holey-bytes/lang/src/son.rs

4589 lines
164 KiB
Rust
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use {
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self::{hbvm::Comptime, strong_ref::StrongRef},
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crate::{
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ctx_map::CtxEntry,
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debug,
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lexer::{self, TokenKind},
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parser::{
self,
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idfl::{self},
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CtorField, Expr, FileId, Pos,
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},
task,
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ty::{self, Arg, ArrayLen, Loc, Tuple},
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utils::{BitSet, Vc},
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FTask, Func, Global, Ident, Offset, OffsetIter, OptLayout, Reloc, Sig, StringRef, SymKey,
TypeParser, TypedReloc, Types,
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},
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alloc::{string::String, vec::Vec},
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core::{
assert_matches::debug_assert_matches,
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cell::{Cell, RefCell},
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fmt::{self, Debug, Display, Write},
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format_args as fa, mem,
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ops::{self, Deref},
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},
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hashbrown::hash_map,
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hbbytecode::DisasmError,
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};
const VOID: Nid = 0;
const NEVER: Nid = 1;
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const ENTRY: Nid = 2;
const MEM: Nid = 3;
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const LOOPS: Nid = 4;
const ARG_START: usize = 3;
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const DEFAULT_ACLASS: usize = 0;
const GLOBAL_ACLASS: usize = 1;
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pub mod hbvm;
type Nid = u16;
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type AClassId = i16;
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type Lookup = crate::ctx_map::CtxMap<Nid>;
impl crate::ctx_map::CtxEntry for Nid {
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type Ctx = [Result<Node, (Nid, debug::Trace)>];
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type Key<'a> = (Kind, &'a [Nid], ty::Id);
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fn key<'a>(&self, ctx: &'a Self::Ctx) -> Self::Key<'a> {
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ctx[*self as usize].as_ref().unwrap_or_else(|(_, t)| panic!("{t:#?}")).key()
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}
}
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macro_rules! inference {
($ty:ident, $ctx:expr, $self:expr, $pos:expr, $subject:literal, $example:literal) => {
let Some($ty) = $ctx.ty else {
$self.report(
$pos,
concat!(
"resulting ",
$subject,
" cannot be inferred from context, consider using `",
$example,
"` to hint the type",
),
);
return Value::NEVER;
};
};
}
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#[derive(Clone)]
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struct Nodes {
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values: Vec<Result<Node, (Nid, debug::Trace)>>,
visited: BitSet,
free: Nid,
lookup: Lookup,
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complete: bool,
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}
impl Default for Nodes {
fn default() -> Self {
Self {
values: Default::default(),
free: Nid::MAX,
lookup: Default::default(),
visited: Default::default(),
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complete: false,
}
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}
}
impl Nodes {
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fn loop_depth(&mut self, target: Nid) -> LoopDepth {
if self[target].loop_depth != 0 {
return self[target].loop_depth;
}
self[target].loop_depth = match self[target].kind {
Kind::Entry | Kind::Then | Kind::Else | Kind::Call { .. } | Kind::Return | Kind::If => {
let dpth = self.loop_depth(self[target].inputs[0]);
if self[target].loop_depth != 0 {
return self[target].loop_depth;
}
dpth
}
Kind::Region => {
let l = self.loop_depth(self[target].inputs[0]);
let r = self.loop_depth(self[target].inputs[1]);
debug_assert_eq!(l, r);
l
}
Kind::Loop => {
let depth = Self::loop_depth(self, self[target].inputs[0]) + 1;
self[target].loop_depth = depth;
let mut cursor = self[target].inputs[1];
while cursor != target {
self[cursor].loop_depth = depth;
let next = if self[cursor].kind == Kind::Region {
self.loop_depth(self[cursor].inputs[0]);
self[cursor].inputs[1]
} else {
self.idom(cursor)
};
debug_assert_ne!(next, VOID);
if matches!(self[cursor].kind, Kind::Then | Kind::Else) {
let other = *self[next]
.outputs
.iter()
.find(|&&n| self[n].kind != self[cursor].kind)
.unwrap();
if self[other].loop_depth == 0 {
self[other].loop_depth = depth - 1;
}
}
cursor = next;
}
depth
}
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Kind::Start | Kind::End | Kind::Die => 1,
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u => unreachable!("{u:?}"),
};
self[target].loop_depth
}
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fn idepth(&self, target: Nid) -> IDomDepth {
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if target == VOID {
return 0;
}
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if self[target].depth.get() == 0 {
let depth = match self[target].kind {
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Kind::End | Kind::Start => unreachable!("{:?}", self[target].kind),
Kind::Region => {
self.idepth(self[target].inputs[0]).max(self.idepth(self[target].inputs[1]))
}
_ => self.idepth(self[target].inputs[0]),
} + 1;
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self[target].depth.set(depth);
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}
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self[target].depth.get()
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}
fn fix_loops(&mut self) {
'o: for l in self[LOOPS].outputs.clone() {
let mut cursor = self[l].inputs[1];
while cursor != l {
if self[cursor].kind == Kind::If
&& self[cursor]
.outputs
.clone()
.into_iter()
.any(|b| self.loop_depth(b) < self.loop_depth(cursor))
{
continue 'o;
}
cursor = self.idom(cursor);
}
self[l].outputs.push(NEVER);
self[NEVER].inputs.push(l);
}
}
fn push_up_impl(&mut self, node: Nid) {
if !self.visited.set(node) {
return;
}
for i in 1..self[node].inputs.len() {
let inp = self[node].inputs[i];
if !self[inp].kind.is_pinned() {
self.push_up_impl(inp);
}
}
if self[node].kind.is_pinned() {
return;
}
let mut deepest = VOID;
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for i in 0..self[node].inputs.len() {
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let inp = self[node].inputs[i];
if self.idepth(inp) > self.idepth(deepest) {
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if matches!(self[inp].kind, Kind::Call { .. }) {
deepest = inp;
} else {
deepest = self.idom(inp);
}
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}
}
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if deepest == self[node].inputs[0] {
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return;
}
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let current = self[node].inputs[0];
let index = self[current].outputs.iter().position(|&p| p == node).unwrap();
self[current].outputs.remove(index);
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self[node].inputs[0] = deepest;
debug_assert!(
!self[deepest].outputs.contains(&node)
|| matches!(self[deepest].kind, Kind::Call { .. }),
"{node} {:?} {deepest} {:?}",
self[node],
self[deepest]
);
self[deepest].outputs.push(node);
}
fn collect_rpo(&mut self, node: Nid, rpo: &mut Vec<Nid>) {
if !self.is_cfg(node) || !self.visited.set(node) {
return;
}
for i in 0..self[node].outputs.len() {
self.collect_rpo(self[node].outputs[i], rpo);
}
rpo.push(node);
}
fn push_up(&mut self, rpo: &mut Vec<Nid>) {
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debug_assert!(rpo.is_empty());
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self.collect_rpo(VOID, rpo);
for &node in rpo.iter().rev() {
self.loop_depth(node);
for i in 0..self[node].inputs.len() {
self.push_up_impl(self[node].inputs[i]);
}
if matches!(self[node].kind, Kind::Loop | Kind::Region) {
for i in 0..self[node].outputs.len() {
let usage = self[node].outputs[i];
if self[usage].kind == Kind::Phi {
self.push_up_impl(usage);
}
}
}
}
debug_assert_eq!(
self.iter()
.map(|(n, _)| n)
.filter(|&n| !self.visited.get(n)
&& !matches!(self[n].kind, Kind::Arg | Kind::Mem | Kind::Loops))
.collect::<Vec<_>>(),
vec![],
"{:?}",
self.iter()
.filter(|&(n, nod)| !self.visited.get(n)
&& !matches!(nod.kind, Kind::Arg | Kind::Mem | Kind::Loops))
.collect::<Vec<_>>()
);
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rpo.clear();
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}
fn better(&mut self, is: Nid, then: Nid) -> bool {
debug_assert_ne!(self.idepth(is), self.idepth(then), "{is} {then}");
self.loop_depth(is) < self.loop_depth(then)
|| self.idepth(is) > self.idepth(then)
|| self[then].kind == Kind::If
}
fn is_forward_edge(&mut self, usage: Nid, def: Nid) -> bool {
match self[usage].kind {
Kind::Phi => {
self[usage].inputs[2] != def || self[self[usage].inputs[0]].kind != Kind::Loop
}
Kind::Loop => self[usage].inputs[1] != def,
_ => true,
}
}
fn push_down(&mut self, node: Nid) {
if !self.visited.set(node) {
return;
}
for usage in self[node].outputs.clone() {
if self.is_forward_edge(usage, node) && self[node].kind == Kind::Stre {
self.push_down(usage);
}
}
for usage in self[node].outputs.clone() {
if self.is_forward_edge(usage, node) {
self.push_down(usage);
}
}
if self[node].kind.is_pinned() {
return;
}
let mut min = None::<Nid>;
for i in 0..self[node].outputs.len() {
let usage = self[node].outputs[i];
let ub = self.use_block(node, usage);
min = min.map(|m| self.common_dom(ub, m)).or(Some(ub));
}
let mut min = min.unwrap();
debug_assert!(self.dominates(self[node].inputs[0], min));
let mut cursor = min;
while cursor != self[node].inputs[0] {
cursor = self.idom(cursor);
if self.better(cursor, min) {
min = cursor;
}
}
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if self[node].kind == Kind::Load {
min = self.find_antideps(node, min);
}
if self[node].kind == Kind::Stre {
self[node].antidep = self[node].inputs[0];
}
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if self[min].kind.ends_basic_block() {
min = self.idom(min);
}
self.check_dominance(node, min, true);
let prev = self[node].inputs[0];
debug_assert!(self.idepth(min) >= self.idepth(prev));
let index = self[prev].outputs.iter().position(|&p| p == node).unwrap();
self[prev].outputs.remove(index);
self[node].inputs[0] = min;
self[min].outputs.push(node);
}
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fn find_antideps(&mut self, load: Nid, mut min: Nid) -> Nid {
debug_assert!(self[load].kind == Kind::Load);
let (aclass, _) = self.aclass_index(self[load].inputs[1]);
let mut cursor = min;
while cursor != self[load].inputs[0] {
self[cursor].antidep = load;
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if self[cursor].clobbers.get(aclass as _) {
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min = self[cursor].inputs[0];
break;
}
cursor = self.idom(cursor);
}
if self[load].inputs[2] == MEM {
return min;
}
for out in self[self[load].inputs[2]].outputs.clone() {
match self[out].kind {
Kind::Stre => {
let mut cursor = self[out].inputs[0];
while cursor != self[out].antidep {
if self[cursor].antidep == load {
min = self.common_dom(min, cursor);
if min == cursor {
self.bind(load, out);
}
break;
}
cursor = self.idom(cursor);
}
break;
}
Kind::Phi => {
let n = self[out].inputs[1..]
.iter()
.position(|&n| n == self[load].inputs[2])
.unwrap();
let mut cursor = self[self[out].inputs[0]].inputs[n];
while cursor != self[out].antidep {
if self[cursor].antidep == load {
min = self.common_dom(min, cursor);
break;
}
cursor = self.idom(cursor);
}
}
_ => {}
}
}
min
}
fn bind(&mut self, from: Nid, to: Nid) {
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debug_assert_ne!(to, 0);
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self[from].outputs.push(to);
self[to].inputs.push(from);
}
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fn use_block(&mut self, target: Nid, from: Nid) -> Nid {
if self[from].kind != Kind::Phi {
return self.idom(from);
}
let index = self[from].inputs.iter().position(|&n| n == target).unwrap();
self[self[from].inputs[0]].inputs[index - 1]
}
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fn idom(&self, target: Nid) -> Nid {
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match self[target].kind {
Kind::Start => VOID,
Kind::End => unreachable!(),
Kind::Region => {
let &[lcfg, rcfg] = self[target].inputs.as_slice() else { unreachable!() };
self.common_dom(lcfg, rcfg)
}
_ => self[target].inputs[0],
}
}
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fn common_dom(&self, mut a: Nid, mut b: Nid) -> Nid {
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while a != b {
let [ldepth, rdepth] = [self.idepth(a), self.idepth(b)];
if ldepth >= rdepth {
a = self.idom(a);
}
if ldepth <= rdepth {
b = self.idom(b);
}
}
a
}
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fn merge_scopes(
&mut self,
loops: &mut [Loop],
ctrl: &StrongRef,
to: &mut Scope,
from: &mut Scope,
) {
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for (i, (to_value, from_value)) in to.vars.iter_mut().zip(from.vars.iter_mut()).enumerate()
{
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debug_assert_eq!(to_value.ty, from_value.ty);
if to_value.value() != from_value.value() {
self.load_loop_var(i, from_value, loops);
self.load_loop_var(i, to_value, loops);
if to_value.value() != from_value.value() {
let inps = [ctrl.get(), from_value.value(), to_value.value()];
to_value.set_value_remove(self.new_node(from_value.ty, Kind::Phi, inps), self);
}
}
}
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for (i, (to_class, from_class)) in
to.aclasses.iter_mut().zip(from.aclasses.iter_mut()).enumerate()
{
if to_class.last_store.get() != from_class.last_store.get() {
self.load_loop_aclass(i, from_class, loops);
self.load_loop_aclass(i, to_class, loops);
if to_class.last_store.get() != from_class.last_store.get() {
let inps = [ctrl.get(), from_class.last_store.get(), to_class.last_store.get()];
to_class
.last_store
.set_remove(self.new_node(ty::Id::VOID, Kind::Phi, inps), self);
}
}
}
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}
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fn graphviz_low(
&self,
tys: &Types,
files: &[parser::Ast],
out: &mut String,
) -> core::fmt::Result {
use core::fmt::Write;
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writeln!(out)?;
writeln!(out, "digraph G {{")?;
writeln!(out, "rankdir=BT;")?;
writeln!(out, "concentrate=true;")?;
writeln!(out, "compound=true;")?;
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for (i, node) in self.iter() {
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let color = match () {
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_ if node.lock_rc == Nid::MAX => "orange",
_ if node.lock_rc == Nid::MAX - 1 => "blue",
_ if node.lock_rc != 0 => "red",
_ if node.outputs.is_empty() => "purple",
_ if node.is_mem() => "green",
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_ if self.is_cfg(i) => "yellow",
_ => "white",
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};
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if node.ty != ty::Id::VOID {
writeln!(
out,
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" node{i}[label=\"{i} {} {} {}\" color={color}]",
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node.kind,
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ty::Display::new(tys, files, node.ty),
node.aclass,
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)?;
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} else {
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writeln!(
out,
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" node{i}[label=\"{i} {} {}\" color={color}]",
node.kind, node.aclass,
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)?;
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}
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for (j, &o) in node.outputs.iter().enumerate() {
let color = if self.is_cfg(i) && self.is_cfg(o) { "red" } else { "lightgray" };
let index = self[o].inputs.iter().position(|&inp| i == inp).unwrap();
let style = if index == 0 && !self.is_cfg(o) { "style=dotted" } else { "" };
writeln!(
out,
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" node{o} -> node{i}[color={color} taillabel={index} headlabel={j} {style}]",
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)?;
}
}
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writeln!(out, "}}")?;
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Ok(())
}
fn graphviz(&self, tys: &Types, files: &[parser::Ast]) {
let out = &mut String::new();
_ = self.graphviz_low(tys, files, out);
log::info!("{out}");
}
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fn graphviz_in_browser(&self, _tys: &Types, _files: &[parser::Ast]) {
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#[cfg(all(debug_assertions, feature = "std"))]
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{
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let out = &mut String::new();
_ = self.graphviz_low(_tys, _files, out);
if !std::process::Command::new("brave")
.arg(format!("https://dreampuf.github.io/GraphvizOnline/#{out}"))
.status()
.unwrap()
.success()
{
log::error!("{out}");
}
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}
}
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fn gcm(&mut self, rpo: &mut Vec<Nid>) {
self.fix_loops();
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self.visited.clear(self.values.len());
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self.push_up(rpo);
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self.visited.clear(self.values.len());
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self.push_down(VOID);
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}
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fn clear(&mut self) {
self.values.clear();
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self.lookup.clear();
self.free = Nid::MAX;
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self.complete = false;
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}
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fn new_node_nop(&mut self, ty: ty::Id, kind: Kind, inps: impl Into<Vc>) -> Nid {
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let node =
Node { ralloc_backref: u16::MAX, inputs: inps.into(), kind, ty, ..Default::default() };
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if node.kind == Kind::Phi && node.ty != ty::Id::VOID {
debug_assert_ne!(
self[node.inputs[1]].ty,
ty::Id::VOID,
"{:?} {:?}",
self[node.inputs[1]],
node.ty.expand(),
);
if self[node.inputs[0]].kind != Kind::Loop {
debug_assert_ne!(
self[node.inputs[2]].ty,
ty::Id::VOID,
"{:?} {:?}",
self[node.inputs[2]],
node.ty.expand(),
);
}
}
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let mut lookup_meta = None;
if !node.is_not_gvnd() {
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let (raw_entry, hash) = self.lookup.entry(node.key(), &self.values);
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let entry = match raw_entry {
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hash_map::RawEntryMut::Occupied(o) => return o.get_key_value().0.value,
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hash_map::RawEntryMut::Vacant(v) => v,
};
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lookup_meta = Some((entry, hash));
}
if self.free == Nid::MAX {
self.free = self.values.len() as _;
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self.values.push(Err((Nid::MAX, debug::trace())));
}
let free = self.free;
for &d in node.inputs.as_slice() {
debug_assert_ne!(d, free);
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self.values[d as usize].as_mut().unwrap_or_else(|_| panic!("{d}")).outputs.push(free);
}
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self.free = mem::replace(&mut self.values[free as usize], Ok(node)).unwrap_err().0;
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if let Some((entry, hash)) = lookup_meta {
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entry.insert(crate::ctx_map::Key { value: free, hash }, ());
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}
free
}
fn remove_node_lookup(&mut self, target: Nid) {
if !self[target].is_not_gvnd() {
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self.lookup
.remove(&target, &self.values)
.unwrap_or_else(|| panic!("{:?}", self[target]));
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}
}
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fn new_node(&mut self, ty: ty::Id, kind: Kind, inps: impl Into<Vc>) -> Nid {
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let id = self.new_node_nop(ty, kind, inps);
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if let Some(opt) = self.peephole(id) {
debug_assert_ne!(opt, id);
self.lock(opt);
self.remove(id);
self.unlock(opt);
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opt
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} else {
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id
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}
}
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fn new_const(&mut self, ty: ty::Id, value: impl Into<i64>) -> Nid {
self.new_node_nop(ty, Kind::CInt { value: value.into() }, [VOID])
}
fn new_const_lit(&mut self, ty: ty::Id, value: impl Into<i64>) -> Value {
self.new_node_lit(ty, Kind::CInt { value: value.into() }, [VOID])
}
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fn new_node_lit(&mut self, ty: ty::Id, kind: Kind, inps: impl Into<Vc>) -> Value {
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Value::new(self.new_node(ty, kind, inps)).ty(ty)
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}
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fn lock(&mut self, target: Nid) {
self[target].lock_rc += 1;
}
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#[track_caller]
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fn unlock(&mut self, target: Nid) {
self[target].lock_rc -= 1;
}
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fn remove(&mut self, target: Nid) -> bool {
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if !self[target].is_dangling() {
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return false;
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}
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for i in 0..self[target].inputs.len() {
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let inp = self[target].inputs[i];
let index = self[inp].outputs.iter().position(|&p| p == target).unwrap();
self[inp].outputs.swap_remove(index);
self.remove(inp);
}
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self.remove_node_lookup(target);
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if cfg!(debug_assertions) {
mem::replace(&mut self.values[target as usize], Err((Nid::MAX, debug::trace())))
.unwrap();
} else {
mem::replace(&mut self.values[target as usize], Err((self.free, debug::trace())))
.unwrap();
self.free = target;
}
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true
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}
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fn late_peephole(&mut self, target: Nid) -> Option<Nid> {
if let Some(id) = self.peephole(target) {
self.replace(target, id);
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return None;
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}
None
}
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fn iter_peeps(&mut self, mut fuel: usize, stack: &mut Vec<Nid>) {
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debug_assert!(stack.is_empty());
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self.iter()
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.filter_map(|(id, node)| node.kind.is_peeped().then_some(id))
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.collect_into(stack);
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stack.iter().for_each(|&s| self.lock(s));
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while fuel != 0
&& let Some(node) = stack.pop()
{
fuel -= 1;
if self[node].outputs.is_empty() {
self.push_adjacent_nodes(node, stack);
}
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if self.unlock_remove(node) {
continue;
}
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if let Some(new) = self.peephole(node) {
self.replace(node, new);
self.push_adjacent_nodes(new, stack);
}
debug_assert_matches!(
self.iter()
.find(|(i, n)| n.lock_rc != 0 && n.kind.is_peeped() && !stack.contains(i)),
None
);
}
stack.drain(..).for_each(|s| _ = self.unlock_remove(s));
}
fn push_adjacent_nodes(&mut self, of: Nid, stack: &mut Vec<Nid>) {
let prev_len = stack.len();
for &i in self[of]
.outputs
.iter()
.chain(self[of].inputs.iter())
.chain(self[of].peep_triggers.iter())
{
if self.values[i as usize].is_ok() && self[i].kind.is_peeped() && self[i].lock_rc == 0 {
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stack.push(i);
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}
}
self[of].peep_triggers = Vc::default();
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stack.iter().skip(prev_len).for_each(|&n| self.lock(n));
}
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pub fn aclass_index(&self, region: Nid) -> (usize, Nid) {
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if self[region].aclass >= 0 {
(self[region].aclass as _, region)
} else {
(
self[self[region].aclass.unsigned_abs() - 1].aclass as _,
self[region].aclass.unsigned_abs() - 1,
)
}
}
fn pass_aclass(&mut self, from: Nid, to: Nid) {
debug_assert!(self[from].aclass >= 0);
if from != to {
self[to].aclass = -(from as AClassId + 1);
}
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}
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fn peephole(&mut self, target: Nid) -> Option<Nid> {
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use {Kind as K, TokenKind as T};
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match self[target].kind {
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K::BinOp { op } => {
let &[ctrl, mut lhs, mut rhs] = self[target].inputs.as_slice() else {
unreachable!()
};
let ty = self[target].ty;
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let is_float = self[lhs].ty.is_float();
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if let (&K::CInt { value: a }, &K::CInt { value: b }) =
(&self[lhs].kind, &self[rhs].kind)
{
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return Some(self.new_const(ty, op.apply_binop(a, b, is_float)));
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}
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if lhs == rhs {
match op {
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T::Sub => return Some(self.new_const(ty, 0)),
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T::Add => {
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let rhs = self.new_const(ty, 2);
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return Some(
self.new_node(ty, K::BinOp { op: T::Mul }, [ctrl, lhs, rhs]),
);
}
_ => {}
}
}
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// this is more general the pushing constants to left to help deduplicate expressions more
let mut changed = false;
if op.is_comutative() && self[lhs].key() < self[rhs].key() {
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mem::swap(&mut lhs, &mut rhs);
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changed = true;
}
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if let K::CInt { value } = self[rhs].kind {
match (op, value) {
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(T::Eq, 0) if self[lhs].ty.is_pointer() || self[lhs].kind == Kind::Stck => {
return Some(self.new_const(ty::Id::BOOL, 0));
}
(T::Ne, 0) if self[lhs].ty.is_pointer() || self[lhs].kind == Kind::Stck => {
return Some(self.new_const(ty::Id::BOOL, 1));
}
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(T::Add | T::Sub | T::Shl, 0) | (T::Mul | T::Div, 1) => return Some(lhs),
(T::Mul, 0) => return Some(rhs),
_ => {}
}
}
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if op.is_comutative() && self[lhs].kind == (K::BinOp { op }) {
let &[_, a, b] = self[lhs].inputs.as_slice() else { unreachable!() };
if let K::CInt { value: av } = self[b].kind
&& let K::CInt { value: bv } = self[rhs].kind
{
// (a op #b) op #c => a op (#b op #c)
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let new_rhs = self.new_const(ty, op.apply_binop(av, bv, is_float));
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return Some(self.new_node(ty, K::BinOp { op }, [ctrl, a, new_rhs]));
}
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if self.is_const(b) {
// (a op #b) op c => (a op c) op #b
let new_lhs = self.new_node(ty, K::BinOp { op }, [ctrl, a, rhs]);
return Some(self.new_node(ty, K::BinOp { op }, [ctrl, new_lhs, b]));
}
}
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if op == T::Add
&& self[lhs].kind == (K::BinOp { op: T::Mul })
&& self[lhs].inputs[1] == rhs
&& let K::CInt { value } = self[self[lhs].inputs[2]].kind
{
// a * #n + a => a * (#n + 1)
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let new_rhs = self.new_const(ty, value + 1);
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return Some(self.new_node(ty, K::BinOp { op: T::Mul }, [ctrl, rhs, new_rhs]));
}
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if op == T::Sub
&& self[lhs].kind == (K::BinOp { op: T::Add })
&& let K::CInt { value: a } = self[rhs].kind
&& let K::CInt { value: b } = self[self[lhs].inputs[2]].kind
{
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let new_rhs = self.new_const(ty, b - a);
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return Some(self.new_node(ty, K::BinOp { op: T::Add }, [
ctrl,
self[lhs].inputs[1],
new_rhs,
]));
}
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if op == T::Sub && self[lhs].kind == (K::BinOp { op }) {
// (a - b) - c => a - (b + c)
let &[_, a, b] = self[lhs].inputs.as_slice() else { unreachable!() };
let c = rhs;
let new_rhs = self.new_node(ty, K::BinOp { op: T::Add }, [ctrl, b, c]);
return Some(self.new_node(ty, K::BinOp { op }, [ctrl, a, new_rhs]));
}
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if changed {
return Some(self.new_node(ty, self[target].kind, [ctrl, lhs, rhs]));
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}
}
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K::UnOp { op } => {
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let &[_, oper] = self[target].inputs.as_slice() else { unreachable!() };
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let ty = self[target].ty;
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let is_float = self[oper].ty.is_float();
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if let K::CInt { value } = self[oper].kind {
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return Some(self.new_const(ty, op.apply_unop(value, is_float)));
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}
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}
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K::If => {
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if self[target].ty == ty::Id::VOID {
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match self.try_opt_cond(target) {
CondOptRes::Unknown => {}
CondOptRes::Known { value, .. } => {
let ty = if value {
ty::Id::RIGHT_UNREACHABLE
} else {
ty::Id::LEFT_UNREACHABLE
};
return Some(self.new_node_nop(ty, K::If, self[target].inputs.clone()));
}
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}
}
}
K::Then => {
if self[self[target].inputs[0]].ty == ty::Id::LEFT_UNREACHABLE {
return Some(NEVER);
} else if self[self[target].inputs[0]].ty == ty::Id::RIGHT_UNREACHABLE {
return Some(self[self[target].inputs[0]].inputs[0]);
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}
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}
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K::Else => {
if self[self[target].inputs[0]].ty == ty::Id::RIGHT_UNREACHABLE {
return Some(NEVER);
} else if self[self[target].inputs[0]].ty == ty::Id::LEFT_UNREACHABLE {
return Some(self[self[target].inputs[0]].inputs[0]);
}
}
K::Region => {
let (ctrl, side) = match self[target].inputs.as_slice() {
[NEVER, NEVER] => return Some(NEVER),
&[NEVER, ctrl] => (ctrl, 2),
&[ctrl, NEVER] => (ctrl, 1),
_ => return None,
};
self.lock(target);
for i in self[target].outputs.clone() {
if self[i].kind == Kind::Phi {
self.replace(i, self[i].inputs[side]);
}
}
self.unlock(target);
return Some(ctrl);
}
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K::Call { .. } => {
if self[target].inputs[0] == NEVER {
return Some(NEVER);
}
}
K::Return => {
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if self[target].inputs[0] == NEVER {
return Some(NEVER);
}
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let mut new_inps = Vc::from(&self[target].inputs[..2]);
'a: for &n in self[target].inputs.clone().iter().skip(2) {
if self[n].kind != Kind::Stre || self[n].inputs.len() != 4 {
new_inps.push(n);
continue;
}
let mut cursor = n;
let class = self.aclass_index(self[cursor].inputs[2]);
if self[class.1].kind != Kind::Stck {
new_inps.push(n);
continue;
}
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cursor = self[cursor].inputs[3];
while cursor != MEM {
if self.aclass_index(self[cursor].inputs[2]) != class
|| self[cursor].inputs.len() != 4
{
new_inps.push(n);
continue 'a;
}
cursor = self[cursor].inputs[3];
}
}
if new_inps.as_slice() != self[target].inputs.as_slice() {
return Some(self.new_node_nop(ty::Id::VOID, Kind::Return, new_inps));
}
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}
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K::Phi => {
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let &[ctrl, lhs, rhs] = self[target].inputs.as_slice() else { unreachable!() };
if lhs == rhs {
return Some(lhs);
}
if self[lhs].kind == Kind::Stre
&& self[rhs].kind == Kind::Stre
&& self[lhs].ty == self[rhs].ty
&& self[lhs].inputs[2] == self[rhs].inputs[2]
&& self[lhs].inputs.get(3) == self[rhs].inputs.get(3)
{
let pick_value = self.new_node(self[lhs].ty, Kind::Phi, [
ctrl,
self[lhs].inputs[1],
self[rhs].inputs[1],
]);
let mut vc = Vc::from([VOID, pick_value, self[lhs].inputs[2]]);
for &rest in &self[lhs].inputs[3..] {
vc.push(rest);
}
for &rest in &self[rhs].inputs[4..] {
vc.push(rest);
}
return Some(self.new_node(self[lhs].ty, Kind::Stre, vc));
}
}
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K::Stck => {
if let &[mut a, mut b] = self[target].outputs.as_slice() {
if self[a].kind == Kind::Load {
mem::swap(&mut a, &mut b);
}
if matches!(self[a].kind, Kind::Call { .. })
&& self[a].inputs.last() == Some(&target)
&& self[b].kind == Kind::Load
&& let &[store] = self[b].outputs.as_slice()
&& self[store].kind == Kind::Stre
{
let len = self[a].inputs.len();
let stre = self[store].inputs[3];
if stre != MEM {
self[a].inputs.push(stre);
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self[a].inputs.swap(len - 1, len);
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self[stre].outputs.push(a);
}
return Some(self[store].inputs[2]);
}
}
}
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K::Stre => {
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let &[_, value, region, store, ..] = self[target].inputs.as_slice() else {
unreachable!()
};
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if self[value].kind == Kind::Load && self[value].inputs[1] == region {
return Some(store);
}
let mut cursor = target;
while self[cursor].kind == Kind::Stre
&& self[cursor].inputs[1] != VOID
&& let &[next_store] = self[cursor].outputs.as_slice()
{
if self[next_store].inputs[2] == region
&& self[next_store].ty == self[target].ty
{
return Some(store);
}
cursor = next_store;
}
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'eliminate: {
if self[target].outputs.is_empty() {
break 'eliminate;
}
if self[value].kind != Kind::Load
|| self[value].outputs.iter().any(|&n| self[n].kind != Kind::Stre)
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{
for &ele in self[value].outputs.clone().iter().filter(|&&n| n != target) {
self[ele].peep_triggers.push(target);
}
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break 'eliminate;
}
let &[_, stack, last_store] = self[value].inputs.as_slice() else {
unreachable!()
};
if self[stack].ty != self[value].ty || self[stack].kind != Kind::Stck {
break 'eliminate;
}
let mut unidentifed = self[stack].outputs.clone();
let load_idx = unidentifed.iter().position(|&n| n == value).unwrap();
unidentifed.swap_remove(load_idx);
let mut saved = Vc::default();
let mut cursor = last_store;
let mut first_store = last_store;
while cursor != MEM && self[cursor].kind == Kind::Stre {
let mut contact_point = cursor;
let mut region = self[cursor].inputs[2];
if let Kind::BinOp { op } = self[region].kind {
debug_assert_matches!(op, TokenKind::Add | TokenKind::Sub);
contact_point = region;
region = self[region].inputs[1]
}
if region != stack {
break;
}
let Some(index) = unidentifed.iter().position(|&n| n == contact_point)
else {
break 'eliminate;
};
unidentifed.remove(index);
saved.push(contact_point);
first_store = cursor;
cursor = *self[cursor].inputs.get(3).unwrap_or(&MEM);
if unidentifed.is_empty() {
break;
}
}
debug_assert_matches!(
self[last_store].kind,
Kind::Stre | Kind::Mem,
"{:?}",
self[last_store]
);
debug_assert_matches!(
self[first_store].kind,
Kind::Stre | Kind::Mem,
"{:?}",
self[first_store]
);
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if !unidentifed.is_empty() {
break 'eliminate;
}
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// FIXME: when the loads and stores become parallel we will need to get saved
// differently
let mut prev_store = store;
for mut oper in saved.into_iter().rev() {
let mut region = region;
if let Kind::BinOp { op } = self[oper].kind {
debug_assert_eq!(self[oper].outputs.len(), 1);
debug_assert_eq!(self[self[oper].outputs[0]].kind, Kind::Stre);
region = self.new_node(self[oper].ty, Kind::BinOp { op }, [
VOID,
region,
self[oper].inputs[2],
]);
oper = self[oper].outputs[0];
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}
let mut inps = self[oper].inputs.clone();
debug_assert_eq!(inps.len(), 4);
inps[2] = region;
inps[3] = prev_store;
prev_store = self.new_node(self[oper].ty, Kind::Stre, inps);
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}
return Some(prev_store);
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}
if value != VOID
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&& self[target].inputs.len() == 4
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&& self[value].kind != Kind::Load
&& self[store].kind == Kind::Stre
&& self[store].inputs[2] == region
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{
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if self[store].inputs[1] == value {
return Some(store);
}
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let mut inps = self[target].inputs.clone();
inps[3] = self[store].inputs[3];
return Some(self.new_node_nop(self[target].ty, Kind::Stre, inps));
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}
}
K::Load => {
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let &[_, region, store] = self[target].inputs.as_slice() else { unreachable!() };
if self[store].kind == Kind::Stre
&& self[store].inputs[2] == region
&& self[store].ty == self[target].ty
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&& self[store]
.outputs
.iter()
.all(|&n| !matches!(self[n].kind, Kind::Call { .. }))
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{
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return Some(self[store].inputs[1]);
}
let (index, reg) = self.aclass_index(region);
if index != 0 && self[reg].kind == Kind::Stck {
let mut cursor = store;
while cursor != MEM
&& self[cursor].kind == Kind::Stre
&& self[cursor].inputs[1] != VOID
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&& self[cursor]
.outputs
.iter()
.all(|&n| !matches!(self[n].kind, Kind::Call { .. }))
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{
if self[cursor].inputs[2] == region && self[cursor].ty == self[target].ty {
return Some(self[cursor].inputs[1]);
}
cursor = self[cursor].inputs[3];
}
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}
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}
K::Loop => {
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if self[target].inputs[0] == NEVER {
return Some(NEVER);
}
if self[target].inputs[1] == NEVER {
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self.lock(target);
for o in self[target].outputs.clone() {
if self[o].kind == Kind::Phi {
self.replace(o, self[o].inputs[1]);
}
}
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self.unlock(target);
return Some(self[target].inputs[0]);
}
}
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_ => {}
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}
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None
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}
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fn try_opt_cond(&self, target: Nid) -> CondOptRes {
let &[ctrl, cond, ..] = self[target].inputs.as_slice() else { unreachable!() };
if let Kind::CInt { value } = self[cond].kind {
return CondOptRes::Known { value: value != 0, pin: None };
}
let mut cursor = ctrl;
while cursor != ENTRY {
let ctrl = &self[cursor];
// TODO: do more inteligent checks on the condition
if matches!(ctrl.kind, Kind::Then | Kind::Else) {
let other_cond = self[ctrl.inputs[0]].inputs[1];
if let Some(value) = self.matches_cond(cond, other_cond) {
return CondOptRes::Known {
value: (ctrl.kind == Kind::Then) ^ !value,
pin: Some(cursor),
};
}
}
cursor = self.idom(cursor);
}
CondOptRes::Unknown
}
fn matches_cond(&self, to_match: Nid, matches: Nid) -> Option<bool> {
use TokenKind as K;
let [tn, mn] = [&self[to_match], &self[matches]];
match (tn.kind, mn.kind) {
_ if to_match == matches => Some(true),
(Kind::BinOp { op: K::Ne }, Kind::BinOp { op: K::Eq })
| (Kind::BinOp { op: K::Eq }, Kind::BinOp { op: K::Ne })
if tn.inputs[1..] == mn.inputs[1..] =>
{
Some(false)
}
(_, Kind::BinOp { op: K::Band }) => self
.matches_cond(to_match, mn.inputs[1])
.or(self.matches_cond(to_match, mn.inputs[2])),
(_, Kind::BinOp { op: K::Bor }) => match (
self.matches_cond(to_match, mn.inputs[1]),
self.matches_cond(to_match, mn.inputs[2]),
) {
(None, Some(a)) | (Some(a), None) => Some(a),
(Some(b), Some(a)) if a == b => Some(a),
_ => None,
},
_ => None,
}
}
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fn is_const(&self, id: Nid) -> bool {
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matches!(self[id].kind, Kind::CInt { .. })
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}
fn replace(&mut self, target: Nid, with: Nid) {
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debug_assert_ne!(target, with, "{:?}", self[target]);
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for out in self[target].outputs.clone() {
let index = self[out].inputs.iter().position(|&p| p == target).unwrap();
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self.modify_input(out, index, with);
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}
}
fn modify_input(&mut self, target: Nid, inp_index: usize, with: Nid) -> Nid {
self.remove_node_lookup(target);
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debug_assert_ne!(self[target].inputs[inp_index], with, "{:?}", self[target]);
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if self[target].is_not_gvnd() && (self[target].kind != Kind::Phi || with == 0) {
let prev = self[target].inputs[inp_index];
self[target].inputs[inp_index] = with;
self[with].outputs.push(target);
let index = self[prev].outputs.iter().position(|&o| o == target).unwrap();
self[prev].outputs.swap_remove(index);
self.remove(prev);
target
} else {
let prev = self[target].inputs[inp_index];
self[target].inputs[inp_index] = with;
let (entry, hash) = self.lookup.entry(target.key(&self.values), &self.values);
match entry {
hash_map::RawEntryMut::Occupied(other) => {
let rpl = other.get_key_value().0.value;
self[target].inputs[inp_index] = prev;
self.lookup.insert(target.key(&self.values), target, &self.values);
self.replace(target, rpl);
rpl
}
hash_map::RawEntryMut::Vacant(slot) => {
slot.insert(crate::ctx_map::Key { value: target, hash }, ());
let index = self[prev].outputs.iter().position(|&o| o == target).unwrap();
self[prev].outputs.swap_remove(index);
self[with].outputs.push(target);
self.remove(prev);
target
}
}
}
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}
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#[track_caller]
fn unlock_remove(&mut self, id: Nid) -> bool {
self[id].lock_rc -= 1;
self.remove(id)
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}
fn iter(&self) -> impl DoubleEndedIterator<Item = (Nid, &Node)> {
self.values.iter().enumerate().filter_map(|(i, s)| Some((i as _, s.as_ref().ok()?)))
}
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#[expect(clippy::format_in_format_args)]
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fn basic_blocks_instr(&mut self, out: &mut String, node: Nid) -> core::fmt::Result {
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if self[node].kind != Kind::Loop && self[node].kind != Kind::Region {
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write!(out, " {node:>2}-c{:>2}: ", self[node].ralloc_backref)?;
}
match self[node].kind {
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Kind::Assert { .. } | Kind::Start => unreachable!("{} {out}", self[node].kind),
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Kind::End => return Ok(()),
Kind::If => write!(out, " if: "),
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Kind::Region | Kind::Loop => writeln!(out, " goto: {node}"),
Kind::Return => write!(out, " ret: "),
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Kind::Die => write!(out, " die: "),
Kind::CInt { value } => write!(out, "cint: #{value:<4}"),
Kind::Phi => write!(out, " phi: "),
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Kind::Arg => write!(
out,
" arg: {:<5}",
self[VOID].outputs.iter().position(|&n| n == node).unwrap() - 2
),
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Kind::BinOp { op } | Kind::UnOp { op } => {
write!(out, "{:>4}: ", op.name())
}
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Kind::Call { func, args: _ } => {
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write!(out, "call: {func} {} ", self[node].depth.get())
}
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Kind::Global { global } => write!(out, "glob: {global:<5}"),
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Kind::Entry => write!(out, "ctrl: {:<5}", "entry"),
Kind::Then => write!(out, "ctrl: {:<5}", "then"),
Kind::Else => write!(out, "ctrl: {:<5}", "else"),
Kind::Stck => write!(out, "stck: "),
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Kind::Load => write!(out, "load: "),
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Kind::Stre => write!(out, "stre: "),
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Kind::Mem => write!(out, " mem: "),
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Kind::Loops => write!(out, " loops: "),
}?;
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if self[node].kind != Kind::Loop && self[node].kind != Kind::Region {
writeln!(
out,
" {:<14} {}",
format!("{:?}", self[node].inputs),
format!("{:?}", self[node].outputs)
)?;
}
Ok(())
}
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fn basic_blocks_low(&mut self, out: &mut String, mut node: Nid) -> core::fmt::Result {
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let iter = |nodes: &Nodes, node| nodes[node].outputs.clone().into_iter().rev();
while self.visited.set(node) {
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match self[node].kind {
Kind::Start => {
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writeln!(out, "start: {}", self[node].depth.get())?;
let mut cfg_index = Nid::MAX;
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for o in iter(self, node) {
self.basic_blocks_instr(out, o)?;
if self[o].kind.is_cfg() {
cfg_index = o;
}
}
node = cfg_index;
}
Kind::End => break,
Kind::If => {
self.basic_blocks_low(out, self[node].outputs[0])?;
node = self[node].outputs[1];
}
Kind::Region => {
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writeln!(
out,
"region{node}: {} {} {:?}",
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self[node].depth.get(),
self[node].loop_depth,
self[node].inputs
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)?;
let mut cfg_index = Nid::MAX;
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for o in iter(self, node) {
self.basic_blocks_instr(out, o)?;
if self.is_cfg(o) {
cfg_index = o;
}
}
node = cfg_index;
}
Kind::Loop => {
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writeln!(
out,
"loop{node}: {} {} {:?}",
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self[node].depth.get(),
self[node].loop_depth,
self[node].outputs
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)?;
let mut cfg_index = Nid::MAX;
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for o in iter(self, node) {
self.basic_blocks_instr(out, o)?;
if self.is_cfg(o) {
cfg_index = o;
}
}
node = cfg_index;
}
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Kind::Return | Kind::Die => {
node = self[node].outputs[0];
}
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Kind::Then | Kind::Else | Kind::Entry => {
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writeln!(
out,
"b{node}: {} {} {:?}",
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self[node].depth.get(),
self[node].loop_depth,
self[node].outputs
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)?;
let mut cfg_index = Nid::MAX;
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for o in iter(self, node) {
self.basic_blocks_instr(out, o)?;
if self.is_cfg(o) {
cfg_index = o;
}
}
node = cfg_index;
}
Kind::Call { .. } => {
let mut cfg_index = Nid::MAX;
let mut print_ret = true;
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for o in iter(self, node) {
if self[o].inputs[0] == node
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&& (self[node].outputs[0] != o || mem::take(&mut print_ret))
{
self.basic_blocks_instr(out, o)?;
}
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if self.is_cfg(o) {
cfg_index = o;
}
}
node = cfg_index;
}
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_ => unreachable!(),
}
}
Ok(())
}
fn basic_blocks(&mut self) {
let mut out = String::new();
self.visited.clear(self.values.len());
self.basic_blocks_low(&mut out, VOID).unwrap();
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log::info!("{out}");
}
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fn is_cfg(&self, o: Nid) -> bool {
self[o].kind.is_cfg()
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}
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fn check_final_integrity(&self, tys: &Types, files: &[parser::Ast]) {
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if !cfg!(debug_assertions) {
return;
}
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let mut failed = false;
for (id, node) in self.iter() {
if node.lock_rc != 0 {
log::error!("{} {} {:?}", node.lock_rc, 0, node.kind);
failed = true;
}
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if !matches!(node.kind, Kind::End | Kind::Mem | Kind::Arg | Kind::Loops)
&& node.outputs.is_empty()
{
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log::error!("outputs are empry {id} {:?}", node);
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failed = true;
}
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if node.inputs.first() == Some(&NEVER) && id != NEVER {
log::error!("is unreachable but still present {id} {:?}", node.kind);
failed = true;
}
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if node.outputs.contains(&id) && !matches!(node.kind, Kind::Loop | Kind::End) {
log::error!("node depends on it self and its not a loop {id} {:?}", node);
failed = true;
}
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}
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if failed {
self.graphviz_in_browser(tys, files);
panic!()
}
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}
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fn load_loop_var(&mut self, index: usize, var: &mut Variable, loops: &mut [Loop]) {
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if var.value() != VOID {
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return;
}
let [loops @ .., loob] = loops else { unreachable!() };
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let node = loob.node;
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let lvar = &mut loob.scope.vars[index];
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self.load_loop_var(index, lvar, loops);
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if !self[lvar.value()].is_lazy_phi(node) {
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let lvalue = lvar.value();
let inps = [node, lvalue, VOID];
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lvar.set_value(self.new_node_nop(lvar.ty, Kind::Phi, inps), self);
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self.pass_aclass(self.aclass_index(lvalue).1, lvar.value());
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}
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var.set_value(lvar.value(), self);
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}
fn load_loop_aclass(&mut self, index: usize, aclass: &mut AClass, loops: &mut [Loop]) {
if aclass.last_store.get() != VOID {
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return;
}
let [loops @ .., loob] = loops else { unreachable!() };
let node = loob.node;
let lvar = &mut loob.scope.aclasses[index];
self.load_loop_aclass(index, lvar, loops);
if !self[lvar.last_store.get()].is_lazy_phi(node) {
let inps = [node, lvar.last_store.get(), VOID];
lvar.last_store.set(self.new_node_nop(ty::Id::VOID, Kind::Phi, inps), self);
}
aclass.last_store.set(lvar.last_store.get(), self);
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}
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fn check_dominance(&mut self, nd: Nid, min: Nid, check_outputs: bool) {
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if !cfg!(debug_assertions) {
return;
}
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let node = self[nd].clone();
for &i in node.inputs.iter() {
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let dom = self.idom(i);
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debug_assert!(
self.dominates(dom, min),
"{dom} {min} {node:?} {:?}",
self.basic_blocks()
);
}
if check_outputs {
for &o in node.outputs.iter() {
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let dom = self.use_block(nd, o);
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debug_assert!(
self.dominates(min, dom),
"{min} {dom} {node:?} {:?}",
self.basic_blocks()
);
}
}
}
fn dominates(&mut self, dominator: Nid, mut dominated: Nid) -> bool {
loop {
if dominator == dominated {
break true;
}
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if self.idepth(dominator) > self.idepth(dominated) {
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break false;
}
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dominated = self.idom(dominated);
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}
}
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}
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enum CondOptRes {
Unknown,
Known { value: bool, pin: Option<Nid> },
}
impl ops::Index<Nid> for Nodes {
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type Output = Node;
fn index(&self, index: Nid) -> &Self::Output {
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self.values[index as usize].as_ref().unwrap_or_else(|(_, bt)| panic!("{index} {bt:#?}"))
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}
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}
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impl ops::IndexMut<Nid> for Nodes {
fn index_mut(&mut self, index: Nid) -> &mut Self::Output {
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self.values[index as usize].as_mut().unwrap_or_else(|(_, bt)| panic!("{index} {bt:#?}"))
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}
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}
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#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash, PartialOrd, Ord)]
pub enum AssertKind {
NullCheck,
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UnwrapCheck,
}
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#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash, PartialOrd, Ord, Default)]
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#[repr(u8)]
pub enum Kind {
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#[default]
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Start,
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// [ctrl]
Entry,
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// [VOID]
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Mem,
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// [VOID]
Loops,
// [terms...]
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End,
// [ctrl, cond]
If,
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Then,
Else,
// [lhs, rhs]
Region,
// [entry, back]
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Loop,
// [ctrl, ?value]
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Return,
// [ctrl]
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Die,
// [ctrl]
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CInt {
value: i64,
},
// [ctrl, lhs, rhs]
Phi,
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Arg,
// [ctrl, oper]
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UnOp {
op: lexer::TokenKind,
},
// [ctrl, lhs, rhs]
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BinOp {
op: lexer::TokenKind,
},
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// [ctrl]
Global {
global: ty::Global,
},
// [ctrl, ...args]
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Call {
func: ty::Func,
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args: ty::Tuple,
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},
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// [ctrl, cond, value]
Assert {
kind: AssertKind,
pos: Pos,
},
// [ctrl]
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Stck,
// [ctrl, memory]
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Load,
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// [ctrl, value, memory]
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Stre,
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}
impl Kind {
fn is_pinned(&self) -> bool {
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self.is_cfg() || matches!(self, Self::Phi | Self::Arg | Self::Mem | Self::Loops)
}
fn is_cfg(&self) -> bool {
matches!(
self,
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Self::Start
| Self::End
| Self::Return
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| Self::Die
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| Self::Entry
| Self::Then
| Self::Else
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| Self::Call { .. }
| Self::Assert { .. }
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| Self::If
| Self::Region
| Self::Loop
)
}
fn ends_basic_block(&self) -> bool {
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matches!(self, Self::Return | Self::If | Self::End | Self::Die)
}
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fn is_peeped(&self) -> bool {
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!matches!(self, Self::End | Self::Arg | Self::Mem | Self::Loops)
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}
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}
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impl fmt::Display for Kind {
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fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
match self {
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Kind::CInt { value } => write!(f, "#{value}"),
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Kind::Entry => write!(f, "ctrl[entry]"),
Kind::Then => write!(f, "ctrl[then]"),
Kind::Else => write!(f, "ctrl[else]"),
Kind::BinOp { op } => write!(f, "{op}"),
Kind::Call { func, .. } => write!(f, "call {func}"),
slf => write!(f, "{slf:?}"),
}
}
}
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#[derive(Debug, Default, Clone)]
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pub struct Node {
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kind: Kind,
inputs: Vc,
outputs: Vc,
peep_triggers: Vc,
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clobbers: BitSet,
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ty: ty::Id,
offset: Offset,
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ralloc_backref: RallocBRef,
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depth: Cell<IDomDepth>,
lock_rc: LockRc,
loop_depth: LoopDepth,
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aclass: AClassId,
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antidep: Nid,
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}
impl Node {
fn is_dangling(&self) -> bool {
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self.outputs.len() + self.lock_rc as usize == 0 && self.kind != Kind::Arg
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}
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fn key(&self) -> (Kind, &[Nid], ty::Id) {
(self.kind, &self.inputs, self.ty)
}
fn is_lazy_phi(&self, loob: Nid) -> bool {
self.kind == Kind::Phi && self.inputs[2] == 0 && self.inputs[0] == loob
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}
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fn is_not_gvnd(&self) -> bool {
(self.kind == Kind::Phi && self.inputs[2] == 0)
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|| matches!(self.kind, Kind::Arg | Kind::Stck | Kind::Stre)
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|| self.kind.is_cfg()
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}
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fn is_mem(&self) -> bool {
matches!(self.kind, Kind::Stre | Kind::Load | Kind::Stck)
}
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}
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type RallocBRef = u16;
type LoopDepth = u16;
type LockRc = u16;
type IDomDepth = u16;
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#[derive(Clone)]
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struct Loop {
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node: Nid,
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ctrl: [StrongRef; 2],
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ctrl_scope: [Scope; 2],
scope: Scope,
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}
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mod strong_ref {
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use {
super::{Kind, Nid, Nodes},
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crate::debug,
core::ops::Not,
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};
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#[derive(Clone)]
pub struct StrongRef(Nid);
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impl StrongRef {
pub const DEFAULT: Self = Self(Nid::MAX);
pub fn new(value: Nid, nodes: &mut Nodes) -> Self {
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nodes.lock(value);
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Self(value)
}
pub fn get(&self) -> Nid {
debug_assert!(self.0 != Nid::MAX);
self.0
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}
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pub fn unwrap(self, nodes: &mut Nodes) -> Option<Nid> {
let nid = self.0;
if nid != Nid::MAX {
nodes.unlock(nid);
core::mem::forget(self);
Some(nid)
} else {
None
}
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}
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pub fn set(&mut self, mut new_value: Nid, nodes: &mut Nodes) -> Nid {
nodes.unlock(self.0);
core::mem::swap(&mut self.0, &mut new_value);
nodes.lock(self.0);
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new_value
}
pub fn dup(&self, nodes: &mut Nodes) -> Self {
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nodes.lock(self.0);
Self(self.0)
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}
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pub fn remove(self, nodes: &mut Nodes) -> Option<Nid> {
let ret = nodes.unlock_remove(self.0).not().then_some(self.0);
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core::mem::forget(self);
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ret
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}
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pub fn set_remove(&mut self, new_value: Nid, nodes: &mut Nodes) {
let old = self.set(new_value, nodes);
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nodes.remove(old);
}
pub fn remove_ignore_arg(self, nodes: &mut Nodes) {
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if nodes[self.0].kind == Kind::Arg {
nodes.unlock(self.0);
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} else {
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nodes.unlock_remove(self.0);
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}
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core::mem::forget(self);
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}
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pub fn soft_remove(self, nodes: &mut Nodes) -> Nid {
let nid = self.0;
nodes.unlock(self.0);
core::mem::forget(self);
nid
}
pub fn is_live(&self) -> bool {
self.0 != Nid::MAX
}
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}
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impl Default for StrongRef {
fn default() -> Self {
Self::DEFAULT
}
}
impl Drop for StrongRef {
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fn drop(&mut self) {
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if self.0 != Nid::MAX && !debug::panicking() {
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panic!("variable unproperly deinitialized")
}
}
}
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}
// makes sure value inside is laways locked for this instance of variable
#[derive(Default, Clone)]
struct Variable {
id: Ident,
ty: ty::Id,
ptr: bool,
value: StrongRef,
}
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impl Variable {
fn new(id: Ident, ty: ty::Id, ptr: bool, value: Nid, nodes: &mut Nodes) -> Self {
Self { id, ty, ptr, value: StrongRef::new(value, nodes) }
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}
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fn value(&self) -> Nid {
self.value.get()
}
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fn set_value(&mut self, new_value: Nid, nodes: &mut Nodes) -> Nid {
self.value.set(new_value, nodes)
}
fn dup(&self, nodes: &mut Nodes) -> Self {
Self { id: self.id, ty: self.ty, ptr: self.ptr, value: self.value.dup(nodes) }
}
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fn remove(self, nodes: &mut Nodes) {
self.value.remove(nodes);
}
fn set_value_remove(&mut self, new_value: Nid, nodes: &mut Nodes) {
self.value.set_remove(new_value, nodes);
}
fn remove_ignore_arg(self, nodes: &mut Nodes) {
self.value.remove_ignore_arg(nodes);
}
}
#[derive(Default, Clone)]
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pub struct AClass {
last_store: StrongRef,
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clobber: StrongRef,
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}
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impl AClass {
fn dup(&self, nodes: &mut Nodes) -> Self {
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Self { last_store: self.last_store.dup(nodes), clobber: self.clobber.dup(nodes) }
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}
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fn remove(self, nodes: &mut Nodes) {
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self.last_store.remove(nodes);
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self.clobber.remove(nodes);
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}
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fn new(nodes: &mut Nodes) -> Self {
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Self { last_store: StrongRef::new(MEM, nodes), clobber: StrongRef::new(VOID, nodes) }
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}
}
#[derive(Default, Clone)]
pub struct Scope {
vars: Vec<Variable>,
aclasses: Vec<AClass>,
}
impl Scope {
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fn dup(&self, nodes: &mut Nodes) -> Self {
Self {
vars: self.vars.iter().map(|v| v.dup(nodes)).collect(),
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aclasses: self.aclasses.iter().map(|v| v.dup(nodes)).collect(),
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}
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}
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fn clear(&mut self, nodes: &mut Nodes) {
self.vars.drain(..).for_each(|n| n.remove(nodes));
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self.aclasses.drain(..).for_each(|l| l.remove(nodes));
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}
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}
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#[derive(Default, Clone)]
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struct ItemCtx {
file: FileId,
ret: Option<ty::Id>,
task_base: usize,
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inline_var_base: usize,
inline_aclass_base: usize,
inline_depth: u16,
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inline_ret: Option<(Value, StrongRef, Scope)>,
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nodes: Nodes,
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ctrl: StrongRef,
call_count: u16,
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loops: Vec<Loop>,
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scope: Scope,
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ret_relocs: Vec<Reloc>,
relocs: Vec<TypedReloc>,
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jump_relocs: Vec<(Nid, Reloc)>,
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code: Vec<u8>,
}
impl ItemCtx {
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fn init(&mut self, file: FileId, ret: Option<ty::Id>, task_base: usize) {
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debug_assert_eq!(self.loops.len(), 0);
debug_assert_eq!(self.scope.vars.len(), 0);
debug_assert_eq!(self.ret_relocs.len(), 0);
debug_assert_eq!(self.relocs.len(), 0);
debug_assert_eq!(self.jump_relocs.len(), 0);
debug_assert_eq!(self.code.len(), 0);
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self.call_count = 0;
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self.file = file;
self.ret = ret;
self.task_base = task_base;
self.nodes.clear();
self.scope.vars.clear();
let start = self.nodes.new_node(ty::Id::VOID, Kind::Start, []);
debug_assert_eq!(start, VOID);
let end = self.nodes.new_node(ty::Id::NEVER, Kind::End, []);
debug_assert_eq!(end, NEVER);
self.nodes.lock(end);
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self.ctrl =
StrongRef::new(self.nodes.new_node(ty::Id::VOID, Kind::Entry, [VOID]), &mut self.nodes);
debug_assert_eq!(self.ctrl.get(), ENTRY);
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let mem = self.nodes.new_node(ty::Id::VOID, Kind::Mem, [VOID]);
debug_assert_eq!(mem, MEM);
self.nodes.lock(mem);
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let loops = self.nodes.new_node(ty::Id::VOID, Kind::Loops, [VOID]);
debug_assert_eq!(loops, LOOPS);
self.nodes.lock(loops);
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self.scope.aclasses.push(AClass::new(&mut self.nodes)); // DEFAULT
self.scope.aclasses.push(AClass::new(&mut self.nodes)); // GLOBAL
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}
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fn finalize(&mut self, stack: &mut Vec<Nid>, _tys: &Types, _files: &[parser::Ast]) {
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self.scope.clear(&mut self.nodes);
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mem::take(&mut self.ctrl).soft_remove(&mut self.nodes);
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self.nodes.iter_peeps(1000, stack);
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}
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fn unlock(&mut self) {
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self.nodes.unlock(MEM);
self.nodes.unlock(NEVER);
self.nodes.unlock(LOOPS);
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}
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}
fn write_reloc(doce: &mut [u8], offset: usize, value: i64, size: u16) {
let value = value.to_ne_bytes();
doce[offset..offset + size as usize].copy_from_slice(&value[..size as usize]);
}
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#[derive(Default, Debug)]
struct Ctx {
ty: Option<ty::Id>,
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}
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impl Ctx {
pub fn with_ty(self, ty: ty::Id) -> Self {
Self { ty: Some(ty) }
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}
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}
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#[derive(Default)]
struct Pool {
cis: Vec<ItemCtx>,
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used_cis: usize,
ralloc: Regalloc,
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nid_stack: Vec<Nid>,
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}
impl Pool {
pub fn push_ci(
&mut self,
file: FileId,
ret: Option<ty::Id>,
task_base: usize,
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target: &mut ItemCtx,
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) {
if let Some(slot) = self.cis.get_mut(self.used_cis) {
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mem::swap(slot, target);
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} else {
self.cis.push(ItemCtx::default());
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mem::swap(self.cis.last_mut().unwrap(), target);
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}
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target.init(file, ret, task_base);
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self.used_cis += 1;
}
pub fn pop_ci(&mut self, target: &mut ItemCtx) {
self.used_cis -= 1;
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mem::swap(&mut self.cis[self.used_cis], target);
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}
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fn save_ci(&mut self, ci: &ItemCtx) {
if let Some(slot) = self.cis.get_mut(self.used_cis) {
slot.clone_from(ci);
} else {
self.cis.push(ci.clone());
}
self.used_cis += 1;
}
fn restore_ci(&mut self, dst: &mut ItemCtx) {
self.used_cis -= 1;
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dst.scope.clear(&mut dst.nodes);
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mem::take(&mut dst.ctrl).remove(&mut dst.nodes);
*dst = mem::take(&mut self.cis[self.used_cis]);
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}
fn clear(&mut self) {
debug_assert_eq!(self.used_cis, 0);
}
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}
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struct Regalloc {
env: regalloc2::MachineEnv,
ctx: regalloc2::Ctx,
}
impl Default for Regalloc {
fn default() -> Self {
Self {
env: regalloc2::MachineEnv {
preferred_regs_by_class: [
(1..13).map(|i| regalloc2::PReg::new(i, regalloc2::RegClass::Int)).collect(),
vec![],
vec![],
],
non_preferred_regs_by_class: [
(13..64).map(|i| regalloc2::PReg::new(i, regalloc2::RegClass::Int)).collect(),
vec![],
vec![],
],
scratch_by_class: Default::default(),
fixed_stack_slots: Default::default(),
},
ctx: Default::default(),
}
}
}
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#[derive(Default, Clone, Copy, PartialEq, Eq, Debug)]
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struct Value {
ty: ty::Id,
var: bool,
ptr: bool,
id: Nid,
}
impl Value {
const NEVER: Option<Value> =
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Some(Self { ty: ty::Id::NEVER, var: false, ptr: false, id: NEVER });
const VOID: Value = Self { ty: ty::Id::VOID, var: false, ptr: false, id: VOID };
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pub fn new(id: Nid) -> Self {
Self { id, ..Default::default() }
}
pub fn var(id: usize) -> Self {
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Self { id: u16::MAX - (id as Nid), var: true, ..Default::default() }
}
pub fn ptr(id: Nid) -> Self {
Self { id, ptr: true, ..Default::default() }
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}
#[inline(always)]
pub fn ty(self, ty: impl Into<ty::Id>) -> Self {
Self { ty: ty.into(), ..self }
}
}
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#[derive(Default)]
pub struct CodegenCtx {
pub parser: parser::Ctx,
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tys: Types,
pool: Pool,
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ct: Comptime,
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}
impl CodegenCtx {
pub fn clear(&mut self) {
self.parser.clear();
self.tys.clear();
self.pool.clear();
self.ct.clear();
}
}
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pub struct Errors<'a>(&'a RefCell<String>);
impl Deref for Errors<'_> {
type Target = RefCell<String>;
fn deref(&self) -> &Self::Target {
self.0
}
}
impl Drop for Errors<'_> {
fn drop(&mut self) {
if debug::panicking() && !self.0.borrow().is_empty() {
log::error!("{}", self.0.borrow());
}
}
}
pub struct Codegen<'a> {
pub files: &'a [parser::Ast],
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pub errors: Errors<'a>,
tys: &'a mut Types,
ci: ItemCtx,
pool: &'a mut Pool,
ct: &'a mut Comptime,
}
impl<'a> Codegen<'a> {
pub fn new(files: &'a [parser::Ast], ctx: &'a mut CodegenCtx) -> Self {
Self {
files,
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errors: Errors(&ctx.parser.errors),
tys: &mut ctx.tys,
ci: Default::default(),
pool: &mut ctx.pool,
ct: &mut ctx.ct,
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}
}
fn emit_and_eval(&mut self, file: FileId, ret: ty::Id, ret_loc: &mut [u8]) -> u64 {
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let mut rets =
self.ci.nodes[NEVER].inputs.iter().filter(|&&i| self.ci.nodes[i].kind == Kind::Return);
if let Some(&ret) = rets.next()
&& rets.next().is_none()
&& let Kind::CInt { value } = self.ci.nodes[self.ci.nodes[ret].inputs[1]].kind
{
if let len @ 1..=8 = ret_loc.len() {
ret_loc.copy_from_slice(&value.to_ne_bytes()[..len])
}
return value as _;
}
if !self.complete_call_graph() {
return 1;
}
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self.ci.emit_ct_body(self.tys, self.files, Sig { args: Tuple::empty(), ret }, self.pool);
let func = Func {
file,
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relocs: mem::take(&mut self.ci.relocs),
code: mem::take(&mut self.ci.code),
..Default::default()
};
// TODO: return them back
let fuc = self.tys.ins.funcs.len() as ty::Func;
self.tys.ins.funcs.push(func);
self.tys.dump_reachable(fuc, &mut self.ct.code);
self.dump_ct_asm();
self.ct.run(ret_loc, self.tys.ins.funcs[fuc as usize].offset)
}
fn dump_ct_asm(&self) {
#[cfg(debug_assertions)]
{
let mut vc = String::new();
if let Err(e) = self.tys.disasm(&self.ct.code, self.files, &mut vc, |_| {}) {
panic!("{e} {}", vc);
} else {
log::trace!("{}", vc);
}
}
}
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pub fn push_embeds(&mut self, embeds: Vec<Vec<u8>>) {
self.tys.ins.globals = embeds
.into_iter()
.map(|data| Global {
ty: self.tys.make_array(ty::Id::U8, data.len() as _),
data,
..Default::default()
})
.collect();
}
fn new_stack(&mut self, ty: ty::Id) -> Nid {
let stck = self.ci.nodes.new_node_nop(ty, Kind::Stck, [VOID, MEM]);
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self.ci.nodes[stck].aclass = self.ci.scope.aclasses.len() as _;
self.ci.scope.aclasses.push(AClass::new(&mut self.ci.nodes));
stck
}
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fn store_mem(&mut self, region: Nid, ty: ty::Id, value: Nid) -> Nid {
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if value == NEVER {
return NEVER;
}
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debug_assert!(
self.ci.nodes[region].kind != Kind::Load || self.ci.nodes[region].ty.is_pointer()
);
debug_assert!(self.ci.nodes[region].kind != Kind::Stre);
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let (value_index, value_region) = self.ci.nodes.aclass_index(value);
if value_index != 0 {
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self.ci.nodes[value_region].aclass = 0;
//// simply switch the class to the default one
//let aclass = &mut self.ci.scope.aclasses[value_index];
//self.ci.nodes.load_loop_aclass(value_index, aclass, &mut self.ci.loops);
//let last_store = aclass.last_store.get();
//let mut cursor = last_store;
//let mut first_store = cursor;
//while cursor != MEM {
// first_store = cursor;
// debug_assert_matches!(
// self.ci.nodes[cursor].kind,
// Kind::Stre,
// "{:?}",
// self.ci.nodes[cursor]
// );
// cursor = self.ci.nodes[cursor].inputs[3];
//}
//if last_store != MEM {
// let base_class = self.ci.scope.aclasses[0].last_store.get();
// if base_class != MEM {
// self.ci.nodes.modify_input(first_store, 3, base_class);
// }
// self.ci.scope.aclasses[0].last_store.set(last_store, &mut self.ci.nodes);
//}
self.ci.nodes.load_loop_aclass(0, &mut self.ci.scope.aclasses[0], &mut self.ci.loops);
self.ci.nodes.load_loop_aclass(
value_index,
&mut self.ci.scope.aclasses[value_index],
&mut self.ci.loops,
);
let base_class = self.ci.scope.aclasses[0].last_store.get();
let last_store = self.ci.scope.aclasses[value_index].last_store.get();
if base_class != MEM && last_store != MEM {
self.ci.nodes.bind(base_class, last_store);
}
if last_store != MEM {
self.ci.scope.aclasses[0].last_store.set(last_store, &mut self.ci.nodes);
}
}
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let (index, _) = self.ci.nodes.aclass_index(region);
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let aclass = &mut self.ci.scope.aclasses[index];
self.ci.nodes.load_loop_aclass(index, aclass, &mut self.ci.loops);
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let vc = Vc::from([aclass.clobber.get(), value, region, aclass.last_store.get()]);
mem::take(&mut aclass.last_store).soft_remove(&mut self.ci.nodes);
let store = self.ci.nodes.new_node(ty, Kind::Stre, vc);
aclass.last_store = StrongRef::new(store, &mut self.ci.nodes);
store
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}
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fn load_mem(&mut self, region: Nid, ty: ty::Id) -> Nid {
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debug_assert_ne!(region, VOID);
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debug_assert_ne!({ self.ci.nodes[region].ty }, ty::Id::VOID, "{:?}", {
self.ci.nodes[region].lock_rc = Nid::MAX;
self.ci.nodes.graphviz_in_browser(self.tys, self.files);
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});
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debug_assert!(
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self.ci.nodes[region].kind != Kind::Load || self.ci.nodes[region].ty.is_pointer(),
"{:?} {} {}",
self.ci.nodes.graphviz_in_browser(self.tys, self.files),
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self.file().path,
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self.ty_display(self.ci.nodes[region].ty)
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);
debug_assert!(self.ci.nodes[region].kind != Kind::Stre);
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let (index, _) = self.ci.nodes.aclass_index(region);
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let aclass = &mut self.ci.scope.aclasses[index];
self.ci.nodes.load_loop_aclass(index, aclass, &mut self.ci.loops);
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let vc = [aclass.clobber.get(), region, aclass.last_store.get()];
self.ci.nodes.new_node(ty, Kind::Load, vc)
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}
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pub fn generate(&mut self, entry: FileId) {
self.find_type(0, entry, entry, Err("main"), self.files);
if self.tys.ins.funcs.is_empty() {
return;
}
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self.make_func_reachable(0);
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self.complete_call_graph();
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}
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pub fn assemble_comptime(&mut self) -> Comptime {
self.ct.code.clear();
self.tys.reassemble(&mut self.ct.code);
self.ct.reset();
core::mem::take(self.ct)
}
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pub fn assemble(&mut self, buf: &mut Vec<u8>) {
self.tys.reassemble(buf);
}
pub fn disasm(&mut self, output: &mut String) -> Result<(), DisasmError> {
let mut bin = Vec::new();
self.assemble(&mut bin);
self.tys.disasm(&bin, self.files, output, |_| {})
}
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fn make_func_reachable(&mut self, func: ty::Func) {
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let fuc = &mut self.tys.ins.funcs[func as usize];
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if fuc.offset == u32::MAX {
fuc.offset = task::id(self.tys.tasks.len() as _);
self.tys.tasks.push(Some(FTask { file: fuc.file, id: func }));
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}
}
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fn raw_expr(&mut self, expr: &Expr) -> Option<Value> {
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self.raw_expr_ctx(expr, Ctx::default())
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}
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fn raw_expr_ctx(&mut self, expr: &Expr, mut ctx: Ctx) -> Option<Value> {
// ordered by complexity of the expression
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match *expr {
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Expr::Null { pos } => {
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inference!(oty, ctx, self, pos, "null pointer", "@as(^<ty>, null)");
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let Some(ty) = self.tys.inner_of(oty) else {
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self.report(
pos,
fa!(
"'null' expression was inferred to be '{}',
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which is not optional",
self.ty_display(oty)
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),
);
return Value::NEVER;
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};
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match oty.loc(self.tys) {
Loc::Reg => Some(self.ci.nodes.new_const_lit(oty, 0)),
Loc::Stack => {
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let OptLayout { flag_ty, flag_offset, .. } = self.tys.opt_layout(ty);
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let stack = self.new_stack(oty);
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let offset = self.offset(stack, flag_offset);
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let value = self.ci.nodes.new_const(flag_ty, 0);
self.store_mem(offset, flag_ty, value);
Some(Value::ptr(stack).ty(oty))
}
}
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}
Expr::Idk { pos } => {
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inference!(ty, ctx, self, pos, "value", "@as(<ty>, idk)");
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if ty.loc(self.tys) == Loc::Stack {
Some(Value::ptr(self.new_stack(ty)).ty(ty))
} else {
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Some(self.ci.nodes.new_const_lit(ty, 0))
}
}
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Expr::Bool { value, .. } => Some(self.ci.nodes.new_const_lit(ty::Id::BOOL, value)),
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Expr::Number { value, .. } => Some(
self.ci.nodes.new_const_lit(
ctx.ty
.map(|ty| self.tys.inner_of(ty).unwrap_or(ty))
.filter(|ty| ty.is_integer())
.unwrap_or(ty::Id::DEFAULT_INT),
value,
),
),
Expr::Float { value, .. } => Some(
self.ci.nodes.new_const_lit(
ctx.ty
.map(|ty| self.tys.inner_of(ty).unwrap_or(ty))
.filter(|ty| ty.is_float())
.unwrap_or(ty::Id::F32),
value as i64,
),
),
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Expr::Ident { id, .. }
if let Some(index) = self.ci.scope.vars.iter().rposition(|v| v.id == id) =>
{
let var = &mut self.ci.scope.vars[index];
self.ci.nodes.load_loop_var(index, var, &mut self.ci.loops);
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Some(Value::var(index).ty(var.ty))
}
Expr::Ident { id, pos, .. } => {
let decl = self.find_type(pos, self.ci.file, self.ci.file, Ok(id), self.files);
match decl.expand() {
ty::Kind::Builtin(ty::NEVER) => Value::NEVER,
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ty::Kind::Global(global) => {
let gl = &self.tys.ins.globals[global as usize];
let value = self.ci.nodes.new_node(gl.ty, Kind::Global { global }, [VOID]);
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self.ci.nodes[value].aclass = GLOBAL_ACLASS as _;
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Some(Value::ptr(value).ty(gl.ty))
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}
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_ => Some(Value::new(Nid::MAX).ty(decl)),
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}
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}
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Expr::Comment { .. } => Some(Value::VOID),
Expr::String { pos, literal } => {
let literal = &literal[1..literal.len() - 1];
let report = |bytes: &core::str::Bytes, message: &str| {
self.report(pos + (literal.len() - bytes.len()) as u32 - 1, message)
};
let mut data = Vec::<u8>::with_capacity(literal.len());
crate::endoce_string(literal, &mut data, report).unwrap();
let ty = self.tys.make_ptr(ty::Id::U8);
let global = match self.tys.strings.entry(&data, &self.tys.ins.globals) {
(hash_map::RawEntryMut::Occupied(occupied_entry), _) => {
occupied_entry.get_key_value().0.value.0
}
(hash_map::RawEntryMut::Vacant(vacant_entry), hash) => {
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let global = self.tys.ins.globals.len() as ty::Global;
self.tys.ins.globals.push(Global { data, ty, ..Default::default() });
vacant_entry
.insert(crate::ctx_map::Key { value: StringRef(global), hash }, ())
.0
.value
.0
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}
};
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let global = self.ci.nodes.new_node(ty, Kind::Global { global }, [VOID]);
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self.ci.nodes[global].aclass = GLOBAL_ACLASS as _;
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Some(Value::new(global).ty(ty))
}
Expr::Return { pos, val } => {
let mut value = if let Some(val) = val {
self.expr_ctx(val, Ctx { ty: self.ci.ret })?
} else {
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Value { ty: ty::Id::VOID, ..Default::default() }
};
let expected = *self.ci.ret.get_or_insert(value.ty);
self.assert_ty(pos, &mut value, expected, "return value");
if self.ci.inline_depth == 0 {
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debug_assert_ne!(self.ci.ctrl.get(), VOID);
let mut inps = Vc::from([self.ci.ctrl.get(), value.id]);
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for (i, aclass) in self.ci.scope.aclasses.iter_mut().enumerate() {
self.ci.nodes.load_loop_aclass(i, aclass, &mut self.ci.loops);
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if aclass.last_store.get() != MEM {
inps.push(aclass.last_store.get());
}
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}
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self.ci.ctrl.set(
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self.ci.nodes.new_node_nop(ty::Id::VOID, Kind::Return, inps),
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&mut self.ci.nodes,
);
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self.ci.nodes[NEVER].inputs.push(self.ci.ctrl.get());
self.ci.nodes[self.ci.ctrl.get()].outputs.push(NEVER);
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} else if let Some((pv, ctrl, scope)) = &mut self.ci.inline_ret {
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ctrl.set(
self.ci
.nodes
.new_node(ty::Id::VOID, Kind::Region, [self.ci.ctrl.get(), ctrl.get()]),
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&mut self.ci.nodes,
);
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self.ci.nodes.merge_scopes(&mut self.ci.loops, ctrl, scope, &mut self.ci.scope);
self.ci.nodes.unlock(pv.id);
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pv.id =
self.ci.nodes.new_node(value.ty, Kind::Phi, [ctrl.get(), value.id, pv.id]);
self.ci.nodes.lock(pv.id);
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self.ci.ctrl.set(NEVER, &mut self.ci.nodes);
} else {
for (i, aclass) in self.ci.scope.aclasses[..2].iter_mut().enumerate() {
self.ci.nodes.load_loop_aclass(i, aclass, &mut self.ci.loops);
}
self.ci.nodes.lock(value.id);
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let mut scope = self.ci.scope.dup(&mut self.ci.nodes);
scope
.vars
.drain(self.ci.inline_var_base..)
.for_each(|v| v.remove(&mut self.ci.nodes));
scope
.aclasses
.drain(self.ci.inline_aclass_base..)
.for_each(|v| v.remove(&mut self.ci.nodes));
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let repl = StrongRef::new(NEVER, &mut self.ci.nodes);
self.ci.inline_ret =
Some((value, mem::replace(&mut self.ci.ctrl, repl), scope));
}
None
}
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Expr::Die { .. } => {
self.ci.ctrl.set(
self.ci.nodes.new_node_nop(ty::Id::VOID, Kind::Die, [self.ci.ctrl.get()]),
&mut self.ci.nodes,
);
self.ci.nodes[NEVER].inputs.push(self.ci.ctrl.get());
self.ci.nodes[self.ci.ctrl.get()].outputs.push(NEVER);
None
}
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Expr::Field { target, name, pos } => {
let mut vtarget = self.raw_expr(target)?;
self.strip_var(&mut vtarget);
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self.implicit_unwrap(pos, &mut vtarget);
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let tty = vtarget.ty;
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if let ty::Kind::Module(m) = tty.expand() {
return match self
.find_type(pos, self.ci.file, m, Err(name), self.files)
.expand()
{
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ty::Kind::Builtin(ty::NEVER) => Value::NEVER,
ty::Kind::Global(global) => {
let gl = &self.tys.ins.globals[global as usize];
let value =
self.ci.nodes.new_node(gl.ty, Kind::Global { global }, [VOID]);
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self.ci.nodes[value].aclass = GLOBAL_ACLASS as _;
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Some(Value::ptr(value).ty(gl.ty))
}
v => Some(Value::new(Nid::MAX).ty(v.compress())),
};
}
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let ty::Kind::Struct(s) = self.tys.base_of(tty).unwrap_or(tty).expand() else {
self.report(
pos,
fa!(
"the '{}' is not a struct, or pointer to one, \
but accessing fields is only possible on structs",
self.ty_display(tty)
),
);
return Value::NEVER;
};
let Some((offset, ty)) = OffsetIter::offset_of(self.tys, s, name) else {
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let field_list = self
.tys
.struct_fields(s)
.iter()
.map(|f| self.tys.names.ident_str(f.name))
.intersperse("', '")
.collect::<String>();
self.report(
pos,
fa!(
"the '{}' does not have this field, \
but it does have '{field_list}'",
self.ty_display(tty)
),
);
return Value::NEVER;
};
Some(Value::ptr(self.offset(vtarget.id, offset)).ty(ty))
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}
Expr::UnOp { op: TokenKind::Band, val, .. } => {
let ctx = Ctx { ty: ctx.ty.and_then(|ty| self.tys.base_of(ty)) };
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let mut val = self.raw_expr_ctx(val, ctx)?;
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self.strip_var(&mut val);
if val.ptr {
val.ptr = false;
val.ty = self.tys.make_ptr(val.ty);
return Some(val);
}
let stack = self.new_stack(val.ty);
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self.store_mem(stack, val.ty, val.id);
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Some(Value::new(stack).ty(self.tys.make_ptr(val.ty)))
}
Expr::UnOp { op: TokenKind::Mul, val, pos } => {
let ctx = Ctx { ty: ctx.ty.map(|ty| self.tys.make_ptr(ty)) };
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let mut vl = self.expr_ctx(val, ctx)?;
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self.implicit_unwrap(val.pos(), &mut vl);
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let Some(base) = self.tys.base_of(vl.ty) else {
self.report(
pos,
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fa!("the '{}' can not be dereferneced", self.ty_display(vl.ty)),
);
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return Value::NEVER;
};
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vl.ptr = true;
vl.ty = base;
Some(vl)
}
Expr::UnOp { pos, op: op @ TokenKind::Sub, val } => {
let val =
self.expr_ctx(val, Ctx::default().with_ty(ctx.ty.unwrap_or(ty::Id::INT)))?;
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if val.ty.is_integer() {
Some(self.ci.nodes.new_node_lit(val.ty, Kind::UnOp { op }, [VOID, val.id]))
} else if val.ty.is_float() {
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let value = self.ci.nodes.new_const(val.ty, (-1f64).to_bits() as i64);
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Some(self.ci.nodes.new_node_lit(val.ty, Kind::BinOp { op: TokenKind::Mul }, [
VOID, val.id, value,
]))
} else {
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self.report(pos, fa!("cant negate '{}'", self.ty_display(val.ty)));
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Value::NEVER
}
}
Expr::BinOp { left, op: TokenKind::Decl, right, .. } => {
let mut right = self.expr(right)?;
if right.ty.loc(self.tys) == Loc::Stack {
let stck = self.new_stack(right.ty);
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self.store_mem(stck, right.ty, right.id);
right.id = stck;
right.ptr = true;
}
self.assign_pattern(left, right);
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Some(Value::VOID)
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}
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Expr::BinOp { left: Expr::Wildcard { .. }, op: TokenKind::Assign, right, .. } => {
self.expr(right)?;
Some(Value::VOID)
}
Expr::BinOp { left, pos, op: TokenKind::Assign, right } => {
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let dest = self.raw_expr(left)?;
let mut value = self.expr_ctx(right, Ctx::default().with_ty(dest.ty))?;
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self.assert_ty(pos, &mut value, dest.ty, "assignment source");
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if dest.var {
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let var = &mut self.ci.scope.vars[(u16::MAX - dest.id) as usize];
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if var.ptr {
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let val = var.value();
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let ty = var.ty;
self.store_mem(val, ty, value.id);
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} else {
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var.set_value_remove(value.id, &mut self.ci.nodes);
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}
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} else if dest.ptr {
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self.store_mem(dest.id, dest.ty, value.id);
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} else {
self.report(pos, "cannot assign to this expression");
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}
Some(Value::VOID)
}
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Expr::BinOp { left: &Expr::Null { pos }, .. } => {
self.report(pos, "'null' must always be no the right side of an expression");
Value::NEVER
}
Expr::BinOp {
left,
op: op @ (TokenKind::Eq | TokenKind::Ne),
right: Expr::Null { .. },
..
} => {
let mut cmped = self.raw_expr(left)?;
self.strip_var(&mut cmped);
let Some(ty) = self.tys.inner_of(cmped.ty) else {
self.report(
left.pos(),
fa!("'{}' is never null, remove this check", self.ty_display(cmped.ty)),
);
return Value::NEVER;
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};
Some(Value::new(self.gen_null_check(cmped, ty, op)).ty(ty::BOOL))
}
Expr::BinOp { left, pos, op, right }
if !matches!(op, TokenKind::Assign | TokenKind::Decl) =>
{
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let mut lhs = self.raw_expr_ctx(left, ctx)?;
self.strip_var(&mut lhs);
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self.implicit_unwrap(left.pos(), &mut lhs);
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match lhs.ty.expand() {
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_ if lhs.ty.is_pointer()
|| lhs.ty.is_integer()
|| lhs.ty == ty::Id::BOOL
|| (lhs.ty.is_float() && op.is_supported_float_op()) =>
{
self.strip_ptr(&mut lhs);
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self.ci.nodes.lock(lhs.id);
let rhs = self.expr_ctx(right, Ctx::default().with_ty(lhs.ty));
self.ci.nodes.unlock(lhs.id);
let mut rhs = rhs?;
self.strip_var(&mut rhs);
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self.implicit_unwrap(right.pos(), &mut rhs);
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let (ty, aclass) = self.binop_ty(pos, &mut lhs, &mut rhs, op);
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let inps = [VOID, lhs.id, rhs.id];
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let bop =
self.ci.nodes.new_node_lit(ty.bin_ret(op), Kind::BinOp { op }, inps);
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self.ci.nodes.pass_aclass(aclass, bop.id);
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Some(bop)
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}
ty::Kind::Struct(s) if op.is_homogenous() => {
self.ci.nodes.lock(lhs.id);
let rhs = self.raw_expr_ctx(right, Ctx::default().with_ty(lhs.ty));
self.ci.nodes.unlock(lhs.id);
let mut rhs = rhs?;
self.strip_var(&mut rhs);
self.assert_ty(pos, &mut rhs, lhs.ty, "struct operand");
let dst = self.new_stack(lhs.ty);
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self.struct_op(left.pos(), op, s, dst, lhs.id, rhs.id);
Some(Value::ptr(dst).ty(lhs.ty))
}
_ => {
self.report(
pos,
fa!("'{} {op} _' is not supported", self.ty_display(lhs.ty)),
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);
Value::NEVER
}
}
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}
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Expr::Index { base, index } => {
let mut bs = self.raw_expr(base)?;
self.strip_var(&mut bs);
if let Some(base) = self.tys.base_of(bs.ty) {
bs.ptr = true;
bs.ty = base;
}
let ty::Kind::Slice(s) = bs.ty.expand() else {
self.report(
base.pos(),
fa!(
"cant index into '{}' which is not array nor slice",
self.ty_display(bs.ty)
),
);
return Value::NEVER;
};
let elem = self.tys.ins.slices[s as usize].elem;
let mut idx = self.expr_ctx(index, Ctx::default().with_ty(ty::Id::DEFAULT_INT))?;
self.assert_ty(index.pos(), &mut idx, ty::Id::DEFAULT_INT, "subscript");
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let size = self.ci.nodes.new_const(ty::Id::INT, self.tys.size_of(elem));
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let inps = [VOID, idx.id, size];
let offset =
self.ci.nodes.new_node(ty::Id::INT, Kind::BinOp { op: TokenKind::Mul }, inps);
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let aclass = self.ci.nodes.aclass_index(bs.id).1;
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let inps = [VOID, bs.id, offset];
let ptr =
self.ci.nodes.new_node(ty::Id::INT, Kind::BinOp { op: TokenKind::Add }, inps);
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self.ci.nodes.pass_aclass(aclass, ptr);
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Some(Value::ptr(ptr).ty(elem))
}
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Expr::Embed { id, .. } => {
let glob = &self.tys.ins.globals[id as usize];
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let g = self.ci.nodes.new_node(glob.ty, Kind::Global { global: id }, [VOID]);
Some(Value::ptr(g).ty(glob.ty))
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}
Expr::Directive { name: "sizeof", args: [ty], .. } => {
let ty = self.ty(ty);
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Some(
self.ci.nodes.new_const_lit(
ctx.ty
.map(|ty| self.tys.inner_of(ty).unwrap_or(ty))
.filter(|ty| ty.is_integer())
.unwrap_or(ty::Id::DEFAULT_INT),
self.tys.size_of(ty),
),
)
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}
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Expr::Directive { name: "alignof", args: [ty], .. } => {
let ty = self.ty(ty);
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Some(
self.ci.nodes.new_const_lit(
ctx.ty
.map(|ty| self.tys.inner_of(ty).unwrap_or(ty))
.filter(|ty| ty.is_integer())
.unwrap_or(ty::Id::DEFAULT_INT),
self.tys.align_of(ty),
),
)
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}
Expr::Directive { name: "bitcast", args: [val], pos } => {
let mut val = self.raw_expr(val)?;
self.strip_var(&mut val);
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inference!(ty, ctx, self, pos, "type", "@as(<ty>, @bitcast(<expr>))");
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let (got, expected) = (self.tys.size_of(val.ty), self.tys.size_of(ty));
if got != expected {
self.report(
pos,
fa!(
"cast from '{}' to '{}' is not supported, \
sizes dont match ({got} != {expected})",
self.ty_display(val.ty),
self.ty_display(ty)
),
);
}
match ty.loc(self.tys) {
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Loc::Reg if mem::take(&mut val.ptr) => val.id = self.load_mem(val.id, ty),
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Loc::Stack if !val.ptr => {
let stack = self.new_stack(ty);
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self.store_mem(stack, val.ty, val.id);
val.id = stack;
val.ptr = true;
}
_ => {}
}
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val.ty = ty;
Some(val)
}
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Expr::Directive { name: "unwrap", args: [expr], .. } => {
let mut val = self.raw_expr(expr)?;
self.strip_var(&mut val);
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if !val.ty.is_optional() {
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self.report(
expr.pos(),
fa!(
"only optional types can be unwrapped ('{}' is not optional)",
self.ty_display(val.ty)
),
);
return Value::NEVER;
};
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self.explicit_unwrap(expr.pos(), &mut val);
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Some(val)
}
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Expr::Directive { name: "intcast", args: [expr], pos } => {
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let mut val = self.expr(expr)?;
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if !val.ty.is_integer() {
self.report(
expr.pos(),
fa!(
"only integers can be truncated ('{}' is not an integer)",
self.ty_display(val.ty)
),
);
return Value::NEVER;
}
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inference!(ty, ctx, self, pos, "integer", "@as(<ty>, @intcast(<expr>))");
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if !ty.is_integer() {
self.report(
expr.pos(),
fa!(
"intcast is inferred to output '{}', which is not an integer",
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self.ty_display(ty)
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),
);
}
if self.tys.size_of(val.ty) < self.tys.size_of(ty) {
self.extend(&mut val, ty);
Some(val)
} else {
Some(val.ty(ty))
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}
}
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Expr::Directive { pos, name: "floatcast", args: [expr] } => {
let val = self.expr(expr)?;
if !val.ty.is_float() {
self.report(
expr.pos(),
fa!(
"only floats can be truncated ('{}' is not a float)",
self.ty_display(val.ty)
),
);
return Value::NEVER;
}
inference!(ty, ctx, self, pos, "float", "@as(<floaty>, @floatcast(<expr>))");
if !ty.is_float() {
self.report(
expr.pos(),
fa!(
"floatcast is inferred to output '{}', which is not a float",
self.ty_display(ty)
),
);
}
if self.tys.size_of(val.ty) < self.tys.size_of(ty) {
Some(
self.ci
.nodes
.new_node_lit(ty, Kind::UnOp { op: TokenKind::Float }, [VOID, val.id]),
)
} else {
Some(val.ty(ty))
}
}
Expr::Directive { name: "fti", args: [expr], .. } => {
let val = self.expr(expr)?;
let ret_ty = match val.ty {
ty::Id::F64 => ty::Id::INT,
ty::Id::F32 => ty::Id::I32,
_ => {
self.report(
expr.pos(),
fa!("expected float ('{}' is not a float)", self.ty_display(val.ty)),
);
return Value::NEVER;
}
};
Some(
self.ci
.nodes
.new_node_lit(ret_ty, Kind::UnOp { op: TokenKind::Number }, [VOID, val.id]),
)
}
Expr::Directive { name: "itf", args: [expr], .. } => {
let mut val = self.expr(expr)?;
let (ret_ty, expected) = match val.ty.simple_size().unwrap() {
8 => (ty::Id::F64, ty::Id::INT),
_ => (ty::Id::F32, ty::Id::I32),
};
self.assert_ty(expr.pos(), &mut val, expected, "converted integer");
Some(
self.ci
.nodes
.new_node_lit(ret_ty, Kind::UnOp { op: TokenKind::Float }, [VOID, val.id]),
)
}
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Expr::Directive { name: "as", args: [ty, expr], .. } => {
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let ty = self.ty(ty);
let ctx = Ctx::default().with_ty(ty);
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let mut val = self.raw_expr_ctx(expr, ctx)?;
self.strip_var(&mut val);
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self.assert_ty(expr.pos(), &mut val, ty, "hinted expr");
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Some(val)
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}
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Expr::Directive { pos, name: "eca", args } => {
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inference!(ty, ctx, self, pos, "return type", "@as(<return_ty>, @eca(<expr>...))");
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let mut inps = Vc::from([NEVER]);
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let arg_base = self.tys.tmp.args.len();
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let mut clobbered_aliases = BitSet::default();
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for arg in args {
let value = self.expr(arg)?;
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self.add_clobbers(value, &mut clobbered_aliases);
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self.tys.tmp.args.push(value.ty);
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debug_assert_ne!(self.ci.nodes[value.id].kind, Kind::Stre);
self.ci.nodes.lock(value.id);
inps.push(value.id);
}
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let args = self.tys.pack_args(arg_base).expect("TODO");
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for &n in inps.iter().skip(1) {
self.ci.nodes.unlock(n);
}
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self.append_clobbers(&mut inps, &mut clobbered_aliases);
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let alt_value = match ty.loc(self.tys) {
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Loc::Reg => None,
Loc::Stack => {
let stck = self.new_stack(ty);
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inps.push(stck);
Some(Value::ptr(stck).ty(ty))
}
};
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inps[0] = self.ci.ctrl.get();
self.ci.ctrl.set(
self.ci.nodes.new_node(ty, Kind::Call { func: ty::ECA, args }, inps),
&mut self.ci.nodes,
);
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self.add_clobber_stores(clobbered_aliases);
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alt_value.or(Some(Value::new(self.ci.ctrl.get()).ty(ty)))
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}
Expr::Call { func, args, .. } => {
self.ci.call_count += 1;
let ty = self.ty(func);
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let ty::Kind::Func(mut fu) = ty.expand() else {
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self.report(
func.pos(),
fa!("compiler cant (yet) call '{}'", self.ty_display(ty)),
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);
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return Value::NEVER;
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};
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let Some(sig) = self.compute_signature(&mut fu, func.pos(), args) else {
return Value::NEVER;
};
self.make_func_reachable(fu);
let fuc = &self.tys.ins.funcs[fu as usize];
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let ast = &self.files[fuc.file as usize];
let &Expr::Closure { args: cargs, .. } = fuc.expr.get(ast) else { unreachable!() };
if args.len() != cargs.len() {
self.report(
func.pos(),
fa!(
"expected {} function argumenr{}, got {}",
cargs.len(),
if cargs.len() == 1 { "" } else { "s" },
args.len()
),
);
}
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let mut inps = Vc::from([NEVER]);
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let mut tys = sig.args.args();
let mut cargs = cargs.iter();
let mut args = args.iter();
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let mut clobbered_aliases = BitSet::default();
while let Some(ty) = tys.next(self.tys) {
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let carg = cargs.next().unwrap();
let Some(arg) = args.next() else { break };
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let Arg::Value(ty) = ty else { continue };
let mut value = self.raw_expr_ctx(arg, Ctx::default().with_ty(ty))?;
self.strip_var(&mut value);
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debug_assert_ne!(self.ci.nodes[value.id].kind, Kind::Stre);
self.assert_ty(arg.pos(), &mut value, ty, fa!("argument {}", carg.name));
self.strip_ptr(&mut value);
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self.add_clobbers(value, &mut clobbered_aliases);
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self.ci.nodes.lock(value.id);
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inps.push(value.id);
}
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for &n in inps.iter().skip(1) {
self.ci.nodes.unlock(n);
}
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self.append_clobbers(&mut inps, &mut clobbered_aliases);
let alt_value = match sig.ret.loc(self.tys) {
Loc::Reg => None,
Loc::Stack => {
let stck = self.new_stack(sig.ret);
inps.push(stck);
Some(Value::ptr(stck).ty(sig.ret))
}
};
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inps[0] = self.ci.ctrl.get();
self.ci.ctrl.set(
self.ci.nodes.new_node(sig.ret, Kind::Call { func: fu, args: sig.args }, inps),
&mut self.ci.nodes,
);
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self.add_clobber_stores(clobbered_aliases);
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alt_value.or(Some(Value::new(self.ci.ctrl.get()).ty(sig.ret)))
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}
Expr::Directive { name: "inline", args: [func, args @ ..], .. } => {
let ty = self.ty(func);
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let ty::Kind::Func(mut fu) = ty.expand() else {
self.report(
func.pos(),
fa!(
"first argument to @inline should be a function,
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but here its '{}'",
self.ty_display(ty)
),
);
return Value::NEVER;
};
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let Some(sig) = self.compute_signature(&mut fu, func.pos(), args) else {
return Value::NEVER;
};
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let Func { expr, file, .. } = self.tys.ins.funcs[fu as usize];
let ast = &self.files[file as usize];
let &Expr::Closure { args: cargs, body, .. } = expr.get(ast) else {
unreachable!()
};
if args.len() != cargs.len() {
self.report(
func.pos(),
fa!(
"expected {} inline function argumenr{}, got {}",
cargs.len(),
if cargs.len() == 1 { "" } else { "s" },
args.len()
),
);
}
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let mut tys = sig.args.args();
let mut args = args.iter();
let mut cargs = cargs.iter();
let var_base = self.ci.scope.vars.len();
let aclass_base = self.ci.scope.aclasses.len();
while let Some(aty) = tys.next(self.tys) {
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let carg = cargs.next().unwrap();
let Some(arg) = args.next() else { break };
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match aty {
Arg::Type(id) => {
self.ci.scope.vars.push(Variable::new(
carg.id,
id,
false,
NEVER,
&mut self.ci.nodes,
));
}
Arg::Value(ty) => {
let mut value = self.raw_expr_ctx(arg, Ctx::default().with_ty(ty))?;
self.strip_var(&mut value);
debug_assert_ne!(self.ci.nodes[value.id].kind, Kind::Stre);
debug_assert_ne!(value.id, 0);
self.assert_ty(
arg.pos(),
&mut value,
ty,
fa!("argument {}", carg.name),
);
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self.ci.scope.vars.push(Variable::new(
carg.id,
ty,
value.ptr,
value.id,
&mut self.ci.nodes,
));
}
}
}
let prev_var_base = mem::replace(&mut self.ci.inline_var_base, var_base);
let prev_aclass_base = mem::replace(&mut self.ci.inline_aclass_base, aclass_base);
let prev_ret = self.ci.ret.replace(sig.ret);
let prev_inline_ret = self.ci.inline_ret.take();
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let prev_file = mem::replace(&mut self.ci.file, file);
self.ci.inline_depth += 1;
if self.expr(body).is_some() {
if sig.ret == ty::Id::VOID {
self.expr(&Expr::Return { pos: body.pos(), val: None });
} else {
self.report(
body.pos(),
"expected all paths in the fucntion to return \
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or the return type to be 'void'",
);
}
}
self.ci.ret = prev_ret;
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self.ci.file = prev_file;
self.ci.inline_depth -= 1;
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self.ci.inline_var_base = prev_var_base;
self.ci.inline_aclass_base = prev_aclass_base;
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for var in self.ci.scope.vars.drain(var_base..) {
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var.remove(&mut self.ci.nodes);
}
for var in self.ci.scope.aclasses.drain(aclass_base..) {
var.remove(&mut self.ci.nodes);
}
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mem::replace(&mut self.ci.inline_ret, prev_inline_ret).map(|(v, ctrl, scope)| {
self.ci.nodes.unlock(v.id);
self.ci.scope.clear(&mut self.ci.nodes);
self.ci.scope = scope;
self.ci.scope.vars.drain(var_base..).for_each(|v| v.remove(&mut self.ci.nodes));
self.ci
.scope
.aclasses
.drain(aclass_base..)
.for_each(|v| v.remove(&mut self.ci.nodes));
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mem::replace(&mut self.ci.ctrl, ctrl).remove(&mut self.ci.nodes);
v
})
}
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Expr::Tupl { pos, ty, fields, .. } => {
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ctx.ty = ty
.map(|ty| self.ty(ty))
.or(ctx.ty.map(|ty| self.tys.inner_of(ty).unwrap_or(ty)));
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inference!(sty, ctx, self, pos, "struct or slice", "<struct_ty>.(...)");
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match sty.expand() {
ty::Kind::Struct(s) => {
let mem = self.new_stack(sty);
let mut offs = OffsetIter::new(s, self.tys);
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for field in fields {
let Some((ty, offset)) = offs.next_ty(self.tys) else {
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self.report(
field.pos(),
"this init argumen overflows the field count",
);
break;
};
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let mut value = self.expr_ctx(field, Ctx::default().with_ty(ty))?;
_ = self.assert_ty(field.pos(), &mut value, ty, "tuple field");
let mem = self.offset(mem, offset);
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self.store_mem(mem, ty, value.id);
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}
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let field_list = offs
.into_iter(self.tys)
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.map(|(f, ..)| self.tys.names.ident_str(f.name))
.intersperse(", ")
.collect::<String>();
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if !field_list.is_empty() {
self.report(
pos,
fa!("the struct initializer is missing {field_list} \
(append them to the end of the constructor)"),
);
}
Some(Value::ptr(mem).ty(sty))
}
ty::Kind::Slice(s) => {
let slice = &self.tys.ins.slices[s as usize];
let len = slice.len().unwrap_or(fields.len());
let elem = slice.elem;
let elem_size = self.tys.size_of(elem);
let aty = slice
.len()
.map_or_else(|| self.tys.make_array(elem, len as ArrayLen), |_| sty);
if len != fields.len() {
self.report(
pos,
fa!(
"expected '{}' but constructor has {} elements",
self.ty_display(aty),
fields.len()
),
);
return Value::NEVER;
}
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let mem = self.new_stack(aty);
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for (field, offset) in
fields.iter().zip((0u32..).step_by(elem_size as usize))
{
let mut value = self.expr_ctx(field, Ctx::default().with_ty(elem))?;
_ = self.assert_ty(field.pos(), &mut value, elem, "array value");
let mem = self.offset(mem, offset);
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self.store_mem(mem, elem, value.id);
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}
Some(Value::ptr(mem).ty(aty))
}
_ => {
let inferred = if ty.is_some() { "" } else { "inferred " };
self.report(
pos,
fa!(
"the {inferred}type of the constructor is `{}`, \
but thats not a struct nor slice or array",
self.ty_display(sty)
),
);
Value::NEVER
}
}
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}
Expr::Struct { .. } => {
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let value = self.ty(expr).repr();
Some(self.ci.nodes.new_const_lit(ty::Id::TYPE, value))
}
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Expr::Ctor { pos, ty, fields, .. } => {
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ctx.ty = ty
.map(|ty| self.ty(ty))
.or(ctx.ty.map(|ty| self.tys.inner_of(ty).unwrap_or(ty)));
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inference!(sty, ctx, self, pos, "struct", "<struct_ty>.{...}");
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let ty::Kind::Struct(s) = sty.expand() else {
let inferred = if ty.is_some() { "" } else { "inferred " };
self.report(
pos,
fa!(
"the {inferred}type of the constructor is `{}`, \
but thats not a struct",
self.ty_display(sty)
),
);
return Value::NEVER;
};
// TODO: dont allocate
let mut offs = OffsetIter::new(s, self.tys)
.into_iter(self.tys)
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.map(|(f, o)| (f.ty, o))
.collect::<Vec<_>>();
let mem = self.new_stack(sty);
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for field in fields {
let Some(index) = self.tys.find_struct_field(s, field.name) else {
self.report(
field.pos,
fa!("struct '{}' does not have this field", self.ty_display(sty)),
);
continue;
};
let (ty, offset) =
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mem::replace(&mut offs[index], (ty::Id::UNDECLARED, field.pos));
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if ty == ty::Id::UNDECLARED {
self.report(field.pos, "the struct field is already initialized");
self.report(offset, "previous initialization is here");
continue;
}
let mut value = self.expr_ctx(&field.value, Ctx::default().with_ty(ty))?;
self.assert_ty(field.pos, &mut value, ty, fa!("field {}", field.name));
let mem = self.offset(mem, offset);
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self.store_mem(mem, ty, value.id);
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}
let field_list = self
.tys
.struct_fields(s)
.iter()
.zip(offs)
.filter(|&(_, (ty, _))| ty != ty::Id::UNDECLARED)
.map(|(f, _)| self.tys.names.ident_str(f.name))
.intersperse(", ")
.collect::<String>();
if !field_list.is_empty() {
self.report(pos, fa!("the struct initializer is missing {field_list}"));
}
Some(Value::ptr(mem).ty(sty))
}
Expr::Block { stmts, .. } => {
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let base = self.ci.scope.vars.len();
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let aclass_base = self.ci.scope.aclasses.len();
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let mut ret = Some(Value::VOID);
for stmt in stmts {
ret = ret.and(self.expr(stmt));
if let Some(mut id) = ret {
self.assert_ty(stmt.pos(), &mut id, ty::Id::VOID, "statement");
} else {
break;
}
}
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for var in self.ci.scope.vars.drain(base..) {
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var.remove(&mut self.ci.nodes);
}
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for aclass in self.ci.scope.aclasses.drain(aclass_base..) {
aclass.remove(&mut self.ci.nodes);
}
ret
}
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Expr::Loop { body, .. } => {
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self.ci.ctrl.set(
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self.ci.nodes.new_node(ty::Id::VOID, Kind::Loop, [
self.ci.ctrl.get(),
self.ci.ctrl.get(),
LOOPS,
]),
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&mut self.ci.nodes,
);
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self.ci.loops.push(Loop {
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node: self.ci.ctrl.get(),
ctrl: [StrongRef::DEFAULT; 2],
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ctrl_scope: core::array::from_fn(|_| Default::default()),
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scope: self.ci.scope.dup(&mut self.ci.nodes),
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});
for var in self.ci.scope.vars.iter_mut().skip(self.ci.inline_var_base) {
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var.set_value(VOID, &mut self.ci.nodes);
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}
for aclass in self.ci.scope.aclasses[..2].iter_mut() {
aclass.last_store.set(VOID, &mut self.ci.nodes);
}
for aclass in self.ci.scope.aclasses.iter_mut().skip(self.ci.inline_aclass_base) {
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aclass.last_store.set(VOID, &mut self.ci.nodes);
}
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self.expr(body);
let Loop { ctrl: [con, ..], ctrl_scope: [cons, ..], .. } =
self.ci.loops.last_mut().unwrap();
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let mut cons = mem::take(cons);
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if let Some(con) = mem::take(con).unwrap(&mut self.ci.nodes) {
self.ci.ctrl.set(
self.ci
.nodes
.new_node(ty::Id::VOID, Kind::Region, [con, self.ci.ctrl.get()]),
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&mut self.ci.nodes,
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);
self.ci.nodes.merge_scopes(
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&mut self.ci.loops,
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&self.ci.ctrl,
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&mut self.ci.scope,
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&mut cons,
);
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cons.clear(&mut self.ci.nodes);
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}
let Loop { node, ctrl: [.., bre], ctrl_scope: [.., mut bres], mut scope } =
self.ci.loops.pop().unwrap();
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self.ci.nodes.modify_input(node, 1, self.ci.ctrl.get());
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if let Some(idx) =
self.ci.nodes[node].outputs.iter().position(|&n| self.ci.nodes.is_cfg(n))
{
self.ci.nodes[node].outputs.swap(idx, 0);
}
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let Some(bre) = bre.unwrap(&mut self.ci.nodes) else {
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for (loop_var, scope_var) in
self.ci.scope.vars.iter_mut().zip(scope.vars.iter_mut())
{
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if self.ci.nodes[scope_var.value()].is_lazy_phi(node) {
if loop_var.value() != scope_var.value() {
scope_var.set_value(
self.ci.nodes.modify_input(
scope_var.value(),
2,
loop_var.value(),
),
&mut self.ci.nodes,
);
} else {
let phi = &self.ci.nodes[scope_var.value()];
let prev = phi.inputs[1];
self.ci.nodes.replace(scope_var.value(), prev);
scope_var.set_value(prev, &mut self.ci.nodes);
}
}
}
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for (loop_class, scope_class) in
self.ci.scope.aclasses.iter_mut().zip(scope.aclasses.iter_mut())
{
if self.ci.nodes[scope_class.last_store.get()].is_lazy_phi(node) {
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if loop_class.last_store.get() != scope_class.last_store.get()
&& loop_class.last_store.get() != 0
{
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scope_class.last_store.set(
self.ci.nodes.modify_input(
scope_class.last_store.get(),
2,
loop_class.last_store.get(),
),
&mut self.ci.nodes,
);
} else {
let phi = &self.ci.nodes[scope_class.last_store.get()];
let prev = phi.inputs[1];
self.ci.nodes.replace(scope_class.last_store.get(), prev);
scope_class.last_store.set(prev, &mut self.ci.nodes);
}
}
if loop_class.last_store.get() == 0 {
loop_class
.last_store
.set(scope_class.last_store.get(), &mut self.ci.nodes);
}
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}
debug_assert!(self.ci.scope.aclasses.iter().all(|a| a.last_store.get() != 0));
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scope.clear(&mut self.ci.nodes);
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self.ci.ctrl.set(NEVER, &mut self.ci.nodes);
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return None;
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};
self.ci.ctrl.set(bre, &mut self.ci.nodes);
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mem::swap(&mut self.ci.scope, &mut bres);
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debug_assert_eq!(self.ci.scope.vars.len(), scope.vars.len());
debug_assert_eq!(self.ci.scope.vars.len(), bres.vars.len());
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self.ci.nodes.lock(node);
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for ((dest_var, scope_var), loop_var) in self
.ci
.scope
.vars
.iter_mut()
.zip(scope.vars.iter_mut())
.zip(bres.vars.iter_mut())
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{
if self.ci.nodes[scope_var.value()].is_lazy_phi(node) {
if loop_var.value() != scope_var.value() {
scope_var.set_value(
self.ci.nodes.modify_input(scope_var.value(), 2, loop_var.value()),
&mut self.ci.nodes,
);
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} else {
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if dest_var.value() == scope_var.value() {
dest_var.set_value(VOID, &mut self.ci.nodes);
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}
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let phi = &self.ci.nodes[scope_var.value()];
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let prev = phi.inputs[1];
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self.ci.nodes.replace(scope_var.value(), prev);
scope_var.set_value(prev, &mut self.ci.nodes);
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}
}
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if dest_var.value() == VOID {
dest_var.set_value(scope_var.value(), &mut self.ci.nodes);
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}
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debug_assert!(!self.ci.nodes[dest_var.value()].is_lazy_phi(node));
}
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for ((dest_class, scope_class), loop_class) in self
.ci
.scope
.aclasses
.iter_mut()
.zip(scope.aclasses.iter_mut())
.zip(bres.aclasses.iter_mut())
{
if self.ci.nodes[scope_class.last_store.get()].is_lazy_phi(node) {
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if loop_class.last_store.get() != scope_class.last_store.get()
&& loop_class.last_store.get() != 0
{
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scope_class.last_store.set(
self.ci.nodes.modify_input(
scope_class.last_store.get(),
2,
loop_class.last_store.get(),
),
&mut self.ci.nodes,
);
} else {
if dest_class.last_store.get() == scope_class.last_store.get() {
dest_class.last_store.set(VOID, &mut self.ci.nodes);
}
let phi = &self.ci.nodes[scope_class.last_store.get()];
let prev = phi.inputs[1];
self.ci.nodes.replace(scope_class.last_store.get(), prev);
scope_class.last_store.set(prev, &mut self.ci.nodes);
}
}
if dest_class.last_store.get() == VOID {
dest_class.last_store.set(scope_class.last_store.get(), &mut self.ci.nodes);
}
debug_assert!(!self.ci.nodes[dest_class.last_store.get()].is_lazy_phi(node));
}
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scope.clear(&mut self.ci.nodes);
bres.clear(&mut self.ci.nodes);
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self.ci.nodes.unlock(node);
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let rpl = self.ci.nodes.late_peephole(node).unwrap_or(node);
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if self.ci.ctrl.get() == node {
self.ci.ctrl.set_remove(rpl, &mut self.ci.nodes);
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}
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Some(Value::VOID)
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}
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Expr::Break { pos } => self.jump_to(pos, 1),
Expr::Continue { pos } => self.jump_to(pos, 0),
Expr::If { cond, then, else_, .. } => {
let mut cnd = self.expr_ctx(cond, Ctx::default().with_ty(ty::Id::BOOL))?;
self.assert_ty(cond.pos(), &mut cnd, ty::Id::BOOL, "condition");
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let if_node =
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self.ci.nodes.new_node(ty::Id::VOID, Kind::If, [self.ci.ctrl.get(), cnd.id]);
'b: {
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let branch = match self.ci.nodes[if_node].ty {
ty::Id::LEFT_UNREACHABLE => else_,
ty::Id::RIGHT_UNREACHABLE => Some(then),
_ => break 'b,
};
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self.ci.nodes.remove(if_node);
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if let Some(branch) = branch {
return self.expr(branch);
} else {
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return Some(Value::VOID);
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}
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}
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let else_scope = self.ci.scope.dup(&mut self.ci.nodes);
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self.ci.ctrl.set(
self.ci.nodes.new_node(ty::Id::VOID, Kind::Then, [if_node]),
&mut self.ci.nodes,
);
let lcntrl = self.expr(then).map_or(Nid::MAX, |_| self.ci.ctrl.get());
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let mut then_scope = mem::replace(&mut self.ci.scope, else_scope);
self.ci.ctrl.set(
self.ci.nodes.new_node(ty::Id::VOID, Kind::Else, [if_node]),
&mut self.ci.nodes,
);
let rcntrl = if let Some(else_) = else_ {
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self.expr(else_).map_or(Nid::MAX, |_| self.ci.ctrl.get())
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} else {
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self.ci.ctrl.get()
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};
if lcntrl == Nid::MAX && rcntrl == Nid::MAX {
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then_scope.clear(&mut self.ci.nodes);
return None;
} else if lcntrl == Nid::MAX {
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then_scope.clear(&mut self.ci.nodes);
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return Some(Value::VOID);
} else if rcntrl == Nid::MAX {
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self.ci.scope.clear(&mut self.ci.nodes);
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self.ci.scope = then_scope;
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self.ci.ctrl.set(lcntrl, &mut self.ci.nodes);
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return Some(Value::VOID);
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}
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self.ci.ctrl.set(
self.ci.nodes.new_node(ty::Id::VOID, Kind::Region, [lcntrl, rcntrl]),
&mut self.ci.nodes,
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);
self.ci.nodes.merge_scopes(
&mut self.ci.loops,
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&self.ci.ctrl,
&mut self.ci.scope,
&mut then_scope,
);
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then_scope.clear(&mut self.ci.nodes);
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Some(Value::VOID)
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}
ref e => {
self.report_unhandled_ast(e, "bruh");
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Value::NEVER
}
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}
}
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fn add_clobbers(&mut self, value: Value, clobbered_aliases: &mut BitSet) {
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if let Some(base) = self.tys.base_of(value.ty) {
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clobbered_aliases.set(self.ci.nodes.aclass_index(value.id).0 as _);
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if base.has_pointers(self.tys) {
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clobbered_aliases.set(DEFAULT_ACLASS as _);
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}
} else if value.ty.has_pointers(self.tys) {
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clobbered_aliases.set(DEFAULT_ACLASS as _);
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}
}
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fn append_clobbers(&mut self, inps: &mut Vc, clobbered_aliases: &mut BitSet) {
clobbered_aliases.set(GLOBAL_ACLASS as _);
for clobbered in clobbered_aliases.iter() {
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let aclass = &mut self.ci.scope.aclasses[clobbered];
self.ci.nodes.load_loop_aclass(clobbered, aclass, &mut self.ci.loops);
inps.push(aclass.last_store.get());
}
}
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fn add_clobber_stores(&mut self, clobbered_aliases: BitSet) {
for clobbered in clobbered_aliases.iter() {
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self.ci.scope.aclasses[clobbered].clobber.set(self.ci.ctrl.get(), &mut self.ci.nodes);
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}
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self.ci.nodes[self.ci.ctrl.get()].clobbers = clobbered_aliases;
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}
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fn struct_op(
&mut self,
pos: Pos,
op: TokenKind,
s: ty::Struct,
dst: Nid,
lhs: Nid,
rhs: Nid,
) -> bool {
let mut offs = OffsetIter::new(s, self.tys);
while let Some((ty, off)) = offs.next_ty(self.tys) {
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let lhs = self.offset(lhs, off);
let rhs = self.offset(rhs, off);
let dst = self.offset(dst, off);
match ty.expand() {
_ if ty.is_pointer() || ty.is_integer() || ty == ty::Id::BOOL => {
let lhs = self.load_mem(lhs, ty);
let rhs = self.load_mem(rhs, ty);
let res = self.ci.nodes.new_node(ty, Kind::BinOp { op }, [VOID, lhs, rhs]);
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self.store_mem(dst, ty, res);
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}
ty::Kind::Struct(is) => {
if !self.struct_op(pos, op, is, dst, lhs, rhs) {
self.report(
pos,
fa!(
"... when appliing '{0} {op} {0}'",
self.ty_display(ty::Kind::Struct(s).compress())
),
);
}
}
_ => self.report(pos, fa!("'{0} {op} {0}' is not supported", self.ty_display(ty))),
}
}
true
}
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fn compute_signature(&mut self, func: &mut ty::Func, pos: Pos, args: &[Expr]) -> Option<Sig> {
let fuc = &self.tys.ins.funcs[*func as usize];
let fast = self.files[fuc.file as usize].clone();
let &Expr::Closure { args: cargs, ret, .. } = fuc.expr.get(&fast) else {
unreachable!();
};
Some(if let Some(sig) = fuc.sig {
sig
} else {
let arg_base = self.tys.tmp.args.len();
let base = self.ci.scope.vars.len();
for (arg, carg) in args.iter().zip(cargs) {
let ty = self.ty(&carg.ty);
self.tys.tmp.args.push(ty);
let sym = parser::find_symbol(&fast.symbols, carg.id);
let ty = if sym.flags & idfl::COMPTIME == 0 {
// FIXME: could fuck us
ty::Id::UNDECLARED
} else {
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if ty != ty::Id::TYPE {
self.report(
arg.pos(),
fa!(
"arbitrary comptime types are not supported yet \
(expected '{}' got '{}')",
self.ty_display(ty::Id::TYPE),
self.ty_display(ty)
),
);
return None;
}
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let ty = self.ty(arg);
self.tys.tmp.args.push(ty);
ty
};
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self.ci.scope.vars.push(Variable::new(
carg.id,
ty,
false,
NEVER,
&mut self.ci.nodes,
));
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}
let Some(args) = self.tys.pack_args(arg_base) else {
self.report(pos, "function instance has too many arguments");
return None;
};
let ret = self.ty(ret);
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self.ci.scope.vars.drain(base..).for_each(|v| v.remove(&mut self.ci.nodes));
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let sym = SymKey::FuncInst(*func, args);
let ct = |ins: &mut crate::TypeIns| {
let func_id = ins.funcs.len();
let fuc = &ins.funcs[*func as usize];
ins.funcs.push(Func {
file: fuc.file,
name: fuc.name,
base: Some(*func),
sig: Some(Sig { args, ret }),
expr: fuc.expr,
..Default::default()
});
ty::Kind::Func(func_id as _).compress()
};
*func = self.tys.syms.get_or_insert(sym, &mut self.tys.ins, ct).expand().inner();
Sig { args, ret }
})
}
fn assign_pattern(&mut self, pat: &Expr, right: Value) {
match *pat {
Expr::Ident { id, .. } => {
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self.ci.scope.vars.push(Variable::new(
id,
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right.ty,
right.ptr,
right.id,
&mut self.ci.nodes,
));
}
Expr::Ctor { pos, fields, .. } => {
let ty::Kind::Struct(idx) = right.ty.expand() else {
self.report(pos, "can't use struct destruct on non struct value (TODO: shold work with modules)");
return;
};
for &CtorField { pos, name, ref value } in fields {
let Some((offset, ty)) = OffsetIter::offset_of(self.tys, idx, name) else {
self.report(pos, format_args!("field not found: {name:?}"));
continue;
};
let off = self.offset(right.id, offset);
self.assign_pattern(value, Value::ptr(off).ty(ty));
}
}
ref pat => self.report_unhandled_ast(pat, "pattern"),
}
}
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fn expr_ctx(&mut self, expr: &Expr, ctx: Ctx) -> Option<Value> {
let mut n = self.raw_expr_ctx(expr, ctx)?;
self.strip_var(&mut n);
self.strip_ptr(&mut n);
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Some(n)
}
fn expr(&mut self, expr: &Expr) -> Option<Value> {
self.expr_ctx(expr, Default::default())
}
fn strip_ptr(&mut self, target: &mut Value) {
if mem::take(&mut target.ptr) {
target.id = self.load_mem(target.id, target.ty);
}
}
fn offset(&mut self, val: Nid, off: Offset) -> Nid {
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if off == 0 {
return val;
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}
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let off = self.ci.nodes.new_const(ty::Id::INT, off);
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let aclass = self.ci.nodes.aclass_index(val).1;
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let inps = [VOID, val, off];
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let seted = self.ci.nodes.new_node(ty::Id::INT, Kind::BinOp { op: TokenKind::Add }, inps);
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self.ci.nodes.pass_aclass(aclass, seted);
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seted
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}
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fn strip_var(&mut self, n: &mut Value) {
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if mem::take(&mut n.var) {
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let id = (u16::MAX - n.id) as usize;
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n.ptr = self.ci.scope.vars[id].ptr;
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n.id = self.ci.scope.vars[id].value();
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}
}
fn jump_to(&mut self, pos: Pos, id: usize) -> Option<Value> {
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let Some(mut loob) = self.ci.loops.last_mut() else {
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self.report(pos, "break outside a loop");
return None;
};
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if loob.ctrl[id].is_live() {
loob.ctrl[id].set(
self.ci.nodes.new_node(ty::Id::VOID, Kind::Region, [
self.ci.ctrl.get(),
loob.ctrl[id].get(),
]),
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&mut self.ci.nodes,
);
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let mut scope = mem::take(&mut loob.ctrl_scope[id]);
let ctrl = mem::take(&mut loob.ctrl[id]);
self.ci.nodes.merge_scopes(&mut self.ci.loops, &ctrl, &mut scope, &mut self.ci.scope);
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loob = self.ci.loops.last_mut().unwrap();
loob.ctrl_scope[id] = scope;
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loob.ctrl[id] = ctrl;
self.ci.ctrl.set(NEVER, &mut self.ci.nodes);
} else {
let term = StrongRef::new(NEVER, &mut self.ci.nodes);
loob.ctrl[id] = mem::replace(&mut self.ci.ctrl, term);
loob.ctrl_scope[id] = self.ci.scope.dup(&mut self.ci.nodes);
loob.ctrl_scope[id]
.vars
.drain(loob.scope.vars.len()..)
.for_each(|v| v.remove(&mut self.ci.nodes));
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loob.ctrl_scope[id]
.aclasses
.drain(loob.scope.aclasses.len()..)
.for_each(|v| v.remove(&mut self.ci.nodes));
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}
None
}
fn complete_call_graph(&mut self) -> bool {
let prev_err_len = self.errors.borrow().len();
while self.ci.task_base < self.tys.tasks.len()
&& let Some(task_slot) = self.tys.tasks.pop()
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{
let Some(task) = task_slot else { continue };
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self.emit_func(task);
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}
self.errors.borrow().len() == prev_err_len
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}
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fn emit_func(&mut self, FTask { file, id }: FTask) {
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let func = &mut self.tys.ins.funcs[id as usize];
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debug_assert_eq!(func.file, file);
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func.offset = u32::MAX - 1;
let sig = func.sig.expect("to emmit only concrete functions");
let ast = &self.files[file as usize];
let expr = func.expr.get(ast);
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self.pool.push_ci(file, Some(sig.ret), 0, &mut self.ci);
let prev_err_len = self.errors.borrow().len();
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let &Expr::Closure { body, args, .. } = expr else {
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unreachable!("{}", self.ast_display(expr))
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};
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let mut tys = sig.args.args();
let mut args = args.iter();
while let Some(aty) = tys.next(self.tys) {
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let arg = args.next().unwrap();
match aty {
Arg::Type(ty) => {
self.ci.scope.vars.push(Variable::new(
arg.id,
ty,
false,
NEVER,
&mut self.ci.nodes,
));
}
Arg::Value(ty) => {
let mut deps = Vc::from([VOID]);
if ty.loc(self.tys) == Loc::Stack && self.tys.size_of(ty) <= 16 {
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deps.push(MEM);
}
// TODO: whe we not using the deps?
let value = self.ci.nodes.new_node_nop(ty, Kind::Arg, deps);
let ptr = ty.loc(self.tys) == Loc::Stack;
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self.ci.scope.vars.push(Variable::new(
arg.id,
ty,
ptr,
value,
&mut self.ci.nodes,
));
if ty.loc(self.tys) == Loc::Stack {
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self.ci.nodes[value].aclass = self.ci.scope.aclasses.len() as _;
self.ci.scope.aclasses.push(AClass::new(&mut self.ci.nodes));
}
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}
}
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}
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if self.expr(body).is_some() {
if sig.ret == ty::Id::VOID {
self.expr(&Expr::Return { pos: body.pos(), val: None });
} else {
self.report(
body.pos(),
fa!(
"expected all paths in the fucntion to return \
or the return type to be 'void' (return type is '{}')",
self.ty_display(sig.ret),
),
);
}
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}
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self.ci.scope.vars.drain(..).for_each(|v| v.remove_ignore_arg(&mut self.ci.nodes));
if self.finalize(prev_err_len) {
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self.ci.emit_body(self.tys, self.files, sig, self.pool);
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self.tys.ins.funcs[id as usize].code.append(&mut self.ci.code);
self.tys.ins.funcs[id as usize].relocs.append(&mut self.ci.relocs);
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}
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self.pool.pop_ci(&mut self.ci);
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}
fn finalize(&mut self, prev_err_len: usize) -> bool {
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use {AssertKind as AK, CondOptRes as CR};
self.ci.finalize(&mut self.pool.nid_stack, self.tys, self.files);
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let mut to_remove = vec![];
for (id, node) in self.ci.nodes.iter() {
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let Kind::Assert { kind, pos } = node.kind else { continue };
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let res = self.ci.nodes.try_opt_cond(id);
// TODO: highlight the pin position
let msg = match (kind, res) {
(AK::UnwrapCheck, CR::Known { value: false, .. }) => {
"unwrap is not needed since the value is (provably) never null, \
remove it, or replace with '@as(<expr_ty>, <opt_expr>)'"
}
(AK::UnwrapCheck, CR::Known { value: true, .. }) => {
"unwrap is incorrect since the value is (provably) always null, \
make sure your logic is correct"
}
(AK::NullCheck, CR::Known { value: true, .. }) => {
"the value is always null, some checks might need to be inverted"
}
(AK::NullCheck, CR::Unknown) => {
"can't prove the value is not 'null', \
use '@unwrap(<opt>)' if you believe compiler is stupid, \
or explicitly check for null and handle it \
('if <opt> == null { /* handle */ } else { /* use opt */ }')"
}
(AK::NullCheck, CR::Known { value: false, pin }) => {
to_remove.push((id, pin));
continue;
}
(AK::UnwrapCheck, CR::Unknown) => {
to_remove.push((id, None));
continue;
}
};
self.report(pos, msg);
}
to_remove.into_iter().for_each(|(n, pin)| {
let pin = pin.unwrap_or_else(|| {
let mut pin = self.ci.nodes[n].inputs[0];
while matches!(self.ci.nodes[pin].kind, Kind::Assert { .. }) {
pin = self.ci.nodes[n].inputs[0];
}
pin
});
for mut out in self.ci.nodes[n].outputs.clone() {
if self.ci.nodes.is_cfg(out) {
let index = self.ci.nodes[out].inputs.iter().position(|&p| p == n).unwrap();
self.ci.nodes.modify_input(out, index, self.ci.nodes[n].inputs[0]);
} else {
if !self.ci.nodes[out].kind.is_pinned() {
out = self.ci.nodes.modify_input(out, 0, pin);
}
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let index =
self.ci.nodes[out].inputs[1..].iter().position(|&p| p == n).unwrap() + 1;
self.ci.nodes.modify_input(out, index, self.ci.nodes[n].inputs[2]);
}
}
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debug_assert!(
self.ci.nodes.values[n as usize]
.as_ref()
.map_or(true, |n| !matches!(n.kind, Kind::Assert { .. })),
"{:?} {:?}",
self.ci.nodes[n],
self.ci.nodes[n].outputs.iter().map(|&o| &self.ci.nodes[o]).collect::<Vec<_>>(),
);
});
self.ci.unlock();
self.errors.borrow().len() == prev_err_len
}
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fn ty(&mut self, expr: &Expr) -> ty::Id {
self.parse_ty(self.ci.file, expr, None, self.files)
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}
fn ty_display(&self, ty: ty::Id) -> ty::Display {
ty::Display::new(self.tys, self.files, ty)
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}
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fn ast_display(&self, ast: &'a Expr<'a>) -> parser::Display<'a> {
2024-10-26 08:18:00 -05:00
parser::Display::new(&self.file().file, ast)
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}
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#[must_use]
#[track_caller]
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fn binop_ty(
&mut self,
pos: Pos,
lhs: &mut Value,
rhs: &mut Value,
op: TokenKind,
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) -> (ty::Id, Nid) {
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if let Some(upcasted) = lhs.ty.try_upcast(rhs.ty) {
let to_correct = if lhs.ty != upcasted {
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Some((lhs, rhs))
} else if rhs.ty != upcasted {
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Some((rhs, lhs))
} else {
None
};
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if let Some((oper, other)) = to_correct {
if self.tys.size_of(upcasted) > self.tys.size_of(oper.ty) {
self.extend(oper, upcasted);
}
if matches!(op, TokenKind::Add | TokenKind::Sub)
&& let Some(elem) = self.tys.base_of(upcasted)
{
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let cnst = self.ci.nodes.new_const(ty::Id::INT, self.tys.size_of(elem));
oper.id =
self.ci.nodes.new_node(upcasted, Kind::BinOp { op: TokenKind::Mul }, [
VOID, oper.id, cnst,
]);
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return (upcasted, self.ci.nodes.aclass_index(other.id).1);
}
}
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(upcasted, VOID)
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} else {
let ty = self.ty_display(lhs.ty);
let expected = self.ty_display(rhs.ty);
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self.report(pos, fa!("'{ty} {op} {expected}' is not supported"));
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(ty::Id::NEVER, VOID)
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}
}
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fn wrap_in_opt(&mut self, val: &mut Value) {
debug_assert!(!val.var);
let oty = self.tys.make_opt(val.ty);
if let Some((uninit, ..)) = self.tys.nieche_of(val.ty) {
self.strip_ptr(val);
val.ty = oty;
assert!(!uninit, "TODO");
return;
}
let OptLayout { flag_ty, flag_offset, payload_offset } = self.tys.opt_layout(val.ty);
match oty.loc(self.tys) {
Loc::Reg => {
self.strip_ptr(val);
// registers have inverted offsets so that accessing the inner type is a noop
let flag_offset = self.tys.size_of(oty) - flag_offset - 1;
let fill = self.ci.nodes.new_const(oty, 1i64 << (flag_offset * 8 - 1));
val.id = self
.ci
.nodes
.new_node(oty, Kind::BinOp { op: TokenKind::Bor }, [VOID, val.id, fill]);
val.ty = oty;
}
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Loc::Stack => {
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self.strip_ptr(val);
let stack = self.new_stack(oty);
let fill = self.ci.nodes.new_const(flag_ty, 1);
self.store_mem(stack, flag_ty, fill);
let off = self.offset(stack, payload_offset);
self.store_mem(off, val.ty, val.id);
val.id = stack;
val.ptr = true;
val.ty = oty;
}
}
}
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fn implicit_unwrap(&mut self, pos: Pos, opt: &mut Value) {
self.unwrap_low(pos, opt, AssertKind::NullCheck);
}
fn explicit_unwrap(&mut self, pos: Pos, opt: &mut Value) {
self.unwrap_low(pos, opt, AssertKind::UnwrapCheck);
}
fn unwrap_low(&mut self, pos: Pos, opt: &mut Value, kind: AssertKind) {
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let Some(ty) = self.tys.inner_of(opt.ty) else { return };
let null_check = self.gen_null_check(*opt, ty, TokenKind::Eq);
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let oty = mem::replace(&mut opt.ty, ty);
self.unwrap_opt_unchecked(ty, oty, opt);
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// TODO: extract the if check int a fucntion
self.ci.ctrl.set(
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self.ci.nodes.new_node(oty, Kind::Assert { kind, pos }, [
self.ci.ctrl.get(),
null_check,
opt.id,
]),
&mut self.ci.nodes,
);
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self.ci.nodes.pass_aclass(self.ci.nodes.aclass_index(opt.id).1, self.ci.ctrl.get());
opt.id = self.ci.ctrl.get();
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}
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fn unwrap_opt_unchecked(&mut self, ty: ty::Id, oty: ty::Id, opt: &mut Value) {
if self.tys.nieche_of(ty).is_some() {
return;
}
let OptLayout { payload_offset, .. } = self.tys.opt_layout(ty);
match oty.loc(self.tys) {
Loc::Reg => {}
Loc::Stack => {
opt.id = self.offset(opt.id, payload_offset);
}
}
}
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fn gen_null_check(&mut self, mut cmped: Value, ty: ty::Id, op: TokenKind) -> Nid {
let OptLayout { flag_ty, flag_offset, .. } = self.tys.opt_layout(ty);
match cmped.ty.loc(self.tys) {
Loc::Reg => {
self.strip_ptr(&mut cmped);
let inps = [VOID, cmped.id, self.ci.nodes.new_const(cmped.ty, 0)];
self.ci.nodes.new_node(ty::Id::BOOL, Kind::BinOp { op }, inps)
}
Loc::Stack => {
cmped.id = self.offset(cmped.id, flag_offset);
cmped.ty = flag_ty;
self.strip_ptr(&mut cmped);
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let inps = [VOID, cmped.id, self.ci.nodes.new_const(flag_ty, 0)];
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self.ci.nodes.new_node(ty::Id::BOOL, Kind::BinOp { op }, inps)
}
}
}
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#[track_caller]
fn assert_ty(
&mut self,
pos: Pos,
src: &mut Value,
expected: ty::Id,
hint: impl fmt::Display,
) -> bool {
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if let Some(upcasted) = src.ty.try_upcast(expected)
&& upcasted == expected
{
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if src.ty.is_never() {
return true;
}
if src.ty != upcasted {
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if let Some(inner) = self.tys.inner_of(upcasted) {
if inner != src.ty {
self.assert_ty(pos, src, inner, hint);
}
self.wrap_in_opt(src);
} else {
debug_assert!(
src.ty.is_integer() || src.ty == ty::Id::NEVER,
"{} {}",
self.ty_display(src.ty),
self.ty_display(upcasted)
);
debug_assert!(
upcasted.is_integer() || src.ty == ty::Id::NEVER,
"{} {}",
self.ty_display(src.ty),
self.ty_display(upcasted)
);
self.extend(src, upcasted);
}
}
true
} else {
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if let Some(inner) = self.tys.inner_of(src.ty)
&& inner.try_upcast(expected) == Some(expected)
{
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self.implicit_unwrap(pos, src);
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return self.assert_ty(pos, src, expected, hint);
}
let ty = self.ty_display(src.ty);
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let expected = self.ty_display(expected);
self.report(pos, fa!("expected {hint} to be of type {expected}, got {ty}"));
false
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}
}
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fn extend(&mut self, value: &mut Value, to: ty::Id) {
self.strip_ptr(value);
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let mask = self.ci.nodes.new_const(to, (1i64 << (self.tys.size_of(value.ty) * 8)) - 1);
let inps = [VOID, value.id, mask];
*value = self.ci.nodes.new_node_lit(to, Kind::BinOp { op: TokenKind::Band }, inps);
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value.ty = to;
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}
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#[track_caller]
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fn report(&self, pos: Pos, msg: impl core::fmt::Display) {
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let mut buf = self.errors.borrow_mut();
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write!(buf, "{}", self.file().report(pos, msg)).unwrap();
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}
#[track_caller]
fn report_unhandled_ast(&self, ast: &Expr, hint: impl Display) {
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log::info!("{ast:#?}");
self.report(ast.pos(), fa!("compiler does not (yet) know how to handle ({hint})"));
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}
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fn file(&self) -> &'a parser::Ast {
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&self.files[self.ci.file as usize]
}
}
impl TypeParser for Codegen<'_> {
fn tys(&mut self) -> &mut Types {
self.tys
}
fn eval_const(&mut self, file: FileId, expr: &Expr, ret: ty::Id) -> u64 {
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let mut scope = mem::take(&mut self.ci.scope.vars);
self.pool.push_ci(file, Some(ret), self.tys.tasks.len(), &mut self.ci);
self.ci.scope.vars = scope;
let prev_err_len = self.errors.borrow().len();
self.expr(&Expr::Return { pos: expr.pos(), val: Some(expr) });
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scope = mem::take(&mut self.ci.scope.vars);
let res =
if self.finalize(prev_err_len) { self.emit_and_eval(file, ret, &mut []) } else { 1 };
self.pool.pop_ci(&mut self.ci);
self.ci.scope.vars = scope;
res
}
fn infer_type(&mut self, expr: &Expr) -> ty::Id {
self.pool.save_ci(&self.ci);
let ty = self.expr(expr).map_or(ty::Id::NEVER, |v| v.ty);
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self.pool.restore_ci(&mut self.ci);
ty
}
fn on_reuse(&mut self, existing: ty::Id) {
if let ty::Kind::Func(id) = existing.expand()
&& let func = &mut self.tys.ins.funcs[id as usize]
&& let Err(idx) = task::unpack(func.offset)
&& idx < self.tys.tasks.len()
{
func.offset = task::id(self.tys.tasks.len());
let task = self.tys.tasks[idx].take();
self.tys.tasks.push(task);
}
}
fn eval_global(&mut self, file: FileId, name: Ident, expr: &Expr) -> ty::Id {
let gid = self.tys.ins.globals.len() as ty::Global;
self.tys.ins.globals.push(Global { file, name, ..Default::default() });
let ty = ty::Kind::Global(gid);
self.pool.push_ci(file, None, self.tys.tasks.len(), &mut self.ci);
let prev_err_len = self.errors.borrow().len();
self.expr(&(Expr::Return { pos: expr.pos(), val: Some(expr) }));
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let ret = self.ci.ret.expect("for return type to be infered");
if self.finalize(prev_err_len) {
let mut mem = vec![0u8; self.tys.size_of(ret) as usize];
self.emit_and_eval(file, ret, &mut mem);
self.tys.ins.globals[gid as usize].data = mem;
}
self.pool.pop_ci(&mut self.ci);
self.tys.ins.globals[gid as usize].ty = ret;
ty.compress()
}
fn report(&self, file: FileId, pos: Pos, msg: impl Display) -> ty::Id {
let mut buf = self.errors.borrow_mut();
write!(buf, "{}", self.files[file as usize].report(pos, msg)).unwrap();
ty::Id::NEVER
}
fn find_local_ty(&mut self, ident: Ident) -> Option<ty::Id> {
self.ci.scope.vars.iter().rfind(|v| (v.id == ident && v.value() == NEVER)).map(|v| v.ty)
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}
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}
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#[cfg(test)]
mod tests {
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use {
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super::CodegenCtx,
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alloc::{string::String, vec::Vec},
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core::fmt::Write,
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};
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fn generate(ident: &'static str, input: &'static str, output: &mut String) {
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_ = log::set_logger(&crate::fs::Logger);
log::set_max_level(log::LevelFilter::Info);
//log::set_max_level(log::LevelFilter::Trace);
let mut ctx = CodegenCtx::default();
let (ref files, embeds) = crate::test_parse_files(ident, input, &mut ctx.parser);
let mut codegen = super::Codegen::new(files, &mut ctx);
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codegen.push_embeds(embeds);
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codegen.generate(0);
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{
let errors = codegen.errors.borrow();
if !errors.is_empty() {
output.push_str(&errors);
return;
}
}
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let mut out = Vec::new();
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codegen.tys.reassemble(&mut out);
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let err = codegen.tys.disasm(&out, codegen.files, output, |_| {});
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if let Err(e) = err {
writeln!(output, "!!! asm is invalid: {e}").unwrap();
return;
}
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super::hbvm::test_run_vm(&out, output);
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}
crate::run_tests! { generate:
// Tour Examples
main_fn;
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arithmetic;
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floating_point_arithmetic;
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functions;
comments;
if_statements;
variables;
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loops;
pointers;
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nullable_types;
structs;
hex_octal_binary_literals;
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struct_operators;
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global_variables;
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directives;
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c_strings;
struct_patterns;
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arrays;
inline;
idk;
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generic_functions;
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die;
// Incomplete Examples;
//comptime_pointers;
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generic_types;
fb_driver;
// Purely Testing Examples;
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needless_unwrap;
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inlining_issues;
null_check_test;
only_break_loop;
reading_idk;
nonexistent_ident_import;
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big_array_crash;
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returning_global_struct;
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small_struct_bitcast;
small_struct_assignment;
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intcast_store;
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string_flip;
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signed_to_unsigned_upcast;
wide_ret;
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comptime_min_reg_leak;
different_types;
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struct_return_from_module_function;
sort_something_viredly;
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struct_in_register;
comptime_function_from_another_file;
inline_test;
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inlined_generic_functions;
some_generic_code;
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integer_inference_issues;
writing_into_string;
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request_page;
tests_ptr_to_ptr_copy;
// Just Testing Optimizations;
const_folding_with_arg;
branch_assignments;
exhaustive_loop_testing;
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pointer_opts;
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conditional_stores;
loop_stores;
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dead_code_in_loop;
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infinite_loop_after_peephole;
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aliasing_overoptimization;
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global_aliasing_overptimization;
overwrite_aliasing_overoptimization;
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more_if_opts;
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}
}