, *p_val as i8);
+        CPU::<M, V>::set_flags_from_u8(status, *p_val);
    }
    fn rotate_right_with_flags(p_val: &mut u8, status: &mut Status) {
@ -714,7 +727,7 @@ impl<M: Bus, V: Variant> CPU<M, V> {
                ..StatusArgs::none()
            }),
        );
-        CPU::<M, V>::set_flags_from_i8(status, *p_val as i8);
+        CPU::<M, V>::set_flags_from_u8(status, *p_val);
    }
    fn set_u8_with_flags(mem: &mut u8, status: &mut Status, value: u8) {
@ -747,7 +760,7 @@ impl<M: Bus, V: Variant> CPU<M, V> {
    }
    fn add_with_carry(&mut self, value: u8) {
-        fn decimal_adjust(result: u8) -> u8 {
+        const fn decimal_adjust(result: u8) -> u8 {
            let bcd1: u8 = if (result & 0x0f) > 0x09 { 0x06 } else { 0x00 };
            let bcd2: u8 = if (result.wrapping_add(bcd1) & 0xf0) > 0x90 {
@ -791,7 +804,7 @@ impl<M: Bus, V: Variant> CPU<M, V> {
        self.load_accumulator(result);
-        debug!("accumulator: {}", self.registers.accumulator);
+        log::debug!("accumulator: {}", self.registers.accumulator);
    }
    fn add_with_no_decimal(&mut self, value: u8) {
@ -823,7 +836,7 @@ impl<M: Bus, V: Variant> CPU<M, V> {
        self.load_accumulator(result);
-        debug!("accumulator: {}", self.registers.accumulator);
+        log::debug!("accumulator: {}", self.registers.accumulator);
    }
    fn and(&mut self, value: u8) {
@ -835,11 +848,7 @@ impl<M: Bus, V: Variant> CPU<M, V> {
        // A - M - (1 - C)
        // nc -- 'not carry'
-        let nc: u8 = if self.registers.status.contains(Status::PS_CARRY) {
+        let nc: u8 = u8::from(!self.registers.status.contains(Status::PS_CARRY));
            0
        } else {
            1
        };
        let a_before = self.registers.accumulator;
@ -881,11 +890,7 @@ impl<M: Bus, V: Variant> CPU<M, V> {
        // A - M - (1 - C)
        // nc -- 'not carry'
-        let nc: u8 = if self.registers.status.contains(Status::PS_CARRY) {
+        let nc: u8 = u8::from(!self.registers.status.contains(Status::PS_CARRY));
            0
        } else {
            1
        };
        let a_before = self.registers.accumulator;
@ -943,13 +948,12 @@ impl<M: Bus, V: Variant> CPU<M, V> {
        let value_new = val.wrapping_add(1);
        *val = value_new;
        let is_negative = (value_new as i8) < 0;
        let is_zero = value_new == 0;
        flags.set_with_mask(
            Status::PS_NEGATIVE | Status::PS_ZERO,
            Status::new(StatusArgs {
-                negative: is_negative,
+                negative: Self::value_is_negative(value_new),
                zero: is_zero,
                ..StatusArgs::none()
            }),
@ -960,14 +964,14 @@ impl<M: Bus, V: Variant> CPU<M, V> {
        let value_new = val.wrapping_sub(1);
        *val = value_new;
        let is_negative = (value_new as i8) < 0;
        let is_zero = value_new == 0;
        let is_negative = Self::value_is_negative(value_new);
        flags.set_with_mask(
            Status::PS_NEGATIVE | Status::PS_ZERO,
            Status::new(StatusArgs {
                negative: is_negative,
                zero: is_zero,
                negative: is_negative,
                ..StatusArgs::none()
            }),
        );
@ -1033,20 +1037,24 @@ impl<M: Bus, V: Variant> CPU<M, V> {
    //   ...
    //   The N flag contains most significant bit of the subtraction result.
    fn compare(&mut self, r: u8, val: u8) {
        // Setting the CARRY flag: A (unsigned) >= NUM (unsigned)
        if r >= val {
            self.registers.status.insert(Status::PS_CARRY);
        } else {
            self.registers.status.remove(Status::PS_CARRY);
        }
        // Setting the ZERO flag: A = NUM
        if r == val {
            self.registers.status.insert(Status::PS_ZERO);
        } else {
            self.registers.status.remove(Status::PS_ZERO);
        }
-        let diff: i8 = (r as i8).wrapping_sub(val as i8);
+        // Set the NEGATIVE flag based on the MSB of the result of subtraction
-        if diff < 0 {
+        // This checks if the 8th bit is set (0x80 in hex is 128 in decimal, which is the 8th bit in a byte)
        let diff = r.wrapping_sub(val);
        if Self::value_is_negative(diff) {
            self.registers.status.insert(Status::PS_NEGATIVE);
        } else {
            self.registers.status.remove(Status::PS_NEGATIVE);
@ -1059,7 +1067,7 @@ impl<M: Bus, V: Variant> CPU<M, V> {
    }
    fn compare_with_x_register(&mut self, val: u8) {
-        debug!("compare_with_x_register");
+        log::debug!("compare_with_x_register");
        let x = self.registers.index_x;
        self.compare(x, val);
@ -1112,6 +1120,11 @@ impl<M: Bus, V: Variant> core::fmt::Debug for CPU<M, V> {
 #[cfg(test)]
 mod tests {
    // Casting from signed to unsigned integers is intentional in these tests
    #![allow(clippy::cast_sign_loss)]
    // Operations may intentionally wrap due to emulation of 8-bit unsigned
    // integer arithmetic. We do this to test wrap-around conditions.
    #![allow(clippy::cast_possible_wrap)]
    use super::*;
    use crate::instruction::Nmos6502;
@ -1215,6 +1228,8 @@ mod tests {
        assert!(!cpu.registers.status.contains(Status::PS_NEGATIVE));
        assert!(!cpu.registers.status.contains(Status::PS_OVERFLOW));
        // Allow casting from i8 to u8; -127i8 wraps to 129u8, as intended for
        // two's complement arithmetic.
        cpu.add_with_carry(-127i8 as u8);
        assert_eq!(cpu.registers.accumulator, 0);
        assert!(cpu.registers.status.contains(Status::PS_CARRY));
--- a/src/instruction.rs
+++ b/src/instruction.rs
@ -107,7 +107,7 @@ pub enum Instruction {
    TYA,   // Transfer Y to Accumulator..... | N. ...Z. A            = Y
 }
-#[derive(Copy, Clone)]
+#[derive(Copy, Clone, Debug)]
 pub enum OpInput {
    UseImplied,
    UseImmediate(u8),
@ -115,7 +115,7 @@ pub enum OpInput {
    UseAddress(u16),
 }
-#[derive(Copy, Clone)]
+#[derive(Copy, Clone, Debug)]
 pub enum AddressingMode {
    // work directly on accumulator, e. g. `lsr a`.
    Accumulator,
@ -161,7 +161,8 @@ pub enum AddressingMode {
 }
 impl AddressingMode {
-    pub fn extra_bytes(self) -> u16 {
+    #[must_use]
    pub const fn extra_bytes(self) -> u16 {
        match self {
            AddressingMode::Accumulator => 0,
            AddressingMode::Implied => 0,
@ -184,6 +185,7 @@ impl AddressingMode {
 pub type DecodedInstr = (Instruction, OpInput);
 /// The NMOS 6502 variant. This one is present in the Commodore 64, early Apple IIs, etc.
 #[derive(Copy, Clone, Debug)]
 pub struct Nmos6502;
 impl crate::Variant for Nmos6502 {
@ -449,8 +451,9 @@ impl crate::Variant for Nmos6502 {
    }
 }
-/// The Ricoh variant which has no decimal mode. This is what to use if you want to emulate the
+/// The Ricoh variant which has no decimal mode. This is what to use if you want
-/// NES.
+/// to emulate the NES.
 #[derive(Copy, Clone, Debug)]
 pub struct Ricoh2a03;
 impl crate::Variant for Ricoh2a03 {
@ -479,10 +482,12 @@ impl crate::Variant for Ricoh2a03 {
 /// Emulates some very early 6502s which have no ROR instruction. This one is used in very early
 /// KIM-1s.
 #[derive(Copy, Clone, Debug)]
 pub struct RevisionA;
 impl crate::Variant for RevisionA {
    fn decode(opcode: u8) -> Option<(Instruction, AddressingMode)> {
        #[allow(clippy::match_same_arms)]
        match opcode {
            0x66 => None,
            0x6a => None,
@ -495,6 +500,7 @@ impl crate::Variant for RevisionA {
 }
 /// Emulates the 65C02, which has a few bugfixes, and another addressing mode
 #[derive(Copy, Clone, Debug)]
 pub struct Cmos6502;
 impl crate::Variant for Cmos6502 {
--- a/src/lib.rs
+++ b/src/lib.rs
@ -25,15 +25,29 @@
 // ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 // POSSIBILITY OF SUCH DAMAGE.
 #![warn(clippy::all, clippy::pedantic)]
 #![warn(
    absolute_paths_not_starting_with_crate,
    rustdoc::invalid_html_tags,
    missing_copy_implementations,
    missing_debug_implementations,
    semicolon_in_expressions_from_macros,
    unreachable_pub,
    unused_crate_dependencies,
    unused_extern_crates,
    variant_size_differences,
    clippy::missing_const_for_fn
 )]
 #![deny(anonymous_parameters, macro_use_extern_crate, pointer_structural_match)]
 #![allow(clippy::module_name_repetitions)]
 // Registers and ops follow the 6502 naming convention and have similar names at
 // times
 #![allow(clippy::similar_names)]
 #![allow(clippy::match_same_arms)]
 #![allow(clippy::too_many_lines)]
 #![no_std]
 #[doc = include_str!("../README.md")]
 #[macro_use]
 extern crate log;
 #[macro_use]
 extern crate bitflags;
 pub mod cpu;
 pub mod instruction;
 pub mod memory;
--- a/src/memory.rs
+++ b/src/memory.rs
@ -47,7 +47,7 @@ pub const IRQ_INTERRUPT_VECTOR_HI: u16 = 0xFFFF;
 const MEMORY_SIZE: usize = (ADDR_HI_BARE - ADDR_LO_BARE) as usize + 1usize;
 // FIXME: Should this use indirection for `bytes`?
-#[derive(Copy, Clone)]
+#[derive(Copy, Clone, Debug)]
 pub struct Memory {
    bytes: [u8; MEMORY_SIZE],
 }
@ -58,10 +58,37 @@ impl Default for Memory {
    }
 }
 /// Trait for a bus that can read and write bytes.
 ///
 /// This is used to abstract the memory and I/O operations of the CPU.
 ///
 /// # Examples
 ///
 /// ```
 /// use mos6502::memory::{Bus, Memory};
 ///
 /// let mut memory = Memory::new();
 /// memory.set_byte(0x0000, 0x12);
 /// assert_eq!(memory.get_byte(0x0000), 0x12);
 /// ```
 pub trait Bus {
    /// Returns the byte at the given address.
    fn get_byte(&mut self, address: u16) -> u8;
    /// Sets the byte at the given address to the given value.
    fn set_byte(&mut self, address: u16, value: u8);
    /// Sets the bytes starting at the given address to the given values.
    ///
    /// This is a default implementation that calls `set_byte` for each byte.
    ///
    /// # Note
    ///
    /// This assumes that the length of `values` is less than or equal to
    /// [`u16::MAX`] (65535). If the length of `values` is greater than `u16::MAX`,
    /// this will truncate the length. This assumption is made because the
    /// maximum addressable memory for the 6502 is 64KB.
    #[allow(clippy::cast_possible_truncation)]
    fn set_bytes(&mut self, start: u16, values: &[u8]) {
        for i in 0..values.len() as u16 {
            self.set_byte(start + i, values[i as usize]);
@ -70,7 +97,8 @@ pub trait Bus {
 }
 impl Memory {
-    pub fn new() -> Memory {
+    #[must_use]
    pub const fn new() -> Memory {
        Memory {
            bytes: [0; MEMORY_SIZE],
        }
@ -82,12 +110,14 @@ impl Bus for Memory {
        self.bytes[address as usize]
    }
-    // Sets the byte at the given address to the given value and returns the
+    /// Sets the byte at the given address to the given value and returns the
-    // previous value at the address.
+    /// previous value at the address.
    fn set_byte(&mut self, address: u16, value: u8) {
        self.bytes[address as usize] = value;
    }
    /// Fast way to set multiple bytes in memory when the underlying memory is a
    /// consecutive block of bytes.
    fn set_bytes(&mut self, start: u16, values: &[u8]) {
        let start = start as usize;
@ -103,7 +133,7 @@ mod tests {
    use super::*;
    #[test]
-    #[should_panic]
+    #[should_panic(expected = "range end index 65537 out of range for slice of length 65536")]
    fn test_memory_overflow_panic() {
        let mut memory = Memory::new();
        memory.set_bytes(0xFFFE, &[1, 2, 3]);
--- a/src/registers.rs
+++ b/src/registers.rs
@ -25,8 +25,11 @@
 // ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
 // POSSIBILITY OF SUCH DAMAGE.
 use bitflags::bitflags;
 // Useful for constructing Status instances
-#[derive(Copy, Clone)]
+#[derive(Copy, Clone, Debug)]
 #[allow(clippy::struct_excessive_bools)]
 pub struct StatusArgs {
    pub negative: bool,
    pub overflow: bool,
@ -39,7 +42,8 @@ pub struct StatusArgs {
 }
 impl StatusArgs {
-    pub fn none() -> StatusArgs {
+    #[must_use]
    pub const fn none() -> StatusArgs {
        StatusArgs {
            negative: false,
            overflow: false,
@ -71,6 +75,7 @@ bitflags! {
 }
 impl Status {
    #[must_use]
    pub fn new(
        StatusArgs {
            negative,
@ -86,28 +91,28 @@ impl Status {
        let mut out = Status::empty();
        if negative {
-            out |= Status::PS_NEGATIVE
+            out |= Status::PS_NEGATIVE;
        }
        if overflow {
-            out |= Status::PS_OVERFLOW
+            out |= Status::PS_OVERFLOW;
        }
        if unused {
-            out |= Status::PS_UNUSED
+            out |= Status::PS_UNUSED;
        }
        if brk {
-            out |= Status::PS_BRK
+            out |= Status::PS_BRK;
        }
        if decimal_mode {
-            out |= Status::PS_DECIMAL_MODE
+            out |= Status::PS_DECIMAL_MODE;
        }
        if disable_interrupts {
-            out |= Status::PS_DISABLE_INTERRUPTS
+            out |= Status::PS_DISABLE_INTERRUPTS;
        }
        if zero {
-            out |= Status::PS_ZERO
+            out |= Status::PS_ZERO;
        }
        if carry {
-            out |= Status::PS_CARRY
+            out |= Status::PS_CARRY;
        }
        out
@ -146,7 +151,8 @@ impl Default for Status {
 pub struct StackPointer(pub u8);
 impl StackPointer {
-    pub fn to_u16(self) -> u16 {
+    #[must_use]
    pub const fn to_u16(self) -> u16 {
        let StackPointer(val) = self;
        u16::from_le_bytes([val, 0x01])
    }
@ -177,6 +183,7 @@ impl Default for Registers {
 }
 impl Registers {
    #[must_use]
    pub fn new() -> Registers {
        // TODO akeeton: Revisit these defaults.
        Registers {
Author	SHA1	Message	Date
Matthias Endler	906d6e3f19	Merge `c58bba1f4c` into `4847744518`	2024-04-26 10:04:00 +00:00
Matthias	c58bba1f4c	Code Cleanup This adds some new directives for clippy and fixes all warnings. Also updated the dependencies to their latest versions.	2024-04-26 12:03:56 +02:00