holey-bytes/lang/src/lib.rs

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#![feature(
assert_matches,
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let_chains,
if_let_guard,
macro_metavar_expr,
anonymous_lifetime_in_impl_trait,
core_intrinsics,
never_type,
unwrap_infallible,
slice_partition_dedup,
portable_simd,
iter_collect_into,
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new_uninit,
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ptr_metadata,
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slice_ptr_get,
slice_take,
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map_try_insert,
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extract_if,
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ptr_internals,
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iter_intersperse,
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str_from_raw_parts,
ptr_sub_ptr,
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slice_from_ptr_range,
is_sorted
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)]
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#![feature(pointer_is_aligned_to)]
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#![warn(clippy::dbg_macro)]
#![allow(stable_features, internal_features)]
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#![no_std]
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#[cfg(feature = "std")]
pub use fs::*;
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use {
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self::{
ident::Ident,
lexer::TokenKind,
parser::{CommentOr, Expr, ExprRef, FileId, Pos},
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ty::ArrayLen,
},
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alloc::{collections::BTreeMap, string::String, vec::Vec},
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core::{cell::Cell, ops::Range},
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hashbrown::hash_map,
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hbbytecode as instrs,
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};
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#[macro_use]
extern crate alloc;
#[cfg(any(feature = "std", test))]
extern crate std;
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#[cfg(test)]
const README: &str = include_str!("../README.md");
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#[macro_export]
macro_rules! run_tests {
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($runner:path: $($name:ident;)*) => {$(
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#[test]
fn $name() {
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$crate::run_test(core::any::type_name_of_val(&$name), stringify!($name), $crate::README, $runner);
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}
)*};
}
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pub mod codegen;
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pub mod fmt;
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#[cfg(any(feature = "std", test))]
pub mod fs;
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pub mod parser;
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#[cfg(feature = "opts")]
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pub mod son;
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pub mod lexer;
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#[cfg(feature = "opts")]
mod vc;
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pub mod reg {
pub const STACK_PTR: Reg = 254;
pub const ZERO: Reg = 0;
pub const RET: Reg = 1;
pub const RET_ADDR: Reg = 31;
pub type Reg = u8;
}
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mod ctx_map {
use core::hash::BuildHasher;
pub type Hash = u64;
pub type HashBuilder = core::hash::BuildHasherDefault<IdentityHasher>;
#[derive(Default)]
pub struct IdentityHasher(u64);
impl core::hash::Hasher for IdentityHasher {
fn finish(&self) -> u64 {
self.0
}
fn write(&mut self, _: &[u8]) {
unimplemented!()
}
fn write_u64(&mut self, i: u64) {
self.0 = i;
}
}
pub struct Key<T> {
pub value: T,
pub hash: Hash,
}
impl<T> core::hash::Hash for Key<T> {
fn hash<H: core::hash::Hasher>(&self, state: &mut H) {
state.write_u64(self.hash);
}
}
pub trait CtxEntry {
type Ctx: ?Sized;
type Key<'a>: Eq + core::hash::Hash;
fn key<'a>(&self, ctx: &'a Self::Ctx) -> Self::Key<'a>;
}
pub struct CtxMap<T> {
inner: hashbrown::HashMap<Key<T>, (), HashBuilder>,
}
impl<T> Default for CtxMap<T> {
fn default() -> Self {
Self { inner: Default::default() }
}
}
impl<T: CtxEntry> CtxMap<T> {
pub fn entry<'a, 'b>(
&'a mut self,
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key: T::Key<'b>,
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ctx: &'b T::Ctx,
) -> (hashbrown::hash_map::RawEntryMut<'a, Key<T>, (), HashBuilder>, Hash) {
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let hash = crate::FnvBuildHasher::default().hash_one(&key);
(self.inner.raw_entry_mut().from_hash(hash, |k| k.value.key(ctx) == key), hash)
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}
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pub fn get<'a>(&self, key: T::Key<'a>, ctx: &'a T::Ctx) -> Option<&T> {
let hash = crate::FnvBuildHasher::default().hash_one(&key);
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self.inner
.raw_entry()
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.from_hash(hash, |k| k.value.key(ctx) == key)
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.map(|(k, _)| &k.value)
}
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#[cfg_attr(not(feature = "opts"), expect(dead_code))]
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pub fn clear(&mut self) {
self.inner.clear();
}
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#[cfg_attr(not(feature = "opts"), expect(dead_code))]
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pub fn remove(&mut self, value: &T, ctx: &T::Ctx) -> Option<T> {
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let (entry, _) = self.entry(value.key(ctx), ctx);
match entry {
hashbrown::hash_map::RawEntryMut::Occupied(o) => Some(o.remove_entry().0.value),
hashbrown::hash_map::RawEntryMut::Vacant(_) => None,
}
}
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pub fn insert<'a>(&mut self, key: T::Key<'a>, value: T, ctx: &'a T::Ctx) {
let (entry, hash) = self.entry(key, ctx);
match entry {
hashbrown::hash_map::RawEntryMut::Occupied(_) => unreachable!(),
hashbrown::hash_map::RawEntryMut::Vacant(v) => {
_ = v.insert(Key { hash, value }, ())
}
}
}
pub fn get_or_insert<'a>(
&mut self,
key: T::Key<'a>,
ctx: &'a mut T::Ctx,
with: impl FnOnce(&'a mut T::Ctx) -> T,
) -> &mut T {
let (entry, hash) = self.entry(key, unsafe { &mut *(&mut *ctx as *mut _) });
match entry {
hashbrown::hash_map::RawEntryMut::Occupied(o) => &mut o.into_key_value().0.value,
hashbrown::hash_map::RawEntryMut::Vacant(v) => {
&mut v.insert(Key { hash, value: with(ctx) }, ()).0.value
}
}
}
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}
}
mod task {
use super::Offset;
pub fn unpack(offset: Offset) -> Result<Offset, usize> {
if offset >> 31 != 0 {
Err((offset & !(1 << 31)) as usize)
} else {
Ok(offset)
}
}
pub fn is_done(offset: Offset) -> bool {
unpack(offset).is_ok()
}
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#[cfg_attr(not(feature = "opts"), expect(dead_code))]
pub fn id(index: usize) -> Offset {
1 << 31 | index as u32
}
}
mod ident {
pub type Ident = u32;
const LEN_BITS: u32 = 6;
pub fn len(ident: u32) -> u32 {
ident & ((1 << LEN_BITS) - 1)
}
pub fn is_null(ident: u32) -> bool {
(ident >> LEN_BITS) == 0
}
pub fn pos(ident: u32) -> u32 {
(ident >> LEN_BITS).saturating_sub(1)
}
pub fn new(pos: u32, len: u32) -> Option<u32> {
(len < (1 << LEN_BITS)).then_some(((pos + 1) << LEN_BITS) | len)
}
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pub fn range(ident: u32) -> core::ops::Range<usize> {
let (len, pos) = (len(ident) as usize, pos(ident) as usize);
pos..pos + len
}
}
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mod ty {
use {
crate::{
ident,
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lexer::TokenKind,
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parser::{self, Pos},
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},
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core::{num::NonZeroU32, ops::Range},
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};
pub type ArrayLen = u32;
pub type Builtin = u32;
pub type Struct = u32;
pub type Ptr = u32;
pub type Func = u32;
pub type Global = u32;
pub type Module = u32;
pub type Slice = u32;
#[derive(Clone, Copy, PartialEq, Eq, Hash, Debug)]
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pub struct Tuple(pub u32);
impl Tuple {
const LEN_BITS: u32 = 5;
const LEN_MASK: usize = Self::MAX_LEN - 1;
const MAX_LEN: usize = 1 << Self::LEN_BITS;
pub fn new(pos: usize, len: usize) -> Option<Self> {
if len >= Self::MAX_LEN {
return None;
}
Some(Self((pos << Self::LEN_BITS | len) as u32))
}
pub fn range(self) -> Range<usize> {
let start = self.0 as usize >> Self::LEN_BITS;
start..start + self.len()
}
pub fn len(self) -> usize {
self.0 as usize & Self::LEN_MASK
}
pub fn empty() -> Self {
Self(0)
}
}
#[derive(Clone, Copy, PartialEq, Eq, PartialOrd, Ord, Debug, Hash)]
pub struct Id(NonZeroU32);
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impl crate::ctx_map::CtxEntry for Id {
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type Ctx = crate::TypeIns;
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type Key<'a> = crate::SymKey<'a>;
fn key<'a>(&self, ctx: &'a Self::Ctx) -> Self::Key<'a> {
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match self.expand() {
Kind::Struct(s) => {
let st = &ctx.structs[s as usize];
debug_assert_ne!(st.pos, Pos::MAX);
crate::SymKey::Struct(st.file, st.pos)
}
Kind::Ptr(p) => crate::SymKey::Pointer(&ctx.ptrs[p as usize]),
Kind::Func(f) => {
let fc = &ctx.funcs[f as usize];
if let Some(base) = fc.base {
crate::SymKey::FuncInst(base, fc.sig.unwrap().args)
} else {
crate::SymKey::Decl(fc.file, fc.name)
}
}
Kind::Global(g) => {
let gb = &ctx.globals[g as usize];
crate::SymKey::Decl(gb.file, gb.name)
}
Kind::Slice(s) => crate::SymKey::Array(&ctx.arrays[s as usize]),
Kind::Module(_) | Kind::Builtin(_) => crate::SymKey::Decl(u32::MAX, u32::MAX),
}
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}
}
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impl Default for Id {
fn default() -> Self {
Self(unsafe { NonZeroU32::new_unchecked(UNDECLARED) })
}
}
impl Id {
pub fn is_signed(self) -> bool {
(I8..=INT).contains(&self.repr())
}
pub fn is_unsigned(self) -> bool {
(U8..=UINT).contains(&self.repr())
}
pub fn is_integer(self) -> bool {
(U8..=INT).contains(&self.repr())
}
pub fn strip_pointer(self) -> Self {
match self.expand() {
Kind::Ptr(_) => Kind::Builtin(UINT).compress(),
_ => self,
}
}
pub fn is_pointer(self) -> bool {
matches!(Kind::from_ty(self), Kind::Ptr(_))
}
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pub fn try_upcast(self, ob: Self, kind: TyCheck) -> Option<Self> {
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let (oa, ob) = (Self(self.0.min(ob.0)), Self(self.0.max(ob.0)));
let (a, b) = (oa.strip_pointer(), ob.strip_pointer());
Some(match () {
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_ if oa == Self::from(NEVER) => ob,
_ if ob == Self::from(NEVER) => oa,
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_ if oa == ob => oa,
_ if oa.is_pointer() && ob.is_pointer() => return None,
_ if a.is_signed() && b.is_signed() || a.is_unsigned() && b.is_unsigned() => ob,
_ if a.is_unsigned() && b.is_signed() && a.repr() - U8 < b.repr() - I8 => ob,
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_ if oa.is_integer() && ob.is_pointer() && kind == TyCheck::BinOp => ob,
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_ => return None,
})
}
pub fn expand(self) -> Kind {
Kind::from_ty(self)
}
pub const fn repr(self) -> u32 {
self.0.get()
}
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#[allow(unused)]
pub fn is_struct(&self) -> bool {
matches!(self.expand(), Kind::Struct(_))
}
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}
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#[derive(PartialEq, Eq, Default, Debug, Clone, Copy)]
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pub enum TyCheck {
BinOp,
#[default]
Assign,
}
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impl From<u64> for Id {
fn from(id: u64) -> Self {
Self(unsafe { NonZeroU32::new_unchecked(id as _) })
}
}
impl From<u32> for Id {
fn from(id: u32) -> Self {
Kind::Builtin(id).compress()
}
}
const fn array_to_lower_case<const N: usize>(array: [u8; N]) -> [u8; N] {
let mut result = [0; N];
let mut i = 0;
while i < N {
result[i] = array[i].to_ascii_lowercase();
i += 1;
}
result
}
// const string to lower case
macro_rules! builtin_type {
($($name:ident;)*) => {
$(pub const $name: Builtin = ${index(0)} + 1;)*
mod __lc_names {
use super::*;
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$(pub const $name: &str = unsafe {
const LCL: &[u8] = unsafe {
&array_to_lower_case(
*(stringify!($name).as_ptr() as *const [u8; stringify!($name).len()])
)
};
core::str::from_utf8_unchecked(LCL)
};)*
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}
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#[allow(dead_code)]
impl Id {
$(pub const $name: Self = Kind::Builtin($name).compress();)*
}
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pub fn from_str(name: &str) -> Option<Builtin> {
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match name {
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$(__lc_names::$name => Some($name),)*
_ => None,
}
}
pub fn to_str(ty: Builtin) -> &'static str {
match ty {
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$($name => __lc_names::$name,)*
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v => unreachable!("invalid type: {}", v),
}
}
};
}
builtin_type! {
UNDECLARED;
NEVER;
VOID;
TYPE;
BOOL;
U8;
U16;
U32;
UINT;
I8;
I16;
I32;
INT;
LEFT_UNREACHABLE;
RIGHT_UNREACHABLE;
}
macro_rules! type_kind {
($(#[$meta:meta])* $vis:vis enum $name:ident {$( $variant:ident, )*}) => {
$(#[$meta])*
$vis enum $name {
$($variant($variant),)*
}
impl $name {
const FLAG_BITS: u32 = (${count($variant)} as u32).next_power_of_two().ilog2();
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const FLAG_OFFSET: u32 = core::mem::size_of::<Id>() as u32 * 8 - Self::FLAG_BITS;
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const INDEX_MASK: u32 = (1 << (32 - Self::FLAG_BITS)) - 1;
$vis fn from_ty(ty: Id) -> Self {
let (flag, index) = (ty.repr() >> Self::FLAG_OFFSET, ty.repr() & Self::INDEX_MASK);
match flag {
$(${index(0)} => Self::$variant(index),)*
i => unreachable!("{i}"),
}
}
$vis const fn compress(self) -> Id {
let (index, flag) = match self {
$(Self::$variant(index) => (index, ${index(0)}),)*
};
Id(unsafe { NonZeroU32::new_unchecked((flag << Self::FLAG_OFFSET) | index) })
}
$vis const fn inner(self) -> u32 {
match self {
$(Self::$variant(index) => index,)*
}
}
}
};
}
type_kind! {
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum Kind {
Builtin,
Struct,
Ptr,
Func,
Global,
Module,
Slice,
}
}
impl Default for Kind {
fn default() -> Self {
Self::Builtin(UNDECLARED)
}
}
pub struct Display<'a> {
tys: &'a super::Types,
files: &'a [parser::Ast],
ty: Id,
}
impl<'a> Display<'a> {
pub(super) fn new(tys: &'a super::Types, files: &'a [parser::Ast], ty: Id) -> Self {
Self { tys, files, ty }
}
fn rety(&self, ty: Id) -> Self {
Self::new(self.tys, self.files, ty)
}
}
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impl core::fmt::Display for Display<'_> {
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fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
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use Kind as TK;
match TK::from_ty(self.ty) {
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TK::Module(idx) => {
f.write_str("@use(\"")?;
self.files[idx as usize].path.fmt(f)?;
f.write_str(")[")?;
idx.fmt(f)?;
f.write_str("]")
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}
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TK::Builtin(ty) => f.write_str(to_str(ty)),
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TK::Ptr(ty) => {
f.write_str("^")?;
self.rety(self.tys.ins.ptrs[ty as usize].base).fmt(f)
}
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TK::Struct(idx) => {
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let record = &self.tys.ins.structs[idx as usize];
if ident::is_null(record.name) {
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f.write_str("[")?;
idx.fmt(f)?;
f.write_str("]{")?;
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for (i, &super::Field { name, ty }) in
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self.tys.struct_fields(idx).iter().enumerate()
{
if i != 0 {
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f.write_str(", ")?;
}
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f.write_str(self.tys.names.ident_str(name))?;
f.write_str(": ")?;
self.rety(ty).fmt(f)?;
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}
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f.write_str("}")
} else {
let file = &self.files[record.file as usize];
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f.write_str(file.ident_str(record.name))
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}
}
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TK::Func(idx) => {
f.write_str("fn")?;
idx.fmt(f)
}
TK::Global(idx) => {
f.write_str("global")?;
idx.fmt(f)
}
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TK::Slice(idx) => {
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let array = self.tys.ins.arrays[idx as usize];
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f.write_str("[")?;
self.rety(array.ty).fmt(f)?;
if array.len != ArrayLen::MAX {
f.write_str("; ")?;
array.len.fmt(f)?;
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}
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f.write_str("]")
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}
}
}
}
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#[cfg_attr(not(feature = "opts"), expect(dead_code))]
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pub fn bin_ret(ty: Id, op: TokenKind) -> Id {
use TokenKind as T;
match op {
T::Lt | T::Gt | T::Le | T::Ge | T::Ne | T::Eq => BOOL.into(),
_ => ty,
}
}
}
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type EncodedInstr = (usize, [u8; instrs::MAX_SIZE]);
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type Offset = u32;
type Size = u32;
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fn emit(out: &mut Vec<u8>, (len, instr): EncodedInstr) {
out.extend_from_slice(&instr[..len]);
}
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#[derive(PartialEq, Eq, Hash, Clone, Copy)]
pub enum SymKey<'a> {
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Pointer(&'a Ptr),
Struct(FileId, Pos),
FuncInst(ty::Func, ty::Tuple),
Decl(FileId, Ident),
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Array(&'a Array),
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}
#[derive(Clone, Copy)]
struct Sig {
args: ty::Tuple,
ret: ty::Id,
}
struct Func {
file: FileId,
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name: Ident,
base: Option<ty::Func>,
computed: Option<ty::Id>,
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expr: ExprRef,
sig: Option<Sig>,
offset: Offset,
// TODO: change to indices into common vec
relocs: Vec<TypedReloc>,
code: Vec<u8>,
}
impl Default for Func {
fn default() -> Self {
Self {
file: u32::MAX,
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name: 0,
base: None,
computed: None,
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expr: Default::default(),
sig: None,
offset: u32::MAX,
relocs: Default::default(),
code: Default::default(),
}
}
}
struct TypedReloc {
target: ty::Id,
reloc: Reloc,
}
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#[derive(Clone)]
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struct Global {
file: FileId,
name: Ident,
ty: ty::Id,
offset: Offset,
data: Vec<u8>,
}
impl Default for Global {
fn default() -> Self {
Self {
ty: Default::default(),
offset: u32::MAX,
data: Default::default(),
file: u32::MAX,
name: u32::MAX,
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}
}
}
// TODO: make into bit struct (width: u2, sub_offset: u3, offset: u27)
#[derive(Clone, Copy, Debug)]
struct Reloc {
offset: Offset,
sub_offset: u8,
width: u8,
}
impl Reloc {
fn new(offset: usize, sub_offset: u8, width: u8) -> Self {
Self { offset: offset as u32, sub_offset, width }
}
fn apply_jump(mut self, code: &mut [u8], to: u32, from: u32) -> i64 {
self.offset += from;
let offset = to as i64 - self.offset as i64;
self.write_offset(code, offset);
offset
}
fn write_offset(&self, code: &mut [u8], offset: i64) {
let bytes = offset.to_ne_bytes();
let slice = &mut code[self.offset as usize + self.sub_offset as usize..];
slice[..self.width as usize].copy_from_slice(&bytes[..self.width as usize]);
}
}
struct Field {
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name: Ident,
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ty: ty::Id,
}
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#[derive(Default)]
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struct Struct {
name: Ident,
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pos: Pos,
file: FileId,
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size: Cell<Size>,
align: Cell<u8>,
explicit_alignment: Option<u8>,
field_start: u32,
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}
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#[derive(PartialEq, Eq, Hash)]
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pub struct Ptr {
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base: ty::Id,
}
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#[derive(Clone, Copy, PartialEq, Eq, Hash)]
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pub struct Array {
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ty: ty::Id,
len: ArrayLen,
}
struct ParamAlloc(Range<u8>);
impl ParamAlloc {
pub fn next(&mut self) -> u8 {
self.0.next().expect("too many paramteters")
}
fn next_wide(&mut self) -> u8 {
(self.next(), self.next()).0
}
}
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#[repr(packed)]
#[allow(dead_code)]
struct AbleOsExecutableHeader {
magic_number: [u8; 3],
executable_version: u32,
code_length: u64,
data_length: u64,
debug_length: u64,
config_length: u64,
metadata_length: u64,
}
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impl ctx_map::CtxEntry for Ident {
type Ctx = str;
type Key<'a> = &'a str;
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fn key<'a>(&self, ctx: &'a Self::Ctx) -> Self::Key<'a> {
unsafe { ctx.get_unchecked(ident::range(*self)) }
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}
}
#[derive(Default)]
struct IdentInterner {
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lookup: ctx_map::CtxMap<Ident>,
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strings: String,
}
impl IdentInterner {
fn intern(&mut self, ident: &str) -> Ident {
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let (entry, hash) = self.lookup.entry(ident, &self.strings);
match entry {
hash_map::RawEntryMut::Occupied(o) => o.get_key_value().0.value,
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hash_map::RawEntryMut::Vacant(v) => {
let id = ident::new(self.strings.len() as _, ident.len() as _).unwrap();
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self.strings.push_str(ident);
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v.insert(ctx_map::Key { hash, value: id }, ());
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id
}
}
}
fn ident_str(&self, ident: Ident) -> &str {
&self.strings[ident::range(ident)]
}
fn project(&self, ident: &str) -> Option<Ident> {
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self.lookup.get(ident, &self.strings).copied()
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}
}
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#[derive(Default)]
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struct TypesTmp {
fields: Vec<Field>,
frontier: Vec<ty::Id>,
globals: Vec<ty::Global>,
funcs: Vec<ty::Func>,
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args: Vec<ty::Id>,
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}
#[derive(Default)]
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pub struct TypeIns {
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funcs: Vec<Func>,
args: Vec<ty::Id>,
globals: Vec<Global>,
structs: Vec<Struct>,
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fields: Vec<Field>,
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ptrs: Vec<Ptr>,
arrays: Vec<Array>,
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}
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#[derive(Default)]
struct Types {
syms: ctx_map::CtxMap<ty::Id>,
names: IdentInterner,
ins: TypeIns,
tmp: TypesTmp,
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}
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const HEADER_SIZE: usize = core::mem::size_of::<AbleOsExecutableHeader>();
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impl Types {
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fn struct_field_range(&self, strct: ty::Struct) -> Range<usize> {
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let start = self.ins.structs[strct as usize].field_start as usize;
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let end = self
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.ins
.structs
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.get(strct as usize + 1)
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.map_or(self.ins.fields.len(), |s| s.field_start as usize);
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start..end
}
fn struct_fields(&self, strct: ty::Struct) -> &[Field] {
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&self.ins.fields[self.struct_field_range(strct)]
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}
fn find_type(
&mut self,
file: FileId,
id: Result<Ident, &str>,
files: &[parser::Ast],
) -> Option<ty::Id> {
if let Ok(id) = id
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&& let Some(&ty) = self.syms.get(SymKey::Decl(file, id), &self.ins)
{
if let ty::Kind::Global(g) = ty.expand() {
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let g = &self.ins.globals[g as usize];
if g.ty == ty::Id::TYPE {
return Some(ty::Id::from(
u32::from_ne_bytes(*g.data.first_chunk().unwrap()) as u64
));
}
}
return Some(ty);
}
let f = &files[file as usize];
let (Expr::BinOp { left, right, .. }, name) = f.find_decl(id)? else { unreachable!() };
let ty = left
.find_pattern_path(name, right, |right| self.ty(file, right, files))
.unwrap_or_else(|_| unreachable!())?;
if let ty::Kind::Struct(s) = ty.expand() {
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self.ins.structs[s as usize].name = name;
}
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self.syms.insert(SymKey::Decl(file, name), ty, &self.ins);
Some(ty)
}
/// returns none if comptime eval is required
fn ty(&mut self, file: FileId, expr: &Expr, files: &[parser::Ast]) -> Option<ty::Id> {
Some(match *expr {
Expr::Mod { id, .. } => ty::Kind::Module(id).compress(),
Expr::UnOp { op: TokenKind::Xor, val, .. } => {
let base = self.ty(file, val, files)?;
self.make_ptr(base)
}
Expr::Ident { id, .. } if ident::is_null(id) => id.into(),
Expr::Ident { id, .. } => self.find_type(file, Ok(id), files)?,
Expr::Field { target, name, .. } => {
let ty::Kind::Module(file) = self.ty(file, target, files)?.expand() else {
return None;
};
self.find_type(file, Err(name), files)?
}
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Expr::Slice { size: None, item, .. } => {
let ty = self.ty(file, item, files)?;
self.make_array(ty, ArrayLen::MAX)
}
Expr::Slice { size: Some(&Expr::Number { value, .. }), item, .. } => {
let ty = self.ty(file, item, files)?;
self.make_array(ty, value as _)
}
Expr::Struct { pos, fields, packed, .. } => {
let sym = SymKey::Struct(file, pos);
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if let Some(&ty) = self.syms.get(sym, &self.ins) {
return Some(ty);
}
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let prev_tmp = self.tmp.fields.len();
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for field in fields.iter().filter_map(CommentOr::or) {
let Some(ty) = self.ty(file, &field.ty, files) else {
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self.tmp.fields.truncate(prev_tmp);
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return None;
};
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self.tmp.fields.push(Field { name: self.names.intern(field.name), ty });
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}
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self.ins.structs.push(Struct {
file,
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pos,
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field_start: self.ins.fields.len() as _,
explicit_alignment: packed.then_some(1),
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..Default::default()
});
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self.ins.fields.extend(self.tmp.fields.drain(prev_tmp..));
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let ty = ty::Kind::Struct(self.ins.structs.len() as u32 - 1).compress();
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self.syms.insert(sym, ty, &self.ins);
ty
}
_ => return None,
})
}
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fn reassemble(&mut self, buf: &mut Vec<u8>) {
self.ins.funcs.iter_mut().for_each(|f| f.offset = u32::MAX);
self.ins.globals.iter_mut().for_each(|g| g.offset = u32::MAX);
self.assemble(buf)
}
fn assemble(&mut self, to: &mut Vec<u8>) {
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to.extend([0u8; HEADER_SIZE]);
emit(to, instrs::jal(reg::RET_ADDR, reg::ZERO, 0));
emit(to, instrs::tx());
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let exe = self.dump_reachable(0, to);
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Reloc::new(HEADER_SIZE, 3, 4).apply_jump(to, self.ins.funcs[0].offset, 0);
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unsafe { *to.as_mut_ptr().cast::<AbleOsExecutableHeader>() = exe }
}
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fn dump_reachable(&mut self, from: ty::Func, to: &mut Vec<u8>) -> AbleOsExecutableHeader {
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debug_assert!(self.tmp.frontier.is_empty());
debug_assert!(self.tmp.funcs.is_empty());
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debug_assert!(self.tmp.globals.is_empty());
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self.tmp.frontier.push(ty::Kind::Func(from).compress());
while let Some(itm) = self.tmp.frontier.pop() {
match itm.expand() {
ty::Kind::Func(func) => {
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let fuc = &mut self.ins.funcs[func as usize];
if task::is_done(fuc.offset) {
continue;
}
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fuc.offset = 0;
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self.tmp.funcs.push(func);
self.tmp.frontier.extend(fuc.relocs.iter().map(|r| r.target));
}
ty::Kind::Global(glob) => {
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let glb = &mut self.ins.globals[glob as usize];
if task::is_done(glb.offset) {
continue;
}
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glb.offset = 0;
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self.tmp.globals.push(glob);
}
_ => unreachable!(),
}
}
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for &func in &self.tmp.funcs {
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let fuc = &mut self.ins.funcs[func as usize];
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fuc.offset = to.len() as _;
to.extend(&fuc.code);
}
let code_length = to.len();
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for global in self.tmp.globals.drain(..) {
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let global = &mut self.ins.globals[global as usize];
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global.offset = to.len() as _;
to.extend(&global.data);
}
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let data_length = to.len() - code_length;
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for func in self.tmp.funcs.drain(..) {
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let fuc = &self.ins.funcs[func as usize];
for rel in &fuc.relocs {
let offset = match rel.target.expand() {
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ty::Kind::Func(fun) => self.ins.funcs[fun as usize].offset,
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ty::Kind::Global(glo) => self.ins.globals[glo as usize].offset,
_ => unreachable!(),
};
rel.reloc.apply_jump(to, offset, fuc.offset);
}
}
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AbleOsExecutableHeader {
magic_number: [0x15, 0x91, 0xD2],
executable_version: 0,
code_length: (code_length - HEADER_SIZE) as _,
data_length: data_length as _,
debug_length: 0,
config_length: 0,
metadata_length: 0,
}
}
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pub fn disasm<'a>(
&'a self,
mut sluce: &[u8],
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files: &'a [parser::Ast],
output: &mut String,
eca_handler: impl FnMut(&mut &[u8]),
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) -> Result<(), hbbytecode::DisasmError<'a>> {
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use instrs::DisasmItem;
let functions = self
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.ins
.funcs
.iter()
.filter(|f| task::is_done(f.offset))
.map(|f| {
let name = if f.file != u32::MAX {
let file = &files[f.file as usize];
let Expr::BinOp { left: &Expr::Ident { id, .. }, .. } =
f.expr.get(file).unwrap()
else {
unreachable!()
};
file.ident_str(id)
} else {
"target_fn"
};
(f.offset, (name, f.code.len() as u32, DisasmItem::Func))
})
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.chain(self.ins.globals.iter().filter(|g| task::is_done(g.offset)).map(|g| {
let name = if g.file == u32::MAX {
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core::str::from_utf8(&g.data).unwrap()
} else {
let file = &files[g.file as usize];
file.ident_str(g.name)
};
(g.offset, (name, g.data.len() as Size, DisasmItem::Global))
}))
.collect::<BTreeMap<_, _>>();
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instrs::disasm(&mut sluce, &functions, output, eca_handler)
}
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fn parama(&self, ret: impl Into<ty::Id>) -> ParamAlloc {
ParamAlloc(2 + (9..=16).contains(&self.size_of(ret.into())) as u8..12)
}
fn make_ptr(&mut self, base: ty::Id) -> ty::Id {
ty::Kind::Ptr(self.make_ptr_low(base)).compress()
}
fn make_ptr_low(&mut self, base: ty::Id) -> ty::Ptr {
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let ptr = Ptr { base };
let (entry, hash) = self.syms.entry(SymKey::Pointer(&ptr), &self.ins);
match entry {
hash_map::RawEntryMut::Occupied(o) => o.get_key_value().0.value,
hash_map::RawEntryMut::Vacant(v) => {
self.ins.ptrs.push(ptr);
v.insert(
ctx_map::Key {
value: ty::Kind::Ptr(self.ins.ptrs.len() as u32 - 1).compress(),
hash,
},
(),
)
.0
.value
}
}
.expand()
.inner()
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}
fn make_array(&mut self, ty: ty::Id, len: ArrayLen) -> ty::Id {
ty::Kind::Slice(self.make_array_low(ty, len)).compress()
}
fn make_array_low(&mut self, ty: ty::Id, len: ArrayLen) -> ty::Slice {
self.syms
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.get_or_insert(SymKey::Array(&Array { ty, len }), &mut self.ins, |ins| {
ins.arrays.push(Array { ty, len });
ty::Kind::Slice(ins.arrays.len() as u32 - 1).compress()
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})
.expand()
.inner()
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//let array = Array { ty, len };
//let (entry, hash) = self.syms.entry(SymKey::Array(&array), &self.ins);
//match entry {
// hash_map::RawEntryMut::Occupied(o) => o.get_key_value().0.value,
// hash_map::RawEntryMut::Vacant(v) => {
// self.ins.arrays.push(array);
// v.insert(
// ctx_map::Key {
// value: ty::Kind::Slice(self.ins.ptrs.len() as u32 - 1).compress(),
// hash,
// },
// (),
// )
// .0
// .value
// }
//}
//.expand()
//.inner()
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}
fn size_of(&self, ty: ty::Id) -> Size {
match ty.expand() {
ty::Kind::Ptr(_) => 8,
ty::Kind::Builtin(ty::VOID) => 0,
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ty::Kind::Builtin(ty::NEVER) => 0,
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ty::Kind::Builtin(ty::INT | ty::UINT) => 8,
ty::Kind::Builtin(ty::I32 | ty::U32 | ty::TYPE) => 4,
ty::Kind::Builtin(ty::I16 | ty::U16) => 2,
ty::Kind::Builtin(ty::I8 | ty::U8 | ty::BOOL) => 1,
ty::Kind::Slice(arr) => {
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let arr = &self.ins.arrays[arr as usize];
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match arr.len {
0 => 0,
ArrayLen::MAX => 16,
len => self.size_of(arr.ty) * len,
}
}
ty::Kind::Struct(stru) => {
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if self.ins.structs[stru as usize].size.get() != 0 {
return self.ins.structs[stru as usize].size.get();
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}
let mut oiter = OffsetIter::new(stru, self);
while oiter.next(self).is_some() {}
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self.ins.structs[stru as usize].size.set(oiter.offset);
oiter.offset
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}
ty => unimplemented!("size_of: {:?}", ty),
}
}
fn align_of(&self, ty: ty::Id) -> Size {
match ty.expand() {
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ty::Kind::Struct(stru) => {
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if self.ins.structs[stru as usize].align.get() != 0 {
return self.ins.structs[stru as usize].align.get() as _;
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}
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let align = self.ins.structs[stru as usize].explicit_alignment.map_or_else(
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|| {
self.struct_fields(stru)
.iter()
.map(|&Field { ty, .. }| self.align_of(ty))
.max()
.unwrap_or(1)
},
|a| a as _,
);
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self.ins.structs[stru as usize].align.set(align.try_into().unwrap());
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align
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}
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ty::Kind::Slice(arr) => {
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let arr = &self.ins.arrays[arr as usize];
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match arr.len {
ArrayLen::MAX => 8,
_ => self.align_of(arr.ty),
}
}
_ => self.size_of(ty).max(1),
}
}
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fn base_of(&self, ty: ty::Id) -> Option<ty::Id> {
match ty.expand() {
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ty::Kind::Ptr(p) => Some(self.ins.ptrs[p as usize].base),
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_ => None,
}
}
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#[cfg_attr(not(feature = "opts"), expect(dead_code))]
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fn find_struct_field(&self, s: ty::Struct, name: &str) -> Option<usize> {
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let name = self.names.project(name)?;
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self.struct_fields(s).iter().position(|f| f.name == name)
}
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}
struct OffsetIter {
strct: ty::Struct,
offset: Offset,
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fields: Range<usize>,
}
impl OffsetIter {
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fn new(strct: ty::Struct, tys: &Types) -> Self {
Self { strct, offset: 0, fields: tys.struct_field_range(strct) }
}
fn offset_of(tys: &Types, idx: ty::Struct, field: &str) -> Option<(Offset, ty::Id)> {
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let field_id = tys.names.project(field)?;
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OffsetIter::new(idx, tys)
.into_iter(tys)
.find(|(f, _)| f.name == field_id)
.map(|(f, off)| (off, f.ty))
}
fn next<'a>(&mut self, tys: &'a Types) -> Option<(&'a Field, Offset)> {
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let stru = &tys.ins.structs[self.strct as usize];
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let field = &tys.ins.fields[self.fields.next()?];
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let align = stru.explicit_alignment.map_or_else(|| tys.align_of(field.ty), |a| a as u32);
self.offset = (self.offset + align - 1) & !(align - 1);
let off = self.offset;
self.offset += tys.size_of(field.ty);
Some((field, off))
}
fn next_ty(&mut self, tys: &Types) -> Option<(ty::Id, Offset)> {
let (field, off) = self.next(tys)?;
Some((field.ty, off))
}
fn into_iter(mut self, tys: &Types) -> impl Iterator<Item = (&Field, Offset)> {
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core::iter::from_fn(move || self.next(tys))
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}
}
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#[cfg(any(feature = "opts", feature = "std"))]
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type HashMap<K, V> = hashbrown::HashMap<K, V, FnvBuildHasher>;
type FnvBuildHasher = core::hash::BuildHasherDefault<FnvHasher>;
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struct FnvHasher(u64);
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impl core::hash::Hasher for FnvHasher {
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fn finish(&self) -> u64 {
self.0
}
fn write(&mut self, bytes: &[u8]) {
self.0 = bytes.iter().fold(self.0, |hash, &byte| {
let mut hash = hash;
hash ^= byte as u64;
hash = hash.wrapping_mul(0x100000001B3);
hash
});
}
}
impl Default for FnvHasher {
fn default() -> Self {
Self(0xCBF29CE484222325)
}
}
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#[cfg(test)]
pub fn run_test(
name: &'static str,
ident: &'static str,
input: &'static str,
test: fn(&'static str, &'static str, &mut String),
) {
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use std::{io::Write, path::PathBuf, string::ToString};
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let filter = std::env::var("PT_FILTER").unwrap_or_default();
if !filter.is_empty() && !name.contains(&filter) {
return;
}
let mut output = String::new();
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{
struct DumpOut<'a>(&'a mut String);
impl Drop for DumpOut<'_> {
fn drop(&mut self) {
if std::thread::panicking() {
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std::println!("{}", self.0);
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}
}
}
let dump = DumpOut(&mut output);
test(ident, input, dump.0);
}
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let mut root = PathBuf::from(
std::env::var("PT_TEST_ROOT")
.unwrap_or(concat!(env!("CARGO_MANIFEST_DIR"), "/tests").to_string()),
);
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root.push(name.replace("::", "_").replace(concat!(env!("CARGO_PKG_NAME"), "_"), ""));
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root.set_extension("txt");
let expected = std::fs::read_to_string(&root).unwrap_or_default();
if output == expected {
return;
}
if std::env::var("PT_UPDATE").is_ok() {
std::fs::write(&root, output).unwrap();
return;
}
if !root.exists() {
std::fs::create_dir_all(root.parent().unwrap()).unwrap();
std::fs::write(&root, vec![]).unwrap();
}
let mut proc = std::process::Command::new("diff")
.arg("-u")
.arg("--color")
.arg(&root)
.arg("-")
.stdin(std::process::Stdio::piped())
.stdout(std::process::Stdio::inherit())
.spawn()
.unwrap();
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proc.stdin.as_mut().unwrap().write_all(output.as_bytes()).unwrap();
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proc.wait().unwrap();
panic!("test failed");
}
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#[cfg(test)]
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fn test_parse_files(ident: &'static str, input: &'static str) -> (Vec<parser::Ast>, Vec<Vec<u8>>) {
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use {
self::parser::FileKind,
std::{borrow::ToOwned, string::ToString},
};
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fn find_block(mut input: &'static str, test_name: &'static str) -> &'static str {
const CASE_PREFIX: &str = "#### ";
const CASE_SUFFIX: &str = "\n```hb";
loop {
let Some(pos) = input.find(CASE_PREFIX) else {
unreachable!("test {test_name} not found");
};
input = unsafe { input.get_unchecked(pos + CASE_PREFIX.len()..) };
if !input.starts_with(test_name) {
continue;
}
input = unsafe { input.get_unchecked(test_name.len()..) };
if !input.starts_with(CASE_SUFFIX) {
continue;
}
input = unsafe { input.get_unchecked(CASE_SUFFIX.len()..) };
let end = input.find("```").unwrap_or(input.len());
break unsafe { input.get_unchecked(..end) };
}
}
let input = find_block(input, ident);
let mut module_map = Vec::new();
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let mut embed_map = Vec::new();
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let mut last_start = 0;
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let mut last_module_name = "test.hb";
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for (i, m) in input.match_indices("// in module: ") {
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if last_module_name.ends_with(".hb") {
fmt::test::format(ident, input[last_start..i].trim());
module_map.push((last_module_name, &input[last_start..i]));
} else {
embed_map.push((last_module_name, &input[last_start..i]));
}
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let (module_name, _) = input[i + m.len()..].split_once('\n').unwrap();
last_module_name = module_name;
last_start = i + m.len() + module_name.len() + 1;
}
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if last_module_name.ends_with(".hb") {
fmt::test::format(ident, input[last_start..].trim());
module_map.push((last_module_name, &input[last_start..]));
} else {
embed_map.push((last_module_name, &input[last_start..]));
}
let mut loader = |path: &str, _: &str, kind| match kind {
FileKind::Module => module_map
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.iter()
.position(|&(name, _)| name == path)
.map(|i| i as parser::FileId)
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.ok_or("Module Not Found".to_string()),
FileKind::Embed => embed_map
.iter()
.position(|&(name, _)| name == path)
.map(|i| i as parser::FileId)
.ok_or("Embed Not Found".to_string()),
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};
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let mut ctx = parser::ParserCtx::default();
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(
module_map
.iter()
.map(|&(path, content)| {
parser::Ast::new(path, content.to_owned(), &mut ctx, &mut loader)
})
.collect(),
embed_map.iter().map(|&(_, content)| content.to_owned().into_bytes()).collect(),
)
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}
#[cfg(test)]
fn test_run_vm(out: &[u8], output: &mut String) {
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use core::fmt::Write;
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let mut stack = [0_u64; 1024 * 20];
let mut vm = unsafe {
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hbvm::Vm::<_, { 1024 * 100 }>::new(
LoggedMem::default(),
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hbvm::mem::Address::new(out.as_ptr() as u64).wrapping_add(HEADER_SIZE),
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)
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};
vm.write_reg(codegen::STACK_PTR, unsafe { stack.as_mut_ptr().add(stack.len()) } as u64);
let stat = loop {
match vm.run() {
Ok(hbvm::VmRunOk::End) => break Ok(()),
Ok(hbvm::VmRunOk::Ecall) => match vm.read_reg(2).0 {
1 => writeln!(output, "ev: Ecall").unwrap(), // compatibility with a test
69 => {
let [size, align] = [vm.read_reg(3).0 as usize, vm.read_reg(4).0 as usize];
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let layout = core::alloc::Layout::from_size_align(size, align).unwrap();
let ptr = unsafe { alloc::alloc::alloc(layout) };
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vm.write_reg(1, ptr as u64);
}
96 => {
let [ptr, size, align] = [
vm.read_reg(3).0 as usize,
vm.read_reg(4).0 as usize,
vm.read_reg(5).0 as usize,
];
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let layout = core::alloc::Layout::from_size_align(size, align).unwrap();
unsafe { alloc::alloc::dealloc(ptr as *mut u8, layout) };
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}
3 => vm.write_reg(1, 42),
unknown => unreachable!("unknown ecall: {unknown:?}"),
},
Ok(hbvm::VmRunOk::Timer) => {
writeln!(output, "timed out").unwrap();
break Ok(());
}
Ok(ev) => writeln!(output, "ev: {:?}", ev).unwrap(),
Err(e) => break Err(e),
}
};
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writeln!(output, "code size: {}", out.len() - HEADER_SIZE).unwrap();
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writeln!(output, "ret: {:?}", vm.read_reg(1).0).unwrap();
writeln!(output, "status: {:?}", stat).unwrap();
}
#[derive(Default)]
pub struct LoggedMem {
pub mem: hbvm::mem::HostMemory,
op_buf: Vec<hbbytecode::Oper>,
disp_buf: String,
prev_instr: Option<hbbytecode::Instr>,
}
impl LoggedMem {
unsafe fn display_instr<T>(&mut self, instr: hbbytecode::Instr, addr: hbvm::mem::Address) {
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let novm: *const hbvm::Vm<Self, 0> = core::ptr::null();
let offset = core::ptr::addr_of!((*novm).memory) as usize;
let regs = unsafe {
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&*core::ptr::addr_of!(
(*(((self as *mut _ as *mut u8).sub(offset)) as *const hbvm::Vm<Self, 0>))
.registers
)
};
let mut bytes = core::slice::from_raw_parts(
(addr.get() - 1) as *const u8,
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core::mem::size_of::<T>() + 1,
);
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use core::fmt::Write;
hbbytecode::parse_args(&mut bytes, instr, &mut self.op_buf).unwrap();
debug_assert!(bytes.is_empty());
self.disp_buf.clear();
write!(self.disp_buf, "{:<10}", format!("{instr:?}")).unwrap();
for (i, op) in self.op_buf.drain(..).enumerate() {
if i != 0 {
write!(self.disp_buf, ", ").unwrap();
}
write!(self.disp_buf, "{op:?}").unwrap();
if let hbbytecode::Oper::R(r) = op {
write!(self.disp_buf, "({})", regs[r as usize].0).unwrap()
}
}
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log::trace!("read-typed: {:x}: {}", addr.get(), self.disp_buf);
}
}
impl hbvm::mem::Memory for LoggedMem {
unsafe fn load(
&mut self,
addr: hbvm::mem::Address,
target: *mut u8,
count: usize,
) -> Result<(), hbvm::mem::LoadError> {
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log::trace!(
"load: {:x} {}",
addr.get(),
AsHex(core::slice::from_raw_parts(addr.get() as *const u8, count))
);
self.mem.load(addr, target, count)
}
unsafe fn store(
&mut self,
addr: hbvm::mem::Address,
source: *const u8,
count: usize,
) -> Result<(), hbvm::mem::StoreError> {
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log::trace!(
"store: {:x} {}",
addr.get(),
AsHex(core::slice::from_raw_parts(source, count))
);
self.mem.store(addr, source, count)
}
unsafe fn prog_read<T: Copy + 'static>(&mut self, addr: hbvm::mem::Address) -> T {
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if log::log_enabled!(log::Level::Trace) {
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if core::any::TypeId::of::<u8>() == core::any::TypeId::of::<T>() {
if let Some(instr) = self.prev_instr {
self.display_instr::<()>(instr, addr);
}
self.prev_instr = hbbytecode::Instr::try_from(*(addr.get() as *const u8)).ok();
} else {
let instr = self.prev_instr.take().unwrap();
self.display_instr::<T>(instr, addr);
}
}
self.mem.prog_read(addr)
}
}
struct AsHex<'a>(&'a [u8]);
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impl core::fmt::Display for AsHex<'_> {
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fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
for &b in self.0 {
write!(f, "{b:02x}")?;
}
Ok(())
}
}
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pub fn quad_sort<T>(mut slice: &mut [T], mut cmp: impl FnMut(&T, &T) -> core::cmp::Ordering) {
while let Some(it) = slice.take_first_mut() {
for ot in &mut *slice {
if cmp(it, ot) == core::cmp::Ordering::Greater {
core::mem::swap(it, ot);
}
}
}
debug_assert!(slice.is_sorted_by(|a, b| cmp(a, b) != core::cmp::Ordering::Greater));
}