854 lines
29 KiB
Rust
854 lines
29 KiB
Rust
use {
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super::{AssemblySpec, Backend, Nid, Node, Nodes},
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crate::{
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lexer::TokenKind,
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parser, reg,
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son::{debug_assert_matches, write_reloc, Kind, MEM},
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ty::{self, Loc, Module},
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utils::{BitSet, Ent, EntVec, Vc},
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Offset, Reloc, Size, TypedReloc, Types,
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},
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alloc::{boxed::Box, collections::BTreeMap, string::String, vec::Vec},
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core::mem,
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hbbytecode::{self as instrs, *},
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};
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mod my_regalloc;
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mod their_regalloc;
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struct FuncDt {
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offset: Offset,
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// TODO: change to indices into common vec
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relocs: Vec<TypedReloc>,
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code: Vec<u8>,
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}
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impl Default for FuncDt {
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fn default() -> Self {
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Self { offset: u32::MAX, relocs: Default::default(), code: Default::default() }
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}
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}
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struct GlobalDt {
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offset: Offset,
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}
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impl Default for GlobalDt {
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fn default() -> Self {
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Self { offset: u32::MAX }
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}
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}
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#[derive(Default)]
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struct Assembler {
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frontier: Vec<ty::Id>,
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globals: Vec<ty::Global>,
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funcs: Vec<ty::Func>,
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}
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#[derive(Default)]
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pub struct HbvmBackend {
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funcs: EntVec<ty::Func, FuncDt>,
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globals: EntVec<ty::Global, GlobalDt>,
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asm: Assembler,
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ralloc: their_regalloc::Regalloc,
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ralloc_my: my_regalloc::Res,
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ret_relocs: Vec<Reloc>,
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relocs: Vec<TypedReloc>,
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jump_relocs: Vec<(Nid, Reloc)>,
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code: Vec<u8>,
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offsets: Vec<Offset>,
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}
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impl HbvmBackend {
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fn emit(&mut self, instr: (usize, [u8; instrs::MAX_SIZE])) {
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emit(&mut self.code, instr);
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}
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}
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impl Backend for HbvmBackend {
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fn assemble_bin(&mut self, entry: ty::Func, types: &Types, to: &mut Vec<u8>) {
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to.extend([0u8; HEADER_SIZE]);
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binary_prelude(to);
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let AssemblySpec { code_length, data_length, entry } =
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self.assemble_reachable(entry, types, to);
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let exe = AbleOsExecutableHeader {
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magic_number: [0x15, 0x91, 0xD2],
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executable_version: 0,
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code_length,
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data_length,
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debug_length: 0,
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config_length: 0,
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metadata_length: 0,
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};
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Reloc::new(HEADER_SIZE, 3, 4).apply_jump(to, entry, 0);
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unsafe { *to.as_mut_ptr().cast::<AbleOsExecutableHeader>() = exe }
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}
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fn assemble_reachable(
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&mut self,
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from: ty::Func,
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types: &Types,
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to: &mut Vec<u8>,
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) -> AssemblySpec {
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debug_assert!(self.asm.frontier.is_empty());
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debug_assert!(self.asm.funcs.is_empty());
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debug_assert!(self.asm.globals.is_empty());
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self.globals.shadow(types.ins.globals.len());
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self.asm.frontier.push(ty::Kind::Func(from).compress());
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while let Some(itm) = self.asm.frontier.pop() {
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match itm.expand() {
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ty::Kind::Func(func) => {
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let fuc = &mut self.funcs[func];
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debug_assert!(!fuc.code.is_empty());
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if fuc.offset != u32::MAX {
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continue;
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}
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fuc.offset = 0;
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self.asm.funcs.push(func);
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self.asm.frontier.extend(fuc.relocs.iter().map(|r| r.target));
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}
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ty::Kind::Global(glob) => {
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let glb = &mut self.globals[glob];
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if glb.offset != u32::MAX {
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continue;
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}
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glb.offset = 0;
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self.asm.globals.push(glob);
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}
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_ => unreachable!(),
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}
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}
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let init_len = to.len();
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for &func in &self.asm.funcs {
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let fuc = &mut self.funcs[func];
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fuc.offset = to.len() as _;
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debug_assert!(!fuc.code.is_empty());
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to.extend(&fuc.code);
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}
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let code_length = to.len() - init_len;
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for global in self.asm.globals.drain(..) {
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self.globals[global].offset = to.len() as _;
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to.extend(&types.ins.globals[global].data);
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}
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let data_length = to.len() - code_length - init_len;
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for func in self.asm.funcs.drain(..) {
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let fuc = &self.funcs[func];
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for rel in &fuc.relocs {
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let offset = match rel.target.expand() {
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ty::Kind::Func(fun) => self.funcs[fun].offset,
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ty::Kind::Global(glo) => self.globals[glo].offset,
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_ => unreachable!(),
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};
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rel.reloc.apply_jump(to, offset, fuc.offset);
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}
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}
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AssemblySpec {
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code_length: code_length as _,
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data_length: data_length as _,
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entry: self.funcs[from].offset,
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}
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}
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fn disasm<'a>(
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&'a self,
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mut sluce: &[u8],
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eca_handler: &mut dyn FnMut(&mut &[u8]),
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types: &'a Types,
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files: &'a [parser::Ast],
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output: &mut String,
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) -> Result<(), hbbytecode::DisasmError<'a>> {
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use hbbytecode::DisasmItem;
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let functions = types
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.ins
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.funcs
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.iter()
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.zip(self.funcs.iter())
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.filter(|(_, f)| f.offset != u32::MAX)
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.map(|(f, fd)| {
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let name = if f.file != Module::default() {
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let file = &files[f.file.index()];
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file.ident_str(f.name)
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} else {
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"target_fn"
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};
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(fd.offset, (name, fd.code.len() as u32, DisasmItem::Func))
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})
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.chain(
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types
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.ins
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.globals
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.iter()
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.zip(self.globals.iter())
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.filter(|(_, g)| g.offset != u32::MAX)
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.map(|(g, gd)| {
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let name = if g.file == Module::default() {
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core::str::from_utf8(&g.data).unwrap_or("invalid utf-8")
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} else {
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let file = &files[g.file.index()];
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file.ident_str(g.name)
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};
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(gd.offset, (name, g.data.len() as Size, DisasmItem::Global))
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}),
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)
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.collect::<BTreeMap<_, _>>();
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hbbytecode::disasm(&mut sluce, &functions, output, eca_handler)
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}
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fn emit_ct_body(
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&mut self,
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id: ty::Func,
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nodes: &mut Nodes,
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tys: &Types,
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files: &[parser::Ast],
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) {
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self.emit_body(id, nodes, tys, files);
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let fd = &mut self.funcs[id];
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fd.code.truncate(fd.code.len() - instrs::jala(0, 0, 0).0);
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emit(&mut fd.code, instrs::tx());
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}
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fn emit_body(&mut self, id: ty::Func, nodes: &mut Nodes, tys: &Types, files: &[parser::Ast]) {
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let sig = tys.ins.funcs[id].sig.unwrap();
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debug_assert!(self.code.is_empty());
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self.offsets.clear();
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self.offsets.resize(nodes.values.len(), Offset::MAX);
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let mut stack_size = 0;
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'_compute_stack: {
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let mems = mem::take(&mut nodes[MEM].outputs);
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for &stck in mems.iter() {
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if !matches!(nodes[stck].kind, Kind::Stck | Kind::Arg) {
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debug_assert_matches!(
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nodes[stck].kind,
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Kind::Phi
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| Kind::Return
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| Kind::Load
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| Kind::Call { .. }
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| Kind::Stre
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| Kind::Join
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);
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continue;
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}
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stack_size += tys.size_of(nodes[stck].ty);
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self.offsets[stck as usize] = stack_size;
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}
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for &stck in mems.iter() {
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if !matches!(nodes[stck].kind, Kind::Stck | Kind::Arg) {
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continue;
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}
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self.offsets[stck as usize] = stack_size - self.offsets[stck as usize];
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}
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nodes[MEM].outputs = mems;
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}
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let (saved, tail) = self.emit_body_code(nodes, sig, tys, files);
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//let (saved, tail) = self.emit_body_code_my(nodes, sig, tys, files);
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if let Some(last_ret) = self.ret_relocs.last()
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&& last_ret.offset as usize == self.code.len() - 5
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&& self
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.jump_relocs
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.last()
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.map_or(true, |&(r, _)| self.offsets[r as usize] as usize != self.code.len())
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{
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self.code.truncate(self.code.len() - 5);
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self.ret_relocs.pop();
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}
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// FIXME: maybe do this incrementally
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for (nd, rel) in self.jump_relocs.drain(..) {
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let offset = self.offsets[nd as usize];
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//debug_assert!(offset < self.code.len() as u32 - 1);
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rel.apply_jump(&mut self.code, offset, 0);
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}
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let end = self.code.len();
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for ret_rel in self.ret_relocs.drain(..) {
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ret_rel.apply_jump(&mut self.code, end as _, 0);
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}
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let mut stripped_prelude_size = 0;
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'_close_function: {
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let pushed = (saved as i64 + !tail as i64) * 8;
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let stack = stack_size as i64;
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let add_len = instrs::addi64(0, 0, 0).0;
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let st_len = instrs::st(0, 0, 0, 0).0;
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match (pushed, stack) {
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(0, 0) => {
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stripped_prelude_size = add_len + st_len;
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self.code.drain(0..stripped_prelude_size);
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break '_close_function;
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}
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(0, stack) => {
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write_reloc(&mut self.code, 3, -stack, 8);
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stripped_prelude_size = st_len;
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let end = add_len + st_len;
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self.code.drain(add_len..end);
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self.emit(instrs::addi64(reg::STACK_PTR, reg::STACK_PTR, stack as _));
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break '_close_function;
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}
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_ => {}
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}
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write_reloc(&mut self.code, 3, -(pushed + stack), 8);
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write_reloc(&mut self.code, 3 + 8 + 3, stack, 8);
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write_reloc(&mut self.code, 3 + 8 + 3 + 8, pushed, 2);
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self.emit(instrs::ld(
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reg::RET_ADDR + tail as u8,
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reg::STACK_PTR,
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stack as _,
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pushed as _,
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));
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self.emit(instrs::addi64(reg::STACK_PTR, reg::STACK_PTR, (pushed + stack) as _));
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}
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self.relocs.iter_mut().for_each(|r| r.reloc.offset -= stripped_prelude_size as u32);
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if sig.ret != ty::Id::NEVER {
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self.emit(instrs::jala(reg::ZERO, reg::RET_ADDR, 0));
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}
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self.funcs.shadow(tys.ins.funcs.len());
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self.funcs[id].code = mem::take(&mut self.code);
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self.funcs[id].relocs = mem::take(&mut self.relocs);
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debug_assert_eq!(self.ret_relocs.len(), 0);
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debug_assert_eq!(self.relocs.len(), 0);
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debug_assert_eq!(self.jump_relocs.len(), 0);
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debug_assert_eq!(self.code.len(), 0);
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}
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}
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impl Nodes {
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fn reschedule_block(&mut self, from: Nid, outputs: &mut Vc) {
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// NOTE: this code is horible
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let fromc = Some(&from);
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let mut buf = Vec::with_capacity(outputs.len());
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let mut seen = BitSet::default();
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seen.clear(self.values.len());
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for &o in outputs.iter() {
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if (!self.is_cfg(o)
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&& self[o].outputs.iter().any(|&oi| {
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self[oi].kind != Kind::Phi && self[oi].inputs.first() == fromc && !seen.get(oi)
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}))
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|| !seen.set(o)
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{
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continue;
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}
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let mut cursor = buf.len();
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for &o in outputs.iter().filter(|&&n| n == o) {
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buf.push(o);
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}
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while let Some(&n) = buf.get(cursor) {
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for &i in &self[n].inputs[1..] {
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if fromc == self[i].inputs.first()
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&& self[i].outputs.iter().all(|&o| {
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self[o].kind == Kind::Phi
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|| self[o].inputs.first() != fromc
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|| seen.get(o)
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})
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&& seen.set(i)
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{
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for &o in outputs.iter().filter(|&&n| n == i) {
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buf.push(o);
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}
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}
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}
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cursor += 1;
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}
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}
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debug_assert_eq!(
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outputs.iter().filter(|&&n| !seen.get(n)).copied().collect::<Vec<_>>(),
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vec![],
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"{:?} {from:?} {:?}",
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outputs
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.iter()
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.filter(|&&n| !seen.get(n))
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.copied()
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.map(|n| (n, &self[n]))
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.collect::<Vec<_>>(),
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self[from]
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);
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if outputs.len() != buf.len() {
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panic!("{:?} {:?}", outputs, buf);
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}
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outputs.copy_from_slice(&buf);
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}
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fn is_never_used(&self, nid: Nid, tys: &Types) -> bool {
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let node = &self[nid];
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match node.kind {
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Kind::CInt { .. } => node.outputs.iter().all(|&o| {
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matches!(self[o].kind, Kind::BinOp { op }
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if op.imm_binop(self[o].ty).is_some()
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&& self.is_const(self[o].inputs[2])
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&& op.cond_op(self[o].ty).is_none())
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}),
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Kind::BinOp { op: TokenKind::Add | TokenKind::Sub } => {
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self[node.inputs[1]].lock_rc != 0
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|| (self.is_const(node.inputs[2])
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&& node.outputs.iter().all(|&n| self[n].uses_direct_offset_of(nid, tys)))
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}
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Kind::BinOp { op } => {
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op.cond_op(node.ty).is_some()
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&& node.outputs.iter().all(|&n| self[n].kind == Kind::If)
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}
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Kind::Stck if tys.size_of(node.ty) == 0 => true,
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Kind::Stck | Kind::Arg => node.outputs.iter().all(|&n| {
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self[n].uses_direct_offset_of(nid, tys)
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|| (matches!(self[n].kind, Kind::BinOp { op: TokenKind::Add })
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&& self.is_never_used(n, tys))
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}),
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Kind::Load { .. } => node.ty.loc(tys) == Loc::Stack,
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_ => false,
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}
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}
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}
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impl Node {
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fn uses_direct_offset_of(&self, nid: Nid, tys: &Types) -> bool {
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((self.kind == Kind::Stre && self.inputs[2] == nid)
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|| (self.kind == Kind::Load && self.inputs[1] == nid))
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&& self.ty.loc(tys) == Loc::Reg
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}
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}
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impl TokenKind {
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fn cmp_against(self) -> Option<u64> {
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Some(match self {
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TokenKind::Le | TokenKind::Gt => 1,
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TokenKind::Ne | TokenKind::Eq => 0,
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TokenKind::Ge | TokenKind::Lt => (-1i64) as _,
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_ => return None,
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})
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}
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fn float_cmp(self, ty: ty::Id) -> Option<fn(u8, u8, u8) -> EncodedInstr> {
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if !ty.is_float() {
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return None;
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}
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let size = ty.simple_size().unwrap();
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let ops = match self {
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TokenKind::Gt => [instrs::fcmpgt32, instrs::fcmpgt64],
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TokenKind::Lt => [instrs::fcmplt32, instrs::fcmplt64],
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_ => return None,
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};
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Some(ops[size.ilog2() as usize - 2])
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}
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#[expect(clippy::type_complexity)]
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fn cond_op(self, ty: ty::Id) -> Option<(fn(u8, u8, i16) -> EncodedInstr, bool)> {
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if ty.is_float() {
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return None;
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}
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let signed = ty.is_signed();
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Some((
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match self {
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Self::Le if signed => instrs::jgts,
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Self::Le => instrs::jgtu,
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Self::Lt if signed => instrs::jlts,
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Self::Lt => instrs::jltu,
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Self::Ge if signed => instrs::jlts,
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Self::Ge => instrs::jltu,
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Self::Gt if signed => instrs::jgts,
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Self::Gt => instrs::jgtu,
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Self::Eq => instrs::jne,
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Self::Ne => instrs::jeq,
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_ => return None,
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},
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matches!(self, Self::Lt | TokenKind::Gt),
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))
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}
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fn binop(self, ty: ty::Id) -> Option<fn(u8, u8, u8) -> EncodedInstr> {
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let size = ty.simple_size().unwrap();
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if ty.is_integer() || ty == ty::Id::BOOL || ty.is_pointer() {
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macro_rules! div { ($($op:ident),*) => {[$(|a, b, c| $op(a, 0, b, c)),*]}; }
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macro_rules! rem { ($($op:ident),*) => {[$(|a, b, c| $op(0, a, b, c)),*]}; }
|
|
let signed = ty.is_signed();
|
|
|
|
let ops = match self {
|
|
Self::Add => [add8, add16, add32, add64],
|
|
Self::Sub => [sub8, sub16, sub32, sub64],
|
|
Self::Mul => [mul8, mul16, mul32, mul64],
|
|
Self::Div if signed => div!(dirs8, dirs16, dirs32, dirs64),
|
|
Self::Div => div!(diru8, diru16, diru32, diru64),
|
|
Self::Mod if signed => rem!(dirs8, dirs16, dirs32, dirs64),
|
|
Self::Mod => rem!(diru8, diru16, diru32, diru64),
|
|
Self::Band => return Some(and),
|
|
Self::Bor => return Some(or),
|
|
Self::Xor => return Some(xor),
|
|
Self::Shl => [slu8, slu16, slu32, slu64],
|
|
Self::Shr if signed => [srs8, srs16, srs32, srs64],
|
|
Self::Shr => [sru8, sru16, sru32, sru64],
|
|
_ => return None,
|
|
};
|
|
|
|
Some(ops[size.ilog2() as usize])
|
|
} else {
|
|
debug_assert!(ty.is_float(), "{self} {ty:?}");
|
|
let ops = match self {
|
|
Self::Add => [fadd32, fadd64],
|
|
Self::Sub => [fsub32, fsub64],
|
|
Self::Mul => [fmul32, fmul64],
|
|
Self::Div => [fdiv32, fdiv64],
|
|
_ => return None,
|
|
};
|
|
Some(ops[size.ilog2() as usize - 2])
|
|
}
|
|
}
|
|
|
|
fn imm_binop(self, ty: ty::Id) -> Option<fn(u8, u8, u64) -> EncodedInstr> {
|
|
macro_rules! def_op {
|
|
($name:ident |$a:ident, $b:ident, $c:ident| $($tt:tt)*) => {
|
|
macro_rules! $name {
|
|
($$($$op:ident),*) => {
|
|
[$$(
|
|
|$a, $b, $c: u64| $$op($($tt)*),
|
|
)*]
|
|
}
|
|
}
|
|
};
|
|
}
|
|
|
|
if ty.is_float() {
|
|
return None;
|
|
}
|
|
|
|
def_op!(basic_op | a, b, c | a, b, c as _);
|
|
def_op!(sub_op | a, b, c | a, b, c.wrapping_neg() as _);
|
|
|
|
let signed = ty.is_signed();
|
|
let ops = match self {
|
|
Self::Add => basic_op!(addi8, addi16, addi32, addi64),
|
|
Self::Sub => sub_op!(addi8, addi16, addi32, addi64),
|
|
Self::Mul => basic_op!(muli8, muli16, muli32, muli64),
|
|
Self::Band => return Some(andi),
|
|
Self::Bor => return Some(ori),
|
|
Self::Xor => return Some(xori),
|
|
Self::Shr if signed => basic_op!(srsi8, srsi16, srsi32, srsi64),
|
|
Self::Shr => basic_op!(srui8, srui16, srui32, srui64),
|
|
Self::Shl => basic_op!(slui8, slui16, slui32, slui64),
|
|
_ => return None,
|
|
};
|
|
|
|
let size = ty.simple_size().unwrap();
|
|
Some(ops[size.ilog2() as usize])
|
|
}
|
|
|
|
fn unop(&self, dst: ty::Id, src: ty::Id) -> Option<fn(u8, u8) -> EncodedInstr> {
|
|
let src_idx =
|
|
src.simple_size().unwrap_or_else(|| panic!("{:?}", src.expand())).ilog2() as usize;
|
|
Some(match self {
|
|
Self::Sub => [
|
|
|a, b| sub8(a, reg::ZERO, b),
|
|
|a, b| sub16(a, reg::ZERO, b),
|
|
|a, b| sub32(a, reg::ZERO, b),
|
|
|a, b| sub64(a, reg::ZERO, b),
|
|
][src_idx],
|
|
Self::Not => instrs::not,
|
|
Self::Float if dst.is_float() && src.is_integer() => {
|
|
debug_assert_matches!(
|
|
(dst.simple_size(), src.simple_size()),
|
|
(Some(4 | 8), Some(8))
|
|
);
|
|
[instrs::itf32, instrs::itf64][src_idx - 2]
|
|
}
|
|
Self::Number if src.is_float() && dst.is_integer() => {
|
|
[|a, b| instrs::fti32(a, b, 1), |a, b| instrs::fti64(a, b, 1)][src_idx - 2]
|
|
}
|
|
Self::Number if src.is_signed() && (dst.is_integer() || dst.is_pointer()) => {
|
|
[instrs::sxt8, instrs::sxt16, instrs::sxt32][src_idx]
|
|
}
|
|
Self::Number
|
|
if (src.is_unsigned() || src == ty::Id::BOOL)
|
|
&& (dst.is_integer() || dst.is_pointer()) =>
|
|
{
|
|
[
|
|
|a, b| instrs::andi(a, b, 0xff),
|
|
|a, b| instrs::andi(a, b, 0xffff),
|
|
|a, b| instrs::andi(a, b, 0xffffffff),
|
|
][src_idx]
|
|
}
|
|
Self::Float if dst.is_float() && src.is_float() => {
|
|
[instrs::fc32t64, |a, b| instrs::fc64t32(a, b, 1)][src_idx - 2]
|
|
}
|
|
_ => return None,
|
|
})
|
|
}
|
|
}
|
|
|
|
type EncodedInstr = (usize, [u8; instrs::MAX_SIZE]);
|
|
fn emit(out: &mut Vec<u8>, (len, instr): EncodedInstr) {
|
|
out.extend_from_slice(&instr[..len]);
|
|
}
|
|
|
|
fn binary_prelude(to: &mut Vec<u8>) {
|
|
emit(to, instrs::jal(reg::RET_ADDR, reg::ZERO, 0));
|
|
emit(to, instrs::tx());
|
|
}
|
|
|
|
#[derive(Default)]
|
|
pub struct LoggedMem {
|
|
pub mem: hbvm::mem::HostMemory,
|
|
op_buf: Vec<hbbytecode::Oper>,
|
|
disp_buf: String,
|
|
prev_instr: Option<hbbytecode::Instr>,
|
|
}
|
|
|
|
impl LoggedMem {
|
|
unsafe fn display_instr<T>(&mut self, instr: hbbytecode::Instr, addr: hbvm::mem::Address) {
|
|
let novm: *const hbvm::Vm<Self, 0> = core::ptr::null();
|
|
let offset = core::ptr::addr_of!((*novm).memory) as usize;
|
|
let regs = unsafe {
|
|
&*core::ptr::addr_of!(
|
|
(*(((self as *mut _ as *mut u8).sub(offset)) as *const hbvm::Vm<Self, 0>))
|
|
.registers
|
|
)
|
|
};
|
|
|
|
let mut bytes = core::slice::from_raw_parts(
|
|
(addr.get() - 1) as *const u8,
|
|
core::mem::size_of::<T>() + 1,
|
|
);
|
|
use core::fmt::Write;
|
|
hbbytecode::parse_args(&mut bytes, instr, &mut self.op_buf).unwrap();
|
|
debug_assert!(bytes.is_empty());
|
|
self.disp_buf.clear();
|
|
write!(self.disp_buf, "{:<10}", format!("{instr:?}")).unwrap();
|
|
for (i, op) in self.op_buf.drain(..).enumerate() {
|
|
if i != 0 {
|
|
write!(self.disp_buf, ", ").unwrap();
|
|
}
|
|
write!(self.disp_buf, "{op:?}").unwrap();
|
|
if let hbbytecode::Oper::R(r) = op {
|
|
write!(self.disp_buf, "({})", regs[r as usize].0).unwrap()
|
|
}
|
|
}
|
|
log::trace!("read-typed: {:x}: {}", addr.get(), self.disp_buf);
|
|
}
|
|
}
|
|
|
|
impl hbvm::mem::Memory for LoggedMem {
|
|
unsafe fn load(
|
|
&mut self,
|
|
addr: hbvm::mem::Address,
|
|
target: *mut u8,
|
|
count: usize,
|
|
) -> Result<(), hbvm::mem::LoadError> {
|
|
log::trace!(
|
|
"load: {:x} {}",
|
|
addr.get(),
|
|
AsHex(core::slice::from_raw_parts(addr.get() as *const u8, count))
|
|
);
|
|
self.mem.load(addr, target, count)
|
|
}
|
|
|
|
unsafe fn store(
|
|
&mut self,
|
|
addr: hbvm::mem::Address,
|
|
source: *const u8,
|
|
count: usize,
|
|
) -> Result<(), hbvm::mem::StoreError> {
|
|
log::trace!(
|
|
"store: {:x} {}",
|
|
addr.get(),
|
|
AsHex(core::slice::from_raw_parts(source, count))
|
|
);
|
|
self.mem.store(addr, source, count)
|
|
}
|
|
|
|
unsafe fn prog_read<T: Copy + 'static>(&mut self, addr: hbvm::mem::Address) -> T {
|
|
if log::log_enabled!(log::Level::Trace) {
|
|
if core::any::TypeId::of::<u8>() == core::any::TypeId::of::<T>() {
|
|
if let Some(instr) = self.prev_instr {
|
|
self.display_instr::<()>(instr, addr);
|
|
}
|
|
self.prev_instr = hbbytecode::Instr::try_from(*(addr.get() as *const u8)).ok();
|
|
} else {
|
|
let instr = self.prev_instr.take().unwrap();
|
|
self.display_instr::<T>(instr, addr);
|
|
}
|
|
}
|
|
|
|
self.mem.prog_read(addr)
|
|
}
|
|
}
|
|
|
|
struct AsHex<'a>(&'a [u8]);
|
|
|
|
impl core::fmt::Display for AsHex<'_> {
|
|
fn fmt(&self, f: &mut core::fmt::Formatter<'_>) -> core::fmt::Result {
|
|
for &b in self.0 {
|
|
write!(f, "{b:02x}")?;
|
|
}
|
|
Ok(())
|
|
}
|
|
}
|
|
|
|
const VM_STACK_SIZE: usize = 1024 * 64;
|
|
|
|
pub struct Comptime {
|
|
pub vm: hbvm::Vm<LoggedMem, { 1024 * 10 }>,
|
|
stack: Box<[u8; VM_STACK_SIZE]>,
|
|
pub code: Vec<u8>,
|
|
depth: usize,
|
|
}
|
|
|
|
impl Comptime {
|
|
pub fn run(&mut self, ret_loc: &mut [u8], offset: u32) -> u64 {
|
|
self.vm.write_reg(reg::RET, ret_loc.as_mut_ptr() as u64);
|
|
let prev_pc = self.push_pc(offset);
|
|
loop {
|
|
match self.vm.run().expect("TODO") {
|
|
hbvm::VmRunOk::End => break,
|
|
hbvm::VmRunOk::Timer => todo!(),
|
|
hbvm::VmRunOk::Ecall => todo!(),
|
|
hbvm::VmRunOk::Breakpoint => todo!(),
|
|
}
|
|
}
|
|
self.pop_pc(prev_pc);
|
|
|
|
if let len @ 1..=8 = ret_loc.len() {
|
|
ret_loc.copy_from_slice(&self.vm.read_reg(reg::RET).0.to_ne_bytes()[..len])
|
|
}
|
|
|
|
self.vm.read_reg(reg::RET).0
|
|
}
|
|
|
|
pub fn reset(&mut self) {
|
|
let ptr = unsafe { self.stack.as_mut_ptr().cast::<u8>().add(VM_STACK_SIZE) as u64 };
|
|
self.vm.registers.fill(hbvm::value::Value(0));
|
|
self.vm.write_reg(reg::STACK_PTR, ptr);
|
|
self.vm.pc = hbvm::mem::Address::new(self.code.as_ptr() as u64 + HEADER_SIZE as u64);
|
|
}
|
|
|
|
fn push_pc(&mut self, offset: Offset) -> hbvm::mem::Address {
|
|
let entry = &mut self.code[offset as usize] as *mut _ as _;
|
|
core::mem::replace(&mut self.vm.pc, hbvm::mem::Address::new(entry))
|
|
- self.code.as_ptr() as usize
|
|
}
|
|
|
|
fn pop_pc(&mut self, prev_pc: hbvm::mem::Address) {
|
|
self.vm.pc = prev_pc + self.code.as_ptr() as usize;
|
|
}
|
|
|
|
pub fn clear(&mut self) {
|
|
self.code.clear();
|
|
}
|
|
|
|
#[must_use]
|
|
pub fn active(&self) -> bool {
|
|
self.depth != 0
|
|
}
|
|
|
|
pub fn activate(&mut self) {
|
|
self.depth += 1;
|
|
}
|
|
|
|
pub fn deactivate(&mut self) {
|
|
self.depth -= 1;
|
|
}
|
|
}
|
|
|
|
impl Default for Comptime {
|
|
fn default() -> Self {
|
|
let mut stack = Box::<[u8; VM_STACK_SIZE]>::new_uninit();
|
|
let mut vm = hbvm::Vm::default();
|
|
let ptr = unsafe { stack.as_mut_ptr().cast::<u8>().add(VM_STACK_SIZE) as u64 };
|
|
vm.write_reg(reg::STACK_PTR, ptr);
|
|
Self { vm, stack: unsafe { stack.assume_init() }, code: Default::default(), depth: 0 }
|
|
}
|
|
}
|
|
|
|
const HEADER_SIZE: usize = core::mem::size_of::<AbleOsExecutableHeader>();
|
|
|
|
#[repr(packed)]
|
|
#[expect(dead_code)]
|
|
pub struct AbleOsExecutableHeader {
|
|
magic_number: [u8; 3],
|
|
executable_version: u32,
|
|
|
|
code_length: u64,
|
|
data_length: u64,
|
|
debug_length: u64,
|
|
config_length: u64,
|
|
metadata_length: u64,
|
|
}
|
|
|
|
#[cfg(test)]
|
|
pub fn test_run_vm(out: &[u8], output: &mut String) {
|
|
use core::fmt::Write;
|
|
|
|
let mut stack = [0_u64; 1024 * 20];
|
|
|
|
let mut vm = unsafe {
|
|
hbvm::Vm::<_, { 1024 * 100 }>::new(
|
|
LoggedMem::default(),
|
|
hbvm::mem::Address::new(out.as_ptr() as u64).wrapping_add(HEADER_SIZE),
|
|
)
|
|
};
|
|
|
|
vm.write_reg(reg::STACK_PTR, unsafe { stack.as_mut_ptr().add(stack.len()) } as u64);
|
|
|
|
let stat = loop {
|
|
match vm.run() {
|
|
Ok(hbvm::VmRunOk::End) => break Ok(()),
|
|
Ok(hbvm::VmRunOk::Ecall) => match vm.read_reg(2).0 {
|
|
1 => writeln!(output, "ev: Ecall").unwrap(), // compatibility with a test
|
|
69 => {
|
|
let [size, align] = [vm.read_reg(3).0 as usize, vm.read_reg(4).0 as usize];
|
|
let layout = core::alloc::Layout::from_size_align(size, align).unwrap();
|
|
let ptr = unsafe { alloc::alloc::alloc(layout) };
|
|
vm.write_reg(1, ptr as u64);
|
|
}
|
|
96 => {
|
|
let [ptr, size, align] = [
|
|
vm.read_reg(3).0 as usize,
|
|
vm.read_reg(4).0 as usize,
|
|
vm.read_reg(5).0 as usize,
|
|
];
|
|
|
|
let layout = core::alloc::Layout::from_size_align(size, align).unwrap();
|
|
unsafe { alloc::alloc::dealloc(ptr as *mut u8, layout) };
|
|
}
|
|
3 => vm.write_reg(1, 42),
|
|
8 => {}
|
|
unknown => writeln!(output, "unknown ecall: {unknown:?}").unwrap(),
|
|
},
|
|
Ok(hbvm::VmRunOk::Timer) => {
|
|
writeln!(output, "timed out").unwrap();
|
|
break Ok(());
|
|
}
|
|
Ok(ev) => writeln!(output, "ev: {:?}", ev).unwrap(),
|
|
Err(e) => break Err(e),
|
|
}
|
|
};
|
|
|
|
writeln!(output, "code size: {}", out.len() - HEADER_SIZE).unwrap();
|
|
writeln!(output, "ret: {:?}", vm.read_reg(1).0).unwrap();
|
|
writeln!(output, "status: {:?}", stat).unwrap();
|
|
}
|