fix: rename OperandSize to OperandWidth

src/disasm.rs

@@ -2,7 +2,7 @@ use core::fmt;
 use std::{fs::File, io::Read, process::exit};
 
 use crate::aout::Aout;
-use crate::instructions::{MemoryIndex, ModRmTarget, OperandSize, RegisterId, SegmentRegister};
+use crate::instructions::{MemoryIndex, ModRmTarget, OperandWidth, RegisterId, SegmentRegister};
 use crate::{
     Args,
     instructions::{ImmediateByte, ImmediateWord, Instruction, Mnemonic, Register},
@@ -107,7 +107,7 @@ impl Disassembler {
 
     /// Parse a single modrm byte, return the resulting MemoryIndex and advance the offset.
     /// Returns the parsed modrm target and the source register
-    pub fn parse_modrm_byte(&mut self, size: OperandSize) -> (ModRmTarget, RegisterId) {
+    pub fn parse_modrm_byte(&mut self, width: OperandWidth) -> (ModRmTarget, RegisterId) {
         // advance to operand
         self.offset += 1;
         let modrm = self.text[self.offset];
@@ -128,27 +128,27 @@ impl Disassembler {
             0b00 => {
                 if rm == 0b110 {
                     log::debug!("Additional word during ModRM parsing was read with mod 0.");
-                    displacement = Some(OperandSize::Word(self.parse_word()));
+                    displacement = Some(OperandWidth::Word(self.parse_word()));
                 } else {
                     displacement = None;
                 }
             }
             0b01 => {
                 log::debug!("Additional byte during ModRM parsing was read.");
-                displacement = Some(OperandSize::Byte(self.parse_byte()))
+                displacement = Some(OperandWidth::Byte(self.parse_byte()))
             }
             0b10 => {
                 log::debug!("Additional word during ModRM parsing was read.");
-                displacement = Some(OperandSize::Word(self.parse_word()));
+                displacement = Some(OperandWidth::Word(self.parse_word()));
             }
             0b11 => {
                 log::debug!("ModRM to reg");
-                let target = match size {
-                    OperandSize::Byte(_) => {
-                        ModRmTarget::Register(Register::by_id(OperandSize::Byte(rm)))
+                let target = match width {
+                    OperandWidth::Byte(_) => {
+                        ModRmTarget::Register(Register::by_id(OperandWidth::Byte(rm)))
                     }
-                    OperandSize::Word(_) => {
-                        ModRmTarget::Register(Register::by_id(OperandSize::Word(rm.into())))
+                    OperandWidth::Word(_) => {
+                        ModRmTarget::Register(Register::by_id(OperandWidth::Word(rm.into())))
                     }
                 };
                 return (target, reg);
@@ -204,9 +204,9 @@ impl Disassembler {
     }
 
     /// Match the modrm reg bits to the GPR1 mnemonics.
-    pub fn modrm_reg_to_mnemonic(reg: u8, target: ModRmTarget, imm: OperandSize) -> Mnemonic {
+    pub fn modrm_reg_to_mnemonic(reg: u8, target: ModRmTarget, imm: OperandWidth) -> Mnemonic {
         match imm {
-            OperandSize::Byte(b) => match reg {
+            OperandWidth::Byte(b) => match reg {
                 0b000 => Mnemonic::ADD_Ib(target, ImmediateByte(b)),
                 0b001 => Mnemonic::OR_Ib(target, ImmediateByte(b)),
                 0b010 => Mnemonic::ADC_Ib(target, ImmediateByte(b)),
@@ -217,7 +217,7 @@ impl Disassembler {
                 0b111 => Mnemonic::CMP_Ib(target, ImmediateByte(b)),
                 _ => panic!("Illegal GPR1 mnemonic"),
             },
-            OperandSize::Word(w) => match reg {
+            OperandWidth::Word(w) => match reg {
                 0b000 => Mnemonic::ADD_Iv(target, ImmediateWord(w)),
                 0b001 => Mnemonic::OR_Iv(target, ImmediateWord(w)),
                 0b010 => Mnemonic::ADC_Iv(target, ImmediateWord(w)),
@@ -387,14 +387,14 @@ impl Disassembler {
 
                 // 0x80..=0x83 => panic!("GRP1 not implemented"),
                 0x80 => {
-                    let (target, reg) = self.parse_modrm_byte(OperandSize::Byte(0));
+                    let (target, reg) = self.parse_modrm_byte(OperandWidth::Byte(0));
                     let imm = self.parse_byte();
-                    Self::modrm_reg_to_mnemonic(reg, target, OperandSize::Byte(imm))
+                    Self::modrm_reg_to_mnemonic(reg, target, OperandWidth::Byte(imm))
                 }
                 0x81 => {
-                    let (target, reg) = self.parse_modrm_byte(OperandSize::Word(0));
+                    let (target, reg) = self.parse_modrm_byte(OperandWidth::Word(0));
                     let imm = self.parse_word();
-                    Self::modrm_reg_to_mnemonic(reg, target, OperandSize::Word(imm))
+                    Self::modrm_reg_to_mnemonic(reg, target, OperandWidth::Word(imm))
                 }
                 0x82 => panic!("Same as 0x80"),
                 0x83 => panic!("Sign extented GPR1 not yet implemented"),

src/disasm_macros.rs

@@ -2,8 +2,8 @@
 /// Generate a byte Opcode for 'normal' ModRM instructions with mem access and a reg
 macro_rules! modrmb {
     ($self:ident, $variant:ident) => {{
-        let (target, reg) = $self.parse_modrm_byte(OperandSize::Byte(0));
-        Mnemonic::$variant(target, Register::by_id(OperandSize::Byte(reg)))
+        let (target, reg) = $self.parse_modrm_byte(OperandWidth::Byte(0));
+        Mnemonic::$variant(target, Register::by_id(OperandWidth::Byte(reg)))
     }};
 }
 
@@ -11,8 +11,8 @@ macro_rules! modrmb {
 /// Generate a word Opcode for 'normal' ModRM instructions with mem access and a reg
 macro_rules! modrmv {
     ($self:ident, $variant:ident) => {{
-        let (target, reg) = $self.parse_modrm_byte(OperandSize::Word(0));
-        Mnemonic::$variant(target, Register::by_id(OperandSize::Word(reg.into())))
+        let (target, reg) = $self.parse_modrm_byte(OperandWidth::Word(0));
+        Mnemonic::$variant(target, Register::by_id(OperandWidth::Word(reg.into())))
     }};
 }
 
@@ -20,7 +20,7 @@ macro_rules! modrmv {
 /// Generate a word Opcode for 'normal' ModRM instructions with mem access and a segment reg
 macro_rules! modrms {
     ($self:ident, $variant:ident) => {{
-        let (target, reg) = $self.parse_modrm_byte(OperandSize::Word(0));
+        let (target, reg) = $self.parse_modrm_byte(OperandWidth::Word(0));
         Mnemonic::$variant(target, SegmentRegister::by_id(reg))
     }};
 }

src/instructions.rs

@@ -204,9 +204,9 @@ pub type RegisterId = u8;
 #[allow(dead_code)]
 impl Register {
     /// Find the register corresponding to the 8086 bytecode ID
-    pub fn by_id(id: OperandSize) -> Self {
+    pub fn by_id(id: OperandWidth) -> Self {
         match id {
-            OperandSize::Byte(b) => match b {
+            OperandWidth::Byte(b) => match b {
                 0b000 => Self::AL,
                 0b001 => Self::CL,
                 0b010 => Self::DL,
@@ -217,7 +217,7 @@ impl Register {
                 0b111 => Self::BH,
                 _ => panic!("Invalid 8bit register ID encountered"),
             },
-            OperandSize::Word(w) => match w {
+            OperandWidth::Word(w) => match w {
                 0b000 => Self::AX,
                 0b001 => Self::CX,
                 0b010 => Self::DX,
@@ -339,7 +339,7 @@ impl std::fmt::Display for ModRmTarget {
 pub struct MemoryIndex {
     pub base: Option<Register>,
     pub index: Option<Register>,
-    pub displacement: Option<OperandSize>,
+    pub displacement: Option<OperandWidth>,
 }
 
 impl fmt::Display for MemoryIndex {
@@ -369,12 +369,12 @@ impl fmt::Display for MemoryIndex {
 #[derive(Debug, Clone)]
 #[allow(dead_code)]
 /// Can be used to encode either byte or word operands
-pub enum OperandSize {
+pub enum OperandWidth {
     Byte(u8),
     Word(u16),
 }
 
-impl fmt::Display for OperandSize {
+impl fmt::Display for OperandWidth {
     fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
         match self {
             Self::Byte(byte) => write!(f, "{}", byte),