Macro system done in theory
too afraid to begin debugging, resting for a moment
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163
orchid-extension/src/reflection.rs
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163
orchid-extension/src/reflection.rs
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use std::cell::OnceCell;
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use std::rc::Rc;
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use async_std::sync::Mutex;
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use futures::FutureExt;
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use memo_map::MemoMap;
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use orchid_base::interner::Tok;
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use orchid_base::name::{NameLike, VPath};
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use orchid_base::reqnot::Requester;
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use crate::api;
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use crate::system::{SysCtx, SysCtxEntry, WeakSysCtx};
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pub struct ReflMemData {
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// None for inferred steps
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public: OnceCell<bool>,
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kind: ReflMemKind,
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}
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#[derive(Clone)]
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pub struct ReflMem(Rc<ReflMemData>);
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impl ReflMem {
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pub fn kind(&self) -> ReflMemKind { self.0.kind.clone() }
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}
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#[derive(Clone)]
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pub enum ReflMemKind {
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Const,
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Mod(ReflMod),
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}
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pub struct ReflModData {
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inferred: Mutex<bool>,
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path: VPath,
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ctx: WeakSysCtx,
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members: MemoMap<Tok<String>, ReflMem>,
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}
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#[derive(Clone)]
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pub struct ReflMod(Rc<ReflModData>);
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impl ReflMod {
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fn ctx(&self) -> SysCtx {
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self.0.ctx.upgrade().expect("ReflectedModule accessed after context drop")
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}
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pub fn path(&self) -> &[Tok<String>] { &self.0.path[..] }
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pub fn is_root(&self) -> bool { self.0.path.is_empty() }
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async fn try_populate(&self) -> Result<(), api::LsModuleError> {
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let ctx = self.ctx();
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let path_tok = ctx.i().i(&self.0.path[..]).await;
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let reply = match ctx.reqnot().request(api::LsModule(ctx.sys_id(), path_tok.to_api())).await {
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Err(api::LsModuleError::TreeUnavailable) =>
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panic!("Reflected tree accessed outside an interpreter call. This extension is faulty."),
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Err(err) => return Err(err),
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Ok(details) => details,
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};
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for (k, v) in reply.members {
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let k = ctx.i().ex(k).await;
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let mem = match self.0.members.get(&k) {
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Some(mem) => mem,
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None => {
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let path = self.0.path.clone().name_with_suffix(k.clone()).to_sym(ctx.i()).await;
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let kind = match v.kind {
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api::MemberInfoKind::Constant => ReflMemKind::Const,
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api::MemberInfoKind::Module =>
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ReflMemKind::Mod(default_module(&ctx, VPath::new(path.segs()))),
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};
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self.0.members.get_or_insert(&k, || default_member(self.is_root(), kind))
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},
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};
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let _ = mem.0.public.set(v.public);
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}
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Ok(())
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}
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pub async fn get_child(&self, key: &Tok<String>) -> Option<ReflMem> {
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let inferred_g = self.0.inferred.lock().await;
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if let Some(mem) = self.0.members.get(key) {
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return Some(mem.clone());
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}
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if !*inferred_g {
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return None;
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}
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match self.try_populate().await {
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Err(api::LsModuleError::InvalidPath) =>
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panic!("Path became invalid since module was created"),
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Err(api::LsModuleError::IsConstant) =>
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panic!("Path previously contained a module but now contains a constant"),
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Err(api::LsModuleError::TreeUnavailable) => unreachable!(),
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Ok(()) => (),
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}
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self.0.members.get(key).cloned()
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}
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pub async fn get_by_path(&self, path: &[Tok<String>]) -> Result<ReflMem, InvalidPathError> {
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let ctx = self.ctx();
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let (next, tail) = path.split_first().expect("Attempted to walk by empty path");
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let inferred_g = self.0.inferred.lock().await;
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if let Some(next) = self.0.members.get(next) {
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return if tail.is_empty() {
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Ok(next.clone())
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} else {
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match next.kind() {
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ReflMemKind::Const => Err(InvalidPathError { keep_ancestry: true }),
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ReflMemKind::Mod(m) => m.get_by_path(tail).boxed_local().await,
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}
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};
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}
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if !*inferred_g {
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return Err(InvalidPathError { keep_ancestry: true });
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}
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let candidate = default_module(&ctx, self.0.path.clone().suffix([next.clone()]));
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if tail.is_empty() {
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return match candidate.try_populate().await {
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Ok(()) => {
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let tgt_mem = default_member(self.is_root(), ReflMemKind::Mod(candidate));
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self.0.members.insert(next.clone(), tgt_mem.clone());
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Ok(tgt_mem)
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},
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Err(api::LsModuleError::InvalidPath) => Err(InvalidPathError { keep_ancestry: false }),
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Err(api::LsModuleError::IsConstant) => {
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let const_mem = default_member(self.is_root(), ReflMemKind::Const);
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self.0.members.insert(next.clone(), const_mem);
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Err(InvalidPathError { keep_ancestry: true })
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},
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Err(api::LsModuleError::TreeUnavailable) => unreachable!(),
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};
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}
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match candidate.get_by_path(tail).boxed_local().await {
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e @ Err(InvalidPathError { keep_ancestry: false }) => e,
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res @ Err(InvalidPathError { keep_ancestry: true }) | res @ Ok(_) => {
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let tgt_mem = default_member(self.is_root(), ReflMemKind::Mod(candidate));
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self.0.members.insert(next.clone(), tgt_mem);
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res
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},
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}
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}
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}
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struct ReflRoot(ReflMod);
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impl SysCtxEntry for ReflRoot {}
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pub struct InvalidPathError {
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keep_ancestry: bool,
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}
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fn default_module(ctx: &SysCtx, path: VPath) -> ReflMod {
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ReflMod(Rc::new(ReflModData {
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ctx: ctx.downgrade(),
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inferred: Mutex::new(true),
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path,
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members: MemoMap::new(),
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}))
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}
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fn default_member(is_root: bool, kind: ReflMemKind) -> ReflMem {
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ReflMem(Rc::new(ReflMemData {
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public: if is_root { true.into() } else { OnceCell::new() },
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kind,
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}))
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}
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fn get_root(ctx: &SysCtx) -> &ReflRoot {
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ctx.get_or_insert(|| ReflRoot(default_module(ctx, VPath::new([]))))
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}
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pub fn refl(ctx: &SysCtx) -> ReflMod { get_root(ctx).0.clone() }
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