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-rw-r--r--crates/ra_proc_macro_srv/src/proc_macro/bridge/buffer.rs149
-rw-r--r--crates/ra_proc_macro_srv/src/proc_macro/bridge/client.rs472
-rw-r--r--crates/ra_proc_macro_srv/src/proc_macro/bridge/closure.rs27
-rw-r--r--crates/ra_proc_macro_srv/src/proc_macro/bridge/handle.rs73
-rw-r--r--crates/ra_proc_macro_srv/src/proc_macro/bridge/mod.rs404
-rw-r--r--crates/ra_proc_macro_srv/src/proc_macro/bridge/rpc.rs311
-rw-r--r--crates/ra_proc_macro_srv/src/proc_macro/bridge/scoped_cell.rs84
-rw-r--r--crates/ra_proc_macro_srv/src/proc_macro/bridge/server.rs323
-rw-r--r--crates/ra_proc_macro_srv/src/proc_macro/diagnostic.rs170
-rw-r--r--crates/ra_proc_macro_srv/src/proc_macro/mod.rs926
10 files changed, 2939 insertions, 0 deletions
diff --git a/crates/ra_proc_macro_srv/src/proc_macro/bridge/buffer.rs b/crates/ra_proc_macro_srv/src/proc_macro/bridge/buffer.rs
new file mode 100644
index 000000000..dae6ff1d1
--- /dev/null
+++ b/crates/ra_proc_macro_srv/src/proc_macro/bridge/buffer.rs
@@ -0,0 +1,149 @@
1//! lib-proc-macro Buffer management for same-process client<->server communication.
2//!
3//! Copy from https://github.com/rust-lang/rust/blob/6050e523bae6de61de4e060facc43dc512adaccd/src/libproc_macro/bridge/buffer.rs
4//! augmented with removing unstable features
5
6use std::io::{self, Write};
7use std::mem;
8use std::ops::{Deref, DerefMut};
9use std::slice;
10
11#[repr(C)]
12struct Slice<'a, T> {
13 data: &'a [T; 0],
14 len: usize,
15}
16
17unsafe impl<'a, T: Sync> Sync for Slice<'a, T> {}
18unsafe impl<'a, T: Sync> Send for Slice<'a, T> {}
19
20impl<'a, T> Copy for Slice<'a, T> {}
21impl<'a, T> Clone for Slice<'a, T> {
22 fn clone(&self) -> Self {
23 *self
24 }
25}
26
27impl<'a, T> From<&'a [T]> for Slice<'a, T> {
28 fn from(xs: &'a [T]) -> Self {
29 Slice { data: unsafe { &*(xs.as_ptr() as *const [T; 0]) }, len: xs.len() }
30 }
31}
32
33impl<'a, T> Deref for Slice<'a, T> {
34 type Target = [T];
35 fn deref(&self) -> &[T] {
36 unsafe { slice::from_raw_parts(self.data.as_ptr(), self.len) }
37 }
38}
39
40#[repr(C)]
41pub struct Buffer<T: Copy> {
42 data: *mut T,
43 len: usize,
44 capacity: usize,
45 extend_from_slice: extern "C" fn(Buffer<T>, Slice<'_, T>) -> Buffer<T>,
46 drop: extern "C" fn(Buffer<T>),
47}
48
49unsafe impl<T: Copy + Sync> Sync for Buffer<T> {}
50unsafe impl<T: Copy + Send> Send for Buffer<T> {}
51
52impl<T: Copy> Default for Buffer<T> {
53 fn default() -> Self {
54 Self::from(vec![])
55 }
56}
57
58impl<T: Copy> Deref for Buffer<T> {
59 type Target = [T];
60 fn deref(&self) -> &[T] {
61 unsafe { slice::from_raw_parts(self.data as *const T, self.len) }
62 }
63}
64
65impl<T: Copy> DerefMut for Buffer<T> {
66 fn deref_mut(&mut self) -> &mut [T] {
67 unsafe { slice::from_raw_parts_mut(self.data, self.len) }
68 }
69}
70
71impl<T: Copy> Buffer<T> {
72 pub(super) fn new() -> Self {
73 Self::default()
74 }
75
76 pub(super) fn clear(&mut self) {
77 self.len = 0;
78 }
79
80 pub(super) fn take(&mut self) -> Self {
81 mem::take(self)
82 }
83
84 pub(super) fn extend_from_slice(&mut self, xs: &[T]) {
85 // Fast path to avoid going through an FFI call.
86 if let Some(final_len) = self.len.checked_add(xs.len()) {
87 if final_len <= self.capacity {
88 let dst = unsafe { slice::from_raw_parts_mut(self.data, self.capacity) };
89 dst[self.len..][..xs.len()].copy_from_slice(xs);
90 self.len = final_len;
91 return;
92 }
93 }
94 let b = self.take();
95 *self = (b.extend_from_slice)(b, Slice::from(xs));
96 }
97}
98
99impl Write for Buffer<u8> {
100 fn write(&mut self, xs: &[u8]) -> io::Result<usize> {
101 self.extend_from_slice(xs);
102 Ok(xs.len())
103 }
104
105 fn write_all(&mut self, xs: &[u8]) -> io::Result<()> {
106 self.extend_from_slice(xs);
107 Ok(())
108 }
109
110 fn flush(&mut self) -> io::Result<()> {
111 Ok(())
112 }
113}
114
115impl<T: Copy> Drop for Buffer<T> {
116 fn drop(&mut self) {
117 let b = self.take();
118 (b.drop)(b);
119 }
120}
121
122impl<T: Copy> From<Vec<T>> for Buffer<T> {
123 fn from(mut v: Vec<T>) -> Self {
124 let (data, len, capacity) = (v.as_mut_ptr(), v.len(), v.capacity());
125 mem::forget(v);
126
127 // This utility function is nested in here because it can *only*
128 // be safely called on `Buffer`s created by *this* `proc_macro`.
129 fn to_vec<T: Copy>(b: Buffer<T>) -> Vec<T> {
130 unsafe {
131 let Buffer { data, len, capacity, .. } = b;
132 mem::forget(b);
133 Vec::from_raw_parts(data, len, capacity)
134 }
135 }
136
137 extern "C" fn extend_from_slice<T: Copy>(b: Buffer<T>, xs: Slice<'_, T>) -> Buffer<T> {
138 let mut v = to_vec(b);
139 v.extend_from_slice(&xs);
140 Buffer::from(v)
141 }
142
143 extern "C" fn drop<T: Copy>(b: Buffer<T>) {
144 mem::drop(to_vec(b));
145 }
146
147 Buffer { data, len, capacity, extend_from_slice, drop }
148 }
149}
diff --git a/crates/ra_proc_macro_srv/src/proc_macro/bridge/client.rs b/crates/ra_proc_macro_srv/src/proc_macro/bridge/client.rs
new file mode 100644
index 000000000..4b5dc7fd0
--- /dev/null
+++ b/crates/ra_proc_macro_srv/src/proc_macro/bridge/client.rs
@@ -0,0 +1,472 @@
1//! lib-proc-macro Client-side types.
2//!
3//! Copy from https://github.com/rust-lang/rust/blob/6050e523bae6de61de4e060facc43dc512adaccd/src/libproc_macro/bridge/client.rs
4//! augmented with removing unstable features
5
6use super::*;
7
8macro_rules! define_handles {
9 (
10 'owned: $($oty:ident,)*
11 'interned: $($ity:ident,)*
12 ) => {
13 #[repr(C)]
14 #[allow(non_snake_case)]
15 pub struct HandleCounters {
16 $($oty: AtomicUsize,)*
17 $($ity: AtomicUsize,)*
18 }
19
20 impl HandleCounters {
21 // FIXME(eddyb) use a reference to the `static COUNTERS`, intead of
22 // a wrapper `fn` pointer, once `const fn` can reference `static`s.
23 extern "C" fn get() -> &'static Self {
24 static COUNTERS: HandleCounters = HandleCounters {
25 $($oty: AtomicUsize::new(1),)*
26 $($ity: AtomicUsize::new(1),)*
27 };
28 &COUNTERS
29 }
30 }
31
32 // FIXME(eddyb) generate the definition of `HandleStore` in `server.rs`.
33 #[repr(C)]
34 #[allow(non_snake_case)]
35 pub(super) struct HandleStore<S: server::Types> {
36 $($oty: handle::OwnedStore<S::$oty>,)*
37 $($ity: handle::InternedStore<S::$ity>,)*
38 }
39
40 impl<S: server::Types> HandleStore<S> {
41 pub(super) fn new(handle_counters: &'static HandleCounters) -> Self {
42 HandleStore {
43 $($oty: handle::OwnedStore::new(&handle_counters.$oty),)*
44 $($ity: handle::InternedStore::new(&handle_counters.$ity),)*
45 }
46 }
47 }
48
49 $(
50 #[repr(C)]
51 pub struct $oty(pub(crate) handle::Handle);
52 // impl !Send for $oty {}
53 // impl !Sync for $oty {}
54
55 // Forward `Drop::drop` to the inherent `drop` method.
56 impl Drop for $oty {
57 fn drop(&mut self) {
58 $oty(self.0).drop();
59 }
60 }
61
62 impl<S> Encode<S> for $oty {
63 fn encode(self, w: &mut Writer, s: &mut S) {
64 let handle = self.0;
65 mem::forget(self);
66 handle.encode(w, s);
67 }
68 }
69
70 impl<S: server::Types> DecodeMut<'_, '_, HandleStore<server::MarkedTypes<S>>>
71 for Marked<S::$oty, $oty>
72 {
73 fn decode(r: &mut Reader<'_>, s: &mut HandleStore<server::MarkedTypes<S>>) -> Self {
74 s.$oty.take(handle::Handle::decode(r, &mut ()))
75 }
76 }
77
78 impl<S> Encode<S> for &$oty {
79 fn encode(self, w: &mut Writer, s: &mut S) {
80 self.0.encode(w, s);
81 }
82 }
83
84 impl<'s, S: server::Types,> Decode<'_, 's, HandleStore<server::MarkedTypes<S>>>
85 for &'s Marked<S::$oty, $oty>
86 {
87 fn decode(r: &mut Reader<'_>, s: &'s HandleStore<server::MarkedTypes<S>>) -> Self {
88 &s.$oty[handle::Handle::decode(r, &mut ())]
89 }
90 }
91
92 impl<S> Encode<S> for &mut $oty {
93 fn encode(self, w: &mut Writer, s: &mut S) {
94 self.0.encode(w, s);
95 }
96 }
97
98 impl<'s, S: server::Types> DecodeMut<'_, 's, HandleStore<server::MarkedTypes<S>>>
99 for &'s mut Marked<S::$oty, $oty>
100 {
101 fn decode(
102 r: &mut Reader<'_>,
103 s: &'s mut HandleStore<server::MarkedTypes<S>>
104 ) -> Self {
105 &mut s.$oty[handle::Handle::decode(r, &mut ())]
106 }
107 }
108
109 impl<S: server::Types> Encode<HandleStore<server::MarkedTypes<S>>>
110 for Marked<S::$oty, $oty>
111 {
112 fn encode(self, w: &mut Writer, s: &mut HandleStore<server::MarkedTypes<S>>) {
113 s.$oty.alloc(self).encode(w, s);
114 }
115 }
116
117 impl<S> DecodeMut<'_, '_, S> for $oty {
118 fn decode(r: &mut Reader<'_>, s: &mut S) -> Self {
119 $oty(handle::Handle::decode(r, s))
120 }
121 }
122 )*
123
124 $(
125 #[repr(C)]
126 #[derive(Copy, Clone, PartialEq, Eq, Hash)]
127 pub(crate) struct $ity(handle::Handle);
128 // impl !Send for $ity {}
129 // impl !Sync for $ity {}
130
131 impl<S> Encode<S> for $ity {
132 fn encode(self, w: &mut Writer, s: &mut S) {
133 self.0.encode(w, s);
134 }
135 }
136
137 impl<S: server::Types> DecodeMut<'_, '_, HandleStore<server::MarkedTypes<S>>>
138 for Marked<S::$ity, $ity>
139 {
140 fn decode(r: &mut Reader<'_>, s: &mut HandleStore<server::MarkedTypes<S>>) -> Self {
141 s.$ity.copy(handle::Handle::decode(r, &mut ()))
142 }
143 }
144
145 impl<S: server::Types> Encode<HandleStore<server::MarkedTypes<S>>>
146 for Marked<S::$ity, $ity>
147 {
148 fn encode(self, w: &mut Writer, s: &mut HandleStore<server::MarkedTypes<S>>) {
149 s.$ity.alloc(self).encode(w, s);
150 }
151 }
152
153 impl<S> DecodeMut<'_, '_, S> for $ity {
154 fn decode(r: &mut Reader<'_>, s: &mut S) -> Self {
155 $ity(handle::Handle::decode(r, s))
156 }
157 }
158 )*
159 }
160}
161define_handles! {
162 'owned:
163 TokenStream,
164 TokenStreamBuilder,
165 TokenStreamIter,
166 Group,
167 Literal,
168 SourceFile,
169 MultiSpan,
170 Diagnostic,
171
172 'interned:
173 Punct,
174 Ident,
175 Span,
176}
177
178// FIXME(eddyb) generate these impls by pattern-matching on the
179// names of methods - also could use the presence of `fn drop`
180// to distinguish between 'owned and 'interned, above.
181// Alternatively, special 'modes" could be listed of types in with_api
182// instead of pattern matching on methods, here and in server decl.
183
184impl Clone for TokenStream {
185 fn clone(&self) -> Self {
186 self.clone()
187 }
188}
189
190impl Clone for TokenStreamIter {
191 fn clone(&self) -> Self {
192 self.clone()
193 }
194}
195
196impl Clone for Group {
197 fn clone(&self) -> Self {
198 self.clone()
199 }
200}
201
202impl Clone for Literal {
203 fn clone(&self) -> Self {
204 self.clone()
205 }
206}
207
208// FIXME(eddyb) `Literal` should not expose internal `Debug` impls.
209impl fmt::Debug for Literal {
210 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
211 f.write_str(&self.debug())
212 }
213}
214
215impl Clone for SourceFile {
216 fn clone(&self) -> Self {
217 self.clone()
218 }
219}
220
221impl fmt::Debug for Span {
222 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
223 f.write_str(&self.debug())
224 }
225}
226
227macro_rules! define_client_side {
228 ($($name:ident {
229 $(fn $method:ident($($arg:ident: $arg_ty:ty),* $(,)?) $(-> $ret_ty:ty)*;)*
230 }),* $(,)?) => {
231 $(impl $name {
232 #[allow(unused)]
233 $(pub(crate) fn $method($($arg: $arg_ty),*) $(-> $ret_ty)* {
234 panic!("hello");
235 // Bridge::with(|bridge| {
236 // let mut b = bridge.cached_buffer.take();
237
238 // b.clear();
239 // api_tags::Method::$name(api_tags::$name::$method).encode(&mut b, &mut ());
240 // reverse_encode!(b; $($arg),*);
241
242 // b = bridge.dispatch.call(b);
243
244 // let r = Result::<_, PanicMessage>::decode(&mut &b[..], &mut ());
245
246 // bridge.cached_buffer = b;
247
248 // r.unwrap_or_else(|e| panic::resume_unwind(e.into()))
249 // })
250 })*
251 })*
252 }
253}
254with_api!(self, self, define_client_side);
255
256enum BridgeState<'a> {
257 /// No server is currently connected to this client.
258 NotConnected,
259
260 /// A server is connected and available for requests.
261 Connected(Bridge<'a>),
262
263 /// Access to the bridge is being exclusively acquired
264 /// (e.g., during `BridgeState::with`).
265 InUse,
266}
267
268enum BridgeStateL {}
269
270impl<'a> scoped_cell::ApplyL<'a> for BridgeStateL {
271 type Out = BridgeState<'a>;
272}
273
274thread_local! {
275 static BRIDGE_STATE: scoped_cell::ScopedCell<BridgeStateL> =
276 scoped_cell::ScopedCell::new(BridgeState::NotConnected);
277}
278
279impl BridgeState<'_> {
280 /// Take exclusive control of the thread-local
281 /// `BridgeState`, and pass it to `f`, mutably.
282 /// The state will be restored after `f` exits, even
283 /// by panic, including modifications made to it by `f`.
284 ///
285 /// N.B., while `f` is running, the thread-local state
286 /// is `BridgeState::InUse`.
287 fn with<R>(f: impl FnOnce(&mut BridgeState<'_>) -> R) -> R {
288 BRIDGE_STATE.with(|state| {
289 state.replace(BridgeState::InUse, |mut state| {
290 // FIXME(#52812) pass `f` directly to `replace` when `RefMutL` is gone
291 f(&mut *state)
292 })
293 })
294 }
295}
296
297impl Bridge<'_> {
298 fn enter<R>(self, f: impl FnOnce() -> R) -> R {
299 // Hide the default panic output within `proc_macro` expansions.
300 // NB. the server can't do this because it may use a different libstd.
301 static HIDE_PANICS_DURING_EXPANSION: Once = Once::new();
302 HIDE_PANICS_DURING_EXPANSION.call_once(|| {
303 let prev = panic::take_hook();
304 panic::set_hook(Box::new(move |info| {
305 let hide = BridgeState::with(|state| match state {
306 BridgeState::NotConnected => false,
307 BridgeState::Connected(_) | BridgeState::InUse => true,
308 });
309 if !hide {
310 prev(info)
311 }
312 }));
313 });
314
315 BRIDGE_STATE.with(|state| state.set(BridgeState::Connected(self), f))
316 }
317
318 fn with<R>(f: impl FnOnce(&mut Bridge<'_>) -> R) -> R {
319 BridgeState::with(|state| match state {
320 BridgeState::NotConnected => {
321 panic!("procedural macro API is used outside of a procedural macro");
322 }
323 BridgeState::InUse => {
324 panic!("procedural macro API is used while it's already in use");
325 }
326 BridgeState::Connected(bridge) => f(bridge),
327 })
328 }
329}
330
331/// A client-side "global object" (usually a function pointer),
332/// which may be using a different `proc_macro` from the one
333/// used by the server, but can be interacted with compatibly.
334///
335/// N.B., `F` must have FFI-friendly memory layout (e.g., a pointer).
336/// The call ABI of function pointers used for `F` doesn't
337/// need to match between server and client, since it's only
338/// passed between them and (eventually) called by the client.
339#[repr(C)]
340#[derive(Copy, Clone)]
341pub struct Client<F> {
342 // FIXME(eddyb) use a reference to the `static COUNTERS`, intead of
343 // a wrapper `fn` pointer, once `const fn` can reference `static`s.
344 pub(super) get_handle_counters: extern "C" fn() -> &'static HandleCounters,
345 pub(super) run: extern "C" fn(Bridge<'_>, F) -> Buffer<u8>,
346 pub(super) f: F,
347}
348
349/// Client-side helper for handling client panics, entering the bridge,
350/// deserializing input and serializing output.
351// FIXME(eddyb) maybe replace `Bridge::enter` with this?
352fn run_client<A: for<'a, 's> DecodeMut<'a, 's, ()>, R: Encode<()>>(
353 mut bridge: Bridge<'_>,
354 f: impl FnOnce(A) -> R,
355) -> Buffer<u8> {
356 // The initial `cached_buffer` contains the input.
357 let mut b = bridge.cached_buffer.take();
358
359 panic::catch_unwind(panic::AssertUnwindSafe(|| {
360 bridge.enter(|| {
361 let reader = &mut &b[..];
362 let input = A::decode(reader, &mut ());
363
364 // Put the `cached_buffer` back in the `Bridge`, for requests.
365 Bridge::with(|bridge| bridge.cached_buffer = b.take());
366
367 let output = f(input);
368
369 // Take the `cached_buffer` back out, for the output value.
370 b = Bridge::with(|bridge| bridge.cached_buffer.take());
371
372 // HACK(eddyb) Separate encoding a success value (`Ok(output)`)
373 // from encoding a panic (`Err(e: PanicMessage)`) to avoid
374 // having handles outside the `bridge.enter(|| ...)` scope, and
375 // to catch panics that could happen while encoding the success.
376 //
377 // Note that panics should be impossible beyond this point, but
378 // this is defensively trying to avoid any accidental panicking
379 // reaching the `extern "C"` (which should `abort` but may not
380 // at the moment, so this is also potentially preventing UB).
381 b.clear();
382 Ok::<_, ()>(output).encode(&mut b, &mut ());
383 })
384 }))
385 .map_err(PanicMessage::from)
386 .unwrap_or_else(|e| {
387 b.clear();
388 Err::<(), _>(e).encode(&mut b, &mut ());
389 });
390 b
391}
392
393impl Client<fn(crate::TokenStream) -> crate::TokenStream> {
394 pub fn expand1(f: fn(crate::TokenStream) -> crate::TokenStream) -> Self {
395 extern "C" fn run(
396 bridge: Bridge<'_>,
397 f: impl FnOnce(crate::TokenStream) -> crate::TokenStream,
398 ) -> Buffer<u8> {
399 run_client(bridge, |input| f(crate::TokenStream(input)).0)
400 }
401 Client { get_handle_counters: HandleCounters::get, run, f }
402 }
403}
404
405impl Client<fn(crate::TokenStream, crate::TokenStream) -> crate::TokenStream> {
406 pub fn expand2(f: fn(crate::TokenStream, crate::TokenStream) -> crate::TokenStream) -> Self {
407 extern "C" fn run(
408 bridge: Bridge<'_>,
409 f: impl FnOnce(crate::TokenStream, crate::TokenStream) -> crate::TokenStream,
410 ) -> Buffer<u8> {
411 run_client(bridge, |(input, input2)| {
412 f(crate::TokenStream(input), crate::TokenStream(input2)).0
413 })
414 }
415 Client { get_handle_counters: HandleCounters::get, run, f }
416 }
417}
418
419#[repr(C)]
420#[derive(Copy, Clone)]
421pub enum ProcMacro {
422 CustomDerive {
423 trait_name: &'static str,
424 attributes: &'static [&'static str],
425 client: Client<fn(crate::TokenStream) -> crate::TokenStream>,
426 },
427
428 Attr {
429 name: &'static str,
430 client: Client<fn(crate::TokenStream, crate::TokenStream) -> crate::TokenStream>,
431 },
432
433 Bang {
434 name: &'static str,
435 client: Client<fn(crate::TokenStream) -> crate::TokenStream>,
436 },
437}
438
439impl std::fmt::Debug for ProcMacro {
440 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
441 write!(f, "ProcMacro {{ name: {} }}", self.name())
442 }
443}
444
445impl ProcMacro {
446 pub fn name(&self) -> &'static str {
447 match self {
448 ProcMacro::CustomDerive { trait_name, .. } => trait_name,
449 ProcMacro::Attr { name, .. } => name,
450 ProcMacro::Bang { name, .. } => name,
451 }
452 }
453
454 pub fn custom_derive(
455 trait_name: &'static str,
456 attributes: &'static [&'static str],
457 expand: fn(crate::TokenStream) -> crate::TokenStream,
458 ) -> Self {
459 ProcMacro::CustomDerive { trait_name, attributes, client: Client::expand1(expand) }
460 }
461
462 pub fn attr(
463 name: &'static str,
464 expand: fn(crate::TokenStream, crate::TokenStream) -> crate::TokenStream,
465 ) -> Self {
466 ProcMacro::Attr { name, client: Client::expand2(expand) }
467 }
468
469 pub fn bang(name: &'static str, expand: fn(crate::TokenStream) -> crate::TokenStream) -> Self {
470 ProcMacro::Bang { name, client: Client::expand1(expand) }
471 }
472}
diff --git a/crates/ra_proc_macro_srv/src/proc_macro/bridge/closure.rs b/crates/ra_proc_macro_srv/src/proc_macro/bridge/closure.rs
new file mode 100644
index 000000000..b8addff4a
--- /dev/null
+++ b/crates/ra_proc_macro_srv/src/proc_macro/bridge/closure.rs
@@ -0,0 +1,27 @@
1//! lib-proc-macro Closure type (equivalent to `&mut dyn FnMut(A) -> R`) that's `repr(C)`.
2//!
3//! Copy from https://github.com/rust-lang/rust/blob/6050e523bae6de61de4e060facc43dc512adaccd/src/libproc_macro/bridge/closure.rs#
4//! augmented with removing unstable features
5
6#[repr(C)]
7pub struct Closure<'a, A, R> {
8 call: unsafe extern "C" fn(&mut Env, A) -> R,
9 env: &'a mut Env,
10}
11
12struct Env;
13
14impl<'a, A, R, F: FnMut(A) -> R> From<&'a mut F> for Closure<'a, A, R> {
15 fn from(f: &'a mut F) -> Self {
16 unsafe extern "C" fn call<A, R, F: FnMut(A) -> R>(env: &mut Env, arg: A) -> R {
17 (*(env as *mut _ as *mut F))(arg)
18 }
19 Closure { call: call::<A, R, F>, env: unsafe { &mut *(f as *mut _ as *mut Env) } }
20 }
21}
22
23impl<'a, A, R> Closure<'a, A, R> {
24 pub fn call(&mut self, arg: A) -> R {
25 unsafe { (self.call)(self.env, arg) }
26 }
27}
diff --git a/crates/ra_proc_macro_srv/src/proc_macro/bridge/handle.rs b/crates/ra_proc_macro_srv/src/proc_macro/bridge/handle.rs
new file mode 100644
index 000000000..a2f77b5ac
--- /dev/null
+++ b/crates/ra_proc_macro_srv/src/proc_macro/bridge/handle.rs
@@ -0,0 +1,73 @@
1//! lib-proc-macro Server-side handles and storage for per-handle data.
2//!
3//! Copy from https://github.com/rust-lang/rust/blob/6050e523bae6de61de4e060facc43dc512adaccd/src/libproc_macro/bridge/handle.rs
4//! augmented with removing unstable features
5
6use std::collections::{BTreeMap, HashMap};
7use std::hash::Hash;
8use std::num::NonZeroU32;
9use std::ops::{Index, IndexMut};
10use std::sync::atomic::{AtomicUsize, Ordering};
11
12pub(super) type Handle = NonZeroU32;
13
14pub(super) struct OwnedStore<T: 'static> {
15 counter: &'static AtomicUsize,
16 data: BTreeMap<Handle, T>,
17}
18
19impl<T> OwnedStore<T> {
20 pub(super) fn new(counter: &'static AtomicUsize) -> Self {
21 // Ensure the handle counter isn't 0, which would panic later,
22 // when `NonZeroU32::new` (aka `Handle::new`) is called in `alloc`.
23 assert_ne!(counter.load(Ordering::SeqCst), 0);
24
25 OwnedStore { counter, data: BTreeMap::new() }
26 }
27}
28
29impl<T> OwnedStore<T> {
30 pub(super) fn alloc(&mut self, x: T) -> Handle {
31 let counter = self.counter.fetch_add(1, Ordering::SeqCst);
32 let handle = Handle::new(counter as u32).expect("`proc_macro` handle counter overflowed");
33 assert!(self.data.insert(handle, x).is_none());
34 handle
35 }
36
37 pub(super) fn take(&mut self, h: Handle) -> T {
38 self.data.remove(&h).expect("use-after-free in `proc_macro` handle")
39 }
40}
41
42impl<T> Index<Handle> for OwnedStore<T> {
43 type Output = T;
44 fn index(&self, h: Handle) -> &T {
45 self.data.get(&h).expect("use-after-free in `proc_macro` handle")
46 }
47}
48
49impl<T> IndexMut<Handle> for OwnedStore<T> {
50 fn index_mut(&mut self, h: Handle) -> &mut T {
51 self.data.get_mut(&h).expect("use-after-free in `proc_macro` handle")
52 }
53}
54
55pub(super) struct InternedStore<T: 'static> {
56 owned: OwnedStore<T>,
57 interner: HashMap<T, Handle>,
58}
59
60impl<T: Copy + Eq + Hash> InternedStore<T> {
61 pub(super) fn new(counter: &'static AtomicUsize) -> Self {
62 InternedStore { owned: OwnedStore::new(counter), interner: HashMap::new() }
63 }
64
65 pub(super) fn alloc(&mut self, x: T) -> Handle {
66 let owned = &mut self.owned;
67 *self.interner.entry(x).or_insert_with(|| owned.alloc(x))
68 }
69
70 pub(super) fn copy(&mut self, h: Handle) -> T {
71 self.owned[h]
72 }
73}
diff --git a/crates/ra_proc_macro_srv/src/proc_macro/bridge/mod.rs b/crates/ra_proc_macro_srv/src/proc_macro/bridge/mod.rs
new file mode 100644
index 000000000..6ae3926b2
--- /dev/null
+++ b/crates/ra_proc_macro_srv/src/proc_macro/bridge/mod.rs
@@ -0,0 +1,404 @@
1//! lib-proc-macro Internal interface for communicating between a `proc_macro` client
2//!
3//! Copy from https://github.com/rust-lang/rust/blob/6050e523bae6de61de4e060facc43dc512adaccd/src/libproc_macro/bridge/mod.rs
4//! augmented with removing unstable features
5//!
6//! Internal interface for communicating between a `proc_macro` client
7//! (a proc macro crate) and a `proc_macro` server (a compiler front-end).
8//!
9//! Serialization (with C ABI buffers) and unique integer handles are employed
10//! to allow safely interfacing between two copies of `proc_macro` built
11//! (from the same source) by different compilers with potentially mismatching
12//! Rust ABIs (e.g., stage0/bin/rustc vs stage1/bin/rustc during bootstrap).
13
14#![deny(unsafe_code)]
15
16pub use crate::proc_macro::{Delimiter, Level, LineColumn, Spacing};
17use std::fmt;
18use std::hash::Hash;
19use std::marker;
20use std::mem;
21use std::ops::Bound;
22use std::panic;
23use std::sync::atomic::AtomicUsize;
24use std::sync::Once;
25use std::thread;
26
27/// Higher-order macro describing the server RPC API, allowing automatic
28/// generation of type-safe Rust APIs, both client-side and server-side.
29///
30/// `with_api!(MySelf, my_self, my_macro)` expands to:
31/// ```rust,ignore (pseudo-code)
32/// my_macro! {
33/// // ...
34/// Literal {
35/// // ...
36/// fn character(ch: char) -> MySelf::Literal;
37/// // ...
38/// fn span(my_self: &MySelf::Literal) -> MySelf::Span;
39/// fn set_span(my_self: &mut MySelf::Literal, span: MySelf::Span);
40/// },
41/// // ...
42/// }
43/// ```
44///
45/// The first two arguments serve to customize the arguments names
46/// and argument/return types, to enable several different usecases:
47///
48/// If `my_self` is just `self`, then each `fn` signature can be used
49/// as-is for a method. If it's anything else (`self_` in practice),
50/// then the signatures don't have a special `self` argument, and
51/// can, therefore, have a different one introduced.
52///
53/// If `MySelf` is just `Self`, then the types are only valid inside
54/// a trait or a trait impl, where the trait has associated types
55/// for each of the API types. If non-associated types are desired,
56/// a module name (`self` in practice) can be used instead of `Self`.
57macro_rules! with_api {
58 ($S:ident, $self:ident, $m:ident) => {
59 $m! {
60 TokenStream {
61 fn drop($self: $S::TokenStream);
62 fn clone($self: &$S::TokenStream) -> $S::TokenStream;
63 fn new() -> $S::TokenStream;
64 fn is_empty($self: &$S::TokenStream) -> bool;
65 fn from_str(src: &str) -> $S::TokenStream;
66 fn to_string($self: &$S::TokenStream) -> String;
67 fn from_token_tree(
68 tree: TokenTree<$S::Group, $S::Punct, $S::Ident, $S::Literal>,
69 ) -> $S::TokenStream;
70 fn into_iter($self: $S::TokenStream) -> $S::TokenStreamIter;
71 },
72 TokenStreamBuilder {
73 fn drop($self: $S::TokenStreamBuilder);
74 fn new() -> $S::TokenStreamBuilder;
75 fn push($self: &mut $S::TokenStreamBuilder, stream: $S::TokenStream);
76 fn build($self: $S::TokenStreamBuilder) -> $S::TokenStream;
77 },
78 TokenStreamIter {
79 fn drop($self: $S::TokenStreamIter);
80 fn clone($self: &$S::TokenStreamIter) -> $S::TokenStreamIter;
81 fn next(
82 $self: &mut $S::TokenStreamIter,
83 ) -> Option<TokenTree<$S::Group, $S::Punct, $S::Ident, $S::Literal>>;
84 },
85 Group {
86 fn drop($self: $S::Group);
87 fn clone($self: &$S::Group) -> $S::Group;
88 fn new(delimiter: Delimiter, stream: $S::TokenStream) -> $S::Group;
89 fn delimiter($self: &$S::Group) -> Delimiter;
90 fn stream($self: &$S::Group) -> $S::TokenStream;
91 fn span($self: &$S::Group) -> $S::Span;
92 fn span_open($self: &$S::Group) -> $S::Span;
93 fn span_close($self: &$S::Group) -> $S::Span;
94 fn set_span($self: &mut $S::Group, span: $S::Span);
95 },
96 Punct {
97 fn new(ch: char, spacing: Spacing) -> $S::Punct;
98 fn as_char($self: $S::Punct) -> char;
99 fn spacing($self: $S::Punct) -> Spacing;
100 fn span($self: $S::Punct) -> $S::Span;
101 fn with_span($self: $S::Punct, span: $S::Span) -> $S::Punct;
102 },
103 Ident {
104 fn new(string: &str, span: $S::Span, is_raw: bool) -> $S::Ident;
105 fn span($self: $S::Ident) -> $S::Span;
106 fn with_span($self: $S::Ident, span: $S::Span) -> $S::Ident;
107 },
108 Literal {
109 fn drop($self: $S::Literal);
110 fn clone($self: &$S::Literal) -> $S::Literal;
111 // FIXME(eddyb) `Literal` should not expose internal `Debug` impls.
112 fn debug($self: &$S::Literal) -> String;
113 fn integer(n: &str) -> $S::Literal;
114 fn typed_integer(n: &str, kind: &str) -> $S::Literal;
115 fn float(n: &str) -> $S::Literal;
116 fn f32(n: &str) -> $S::Literal;
117 fn f64(n: &str) -> $S::Literal;
118 fn string(string: &str) -> $S::Literal;
119 fn character(ch: char) -> $S::Literal;
120 fn byte_string(bytes: &[u8]) -> $S::Literal;
121 fn span($self: &$S::Literal) -> $S::Span;
122 fn set_span($self: &mut $S::Literal, span: $S::Span);
123 fn subspan(
124 $self: &$S::Literal,
125 start: Bound<usize>,
126 end: Bound<usize>,
127 ) -> Option<$S::Span>;
128 },
129 SourceFile {
130 fn drop($self: $S::SourceFile);
131 fn clone($self: &$S::SourceFile) -> $S::SourceFile;
132 fn eq($self: &$S::SourceFile, other: &$S::SourceFile) -> bool;
133 fn path($self: &$S::SourceFile) -> String;
134 fn is_real($self: &$S::SourceFile) -> bool;
135 },
136 MultiSpan {
137 fn drop($self: $S::MultiSpan);
138 fn new() -> $S::MultiSpan;
139 fn push($self: &mut $S::MultiSpan, span: $S::Span);
140 },
141 Diagnostic {
142 fn drop($self: $S::Diagnostic);
143 fn new(level: Level, msg: &str, span: $S::MultiSpan) -> $S::Diagnostic;
144 fn sub(
145 $self: &mut $S::Diagnostic,
146 level: Level,
147 msg: &str,
148 span: $S::MultiSpan,
149 );
150 fn emit($self: $S::Diagnostic);
151 },
152 Span {
153 fn debug($self: $S::Span) -> String;
154 fn def_site() -> $S::Span;
155 fn call_site() -> $S::Span;
156 fn mixed_site() -> $S::Span;
157 fn source_file($self: $S::Span) -> $S::SourceFile;
158 fn parent($self: $S::Span) -> Option<$S::Span>;
159 fn source($self: $S::Span) -> $S::Span;
160 fn start($self: $S::Span) -> LineColumn;
161 fn end($self: $S::Span) -> LineColumn;
162 fn join($self: $S::Span, other: $S::Span) -> Option<$S::Span>;
163 fn resolved_at($self: $S::Span, at: $S::Span) -> $S::Span;
164 fn source_text($self: $S::Span) -> Option<String>;
165 },
166 }
167 };
168}
169
170// FIXME(eddyb) this calls `encode` for each argument, but in reverse,
171// to avoid borrow conflicts from borrows started by `&mut` arguments.
172macro_rules! reverse_encode {
173 ($writer:ident;) => {};
174 ($writer:ident; $first:ident $(, $rest:ident)*) => {
175 reverse_encode!($writer; $($rest),*);
176 $first.encode(&mut $writer, &mut ());
177 }
178}
179
180// FIXME(eddyb) this calls `decode` for each argument, but in reverse,
181// to avoid borrow conflicts from borrows started by `&mut` arguments.
182macro_rules! reverse_decode {
183 ($reader:ident, $s:ident;) => {};
184 ($reader:ident, $s:ident; $first:ident: $first_ty:ty $(, $rest:ident: $rest_ty:ty)*) => {
185 reverse_decode!($reader, $s; $($rest: $rest_ty),*);
186 let $first = <$first_ty>::decode(&mut $reader, $s);
187 }
188}
189
190#[allow(unsafe_code)]
191mod buffer;
192#[forbid(unsafe_code)]
193pub mod client;
194#[allow(unsafe_code)]
195mod closure;
196#[forbid(unsafe_code)]
197mod handle;
198#[macro_use]
199#[forbid(unsafe_code)]
200mod rpc;
201#[allow(unsafe_code)]
202mod scoped_cell;
203#[forbid(unsafe_code)]
204pub mod server;
205
206use buffer::Buffer;
207pub use rpc::PanicMessage;
208use rpc::{Decode, DecodeMut, Encode, Reader, Writer};
209
210/// An active connection between a server and a client.
211/// The server creates the bridge (`Bridge::run_server` in `server.rs`),
212/// then passes it to the client through the function pointer in the `run`
213/// field of `client::Client`. The client holds its copy of the `Bridge`
214/// in TLS during its execution (`Bridge::{enter, with}` in `client.rs`).
215#[repr(C)]
216pub struct Bridge<'a> {
217 /// Reusable buffer (only `clear`-ed, never shrunk), primarily
218 /// used for making requests, but also for passing input to client.
219 cached_buffer: Buffer<u8>,
220
221 /// Server-side function that the client uses to make requests.
222 dispatch: closure::Closure<'a, Buffer<u8>, Buffer<u8>>,
223}
224
225#[forbid(unsafe_code)]
226#[allow(non_camel_case_types)]
227mod api_tags {
228 use super::rpc::{DecodeMut, Encode, Reader, Writer};
229
230 macro_rules! declare_tags {
231 ($($name:ident {
232 $(fn $method:ident($($arg:ident: $arg_ty:ty),* $(,)?) $(-> $ret_ty:ty)*;)*
233 }),* $(,)?) => {
234 $(
235 pub(super) enum $name {
236 $($method),*
237 }
238 rpc_encode_decode!(enum $name { $($method),* });
239 )*
240
241
242 pub(super) enum Method {
243 $($name($name)),*
244 }
245 rpc_encode_decode!(enum Method { $($name(m)),* });
246 }
247 }
248 with_api!(self, self, declare_tags);
249}
250
251/// Helper to wrap associated types to allow trait impl dispatch.
252/// That is, normally a pair of impls for `T::Foo` and `T::Bar`
253/// can overlap, but if the impls are, instead, on types like
254/// `Marked<T::Foo, Foo>` and `Marked<T::Bar, Bar>`, they can't.
255trait Mark {
256 type Unmarked;
257 fn mark(unmarked: Self::Unmarked) -> Self;
258}
259
260/// Unwrap types wrapped by `Mark::mark` (see `Mark` for details).
261trait Unmark {
262 type Unmarked;
263 fn unmark(self) -> Self::Unmarked;
264}
265
266#[derive(Copy, Clone, PartialEq, Eq, Hash)]
267struct Marked<T, M> {
268 value: T,
269 _marker: marker::PhantomData<M>,
270}
271
272impl<T, M> Mark for Marked<T, M> {
273 type Unmarked = T;
274 fn mark(unmarked: Self::Unmarked) -> Self {
275 Marked { value: unmarked, _marker: marker::PhantomData }
276 }
277}
278impl<T, M> Unmark for Marked<T, M> {
279 type Unmarked = T;
280 fn unmark(self) -> Self::Unmarked {
281 self.value
282 }
283}
284impl<'a, T, M> Unmark for &'a Marked<T, M> {
285 type Unmarked = &'a T;
286 fn unmark(self) -> Self::Unmarked {
287 &self.value
288 }
289}
290impl<'a, T, M> Unmark for &'a mut Marked<T, M> {
291 type Unmarked = &'a mut T;
292 fn unmark(self) -> Self::Unmarked {
293 &mut self.value
294 }
295}
296
297impl<T: Mark> Mark for Option<T> {
298 type Unmarked = Option<T::Unmarked>;
299 fn mark(unmarked: Self::Unmarked) -> Self {
300 unmarked.map(T::mark)
301 }
302}
303impl<T: Unmark> Unmark for Option<T> {
304 type Unmarked = Option<T::Unmarked>;
305 fn unmark(self) -> Self::Unmarked {
306 self.map(T::unmark)
307 }
308}
309
310macro_rules! mark_noop {
311 ($($ty:ty),* $(,)?) => {
312 $(
313 impl Mark for $ty {
314 type Unmarked = Self;
315 fn mark(unmarked: Self::Unmarked) -> Self {
316 unmarked
317 }
318 }
319 impl Unmark for $ty {
320 type Unmarked = Self;
321 fn unmark(self) -> Self::Unmarked {
322 self
323 }
324 }
325 )*
326 }
327}
328mark_noop! {
329 (),
330 bool,
331 char,
332 &'_ [u8],
333 &'_ str,
334 String,
335 Delimiter,
336 Level,
337 LineColumn,
338 Spacing,
339 Bound<usize>,
340}
341
342rpc_encode_decode!(
343 enum Delimiter {
344 Parenthesis,
345 Brace,
346 Bracket,
347 None,
348 }
349);
350rpc_encode_decode!(
351 enum Level {
352 Error,
353 Warning,
354 Note,
355 Help,
356 }
357);
358rpc_encode_decode!(struct LineColumn { line, column });
359rpc_encode_decode!(
360 enum Spacing {
361 Alone,
362 Joint,
363 }
364);
365
366#[derive(Clone)]
367pub enum TokenTree<G, P, I, L> {
368 Group(G),
369 Punct(P),
370 Ident(I),
371 Literal(L),
372}
373
374impl<G: Mark, P: Mark, I: Mark, L: Mark> Mark for TokenTree<G, P, I, L> {
375 type Unmarked = TokenTree<G::Unmarked, P::Unmarked, I::Unmarked, L::Unmarked>;
376 fn mark(unmarked: Self::Unmarked) -> Self {
377 match unmarked {
378 TokenTree::Group(tt) => TokenTree::Group(G::mark(tt)),
379 TokenTree::Punct(tt) => TokenTree::Punct(P::mark(tt)),
380 TokenTree::Ident(tt) => TokenTree::Ident(I::mark(tt)),
381 TokenTree::Literal(tt) => TokenTree::Literal(L::mark(tt)),
382 }
383 }
384}
385impl<G: Unmark, P: Unmark, I: Unmark, L: Unmark> Unmark for TokenTree<G, P, I, L> {
386 type Unmarked = TokenTree<G::Unmarked, P::Unmarked, I::Unmarked, L::Unmarked>;
387 fn unmark(self) -> Self::Unmarked {
388 match self {
389 TokenTree::Group(tt) => TokenTree::Group(tt.unmark()),
390 TokenTree::Punct(tt) => TokenTree::Punct(tt.unmark()),
391 TokenTree::Ident(tt) => TokenTree::Ident(tt.unmark()),
392 TokenTree::Literal(tt) => TokenTree::Literal(tt.unmark()),
393 }
394 }
395}
396
397rpc_encode_decode!(
398 enum TokenTree<G, P, I, L> {
399 Group(tt),
400 Punct(tt),
401 Ident(tt),
402 Literal(tt),
403 }
404);
diff --git a/crates/ra_proc_macro_srv/src/proc_macro/bridge/rpc.rs b/crates/ra_proc_macro_srv/src/proc_macro/bridge/rpc.rs
new file mode 100644
index 000000000..3528d5c99
--- /dev/null
+++ b/crates/ra_proc_macro_srv/src/proc_macro/bridge/rpc.rs
@@ -0,0 +1,311 @@
1//! lib-proc-macro Serialization for client-server communication.
2//!
3//! Copy from https://github.com/rust-lang/rust/blob/6050e523bae6de61de4e060facc43dc512adaccd/src/libproc_macro/bridge/rpc.rs
4//! augmented with removing unstable features
5//!
6//! Serialization for client-server communication.
7
8use std::any::Any;
9use std::char;
10use std::io::Write;
11use std::num::NonZeroU32;
12use std::ops::Bound;
13use std::str;
14
15pub(super) type Writer = super::buffer::Buffer<u8>;
16
17pub(super) trait Encode<S>: Sized {
18 fn encode(self, w: &mut Writer, s: &mut S);
19}
20
21pub(super) type Reader<'a> = &'a [u8];
22
23pub(super) trait Decode<'a, 's, S>: Sized {
24 fn decode(r: &mut Reader<'a>, s: &'s S) -> Self;
25}
26
27pub(super) trait DecodeMut<'a, 's, S>: Sized {
28 fn decode(r: &mut Reader<'a>, s: &'s mut S) -> Self;
29}
30
31macro_rules! rpc_encode_decode {
32 (le $ty:ty) => {
33 impl<S> Encode<S> for $ty {
34 fn encode(self, w: &mut Writer, _: &mut S) {
35 w.write_all(&self.to_le_bytes()).unwrap();
36 }
37 }
38
39 impl<S> DecodeMut<'_, '_, S> for $ty {
40 fn decode(r: &mut Reader<'_>, _: &mut S) -> Self {
41 const N: usize = ::std::mem::size_of::<$ty>();
42
43 let mut bytes = [0; N];
44 bytes.copy_from_slice(&r[..N]);
45 *r = &r[N..];
46
47 Self::from_le_bytes(bytes)
48 }
49 }
50 };
51 (struct $name:ident { $($field:ident),* $(,)? }) => {
52 impl<S> Encode<S> for $name {
53 fn encode(self, w: &mut Writer, s: &mut S) {
54 $(self.$field.encode(w, s);)*
55 }
56 }
57
58 impl<S> DecodeMut<'_, '_, S> for $name {
59 fn decode(r: &mut Reader<'_>, s: &mut S) -> Self {
60 $name {
61 $($field: DecodeMut::decode(r, s)),*
62 }
63 }
64 }
65 };
66 (enum $name:ident $(<$($T:ident),+>)? { $($variant:ident $(($field:ident))*),* $(,)? }) => {
67 impl<S, $($($T: Encode<S>),+)?> Encode<S> for $name $(<$($T),+>)? {
68 fn encode(self, w: &mut Writer, s: &mut S) {
69 // HACK(eddyb): `Tag` enum duplicated between the
70 // two impls as there's no other place to stash it.
71 #[allow(non_upper_case_globals)]
72 mod tag {
73 #[repr(u8)] enum Tag { $($variant),* }
74
75 $(pub const $variant: u8 = Tag::$variant as u8;)*
76 }
77
78 match self {
79 $($name::$variant $(($field))* => {
80 tag::$variant.encode(w, s);
81 $($field.encode(w, s);)*
82 })*
83 }
84 }
85 }
86
87 impl<'a, S, $($($T: for<'s> DecodeMut<'a, 's, S>),+)?> DecodeMut<'a, '_, S>
88 for $name $(<$($T),+>)?
89 {
90 fn decode(r: &mut Reader<'a>, s: &mut S) -> Self {
91 // HACK(eddyb): `Tag` enum duplicated between the
92 // two impls as there's no other place to stash it.
93 #[allow(non_upper_case_globals)]
94 mod tag {
95 #[repr(u8)] enum Tag { $($variant),* }
96
97 $(pub const $variant: u8 = Tag::$variant as u8;)*
98 }
99
100 match u8::decode(r, s) {
101 $(tag::$variant => {
102 $(let $field = DecodeMut::decode(r, s);)*
103 $name::$variant $(($field))*
104 })*
105 _ => unreachable!(),
106 }
107 }
108 }
109 }
110}
111
112impl<S> Encode<S> for () {
113 fn encode(self, _: &mut Writer, _: &mut S) {}
114}
115
116impl<S> DecodeMut<'_, '_, S> for () {
117 fn decode(_: &mut Reader<'_>, _: &mut S) -> Self {}
118}
119
120impl<S> Encode<S> for u8 {
121 fn encode(self, w: &mut Writer, _: &mut S) {
122 w.write_all(&[self]).unwrap();
123 }
124}
125
126impl<S> DecodeMut<'_, '_, S> for u8 {
127 fn decode(r: &mut Reader<'_>, _: &mut S) -> Self {
128 let x = r[0];
129 *r = &r[1..];
130 x
131 }
132}
133
134rpc_encode_decode!(le u32);
135rpc_encode_decode!(le usize);
136
137impl<S> Encode<S> for bool {
138 fn encode(self, w: &mut Writer, s: &mut S) {
139 (self as u8).encode(w, s);
140 }
141}
142
143impl<S> DecodeMut<'_, '_, S> for bool {
144 fn decode(r: &mut Reader<'_>, s: &mut S) -> Self {
145 match u8::decode(r, s) {
146 0 => false,
147 1 => true,
148 _ => unreachable!(),
149 }
150 }
151}
152
153impl<S> Encode<S> for char {
154 fn encode(self, w: &mut Writer, s: &mut S) {
155 (self as u32).encode(w, s);
156 }
157}
158
159impl<S> DecodeMut<'_, '_, S> for char {
160 fn decode(r: &mut Reader<'_>, s: &mut S) -> Self {
161 char::from_u32(u32::decode(r, s)).unwrap()
162 }
163}
164
165impl<S> Encode<S> for NonZeroU32 {
166 fn encode(self, w: &mut Writer, s: &mut S) {
167 self.get().encode(w, s);
168 }
169}
170
171impl<S> DecodeMut<'_, '_, S> for NonZeroU32 {
172 fn decode(r: &mut Reader<'_>, s: &mut S) -> Self {
173 Self::new(u32::decode(r, s)).unwrap()
174 }
175}
176
177impl<S, A: Encode<S>, B: Encode<S>> Encode<S> for (A, B) {
178 fn encode(self, w: &mut Writer, s: &mut S) {
179 self.0.encode(w, s);
180 self.1.encode(w, s);
181 }
182}
183
184impl<'a, S, A: for<'s> DecodeMut<'a, 's, S>, B: for<'s> DecodeMut<'a, 's, S>> DecodeMut<'a, '_, S>
185 for (A, B)
186{
187 fn decode(r: &mut Reader<'a>, s: &mut S) -> Self {
188 (DecodeMut::decode(r, s), DecodeMut::decode(r, s))
189 }
190}
191
192rpc_encode_decode!(
193 enum Bound<T> {
194 Included(x),
195 Excluded(x),
196 Unbounded,
197 }
198);
199
200rpc_encode_decode!(
201 enum Option<T> {
202 None,
203 Some(x),
204 }
205);
206
207rpc_encode_decode!(
208 enum Result<T, E> {
209 Ok(x),
210 Err(e),
211 }
212);
213
214impl<S> Encode<S> for &[u8] {
215 fn encode(self, w: &mut Writer, s: &mut S) {
216 self.len().encode(w, s);
217 w.write_all(self).unwrap();
218 }
219}
220
221impl<'a, S> DecodeMut<'a, '_, S> for &'a [u8] {
222 fn decode(r: &mut Reader<'a>, s: &mut S) -> Self {
223 let len = usize::decode(r, s);
224 let xs = &r[..len];
225 *r = &r[len..];
226 xs
227 }
228}
229
230impl<S> Encode<S> for &str {
231 fn encode(self, w: &mut Writer, s: &mut S) {
232 self.as_bytes().encode(w, s);
233 }
234}
235
236impl<'a, S> DecodeMut<'a, '_, S> for &'a str {
237 fn decode(r: &mut Reader<'a>, s: &mut S) -> Self {
238 str::from_utf8(<&[u8]>::decode(r, s)).unwrap()
239 }
240}
241
242impl<S> Encode<S> for String {
243 fn encode(self, w: &mut Writer, s: &mut S) {
244 self[..].encode(w, s);
245 }
246}
247
248impl<S> DecodeMut<'_, '_, S> for String {
249 fn decode(r: &mut Reader<'_>, s: &mut S) -> Self {
250 <&str>::decode(r, s).to_string()
251 }
252}
253
254/// Simplied version of panic payloads, ignoring
255/// types other than `&'static str` and `String`.
256#[derive(Debug)]
257pub enum PanicMessage {
258 StaticStr(&'static str),
259 String(String),
260 Unknown,
261}
262
263impl From<Box<dyn Any + Send>> for PanicMessage {
264 fn from(payload: Box<dyn Any + Send + 'static>) -> Self {
265 if let Some(s) = payload.downcast_ref::<&'static str>() {
266 return PanicMessage::StaticStr(s);
267 }
268 if let Ok(s) = payload.downcast::<String>() {
269 return PanicMessage::String(*s);
270 }
271 PanicMessage::Unknown
272 }
273}
274
275impl Into<Box<dyn Any + Send>> for PanicMessage {
276 fn into(self) -> Box<dyn Any + Send> {
277 match self {
278 PanicMessage::StaticStr(s) => Box::new(s),
279 PanicMessage::String(s) => Box::new(s),
280 PanicMessage::Unknown => {
281 struct UnknownPanicMessage;
282 Box::new(UnknownPanicMessage)
283 }
284 }
285 }
286}
287
288impl PanicMessage {
289 pub fn as_str(&self) -> Option<&str> {
290 match self {
291 PanicMessage::StaticStr(s) => Some(s),
292 PanicMessage::String(s) => Some(s),
293 PanicMessage::Unknown => None,
294 }
295 }
296}
297
298impl<S> Encode<S> for PanicMessage {
299 fn encode(self, w: &mut Writer, s: &mut S) {
300 self.as_str().encode(w, s);
301 }
302}
303
304impl<S> DecodeMut<'_, '_, S> for PanicMessage {
305 fn decode(r: &mut Reader<'_>, s: &mut S) -> Self {
306 match Option::<String>::decode(r, s) {
307 Some(s) => PanicMessage::String(s),
308 None => PanicMessage::Unknown,
309 }
310 }
311}
diff --git a/crates/ra_proc_macro_srv/src/proc_macro/bridge/scoped_cell.rs b/crates/ra_proc_macro_srv/src/proc_macro/bridge/scoped_cell.rs
new file mode 100644
index 000000000..6ef7ea43c
--- /dev/null
+++ b/crates/ra_proc_macro_srv/src/proc_macro/bridge/scoped_cell.rs
@@ -0,0 +1,84 @@
1//! lib-proc-macro `Cell` variant for (scoped) existential lifetimes.
2//!
3//! Copy from https://github.com/rust-lang/rust/blob/6050e523bae6de61de4e060facc43dc512adaccd/src/libproc_macro/bridge/scoped_cell.rs#L1
4//! augmented with removing unstable features
5
6use std::cell::Cell;
7use std::mem;
8use std::ops::{Deref, DerefMut};
9
10/// Type lambda application, with a lifetime.
11#[allow(unused_lifetimes)]
12pub trait ApplyL<'a> {
13 type Out;
14}
15
16/// Type lambda taking a lifetime, i.e., `Lifetime -> Type`.
17pub trait LambdaL: for<'a> ApplyL<'a> {}
18
19impl<T: for<'a> ApplyL<'a>> LambdaL for T {}
20
21// HACK(eddyb) work around projection limitations with a newtype
22// FIXME(#52812) replace with `&'a mut <T as ApplyL<'b>>::Out`
23pub struct RefMutL<'a, 'b, T: LambdaL>(&'a mut <T as ApplyL<'b>>::Out);
24
25impl<'a, 'b, T: LambdaL> Deref for RefMutL<'a, 'b, T> {
26 type Target = <T as ApplyL<'b>>::Out;
27 fn deref(&self) -> &Self::Target {
28 self.0
29 }
30}
31
32impl<'a, 'b, T: LambdaL> DerefMut for RefMutL<'a, 'b, T> {
33 fn deref_mut(&mut self) -> &mut Self::Target {
34 self.0
35 }
36}
37
38pub struct ScopedCell<T: LambdaL>(Cell<<T as ApplyL<'static>>::Out>);
39
40impl<T: LambdaL> ScopedCell<T> {
41 pub fn new(value: <T as ApplyL<'static>>::Out) -> Self {
42 ScopedCell(Cell::new(value))
43 }
44
45 /// Sets the value in `self` to `replacement` while
46 /// running `f`, which gets the old value, mutably.
47 /// The old value will be restored after `f` exits, even
48 /// by panic, including modifications made to it by `f`.
49 pub fn replace<'a, R>(
50 &self,
51 replacement: <T as ApplyL<'a>>::Out,
52 f: impl for<'b, 'c> FnOnce(RefMutL<'b, 'c, T>) -> R,
53 ) -> R {
54 /// Wrapper that ensures that the cell always gets filled
55 /// (with the original state, optionally changed by `f`),
56 /// even if `f` had panicked.
57 struct PutBackOnDrop<'a, T: LambdaL> {
58 cell: &'a ScopedCell<T>,
59 value: Option<<T as ApplyL<'static>>::Out>,
60 }
61
62 impl<'a, T: LambdaL> Drop for PutBackOnDrop<'a, T> {
63 fn drop(&mut self) {
64 self.cell.0.set(self.value.take().unwrap());
65 }
66 }
67
68 let mut put_back_on_drop = PutBackOnDrop {
69 cell: self,
70 value: Some(self.0.replace(unsafe {
71 let erased = mem::transmute_copy(&replacement);
72 mem::forget(replacement);
73 erased
74 })),
75 };
76
77 f(RefMutL(put_back_on_drop.value.as_mut().unwrap()))
78 }
79
80 /// Sets the value in `self` to `value` while running `f`.
81 pub fn set<R>(&self, value: <T as ApplyL<'_>>::Out, f: impl FnOnce() -> R) -> R {
82 self.replace(value, |_| f())
83 }
84}
diff --git a/crates/ra_proc_macro_srv/src/proc_macro/bridge/server.rs b/crates/ra_proc_macro_srv/src/proc_macro/bridge/server.rs
new file mode 100644
index 000000000..45d41ac02
--- /dev/null
+++ b/crates/ra_proc_macro_srv/src/proc_macro/bridge/server.rs
@@ -0,0 +1,323 @@
1//! lib-proc-macro server-side traits
2//!
3//! Copy from https://github.com/rust-lang/rust/blob/6050e523bae6de61de4e060facc43dc512adaccd/src/libproc_macro/bridge/server.rs
4//! augmented with removing unstable features
5
6use super::*;
7
8// FIXME(eddyb) generate the definition of `HandleStore` in `server.rs`.
9use super::client::HandleStore;
10
11/// Declare an associated item of one of the traits below, optionally
12/// adjusting it (i.e., adding bounds to types and default bodies to methods).
13macro_rules! associated_item {
14 (type TokenStream) =>
15 (type TokenStream: 'static + Clone;);
16 (type TokenStreamBuilder) =>
17 (type TokenStreamBuilder: 'static;);
18 (type TokenStreamIter) =>
19 (type TokenStreamIter: 'static + Clone;);
20 (type Group) =>
21 (type Group: 'static + Clone;);
22 (type Punct) =>
23 (type Punct: 'static + Copy + Eq + Hash;);
24 (type Ident) =>
25 (type Ident: 'static + Copy + Eq + Hash;);
26 (type Literal) =>
27 (type Literal: 'static + Clone;);
28 (type SourceFile) =>
29 (type SourceFile: 'static + Clone;);
30 (type MultiSpan) =>
31 (type MultiSpan: 'static;);
32 (type Diagnostic) =>
33 (type Diagnostic: 'static;);
34 (type Span) =>
35 (type Span: 'static + Copy + Eq + Hash;);
36 (fn drop(&mut self, $arg:ident: $arg_ty:ty)) =>
37 (fn drop(&mut self, $arg: $arg_ty) { mem::drop($arg) });
38 (fn clone(&mut self, $arg:ident: $arg_ty:ty) -> $ret_ty:ty) =>
39 (fn clone(&mut self, $arg: $arg_ty) -> $ret_ty { $arg.clone() });
40 ($($item:tt)*) => ($($item)*;)
41}
42
43macro_rules! declare_server_traits {
44 ($($name:ident {
45 $(fn $method:ident($($arg:ident: $arg_ty:ty),* $(,)?) $(-> $ret_ty:ty)?;)*
46 }),* $(,)?) => {
47 pub trait Types {
48 $(associated_item!(type $name);)*
49 }
50
51 $(pub trait $name: Types {
52 $(associated_item!(fn $method(&mut self, $($arg: $arg_ty),*) $(-> $ret_ty)?);)*
53 })*
54
55 pub trait Server: Types $(+ $name)* {}
56 impl<S: Types $(+ $name)*> Server for S {}
57 }
58}
59with_api!(Self, self_, declare_server_traits);
60
61pub(super) struct MarkedTypes<S: Types>(S);
62
63macro_rules! define_mark_types_impls {
64 ($($name:ident {
65 $(fn $method:ident($($arg:ident: $arg_ty:ty),* $(,)?) $(-> $ret_ty:ty)?;)*
66 }),* $(,)?) => {
67 impl<S: Types> Types for MarkedTypes<S> {
68 $(type $name = Marked<S::$name, client::$name>;)*
69 }
70
71 $(impl<S: $name> $name for MarkedTypes<S> {
72 $(fn $method(&mut self, $($arg: $arg_ty),*) $(-> $ret_ty)? {
73 <_>::mark($name::$method(&mut self.0, $($arg.unmark()),*))
74 })*
75 })*
76 }
77}
78with_api!(Self, self_, define_mark_types_impls);
79
80struct Dispatcher<S: Types> {
81 handle_store: HandleStore<S>,
82 server: S,
83}
84
85macro_rules! define_dispatcher_impl {
86 ($($name:ident {
87 $(fn $method:ident($($arg:ident: $arg_ty:ty),* $(,)?) $(-> $ret_ty:ty)?;)*
88 }),* $(,)?) => {
89 // FIXME(eddyb) `pub` only for `ExecutionStrategy` below.
90 pub trait DispatcherTrait {
91 // HACK(eddyb) these are here to allow `Self::$name` to work below.
92 $(type $name;)*
93 fn dispatch(&mut self, b: Buffer<u8>) -> Buffer<u8>;
94 }
95
96 impl<S: Server> DispatcherTrait for Dispatcher<MarkedTypes<S>> {
97 $(type $name = <MarkedTypes<S> as Types>::$name;)*
98 fn dispatch(&mut self, mut b: Buffer<u8>) -> Buffer<u8> {
99 let Dispatcher { handle_store, server } = self;
100
101 let mut reader = &b[..];
102 match api_tags::Method::decode(&mut reader, &mut ()) {
103 $(api_tags::Method::$name(m) => match m {
104 $(api_tags::$name::$method => {
105 let mut call_method = || {
106 reverse_decode!(reader, handle_store; $($arg: $arg_ty),*);
107 $name::$method(server, $($arg),*)
108 };
109 // HACK(eddyb) don't use `panic::catch_unwind` in a panic.
110 // If client and server happen to use the same `libstd`,
111 // `catch_unwind` asserts that the panic counter was 0,
112 // even when the closure passed to it didn't panic.
113 let r = if thread::panicking() {
114 Ok(call_method())
115 } else {
116 panic::catch_unwind(panic::AssertUnwindSafe(call_method))
117 .map_err(PanicMessage::from)
118 };
119
120 b.clear();
121 r.encode(&mut b, handle_store);
122 })*
123 }),*
124 }
125 b
126 }
127 }
128 }
129}
130with_api!(Self, self_, define_dispatcher_impl);
131
132pub trait ExecutionStrategy {
133 fn run_bridge_and_client<D: Copy + Send + 'static>(
134 &self,
135 dispatcher: &mut impl DispatcherTrait,
136 input: Buffer<u8>,
137 run_client: extern "C" fn(Bridge<'_>, D) -> Buffer<u8>,
138 client_data: D,
139 ) -> Buffer<u8>;
140}
141
142pub struct SameThread;
143
144impl ExecutionStrategy for SameThread {
145 fn run_bridge_and_client<D: Copy + Send + 'static>(
146 &self,
147 dispatcher: &mut impl DispatcherTrait,
148 input: Buffer<u8>,
149 run_client: extern "C" fn(Bridge<'_>, D) -> Buffer<u8>,
150 client_data: D,
151 ) -> Buffer<u8> {
152 let mut dispatch = |b| dispatcher.dispatch(b);
153
154 run_client(Bridge { cached_buffer: input, dispatch: (&mut dispatch).into() }, client_data)
155 }
156}
157
158// NOTE(eddyb) Two implementations are provided, the second one is a bit
159// faster but neither is anywhere near as fast as same-thread execution.
160
161pub struct CrossThread1;
162
163impl ExecutionStrategy for CrossThread1 {
164 fn run_bridge_and_client<D: Copy + Send + 'static>(
165 &self,
166 dispatcher: &mut impl DispatcherTrait,
167 input: Buffer<u8>,
168 run_client: extern "C" fn(Bridge<'_>, D) -> Buffer<u8>,
169 client_data: D,
170 ) -> Buffer<u8> {
171 use std::sync::mpsc::channel;
172
173 let (req_tx, req_rx) = channel();
174 let (res_tx, res_rx) = channel();
175
176 let join_handle = thread::spawn(move || {
177 let mut dispatch = |b| {
178 req_tx.send(b).unwrap();
179 res_rx.recv().unwrap()
180 };
181
182 run_client(
183 Bridge { cached_buffer: input, dispatch: (&mut dispatch).into() },
184 client_data,
185 )
186 });
187
188 for b in req_rx {
189 res_tx.send(dispatcher.dispatch(b)).unwrap();
190 }
191
192 join_handle.join().unwrap()
193 }
194}
195
196pub struct CrossThread2;
197
198impl ExecutionStrategy for CrossThread2 {
199 fn run_bridge_and_client<D: Copy + Send + 'static>(
200 &self,
201 dispatcher: &mut impl DispatcherTrait,
202 input: Buffer<u8>,
203 run_client: extern "C" fn(Bridge<'_>, D) -> Buffer<u8>,
204 client_data: D,
205 ) -> Buffer<u8> {
206 use std::sync::{Arc, Mutex};
207
208 enum State<T> {
209 Req(T),
210 Res(T),
211 }
212
213 let mut state = Arc::new(Mutex::new(State::Res(Buffer::new())));
214
215 let server_thread = thread::current();
216 let state2 = state.clone();
217 let join_handle = thread::spawn(move || {
218 let mut dispatch = |b| {
219 *state2.lock().unwrap() = State::Req(b);
220 server_thread.unpark();
221 loop {
222 thread::park();
223 if let State::Res(b) = &mut *state2.lock().unwrap() {
224 break b.take();
225 }
226 }
227 };
228
229 let r = run_client(
230 Bridge { cached_buffer: input, dispatch: (&mut dispatch).into() },
231 client_data,
232 );
233
234 // Wake up the server so it can exit the dispatch loop.
235 drop(state2);
236 server_thread.unpark();
237
238 r
239 });
240
241 // Check whether `state2` was dropped, to know when to stop.
242 while Arc::get_mut(&mut state).is_none() {
243 thread::park();
244 let mut b = match &mut *state.lock().unwrap() {
245 State::Req(b) => b.take(),
246 _ => continue,
247 };
248 b = dispatcher.dispatch(b.take());
249 *state.lock().unwrap() = State::Res(b);
250 join_handle.thread().unpark();
251 }
252
253 join_handle.join().unwrap()
254 }
255}
256
257fn run_server<
258 S: Server,
259 I: Encode<HandleStore<MarkedTypes<S>>>,
260 O: for<'a, 's> DecodeMut<'a, 's, HandleStore<MarkedTypes<S>>>,
261 D: Copy + Send + 'static,
262>(
263 strategy: &impl ExecutionStrategy,
264 handle_counters: &'static client::HandleCounters,
265 server: S,
266 input: I,
267 run_client: extern "C" fn(Bridge<'_>, D) -> Buffer<u8>,
268 client_data: D,
269) -> Result<O, PanicMessage> {
270 let mut dispatcher =
271 Dispatcher { handle_store: HandleStore::new(handle_counters), server: MarkedTypes(server) };
272
273 let mut b = Buffer::new();
274 input.encode(&mut b, &mut dispatcher.handle_store);
275
276 b = strategy.run_bridge_and_client(&mut dispatcher, b, run_client, client_data);
277
278 Result::decode(&mut &b[..], &mut dispatcher.handle_store)
279}
280
281impl client::Client<fn(crate::TokenStream) -> crate::TokenStream> {
282 pub fn run<S: Server>(
283 &self,
284 strategy: &impl ExecutionStrategy,
285 server: S,
286 input: S::TokenStream,
287 ) -> Result<S::TokenStream, PanicMessage> {
288 let client::Client { get_handle_counters, run, f } = *self;
289 run_server(
290 strategy,
291 get_handle_counters(),
292 server,
293 <MarkedTypes<S> as Types>::TokenStream::mark(input),
294 run,
295 f,
296 )
297 .map(<MarkedTypes<S> as Types>::TokenStream::unmark)
298 }
299}
300
301impl client::Client<fn(crate::TokenStream, crate::TokenStream) -> crate::TokenStream> {
302 pub fn run<S: Server>(
303 &self,
304 strategy: &impl ExecutionStrategy,
305 server: S,
306 input: S::TokenStream,
307 input2: S::TokenStream,
308 ) -> Result<S::TokenStream, PanicMessage> {
309 let client::Client { get_handle_counters, run, f } = *self;
310 run_server(
311 strategy,
312 get_handle_counters(),
313 server,
314 (
315 <MarkedTypes<S> as Types>::TokenStream::mark(input),
316 <MarkedTypes<S> as Types>::TokenStream::mark(input2),
317 ),
318 run,
319 f,
320 )
321 .map(<MarkedTypes<S> as Types>::TokenStream::unmark)
322 }
323}
diff --git a/crates/ra_proc_macro_srv/src/proc_macro/diagnostic.rs b/crates/ra_proc_macro_srv/src/proc_macro/diagnostic.rs
new file mode 100644
index 000000000..9029f8815
--- /dev/null
+++ b/crates/ra_proc_macro_srv/src/proc_macro/diagnostic.rs
@@ -0,0 +1,170 @@
1//! lib-proc-macro diagnostic
2//!
3//! Copy from https://github.com/rust-lang/rust/blob/6050e523bae6de61de4e060facc43dc512adaccd/src/libproc_macro/diagnostic.rs
4//! augmented with removing unstable features
5
6use crate::proc_macro::Span;
7
8/// An enum representing a diagnostic level.
9#[derive(Copy, Clone, Debug)]
10#[non_exhaustive]
11pub enum Level {
12 /// An error.
13 Error,
14 /// A warning.
15 Warning,
16 /// A note.
17 Note,
18 /// A help message.
19 Help,
20}
21
22/// Trait implemented by types that can be converted into a set of `Span`s.
23pub trait MultiSpan {
24 /// Converts `self` into a `Vec<Span>`.
25 fn into_spans(self) -> Vec<Span>;
26}
27
28impl MultiSpan for Span {
29 fn into_spans(self) -> Vec<Span> {
30 vec![self]
31 }
32}
33
34impl MultiSpan for Vec<Span> {
35 fn into_spans(self) -> Vec<Span> {
36 self
37 }
38}
39
40impl<'a> MultiSpan for &'a [Span] {
41 fn into_spans(self) -> Vec<Span> {
42 self.to_vec()
43 }
44}
45
46/// A structure representing a diagnostic message and associated children
47/// messages.
48#[derive(Clone, Debug)]
49pub struct Diagnostic {
50 level: Level,
51 message: String,
52 spans: Vec<Span>,
53 children: Vec<Diagnostic>,
54}
55
56macro_rules! diagnostic_child_methods {
57 ($spanned:ident, $regular:ident, $level:expr) => (
58 /// Adds a new child diagnostic message to `self` with the level
59 /// identified by this method's name with the given `spans` and
60 /// `message`.
61 pub fn $spanned<S, T>(mut self, spans: S, message: T) -> Diagnostic
62 where S: MultiSpan, T: Into<String>
63 {
64 self.children.push(Diagnostic::spanned(spans, $level, message));
65 self
66 }
67
68 /// Adds a new child diagnostic message to `self` with the level
69 /// identified by this method's name with the given `message`.
70 pub fn $regular<T: Into<String>>(mut self, message: T) -> Diagnostic {
71 self.children.push(Diagnostic::new($level, message));
72 self
73 }
74 )
75}
76
77/// Iterator over the children diagnostics of a `Diagnostic`.
78#[derive(Debug, Clone)]
79pub struct Children<'a>(std::slice::Iter<'a, Diagnostic>);
80
81impl<'a> Iterator for Children<'a> {
82 type Item = &'a Diagnostic;
83
84 fn next(&mut self) -> Option<Self::Item> {
85 self.0.next()
86 }
87}
88
89impl Diagnostic {
90 /// Creates a new diagnostic with the given `level` and `message`.
91 pub fn new<T: Into<String>>(level: Level, message: T) -> Diagnostic {
92 Diagnostic { level: level, message: message.into(), spans: vec![], children: vec![] }
93 }
94
95 /// Creates a new diagnostic with the given `level` and `message` pointing to
96 /// the given set of `spans`.
97 pub fn spanned<S, T>(spans: S, level: Level, message: T) -> Diagnostic
98 where
99 S: MultiSpan,
100 T: Into<String>,
101 {
102 Diagnostic {
103 level: level,
104 message: message.into(),
105 spans: spans.into_spans(),
106 children: vec![],
107 }
108 }
109
110 diagnostic_child_methods!(span_error, error, Level::Error);
111 diagnostic_child_methods!(span_warning, warning, Level::Warning);
112 diagnostic_child_methods!(span_note, note, Level::Note);
113 diagnostic_child_methods!(span_help, help, Level::Help);
114
115 /// Returns the diagnostic `level` for `self`.
116 pub fn level(&self) -> Level {
117 self.level
118 }
119
120 /// Sets the level in `self` to `level`.
121 pub fn set_level(&mut self, level: Level) {
122 self.level = level;
123 }
124
125 /// Returns the message in `self`.
126 pub fn message(&self) -> &str {
127 &self.message
128 }
129
130 /// Sets the message in `self` to `message`.
131 pub fn set_message<T: Into<String>>(&mut self, message: T) {
132 self.message = message.into();
133 }
134
135 /// Returns the `Span`s in `self`.
136 pub fn spans(&self) -> &[Span] {
137 &self.spans
138 }
139
140 /// Sets the `Span`s in `self` to `spans`.
141 pub fn set_spans<S: MultiSpan>(&mut self, spans: S) {
142 self.spans = spans.into_spans();
143 }
144
145 /// Returns an iterator over the children diagnostics of `self`.
146 pub fn children(&self) -> Children<'_> {
147 Children(self.children.iter())
148 }
149
150 /// Emit the diagnostic.
151 pub fn emit(self) {
152 fn to_internal(spans: Vec<Span>) -> crate::proc_macro::bridge::client::MultiSpan {
153 let mut multi_span = crate::proc_macro::bridge::client::MultiSpan::new();
154 for span in spans {
155 multi_span.push(span.0);
156 }
157 multi_span
158 }
159
160 let mut diag = crate::proc_macro::bridge::client::Diagnostic::new(
161 self.level,
162 &self.message[..],
163 to_internal(self.spans),
164 );
165 for c in self.children {
166 diag.sub(c.level, &c.message[..], to_internal(c.spans));
167 }
168 diag.emit();
169 }
170}
diff --git a/crates/ra_proc_macro_srv/src/proc_macro/mod.rs b/crates/ra_proc_macro_srv/src/proc_macro/mod.rs
new file mode 100644
index 000000000..e35a6ff8b
--- /dev/null
+++ b/crates/ra_proc_macro_srv/src/proc_macro/mod.rs
@@ -0,0 +1,926 @@
1//! lib-proc-macro main module
2//!
3//! Copy from https://github.com/rust-lang/rust/blob/6050e523bae6de61de4e060facc43dc512adaccd/src/libproc_macro/lib.rs
4//! augmented with removing unstable features
5
6// NOTE(@edwin0cheng):
7// Because we just copy the bridge module from rustc for ABI compatible
8// There are some unused stuffs inside it.
9// We suppress these warning here.
10#[doc(hidden)]
11#[allow(unused_macros)]
12#[allow(unused_variables)]
13pub mod bridge;
14
15mod diagnostic;
16
17pub use diagnostic::{Diagnostic, Level, MultiSpan};
18
19use std::ops::{Bound, RangeBounds};
20use std::path::PathBuf;
21use std::str::FromStr;
22use std::{fmt, iter, mem};
23
24/// The main type provided by this crate, representing an abstract stream of
25/// tokens, or, more specifically, a sequence of token trees.
26/// The type provide interfaces for iterating over those token trees and, conversely,
27/// collecting a number of token trees into one stream.
28///
29/// This is both the input and output of `#[proc_macro]`, `#[proc_macro_attribute]`
30/// and `#[proc_macro_derive]` definitions.
31#[derive(Clone)]
32pub struct TokenStream(bridge::client::TokenStream);
33
34/// Error returned from `TokenStream::from_str`
35#[derive(Debug)]
36pub struct LexError {
37 _inner: (),
38}
39
40impl TokenStream {
41 /// Returns an empty `TokenStream` containing no token trees.
42 pub fn new() -> TokenStream {
43 TokenStream(bridge::client::TokenStream::new())
44 }
45
46 /// Checks if this `TokenStream` is empty.
47 pub fn is_empty(&self) -> bool {
48 self.0.is_empty()
49 }
50}
51
52/// Attempts to break the string into tokens and parse those tokens into a token stream.
53/// May fail for a number of reasons, for example, if the string contains unbalanced delimiters
54/// or characters not existing in the language.
55/// All tokens in the parsed stream get `Span::call_site()` spans.
56///
57/// NOTE: some errors may cause panics instead of returning `LexError`. We reserve the right to
58/// change these errors into `LexError`s later.
59impl FromStr for TokenStream {
60 type Err = LexError;
61
62 fn from_str(src: &str) -> Result<TokenStream, LexError> {
63 Ok(TokenStream(bridge::client::TokenStream::from_str(src)))
64 }
65}
66
67// N.B., the bridge only provides `to_string`, implement `fmt::Display`
68// based on it (the reverse of the usual relationship between the two).
69// impl ToString for TokenStream {
70// fn to_string(&self) -> String {
71// self.0.to_string()
72// }
73// }
74
75/// Prints the token stream as a string that is supposed to be losslessly convertible back
76/// into the same token stream (modulo spans), except for possibly `TokenTree::Group`s
77/// with `Delimiter::None` delimiters and negative numeric literals.
78impl fmt::Display for TokenStream {
79 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
80 f.write_str(&self.to_string())
81 }
82}
83
84/// Prints token in a form convenient for debugging.
85impl fmt::Debug for TokenStream {
86 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
87 f.write_str("TokenStream ")?;
88 f.debug_list().entries(self.clone()).finish()
89 }
90}
91
92/// Creates a token stream containing a single token tree.
93impl From<TokenTree> for TokenStream {
94 fn from(tree: TokenTree) -> TokenStream {
95 TokenStream(bridge::client::TokenStream::from_token_tree(match tree {
96 TokenTree::Group(tt) => bridge::TokenTree::Group(tt.0),
97 TokenTree::Punct(tt) => bridge::TokenTree::Punct(tt.0),
98 TokenTree::Ident(tt) => bridge::TokenTree::Ident(tt.0),
99 TokenTree::Literal(tt) => bridge::TokenTree::Literal(tt.0),
100 }))
101 }
102}
103
104/// Collects a number of token trees into a single stream.
105impl iter::FromIterator<TokenTree> for TokenStream {
106 fn from_iter<I: IntoIterator<Item = TokenTree>>(trees: I) -> Self {
107 trees.into_iter().map(TokenStream::from).collect()
108 }
109}
110
111/// A "flattening" operation on token streams, collects token trees
112/// from multiple token streams into a single stream.
113impl iter::FromIterator<TokenStream> for TokenStream {
114 fn from_iter<I: IntoIterator<Item = TokenStream>>(streams: I) -> Self {
115 let mut builder = bridge::client::TokenStreamBuilder::new();
116 streams.into_iter().for_each(|stream| builder.push(stream.0));
117 TokenStream(builder.build())
118 }
119}
120
121impl Extend<TokenTree> for TokenStream {
122 fn extend<I: IntoIterator<Item = TokenTree>>(&mut self, trees: I) {
123 self.extend(trees.into_iter().map(TokenStream::from));
124 }
125}
126
127impl Extend<TokenStream> for TokenStream {
128 fn extend<I: IntoIterator<Item = TokenStream>>(&mut self, streams: I) {
129 // FIXME(eddyb) Use an optimized implementation if/when possible.
130 *self = iter::once(mem::replace(self, Self::new())).chain(streams).collect();
131 }
132}
133
134/// Public implementation details for the `TokenStream` type, such as iterators.
135pub mod token_stream {
136 use crate::proc_macro::{bridge, Group, Ident, Literal, Punct, TokenStream, TokenTree};
137
138 /// An iterator over `TokenStream`'s `TokenTree`s.
139 /// The iteration is "shallow", e.g., the iterator doesn't recurse into delimited groups,
140 /// and returns whole groups as token trees.
141 #[derive(Clone)]
142 pub struct IntoIter(bridge::client::TokenStreamIter);
143
144 impl Iterator for IntoIter {
145 type Item = TokenTree;
146
147 fn next(&mut self) -> Option<TokenTree> {
148 self.0.next().map(|tree| match tree {
149 bridge::TokenTree::Group(tt) => TokenTree::Group(Group(tt)),
150 bridge::TokenTree::Punct(tt) => TokenTree::Punct(Punct(tt)),
151 bridge::TokenTree::Ident(tt) => TokenTree::Ident(Ident(tt)),
152 bridge::TokenTree::Literal(tt) => TokenTree::Literal(Literal(tt)),
153 })
154 }
155 }
156
157 impl IntoIterator for TokenStream {
158 type Item = TokenTree;
159 type IntoIter = IntoIter;
160
161 fn into_iter(self) -> IntoIter {
162 IntoIter(self.0.into_iter())
163 }
164 }
165}
166
167/// A region of source code, along with macro expansion information.
168#[derive(Copy, Clone)]
169pub struct Span(bridge::client::Span);
170
171macro_rules! diagnostic_method {
172 ($name:ident, $level:expr) => (
173 /// Creates a new `Diagnostic` with the given `message` at the span
174 /// `self`.
175 pub fn $name<T: Into<String>>(self, message: T) -> Diagnostic {
176 Diagnostic::spanned(self, $level, message)
177 }
178 )
179}
180
181impl Span {
182 /// A span that resolves at the macro definition site.
183 pub fn def_site() -> Span {
184 Span(bridge::client::Span::def_site())
185 }
186
187 /// The span of the invocation of the current procedural macro.
188 /// Identifiers created with this span will be resolved as if they were written
189 /// directly at the macro call location (call-site hygiene) and other code
190 /// at the macro call site will be able to refer to them as well.
191 pub fn call_site() -> Span {
192 Span(bridge::client::Span::call_site())
193 }
194
195 /// A span that represents `macro_rules` hygiene, and sometimes resolves at the macro
196 /// definition site (local variables, labels, `$crate`) and sometimes at the macro
197 /// call site (everything else).
198 /// The span location is taken from the call-site.
199 pub fn mixed_site() -> Span {
200 Span(bridge::client::Span::mixed_site())
201 }
202
203 /// The original source file into which this span points.
204 pub fn source_file(&self) -> SourceFile {
205 SourceFile(self.0.source_file())
206 }
207
208 /// The `Span` for the tokens in the previous macro expansion from which
209 /// `self` was generated from, if any.
210 pub fn parent(&self) -> Option<Span> {
211 self.0.parent().map(Span)
212 }
213
214 /// The span for the origin source code that `self` was generated from. If
215 /// this `Span` wasn't generated from other macro expansions then the return
216 /// value is the same as `*self`.
217 pub fn source(&self) -> Span {
218 Span(self.0.source())
219 }
220
221 /// Gets the starting line/column in the source file for this span.
222 pub fn start(&self) -> LineColumn {
223 self.0.start()
224 }
225
226 /// Gets the ending line/column in the source file for this span.
227 pub fn end(&self) -> LineColumn {
228 self.0.end()
229 }
230
231 /// Creates a new span encompassing `self` and `other`.
232 ///
233 /// Returns `None` if `self` and `other` are from different files.
234 pub fn join(&self, other: Span) -> Option<Span> {
235 self.0.join(other.0).map(Span)
236 }
237
238 /// Creates a new span with the same line/column information as `self` but
239 /// that resolves symbols as though it were at `other`.
240 pub fn resolved_at(&self, other: Span) -> Span {
241 Span(self.0.resolved_at(other.0))
242 }
243
244 /// Creates a new span with the same name resolution behavior as `self` but
245 /// with the line/column information of `other`.
246 pub fn located_at(&self, other: Span) -> Span {
247 other.resolved_at(*self)
248 }
249
250 /// Compares to spans to see if they're equal.
251 pub fn eq(&self, other: &Span) -> bool {
252 self.0 == other.0
253 }
254
255 /// Returns the source text behind a span. This preserves the original source
256 /// code, including spaces and comments. It only returns a result if the span
257 /// corresponds to real source code.
258 ///
259 /// Note: The observable result of a macro should only rely on the tokens and
260 /// not on this source text. The result of this function is a best effort to
261 /// be used for diagnostics only.
262 pub fn source_text(&self) -> Option<String> {
263 self.0.source_text()
264 }
265
266 diagnostic_method!(error, Level::Error);
267 diagnostic_method!(warning, Level::Warning);
268 diagnostic_method!(note, Level::Note);
269 diagnostic_method!(help, Level::Help);
270}
271
272/// Prints a span in a form convenient for debugging.
273impl fmt::Debug for Span {
274 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
275 self.0.fmt(f)
276 }
277}
278
279/// A line-column pair representing the start or end of a `Span`.
280#[derive(Copy, Clone, Debug, PartialEq, Eq)]
281pub struct LineColumn {
282 /// The 1-indexed line in the source file on which the span starts or ends (inclusive).
283 pub line: usize,
284 /// The 0-indexed column (in UTF-8 characters) in the source file on which
285 /// the span starts or ends (inclusive).
286 pub column: usize,
287}
288
289/// The source file of a given `Span`.
290#[derive(Clone)]
291pub struct SourceFile(bridge::client::SourceFile);
292
293impl SourceFile {
294 /// Gets the path to this source file.
295 ///
296 /// ### Note
297 /// If the code span associated with this `SourceFile` was generated by an external macro, this
298 /// macro, this may not be an actual path on the filesystem. Use [`is_real`] to check.
299 ///
300 /// Also note that even if `is_real` returns `true`, if `--remap-path-prefix` was passed on
301 /// the command line, the path as given may not actually be valid.
302 ///
303 /// [`is_real`]: #method.is_real
304 pub fn path(&self) -> PathBuf {
305 PathBuf::from(self.0.path())
306 }
307
308 /// Returns `true` if this source file is a real source file, and not generated by an external
309 /// macro's expansion.
310 pub fn is_real(&self) -> bool {
311 // This is a hack until intercrate spans are implemented and we can have real source files
312 // for spans generated in external macros.
313 // https://github.com/rust-lang/rust/pull/43604#issuecomment-333334368
314 self.0.is_real()
315 }
316}
317
318impl fmt::Debug for SourceFile {
319 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
320 f.debug_struct("SourceFile")
321 .field("path", &self.path())
322 .field("is_real", &self.is_real())
323 .finish()
324 }
325}
326
327impl PartialEq for SourceFile {
328 fn eq(&self, other: &Self) -> bool {
329 self.0.eq(&other.0)
330 }
331}
332
333impl Eq for SourceFile {}
334
335/// A single token or a delimited sequence of token trees (e.g., `[1, (), ..]`).
336#[derive(Clone)]
337pub enum TokenTree {
338 /// A token stream surrounded by bracket delimiters.
339 Group(Group),
340 /// An identifier.
341 Ident(Ident),
342 /// A single punctuation character (`+`, `,`, `$`, etc.).
343 Punct(Punct),
344 /// A literal character (`'a'`), string (`"hello"`), number (`2.3`), etc.
345 Literal(Literal),
346}
347
348impl TokenTree {
349 /// Returns the span of this tree, delegating to the `span` method of
350 /// the contained token or a delimited stream.
351 pub fn span(&self) -> Span {
352 match *self {
353 TokenTree::Group(ref t) => t.span(),
354 TokenTree::Ident(ref t) => t.span(),
355 TokenTree::Punct(ref t) => t.span(),
356 TokenTree::Literal(ref t) => t.span(),
357 }
358 }
359
360 /// Configures the span for *only this token*.
361 ///
362 /// Note that if this token is a `Group` then this method will not configure
363 /// the span of each of the internal tokens, this will simply delegate to
364 /// the `set_span` method of each variant.
365 pub fn set_span(&mut self, span: Span) {
366 match *self {
367 TokenTree::Group(ref mut t) => t.set_span(span),
368 TokenTree::Ident(ref mut t) => t.set_span(span),
369 TokenTree::Punct(ref mut t) => t.set_span(span),
370 TokenTree::Literal(ref mut t) => t.set_span(span),
371 }
372 }
373}
374
375/// Prints token tree in a form convenient for debugging.
376impl fmt::Debug for TokenTree {
377 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
378 // Each of these has the name in the struct type in the derived debug,
379 // so don't bother with an extra layer of indirection
380 match *self {
381 TokenTree::Group(ref tt) => tt.fmt(f),
382 TokenTree::Ident(ref tt) => tt.fmt(f),
383 TokenTree::Punct(ref tt) => tt.fmt(f),
384 TokenTree::Literal(ref tt) => tt.fmt(f),
385 }
386 }
387}
388
389impl From<Group> for TokenTree {
390 fn from(g: Group) -> TokenTree {
391 TokenTree::Group(g)
392 }
393}
394
395impl From<Ident> for TokenTree {
396 fn from(g: Ident) -> TokenTree {
397 TokenTree::Ident(g)
398 }
399}
400
401impl From<Punct> for TokenTree {
402 fn from(g: Punct) -> TokenTree {
403 TokenTree::Punct(g)
404 }
405}
406
407impl From<Literal> for TokenTree {
408 fn from(g: Literal) -> TokenTree {
409 TokenTree::Literal(g)
410 }
411}
412
413// N.B., the bridge only provides `to_string`, implement `fmt::Display`
414// based on it (the reverse of the usual relationship between the two).
415// impl ToString for TokenTree {
416// fn to_string(&self) -> String {
417// match *self {
418// TokenTree::Group(ref t) => t.to_string(),
419// TokenTree::Ident(ref t) => t.to_string(),
420// TokenTree::Punct(ref t) => t.to_string(),
421// TokenTree::Literal(ref t) => t.to_string(),
422// }
423// }
424// }
425
426/// Prints the token tree as a string that is supposed to be losslessly convertible back
427/// into the same token tree (modulo spans), except for possibly `TokenTree::Group`s
428/// with `Delimiter::None` delimiters and negative numeric literals.
429impl fmt::Display for TokenTree {
430 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
431 f.write_str(&self.to_string())
432 }
433}
434
435/// A delimited token stream.
436///
437/// A `Group` internally contains a `TokenStream` which is surrounded by `Delimiter`s.
438#[derive(Clone)]
439pub struct Group(bridge::client::Group);
440
441/// Describes how a sequence of token trees is delimited.
442#[derive(Copy, Clone, Debug, PartialEq, Eq)]
443pub enum Delimiter {
444 /// `( ... )`
445 Parenthesis,
446 /// `{ ... }`
447 Brace,
448 /// `[ ... ]`
449 Bracket,
450 /// `Ø ... Ø`
451 /// An implicit delimiter, that may, for example, appear around tokens coming from a
452 /// "macro variable" `$var`. It is important to preserve operator priorities in cases like
453 /// `$var * 3` where `$var` is `1 + 2`.
454 /// Implicit delimiters may not survive roundtrip of a token stream through a string.
455 None,
456}
457
458impl Group {
459 /// Creates a new `Group` with the given delimiter and token stream.
460 ///
461 /// This constructor will set the span for this group to
462 /// `Span::call_site()`. To change the span you can use the `set_span`
463 /// method below.
464 pub fn new(delimiter: Delimiter, stream: TokenStream) -> Group {
465 Group(bridge::client::Group::new(delimiter, stream.0))
466 }
467
468 /// Returns the delimiter of this `Group`
469 pub fn delimiter(&self) -> Delimiter {
470 self.0.delimiter()
471 }
472
473 /// Returns the `TokenStream` of tokens that are delimited in this `Group`.
474 ///
475 /// Note that the returned token stream does not include the delimiter
476 /// returned above.
477 pub fn stream(&self) -> TokenStream {
478 TokenStream(self.0.stream())
479 }
480
481 /// Returns the span for the delimiters of this token stream, spanning the
482 /// entire `Group`.
483 ///
484 /// ```text
485 /// pub fn span(&self) -> Span {
486 /// ^^^^^^^
487 /// ```
488 pub fn span(&self) -> Span {
489 Span(self.0.span())
490 }
491
492 /// Returns the span pointing to the opening delimiter of this group.
493 ///
494 /// ```text
495 /// pub fn span_open(&self) -> Span {
496 /// ^
497 /// ```
498 pub fn span_open(&self) -> Span {
499 Span(self.0.span_open())
500 }
501
502 /// Returns the span pointing to the closing delimiter of this group.
503 ///
504 /// ```text
505 /// pub fn span_close(&self) -> Span {
506 /// ^
507 /// ```
508 pub fn span_close(&self) -> Span {
509 Span(self.0.span_close())
510 }
511
512 /// Configures the span for this `Group`'s delimiters, but not its internal
513 /// tokens.
514 ///
515 /// This method will **not** set the span of all the internal tokens spanned
516 /// by this group, but rather it will only set the span of the delimiter
517 /// tokens at the level of the `Group`.
518 pub fn set_span(&mut self, span: Span) {
519 self.0.set_span(span.0);
520 }
521}
522
523// N.B., the bridge only provides `to_string`, implement `fmt::Display`
524// based on it (the reverse of the usual relationship between the two).
525// impl ToString for Group {
526// fn to_string(&self) -> String {
527// TokenStream::from(TokenTree::from(self.clone())).to_string()
528// }
529// }
530
531/// Prints the group as a string that should be losslessly convertible back
532/// into the same group (modulo spans), except for possibly `TokenTree::Group`s
533/// with `Delimiter::None` delimiters.
534impl fmt::Display for Group {
535 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
536 f.write_str(&self.to_string())
537 }
538}
539
540impl fmt::Debug for Group {
541 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
542 f.debug_struct("Group")
543 .field("delimiter", &self.delimiter())
544 .field("stream", &self.stream())
545 .field("span", &self.span())
546 .finish()
547 }
548}
549
550/// An `Punct` is an single punctuation character like `+`, `-` or `#`.
551///
552/// Multi-character operators like `+=` are represented as two instances of `Punct` with different
553/// forms of `Spacing` returned.
554#[derive(Clone)]
555pub struct Punct(bridge::client::Punct);
556
557/// Whether an `Punct` is followed immediately by another `Punct` or
558/// followed by another token or whitespace.
559#[derive(Copy, Clone, Debug, PartialEq, Eq)]
560pub enum Spacing {
561 /// e.g., `+` is `Alone` in `+ =`, `+ident` or `+()`.
562 Alone,
563 /// e.g., `+` is `Joint` in `+=` or `'#`.
564 /// Additionally, single quote `'` can join with identifiers to form lifetimes `'ident`.
565 Joint,
566}
567
568impl Punct {
569 /// Creates a new `Punct` from the given character and spacing.
570 /// The `ch` argument must be a valid punctuation character permitted by the language,
571 /// otherwise the function will panic.
572 ///
573 /// The returned `Punct` will have the default span of `Span::call_site()`
574 /// which can be further configured with the `set_span` method below.
575 pub fn new(ch: char, spacing: Spacing) -> Punct {
576 Punct(bridge::client::Punct::new(ch, spacing))
577 }
578
579 /// Returns the value of this punctuation character as `char`.
580 pub fn as_char(&self) -> char {
581 self.0.as_char()
582 }
583
584 /// Returns the spacing of this punctuation character, indicating whether it's immediately
585 /// followed by another `Punct` in the token stream, so they can potentially be combined into
586 /// a multi-character operator (`Joint`), or it's followed by some other token or whitespace
587 /// (`Alone`) so the operator has certainly ended.
588 pub fn spacing(&self) -> Spacing {
589 self.0.spacing()
590 }
591
592 /// Returns the span for this punctuation character.
593 pub fn span(&self) -> Span {
594 Span(self.0.span())
595 }
596
597 /// Configure the span for this punctuation character.
598 pub fn set_span(&mut self, span: Span) {
599 self.0 = self.0.with_span(span.0);
600 }
601}
602
603// N.B., the bridge only provides `to_string`, implement `fmt::Display`
604// based on it (the reverse of the usual relationship between the two).
605// impl ToString for Punct {
606// fn to_string(&self) -> String {
607// TokenStream::from(TokenTree::from(self.clone())).to_string()
608// }
609// }
610
611/// Prints the punctuation character as a string that should be losslessly convertible
612/// back into the same character.
613impl fmt::Display for Punct {
614 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
615 f.write_str(&self.to_string())
616 }
617}
618
619impl fmt::Debug for Punct {
620 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
621 f.debug_struct("Punct")
622 .field("ch", &self.as_char())
623 .field("spacing", &self.spacing())
624 .field("span", &self.span())
625 .finish()
626 }
627}
628
629/// An identifier (`ident`).
630#[derive(Clone, PartialEq, Eq, Hash)]
631pub struct Ident(bridge::client::Ident);
632
633impl Ident {
634 /// Creates a new `Ident` with the given `string` as well as the specified
635 /// `span`.
636 /// The `string` argument must be a valid identifier permitted by the
637 /// language, otherwise the function will panic.
638 ///
639 /// Note that `span`, currently in rustc, configures the hygiene information
640 /// for this identifier.
641 ///
642 /// As of this time `Span::call_site()` explicitly opts-in to "call-site" hygiene
643 /// meaning that identifiers created with this span will be resolved as if they were written
644 /// directly at the location of the macro call, and other code at the macro call site will be
645 /// able to refer to them as well.
646 ///
647 /// Later spans like `Span::def_site()` will allow to opt-in to "definition-site" hygiene
648 /// meaning that identifiers created with this span will be resolved at the location of the
649 /// macro definition and other code at the macro call site will not be able to refer to them.
650 ///
651 /// Due to the current importance of hygiene this constructor, unlike other
652 /// tokens, requires a `Span` to be specified at construction.
653 pub fn new(string: &str, span: Span) -> Ident {
654 Ident(bridge::client::Ident::new(string, span.0, false))
655 }
656
657 /// Same as `Ident::new`, but creates a raw identifier (`r#ident`).
658 pub fn new_raw(string: &str, span: Span) -> Ident {
659 Ident(bridge::client::Ident::new(string, span.0, true))
660 }
661
662 /// Returns the span of this `Ident`, encompassing the entire string returned
663 /// by `as_str`.
664 pub fn span(&self) -> Span {
665 Span(self.0.span())
666 }
667
668 /// Configures the span of this `Ident`, possibly changing its hygiene context.
669 pub fn set_span(&mut self, span: Span) {
670 self.0 = self.0.with_span(span.0);
671 }
672}
673
674// N.B., the bridge only provides `to_string`, implement `fmt::Display`
675// based on it (the reverse of the usual relationship between the two).
676// impl ToString for Ident {
677// fn to_string(&self) -> String {
678// TokenStream::from(TokenTree::from(self.clone())).to_string()
679// }
680// }
681
682/// Prints the identifier as a string that should be losslessly convertible
683/// back into the same identifier.
684impl fmt::Display for Ident {
685 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
686 f.write_str(&self.to_string())
687 }
688}
689
690impl fmt::Debug for Ident {
691 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
692 f.debug_struct("Ident")
693 .field("ident", &self.to_string())
694 .field("span", &self.span())
695 .finish()
696 }
697}
698
699/// A literal string (`"hello"`), byte string (`b"hello"`),
700/// character (`'a'`), byte character (`b'a'`), an integer or floating point number
701/// with or without a suffix (`1`, `1u8`, `2.3`, `2.3f32`).
702/// Boolean literals like `true` and `false` do not belong here, they are `Ident`s.
703#[derive(Clone)]
704pub struct Literal(bridge::client::Literal);
705
706macro_rules! suffixed_int_literals {
707 ($($name:ident => $kind:ident,)*) => ($(
708 /// Creates a new suffixed integer literal with the specified value.
709 ///
710 /// This function will create an integer like `1u32` where the integer
711 /// value specified is the first part of the token and the integral is
712 /// also suffixed at the end.
713 /// Literals created from negative numbers may not survive round-trips through
714 /// `TokenStream` or strings and may be broken into two tokens (`-` and positive literal).
715 ///
716 /// Literals created through this method have the `Span::call_site()`
717 /// span by default, which can be configured with the `set_span` method
718 /// below.
719 pub fn $name(n: $kind) -> Literal {
720 Literal(bridge::client::Literal::typed_integer(&n.to_string(), stringify!($kind)))
721 }
722 )*)
723}
724
725macro_rules! unsuffixed_int_literals {
726 ($($name:ident => $kind:ident,)*) => ($(
727 /// Creates a new unsuffixed integer literal with the specified value.
728 ///
729 /// This function will create an integer like `1` where the integer
730 /// value specified is the first part of the token. No suffix is
731 /// specified on this token, meaning that invocations like
732 /// `Literal::i8_unsuffixed(1)` are equivalent to
733 /// `Literal::u32_unsuffixed(1)`.
734 /// Literals created from negative numbers may not survive rountrips through
735 /// `TokenStream` or strings and may be broken into two tokens (`-` and positive literal).
736 ///
737 /// Literals created through this method have the `Span::call_site()`
738 /// span by default, which can be configured with the `set_span` method
739 /// below.
740 pub fn $name(n: $kind) -> Literal {
741 Literal(bridge::client::Literal::integer(&n.to_string()))
742 }
743 )*)
744}
745
746impl Literal {
747 suffixed_int_literals! {
748 u8_suffixed => u8,
749 u16_suffixed => u16,
750 u32_suffixed => u32,
751 u64_suffixed => u64,
752 u128_suffixed => u128,
753 usize_suffixed => usize,
754 i8_suffixed => i8,
755 i16_suffixed => i16,
756 i32_suffixed => i32,
757 i64_suffixed => i64,
758 i128_suffixed => i128,
759 isize_suffixed => isize,
760 }
761
762 unsuffixed_int_literals! {
763 u8_unsuffixed => u8,
764 u16_unsuffixed => u16,
765 u32_unsuffixed => u32,
766 u64_unsuffixed => u64,
767 u128_unsuffixed => u128,
768 usize_unsuffixed => usize,
769 i8_unsuffixed => i8,
770 i16_unsuffixed => i16,
771 i32_unsuffixed => i32,
772 i64_unsuffixed => i64,
773 i128_unsuffixed => i128,
774 isize_unsuffixed => isize,
775 }
776
777 /// Creates a new unsuffixed floating-point literal.
778 ///
779 /// This constructor is similar to those like `Literal::i8_unsuffixed` where
780 /// the float's value is emitted directly into the token but no suffix is
781 /// used, so it may be inferred to be a `f64` later in the compiler.
782 /// Literals created from negative numbers may not survive rountrips through
783 /// `TokenStream` or strings and may be broken into two tokens (`-` and positive literal).
784 ///
785 /// # Panics
786 ///
787 /// This function requires that the specified float is finite, for
788 /// example if it is infinity or NaN this function will panic.
789 pub fn f32_unsuffixed(n: f32) -> Literal {
790 if !n.is_finite() {
791 panic!("Invalid float literal {}", n);
792 }
793 Literal(bridge::client::Literal::float(&n.to_string()))
794 }
795
796 /// Creates a new suffixed floating-point literal.
797 ///
798 /// This constructor will create a literal like `1.0f32` where the value
799 /// specified is the preceding part of the token and `f32` is the suffix of
800 /// the token. This token will always be inferred to be an `f32` in the
801 /// compiler.
802 /// Literals created from negative numbers may not survive rountrips through
803 /// `TokenStream` or strings and may be broken into two tokens (`-` and positive literal).
804 ///
805 /// # Panics
806 ///
807 /// This function requires that the specified float is finite, for
808 /// example if it is infinity or NaN this function will panic.
809 pub fn f32_suffixed(n: f32) -> Literal {
810 if !n.is_finite() {
811 panic!("Invalid float literal {}", n);
812 }
813 Literal(bridge::client::Literal::f32(&n.to_string()))
814 }
815
816 /// Creates a new unsuffixed floating-point literal.
817 ///
818 /// This constructor is similar to those like `Literal::i8_unsuffixed` where
819 /// the float's value is emitted directly into the token but no suffix is
820 /// used, so it may be inferred to be a `f64` later in the compiler.
821 /// Literals created from negative numbers may not survive rountrips through
822 /// `TokenStream` or strings and may be broken into two tokens (`-` and positive literal).
823 ///
824 /// # Panics
825 ///
826 /// This function requires that the specified float is finite, for
827 /// example if it is infinity or NaN this function will panic.
828 pub fn f64_unsuffixed(n: f64) -> Literal {
829 if !n.is_finite() {
830 panic!("Invalid float literal {}", n);
831 }
832 Literal(bridge::client::Literal::float(&n.to_string()))
833 }
834
835 /// Creates a new suffixed floating-point literal.
836 ///
837 /// This constructor will create a literal like `1.0f64` where the value
838 /// specified is the preceding part of the token and `f64` is the suffix of
839 /// the token. This token will always be inferred to be an `f64` in the
840 /// compiler.
841 /// Literals created from negative numbers may not survive rountrips through
842 /// `TokenStream` or strings and may be broken into two tokens (`-` and positive literal).
843 ///
844 /// # Panics
845 ///
846 /// This function requires that the specified float is finite, for
847 /// example if it is infinity or NaN this function will panic.
848 pub fn f64_suffixed(n: f64) -> Literal {
849 if !n.is_finite() {
850 panic!("Invalid float literal {}", n);
851 }
852 Literal(bridge::client::Literal::f64(&n.to_string()))
853 }
854
855 /// String literal.
856 pub fn string(string: &str) -> Literal {
857 Literal(bridge::client::Literal::string(string))
858 }
859
860 /// Character literal.
861 pub fn character(ch: char) -> Literal {
862 Literal(bridge::client::Literal::character(ch))
863 }
864
865 /// Byte string literal.
866 pub fn byte_string(bytes: &[u8]) -> Literal {
867 Literal(bridge::client::Literal::byte_string(bytes))
868 }
869
870 /// Returns the span encompassing this literal.
871 pub fn span(&self) -> Span {
872 Span(self.0.span())
873 }
874
875 /// Configures the span associated for this literal.
876 pub fn set_span(&mut self, span: Span) {
877 self.0.set_span(span.0);
878 }
879
880 /// Returns a `Span` that is a subset of `self.span()` containing only the
881 /// source bytes in range `range`. Returns `None` if the would-be trimmed
882 /// span is outside the bounds of `self`.
883 // FIXME(SergioBenitez): check that the byte range starts and ends at a
884 // UTF-8 boundary of the source. otherwise, it's likely that a panic will
885 // occur elsewhere when the source text is printed.
886 // FIXME(SergioBenitez): there is no way for the user to know what
887 // `self.span()` actually maps to, so this method can currently only be
888 // called blindly. For example, `to_string()` for the character 'c' returns
889 // "'\u{63}'"; there is no way for the user to know whether the source text
890 // was 'c' or whether it was '\u{63}'.
891 pub fn subspan<R: RangeBounds<usize>>(&self, range: R) -> Option<Span> {
892 // HACK(eddyb) something akin to `Option::cloned`, but for `Bound<&T>`.
893 fn cloned_bound<T: Clone>(bound: Bound<&T>) -> Bound<T> {
894 match bound {
895 Bound::Included(x) => Bound::Included(x.clone()),
896 Bound::Excluded(x) => Bound::Excluded(x.clone()),
897 Bound::Unbounded => Bound::Unbounded,
898 }
899 }
900
901 self.0.subspan(cloned_bound(range.start_bound()), cloned_bound(range.end_bound())).map(Span)
902 }
903}
904
905// N.B., the bridge only provides `to_string`, implement `fmt::Display`
906// based on it (the reverse of the usual relationship between the two).
907// impl ToString for Literal {
908// fn to_string(&self) -> String {
909// TokenStream::from(TokenTree::from(self.clone())).to_string()
910// }
911// }
912
913/// Prints the literal as a string that should be losslessly convertible
914/// back into the same literal (except for possible rounding for floating point literals).
915impl fmt::Display for Literal {
916 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
917 f.write_str(&self.to_string())
918 }
919}
920
921impl fmt::Debug for Literal {
922 fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
923 // FIXME(eddyb) `Literal` should not expose internal `Debug` impls.
924 self.0.fmt(f)
925 }
926}