forked from AbleOS/ableos
Documented hbasm
This commit is contained in:
parent
6c6e29479f
commit
0070016f74
|
@ -1,14 +1,21 @@
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use rhai::{CustomType, Engine, FuncRegistration, ImmutableString};
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//! Data section inserts
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use {
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crate::{object::SymbolRef, SharedObject},
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rhai::Module,
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rhai::{CustomType, Engine, FuncRegistration, ImmutableString, Module},
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};
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/// Generate insertions for data types
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///
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/// `gen_data_instructions!($module, $obj, [$type, …]);`
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/// - `$module`: Rhai module
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/// - `$obj`: Code object
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/// - `$type`: Type of single array item
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macro_rules! gen_data_insertions {
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($module:expr, $obj:expr, [$($ty:ident),* $(,)?] $(,)?) => {{
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let (module, obj) = ($module, $obj);
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$({
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// Clone object to each function
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let obj = ::std::rc::Rc::clone(obj);
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FuncRegistration::new(stringify!($ty))
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@ -17,17 +24,23 @@ macro_rules! gen_data_insertions {
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let obj = &mut *obj.borrow_mut();
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let symbol = obj.symbol($crate::object::Section::Data);
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// Reserve space for object so we don't resize it
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// all the time
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obj.sections
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.data
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.reserve(arr.len() * ::std::mem::size_of::<$ty>());
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// For every item…
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for item in arr {
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// … try do conversions from i32 to desired type
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// and insert it.
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obj.sections.data.extend(
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match item.as_int() {
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Ok(num) => $ty::try_from(num).map_err(|_| "i64".to_owned()),
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Err(ty) => Err(ty.to_owned()),
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}
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.map_err(|err| {
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::rhai::EvalAltResult::ErrorMismatchDataType(
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stringify!($ty).to_owned(),
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err,
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@ -47,6 +60,7 @@ macro_rules! gen_data_insertions {
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}};
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}
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/// Reference to entry in data section
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#[derive(Clone, Copy, Debug)]
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pub struct DataRef {
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pub symbol: SymbolRef,
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@ -67,6 +81,8 @@ pub fn module(engine: &mut Engine, obj: SharedObject) -> Module {
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gen_data_insertions!(&mut module, &obj, [i8, i16, i32, i64]);
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// Specialisation for strings, they should be
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// inserted as plain UTF-8 arrays
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FuncRegistration::new("str")
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.with_namespace(rhai::FnNamespace::Global)
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.set_into_module::<_, 1, false, _, true, _>(&mut module, move |s: ImmutableString| {
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107
hbasm/src/ins.rs
107
hbasm/src/ins.rs
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@ -1,9 +1,20 @@
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//! Functions for inserting instructions
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//!
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//! Most of the code you see is just metaprogramming stuff.
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//! This ensures that adding new instructions won't need any
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//! specific changes and consistent behaviour.
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//!
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//! > I tried to comment stuff here, but I meanwhile forgor how it works.
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//!
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//! — Erin
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use {
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crate::object::Object,
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rhai::{FuncRegistration, Module},
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std::{cell::RefCell, rc::Rc},
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};
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/// Operand types and their insertions
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pub mod optypes {
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use {
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crate::{
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@ -13,6 +24,7 @@ pub mod optypes {
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rhai::{Dynamic, EvalAltResult, ImmutableString, Position},
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};
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// These types represent operand types to be inserted
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pub type R = u8;
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pub type B = i8;
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pub type H = i16;
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@ -23,12 +35,18 @@ pub mod optypes {
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pub type O = Dynamic;
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pub type P = Dynamic;
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/// Insert relocation into code
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///
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/// - If integer, just write it to the code
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/// - Otherwise insert entry into relocation table
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/// and fill zeroes
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pub fn insert_reloc(
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obj: &mut Object,
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ty: RelocType,
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val: &Dynamic,
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) -> Result<(), EvalAltResult> {
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match () {
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// Direct references – insert directly to table
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_ if val.is::<SymbolRef>() => {
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obj.relocation(RelocKey::Symbol(val.clone_cast::<SymbolRef>().0), ty)
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}
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_ if val.is::<DataRef>() => {
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obj.relocation(RelocKey::Symbol(val.clone_cast::<DataRef>().symbol.0), ty)
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}
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// String (indirect) reference
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_ if val.is_string() => {
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obj.relocation(RelocKey::Label(val.clone_cast::<ImmutableString>()), ty)
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}
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// Manual offset
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_ if val.is_int() => {
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let int = val.clone_cast::<i64>();
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match ty {
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@ -49,9 +71,10 @@ pub mod optypes {
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RelocType::Abs64 => obj.sections.text.extend(int.to_le_bytes()),
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}
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}
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_ => {
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return Err(EvalAltResult::ErrorMismatchDataType(
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"SybolRef, UnboundLabel, String or Int".to_owned(),
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"SymbolRef, UnboundLabel, String or Int".to_owned(),
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val.type_name().to_owned(),
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Position::NONE,
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))
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Ok(())
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}
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/// Generate macro for inserting item into the output object
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///
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/// Pre-defines inserts for absolute address and relative offsets.
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/// These are inserted with function [`insert_reloc`]
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/// # le_bytes
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/// `gen_insert!(le_bytes: [B, …]);`
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///
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/// Takes sequence of operand types which should be inserted
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/// by invoking `to_le_bytes` method on it.
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macro_rules! gen_insert {
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(le_bytes: [$($lety:ident),* $(,)?]) => {
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/// `insert!($thing, $obj, $type)` where
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/// - `$thing`: Value you want to insert
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/// - `$obj`: Code object
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/// - `$type`: Type of inserted value
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///
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/// Eg. `insert!(69_u8, obj, B);`
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macro_rules! insert {
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$(($thing:expr, $obj: expr, $lety) => {
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$obj.sections.text.extend($thing.to_le_bytes());
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@ -101,6 +139,7 @@ pub mod optypes {
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use crate::data::DataRef;
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}
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/// Rhai Types (types for function parameters as Rhai uses only 64bit signed integers)
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pub mod rity {
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pub use super::optypes::{A, O, P, R};
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pub type B = i64;
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pub type D = i64;
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}
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/// Generic instruction (instruction of certain operands type) inserts
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pub mod generic {
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use {crate::object::Object, rhai::EvalAltResult};
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})
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}
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/// Generate opcode-generic instruction insert macro
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macro_rules! gen_ins {
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($($($name:ident : $ty:ty),*;)*) => {
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paste::paste! {
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$(#[inline]
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pub fn [<$($ty:lower)*>](
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obj: &mut Object,
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opcode: u8,
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$($name: $crate::ins::optypes::$ty),*,
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) -> Result<(), EvalAltResult> {
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obj.sections.text.push(opcode);
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$($crate::ins::optypes::insert!(&$name, obj, $ty);)*
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Ok(())
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})*
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$(
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/// Instruction-generic opcode insertion function
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/// - `obj`: Code object
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/// - `opcode`: opcode, not checked if valid for instruction type
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/// - … for operands
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#[inline]
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pub fn [<$($ty:lower)*>](
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obj: &mut Object,
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opcode: u8,
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$($name: $crate::ins::optypes::$ty),*,
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) -> Result<(), EvalAltResult> {
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// Push opcode
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obj.sections.text.push(opcode);
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// Insert based on type
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$($crate::ins::optypes::insert!(&$name, obj, $ty);)*
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Ok(())
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}
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)*
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/// Generate Rhai opcode-specific instruction insertion functions
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///
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/// `gen_ins_fn!($obj, $opcode, $optype);` where:
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/// - `$obj`: Code object
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/// - `$opcode`: Opcode value
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macro_rules! gen_ins_fn {
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$(
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($obj:expr, $opcode:expr, [<$($ty)*>]) => {
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// Opcode-specific insertion function
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// - Parameters = operands
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move |$($name: $crate::ins::rity::$ty),*| {
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// Invoke generic function
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$crate::ins::generic::[<$($ty:lower)*>](
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&mut *$obj.borrow_mut(),
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$opcode,
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$(
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$crate::ins::generic::convert_op::<
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// Convert to desired type (from Rhai-provided values)
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$crate::ins::generic::convert_op::<
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_,
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$crate::ins::optypes::$ty
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>($name)?
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}
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};
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// Internal-use: count args
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(@arg_count [<$($ty)*>]) => {
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{ ["", $(stringify!($ty)),*].len() - 1 }
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};
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)*
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// Specialisation for no-operand instructions
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($obj:expr, $opcode:expr, N) => {
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move || {
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$crate::ins::generic::n(&mut *$obj.borrow_mut(), $opcode);
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}
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};
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// Internal-use specialisation: no-operand instructions
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(@arg_count N) => {
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{ 0 }
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};
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@ -174,11 +236,16 @@ pub mod generic {
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};
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}
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/// Specialisation for no-operand instructions – simply just push opcode
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#[inline]
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pub fn n(obj: &mut Object, opcode: u8) {
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obj.sections.text.push(opcode);
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}
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// Generate opcode-generic instruction inserters
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// (operand identifiers are arbitrary)
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//
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// New instruction types have to be added manually here
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gen_ins! {
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o0: R, o1: R;
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o0: R, o1: R, o2: R;
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@ -205,6 +272,17 @@ pub mod generic {
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pub(super) use gen_ins_fn;
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}
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/// Generate instructions from instruction table
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///
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/// ```ignore
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/// instructions!(($module, $obj) {
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/// // Data from instruction table
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/// $opcode, $mnemonic, $opty, $doc;
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/// …
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/// });
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/// ```
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/// - `$module`: Rhai module
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/// - `$obj`: Code object
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macro_rules! instructions {
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(
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($module:expr, $obj:expr $(,)?)
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@ -212,7 +290,10 @@ macro_rules! instructions {
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) => {{
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let (module, obj) = ($module, $obj);
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$({
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// Object is shared across all functions
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let obj = Rc::clone(&obj);
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// Register newly generated function for each instruction
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FuncRegistration::new(stringify!([<$mnemonic:lower>]))
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.with_namespace(rhai::FnNamespace::Global)
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.set_into_module::<_, { generic::gen_ins_fn!(@arg_count $ops) }, false, _, true, _>(
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@ -227,7 +308,9 @@ macro_rules! instructions {
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}};
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}
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/// Setup instruction insertors
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pub fn setup(module: &mut Module, obj: Rc<RefCell<Object>>) {
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// Import instructions table and use it for generation
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with_builtin_macros::with_builtin! {
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let $spec = include_from_root!("../hbbytecode/instructions.in") in {
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instructions!((module, obj) { $spec });
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|
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@ -1,8 +1,31 @@
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//! Stuff related to labels
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use {
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crate::SharedObject,
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rhai::{Engine, FuncRegistration, ImmutableString, Module},
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};
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/// Macro for creating functions for Rhai which
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/// is bit more friendly
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///
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/// ```ignore
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/// shdm_fns!{
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/// module: $module;
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/// shared: $shared => $shname;
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///
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/// $vis fn $name($param_name: $param_ty, …) -> $ret { … }
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/// …
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/// }
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/// ```
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/// - `$module`: Rhai module
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/// - `$shared`: Data to be shared across the functions
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/// - `$shname`: The binding name inside functions
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/// - `$vis`: Function visibility for Rhai
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/// - Lowercased [`rhai::FnNamespace`] variants
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/// - `$name`: Function name
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/// - `$param_name`: Parameter name
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/// - `$param_ty`: Rust parameter type
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/// - `$ret`: Optional return type (otherwise infer)
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macro_rules! shdm_fns {
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(
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module: $module:expr;
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|
@ -14,23 +37,26 @@ macro_rules! shdm_fns {
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) => {{
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let module = $module;
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let shared = $shared;
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$({
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paste::paste! {
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$({
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let $shname = SharedObject::clone(&shared);
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FuncRegistration::new(stringify!($name))
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.with_namespace(rhai::FnNamespace::Global)
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.set_into_module::<_, { ["", $(stringify!($param_name)),*].len() - 1 }, false, _, true, _>(
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module,
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move |$($param_name: $param_ty),*| $(-> $ret)? {
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let mut $shname = $shname.borrow_mut();
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$blk
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}
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);
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})*
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let $shname = SharedObject::clone(&shared);
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FuncRegistration::new(stringify!($name))
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.with_namespace(rhai::FnNamespace::[<$vis:camel>])
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.set_into_module::<_, { ["", $(stringify!($param_name)),*].len() - 1 }, false, _, true, _>(
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module,
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move |$($param_name: $param_ty),*| $(-> $ret)? {
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let mut $shname = $shname.borrow_mut();
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$blk
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}
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);
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})*
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}
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}};
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}
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/// Label without any place bound
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#[derive(Clone, Copy, Debug)]
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pub struct UnboundLabel(pub usize);
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|
@ -39,11 +65,13 @@ pub fn setup(engine: &mut Engine, module: &mut Module, object: SharedObject) {
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module: module;
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shared: object => obj;
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// Insert unnamed label
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global fn label() {
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let symbol = obj.symbol(crate::object::Section::Text);
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Ok(symbol)
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}
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// Insert string-labeled label
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global fn label(label: ImmutableString) {
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let symbol = obj.symbol(crate::object::Section::Text);
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obj.labels.insert(label, symbol.0);
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|
@ -51,6 +79,7 @@ pub fn setup(engine: &mut Engine, module: &mut Module, object: SharedObject) {
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Ok(symbol)
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}
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// Declare unbound label (to be bound later)
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global fn declabel() {
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let index = obj.symbols.len();
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obj.symbols.push(None);
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|
@ -58,6 +87,8 @@ pub fn setup(engine: &mut Engine, module: &mut Module, object: SharedObject) {
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Ok(UnboundLabel(index))
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}
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// Declare unbound label (to be bound later)
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// with string label
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global fn declabel(label: ImmutableString) {
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let index = obj.symbols.len();
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obj.symbols.push(None);
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|
@ -66,6 +97,7 @@ pub fn setup(engine: &mut Engine, module: &mut Module, object: SharedObject) {
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Ok(UnboundLabel(index))
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}
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// Set location for unbound label
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global fn here(label: UnboundLabel) {
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obj.symbols[label.0] = Some(crate::object::SymbolEntry {
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location: crate::object::Section::Text,
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|
|
|
@ -1,3 +1,5 @@
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//! Simple flat-bytecode linker
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|
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use {
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crate::{
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object::{RelocKey, RelocType, Section},
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|
@ -8,18 +10,27 @@ use {
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pub fn link(object: SharedObject, out: &mut impl Write) -> std::io::Result<()> {
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let obj = &mut *object.borrow_mut();
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// Walk relocation table entries
|
||||
for (&loc, entry) in &obj.relocs {
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let value = match &entry.key {
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// Symbol – direct reference
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||||
RelocKey::Symbol(sym) => obj.symbols[*sym],
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|
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// Label – indirect label reference
|
||||
RelocKey::Label(label) => obj.symbols[obj.labels[label]],
|
||||
}
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.ok_or_else(|| std::io::Error::other("Invalid symbol"))?;
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|
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let offset = match value.location {
|
||||
// Text section is on the beginning
|
||||
Section::Text => value.offset,
|
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|
||||
// Data section follows text section immediately
|
||||
Section::Data => value.offset + obj.sections.text.len(),
|
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};
|
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|
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// Insert address or calulate relative offset
|
||||
match entry.ty {
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RelocType::Rel32 => obj.sections.text[loc..loc + 4]
|
||||
.copy_from_slice(&((offset as isize - loc as isize) as i32).to_le_bytes()),
|
||||
|
@ -30,6 +41,7 @@ pub fn link(object: SharedObject, out: &mut impl Write) -> std::io::Result<()> {
|
|||
}
|
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}
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|
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// Write to output
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||||
out.write_all(&obj.sections.text)?;
|
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out.write_all(&obj.sections.data)
|
||||
}
|
||||
|
|
|
@ -1,23 +1,31 @@
|
|||
//! Code object
|
||||
|
||||
use {rhai::ImmutableString, std::collections::HashMap};
|
||||
|
||||
/// Section tabel
|
||||
#[derive(Clone, Copy, Debug, PartialEq, Eq)]
|
||||
pub enum Section {
|
||||
Text,
|
||||
Data,
|
||||
}
|
||||
|
||||
/// Symbol entry (in what section, where)
|
||||
#[derive(Clone, Copy, Debug)]
|
||||
pub struct SymbolEntry {
|
||||
pub location: Section,
|
||||
pub offset: usize,
|
||||
}
|
||||
|
||||
/// Relocation table key
|
||||
#[derive(Clone, Debug)]
|
||||
pub enum RelocKey {
|
||||
/// Direct reference
|
||||
Symbol(usize),
|
||||
/// Indirect reference
|
||||
Label(ImmutableString),
|
||||
}
|
||||
|
||||
/// Relocation type
|
||||
#[derive(Clone, Copy, Debug)]
|
||||
pub enum RelocType {
|
||||
Rel32,
|
||||
|
@ -25,23 +33,30 @@ pub enum RelocType {
|
|||
Abs64,
|
||||
}
|
||||
|
||||
/// Relocation table entry
|
||||
#[derive(Clone, Debug)]
|
||||
pub struct RelocEntry {
|
||||
pub key: RelocKey,
|
||||
pub ty: RelocType,
|
||||
}
|
||||
|
||||
/// Object code
|
||||
#[derive(Clone, Debug, Default)]
|
||||
pub struct Sections {
|
||||
pub text: Vec<u8>,
|
||||
pub data: Vec<u8>,
|
||||
}
|
||||
|
||||
/// Object
|
||||
#[derive(Clone, Debug, Default)]
|
||||
pub struct Object {
|
||||
/// Vectors with sections
|
||||
pub sections: Sections,
|
||||
/// Symbol table
|
||||
pub symbols: Vec<Option<SymbolEntry>>,
|
||||
/// Labels to symbols table
|
||||
pub labels: HashMap<ImmutableString, usize>,
|
||||
/// Relocation table
|
||||
pub relocs: HashMap<usize, RelocEntry>,
|
||||
}
|
||||
|
||||
|
@ -50,6 +65,7 @@ pub struct Object {
|
|||
pub struct SymbolRef(pub usize);
|
||||
|
||||
impl Object {
|
||||
/// Insert symbol at current location in specified section
|
||||
pub fn symbol(&mut self, section: Section) -> SymbolRef {
|
||||
let section_buf = match section {
|
||||
Section::Text => &mut self.sections.text,
|
||||
|
@ -64,6 +80,7 @@ impl Object {
|
|||
SymbolRef(self.symbols.len() - 1)
|
||||
}
|
||||
|
||||
/// Insert to relocation table and write zeroes to code
|
||||
pub fn relocation(&mut self, key: RelocKey, ty: RelocType) {
|
||||
self.relocs
|
||||
.insert(self.sections.text.len(), RelocEntry { key, ty });
|
||||
|
|
Loading…
Reference in a new issue