Rollup merge of #32789 - jseyfried:fix_duplicate_resolve_errors, r=eddyb

resolve: Avoid emitting redundant path resolution errors

This PR avoids emitting redundant path resolution errors in `resolve` (fixes #32760).

r? @EddyB

src/librustc_resolve/lib.rs

@@ -1714,9 +1714,10 @@ fn resolve_item(&mut self, item: &Item) {
                             match self.resolve_crate_relative_path(prefix.span,
                                                                    &prefix.segments,
                                                                    TypeNS) {
-                                Some(def) =>
+                                Ok(def) =>
                                     self.record_def(item.id, PathResolution::new(def, 0)),
-                                None => {
+                                Err(true) => self.record_def(item.id, err_path_resolution()),
+                                Err(false) => {
                                     resolve_error(self,
                                                   prefix.span,
                                                   ResolutionError::FailedToResolve(
@@ -1835,7 +1836,7 @@ fn resolve_trait_reference(&mut self,
                                trait_path: &Path,
                                path_depth: usize)
                                -> Result<PathResolution, ()> {
-        if let Some(path_res) = self.resolve_path(id, trait_path, path_depth, TypeNS) {
+        self.resolve_path(id, trait_path, path_depth, TypeNS).and_then(|path_res| {
             if let Def::Trait(_) = path_res.base_def {
                 debug!("(resolving trait) found trait def: {:?}", path_res);
                 Ok(path_res)
@@ -1855,9 +1856,10 @@ fn resolve_trait_reference(&mut self,
                     }
                 }
                 err.emit();
-                Err(())
+                Err(true)
             }
-        } else {
+        }).map_err(|error_reported| {
+            if error_reported { return }
 
             // find possible candidates
             let trait_name = trait_path.segments.last().unwrap().identifier.name;
@@ -1880,8 +1882,7 @@ fn resolve_trait_reference(&mut self,
                 );
 
             resolve_error(self, trait_path.span, error);
-            Err(())
-        }
+        })
     }
 
     fn resolve_generics(&mut self, generics: &Generics) {
@@ -1890,15 +1891,18 @@ fn resolve_generics(&mut self, generics: &Generics) {
                 &hir::WherePredicate::BoundPredicate(_) |
                 &hir::WherePredicate::RegionPredicate(_) => {}
                 &hir::WherePredicate::EqPredicate(ref eq_pred) => {
-                    let path_res = self.resolve_path(eq_pred.id, &eq_pred.path, 0, TypeNS);
-                    if let Some(PathResolution { base_def: Def::TyParam(..), .. }) = path_res {
-                        self.record_def(eq_pred.id, path_res.unwrap());
-                    } else {
-                        resolve_error(self,
-                                      eq_pred.span,
-                                      ResolutionError::UndeclaredAssociatedType);
+                    self.resolve_path(eq_pred.id, &eq_pred.path, 0, TypeNS).and_then(|path_res| {
+                        if let PathResolution { base_def: Def::TyParam(..), .. } = path_res {
+                            Ok(self.record_def(eq_pred.id, path_res))
+                        } else {
+                            Err(false)
+                        }
+                    }).map_err(|error_reported| {
                         self.record_def(eq_pred.id, err_path_resolution());
-                    }
+                        if error_reported { return }
+                        let error_variant = ResolutionError::UndeclaredAssociatedType;
+                        resolve_error(self, eq_pred.span, error_variant);
+                    }).unwrap_or(());
                 }
             }
         }
@@ -2168,21 +2172,18 @@ fn resolve_type(&mut self, ty: &Ty) {
 
                 // This is a path in the type namespace. Walk through scopes
                 // looking for it.
-                match resolution {
-                    Some(def) => {
-                        // Write the result into the def map.
-                        debug!("(resolving type) writing resolution for `{}` (id {}) = {:?}",
-                               path_names_to_string(path, 0),
-                               ty.id,
-                               def);
-                        self.record_def(ty.id, def);
-                    }
-                    None => {
-                        self.record_def(ty.id, err_path_resolution());
-
-                        // Keep reporting some errors even if they're ignored above.
-                        self.resolve_path(ty.id, path, 0, TypeNS);
+                if let Some(def) = resolution {
+                    // Write the result into the def map.
+                    debug!("(resolving type) writing resolution for `{}` (id {}) = {:?}",
+                           path_names_to_string(path, 0), ty.id, def);
+                    self.record_def(ty.id, def);
+                } else {
+                    self.record_def(ty.id, err_path_resolution());
 
+                    // Keep reporting some errors even if they're ignored above.
+                    if let Err(true) = self.resolve_path(ty.id, path, 0, TypeNS) {
+                        // `resolve_path` already reported the error
+                    } else {
                         let kind = if maybe_qself.is_some() {
                             "associated type"
                         } else {
@@ -2481,11 +2482,11 @@ fn resolve_pattern(&mut self,
 
                 PatKind::Struct(ref path, _, _) => {
                     match self.resolve_path(pat_id, path, 0, TypeNS) {
-                        Some(definition) => {
+                        Ok(definition) => {
                             self.record_def(pattern.id, definition);
                         }
-                        result => {
-                            debug!("(resolving pattern) didn't find struct def: {:?}", result);
+                        Err(true) => self.record_def(pattern.id, err_path_resolution()),
+                        Err(false) => {
                             resolve_error(
                                 self,
                                 path.span,
@@ -2552,14 +2553,14 @@ fn resolve_possibly_assoc_item(&mut self,
         }
 
         let mut resolution = self.with_no_errors(|this| {
-            this.resolve_path(id, path, 0, namespace)
+            this.resolve_path(id, path, 0, namespace).ok()
         });
         for depth in 1..max_assoc_types {
             if resolution.is_some() {
                 break;
             }
             self.with_no_errors(|this| {
-                resolution = this.resolve_path(id, path, depth, TypeNS);
+                resolution = this.resolve_path(id, path, depth, TypeNS).ok();
             });
         }
         if let Some(Def::Mod(_)) = resolution.map(|r| r.base_def) {
@@ -2572,7 +2573,7 @@ fn resolve_possibly_assoc_item(&mut self,
     /// Skips `path_depth` trailing segments, which is also reflected in the
     /// returned value. See `hir::def::PathResolution` for more info.
     fn resolve_path(&mut self, id: NodeId, path: &Path, path_depth: usize, namespace: Namespace)
-                    -> Option<PathResolution> {
+                    -> Result<PathResolution, bool /* true if an error was reported */ > {
         let span = path.span;
         let segments = &path.segments[..path.segments.len() - path_depth];
 
@@ -2611,14 +2612,14 @@ fn resolve_path(&mut self, id: NodeId, path: &Path, path_depth: usize, namespace
             //
             // Such behavior is required for backward compatibility.
             // The same fallback is used when `a` resolves to nothing.
-            let unqualified_def = resolve_identifier_with_fallback(self, true);
-            return unqualified_def.and_then(|def| self.adjust_local_def(def, span)).map(mk_res);
+            let def = resolve_identifier_with_fallback(self, true).ok_or(false);
+            return def.and_then(|def| self.adjust_local_def(def, span).ok_or(true)).map(mk_res);
         }
 
         let unqualified_def = resolve_identifier_with_fallback(self, false);
         let def = self.resolve_module_relative_path(span, segments, namespace);
         match (def, unqualified_def) {
-            (Some(d), Some(ref ud)) if d == ud.def => {
+            (Ok(d), Some(ref ud)) if d == ud.def => {
                 self.session
                     .add_lint(lint::builtin::UNUSED_QUALIFICATIONS,
                               id,
@@ -2739,7 +2740,7 @@ fn resolve_module_relative_path(&mut self,
                                     span: Span,
                                     segments: &[hir::PathSegment],
                                     namespace: Namespace)
-                                    -> Option<Def> {
+                                    -> Result<Def, bool /* true if an error was reported */> {
         let module_path = segments.split_last()
                                   .unwrap()
                                   .1
@@ -2760,9 +2761,9 @@ fn resolve_module_relative_path(&mut self,
                 };
 
                 resolve_error(self, span, ResolutionError::FailedToResolve(&msg));
-                return None;
+                return Err(true);
             }
-            Indeterminate => return None,
+            Indeterminate => return Err(false),
             Success(resulting_module) => {
                 containing_module = resulting_module;
             }
@@ -2773,7 +2774,7 @@ fn resolve_module_relative_path(&mut self,
         result.success().map(|binding| {
             self.check_privacy(containing_module, name, binding, span);
             binding.def().unwrap()
-        })
+        }).ok_or(false)
     }
 
     /// Invariant: This must be called only during main resolution, not during
@@ -2782,7 +2783,7 @@ fn resolve_crate_relative_path(&mut self,
                                    span: Span,
                                    segments: &[hir::PathSegment],
                                    namespace: Namespace)
-                                   -> Option<Def> {
+                                   -> Result<Def, bool /* true if an error was reported */> {
         let module_path = segments.split_last()
                                   .unwrap()
                                   .1
@@ -2808,10 +2809,10 @@ fn resolve_crate_relative_path(&mut self,
                 };
 
                 resolve_error(self, span, ResolutionError::FailedToResolve(&msg));
-                return None;
+                return Err(true);
             }
 
-            Indeterminate => return None,
+            Indeterminate => return Err(false),
 
             Success(resulting_module) => {
                 containing_module = resulting_module;
@@ -2823,7 +2824,7 @@ fn resolve_crate_relative_path(&mut self,
         result.success().map(|binding| {
             self.check_privacy(containing_module, name, binding, span);
             binding.def().unwrap()
-        })
+        }).ok_or(false)
     }
 
     fn with_no_errors<T, F>(&mut self, f: F) -> T
@@ -3038,25 +3039,26 @@ fn resolve_expr(&mut self, expr: &Expr) {
                     });
 
                     self.record_def(expr.id, err_path_resolution());
-                    match type_res.map(|r| r.base_def) {
-                        Some(Def::Struct(..)) => {
-                            let mut err = resolve_struct_error(self,
-                                expr.span,
-                                ResolutionError::StructVariantUsedAsFunction(&path_name));
-
-                            let msg = format!("did you mean to write: `{} {{ /* fields */ }}`?",
-                                              path_name);
-                            if self.emit_errors {
-                                err.fileline_help(expr.span, &msg);
-                            } else {
-                                err.span_help(expr.span, &msg);
-                            }
-                            err.emit();
-                        }
-                        _ => {
-                            // Keep reporting some errors even if they're ignored above.
-                            self.resolve_path(expr.id, path, 0, ValueNS);
 
+                    if let Ok(Def::Struct(..)) = type_res.map(|r| r.base_def) {
+                        let error_variant =
+                            ResolutionError::StructVariantUsedAsFunction(&path_name);
+                        let mut err = resolve_struct_error(self, expr.span, error_variant);
+
+                        let msg = format!("did you mean to write: `{} {{ /* fields */ }}`?",
+                                          path_name);
+
+                        if self.emit_errors {
+                            err.fileline_help(expr.span, &msg);
+                        } else {
+                            err.span_help(expr.span, &msg);
+                        }
+                        err.emit();
+                    } else {
+                        // Keep reporting some errors even if they're ignored above.
+                        if let Err(true) = self.resolve_path(expr.id, path, 0, ValueNS) {
+                            // `resolve_path` already reported the error
+                        } else {
                             let mut method_scope = false;
                             self.value_ribs.iter().rev().all(|rib| {
                                 method_scope = match rib.kind {
@@ -3130,8 +3132,9 @@ fn resolve_expr(&mut self, expr: &Expr) {
                 // check to ensure that the path is actually a structure; that
                 // is checked later during typeck.
                 match self.resolve_path(expr.id, path, 0, TypeNS) {
-                    Some(definition) => self.record_def(expr.id, definition),
-                    None => {
+                    Ok(definition) => self.record_def(expr.id, definition),
+                    Err(true) => self.record_def(expr.id, err_path_resolution()),
+                    Err(false) => {
                         debug!("(resolving expression) didn't find struct def",);
 
                         resolve_error(self,

src/test/compile-fail-fulldeps/macro-crate-doesnt-resolve.rs

@@ -16,5 +16,4 @@
 fn main() {
     macro_crate_test::foo();
     //~^ ERROR failed to resolve. Use of undeclared type or module `macro_crate_test`
-    //~^^ ERROR unresolved name `macro_crate_test::foo`
 }

src/test/compile-fail/bad-module.rs

@@ -8,6 +8,6 @@
 // option. This file may not be copied, modified, or distributed
 // except according to those terms.
 
-// error-pattern: unresolved name
+// error-pattern: failed to resolve. Use of undeclared type or module `thing`
 
 fn main() { let foo = thing::len(Vec::new()); }

src/test/compile-fail/bad-type-env-capture.rs

@@ -10,6 +10,5 @@
 
 fn foo<T>() {
     fn bar(b: T) { } //~ ERROR can't use type parameters from outer
-    //~^ ERROR type name `T` is undefined or not in scope
 }
 fn main() { }

src/test/compile-fail/export-fully-qualified.rs

@@ -8,7 +8,7 @@
 // option. This file may not be copied, modified, or distributed
 // except according to those terms.
 
-// error-pattern: unresolved name
+// error-pattern: failed to resolve. Use of undeclared type or module `foo`
 
 // In this test baz isn't resolved when called as foo.baz even though
 // it's called from inside foo. This is somewhat surprising and may

src/test/compile-fail/export2.rs

@@ -8,7 +8,7 @@
 // option. This file may not be copied, modified, or distributed
 // except according to those terms.
 
-// error-pattern: unresolved name
+// error-pattern: failed to resolve. Use of undeclared type or module `bar`
 
 mod foo {
     pub fn x() { bar::x(); }

src/test/compile-fail/inner-static-type-parameter.rs

@@ -15,7 +15,6 @@ enum Bar<T> { What } //~ ERROR parameter `T` is never used
 fn foo<T>() {
     static a: Bar<T> = Bar::What;
     //~^ ERROR cannot use an outer type parameter in this context
-    //~| ERROR type name `T` is undefined or not in scope
 }
 
 fn main() {

src/test/compile-fail/issue-12796.rs

@@ -12,7 +12,6 @@ trait Trait {
     fn outer(&self) {
         fn inner(_: &Self) {
             //~^ ERROR can't use type parameters from outer function
-            //~^^ ERROR use of `Self` outside of an impl or trait
         }
     }
 }

src/test/compile-fail/issue-3021-b.rs

@@ -17,7 +17,6 @@ struct siphash {
     impl siphash {
         pub fn reset(&mut self) {
            self.v0 = k0 ^ 0x736f6d6570736575; //~ ERROR can't capture dynamic environment
-           //~^ ERROR unresolved name `k0`
         }
     }
 }

src/test/compile-fail/issue-3021-c.rs

@@ -13,8 +13,6 @@ fn siphash<T>() {
     trait t {
         fn g(&self, x: T) -> T;  //~ ERROR can't use type parameters from outer function; try using
         //~^ ERROR can't use type parameters from outer function; try using
-        //~^^ ERROR type name `T` is undefined or not in scope
-        //~^^^ ERROR type name `T` is undefined or not in scope
     }
 }
 

src/test/compile-fail/issue-3021-d.rs

@@ -29,9 +29,7 @@ fn mk_result(st : &SipState) -> u64 {
    impl siphash for SipState {
         fn reset(&self) {
             self.v0 = k0 ^ 0x736f6d6570736575; //~ ERROR can't capture dynamic environment
-            //~^ ERROR unresolved name `k0`
             self.v1 = k1 ^ 0x646f72616e646f6d; //~ ERROR can't capture dynamic environment
-            //~^ ERROR unresolved name `k1`
         }
         fn result(&self) -> u64 { return mk_result(self); }
     }

src/test/compile-fail/issue-3021.rs

@@ -20,7 +20,6 @@ struct SipState {
     impl SipHash for SipState {
         fn reset(&self) {
            self.v0 = k0 ^ 0x736f6d6570736575; //~ ERROR can't capture dynamic environment
-           //~^ ERROR unresolved name `k0`
         }
     }
     panic!();

src/test/compile-fail/issue-3214.rs

@@ -11,7 +11,6 @@
 fn foo<T>() {
     struct foo {
         x: T, //~ ERROR can't use type parameters from outer function;
-        //~^ ERROR type name `T` is undefined or not in scope
     }
 
     impl<T> Drop for foo<T> {

src/test/compile-fail/issue-3521-2.rs

@@ -13,7 +13,6 @@ fn main() {
 
     static y: isize = foo + 1;
     //~^ ERROR attempt to use a non-constant value in a constant
-    //~| ERROR unresolved name `foo`
 
     println!("{}", y);
 }

src/test/compile-fail/issue-3521.rs

@@ -15,8 +15,7 @@ fn main() {
     enum Stuff {
         Bar = foo
         //~^ ERROR attempt to use a non-constant value in a constant
-        //~| ERROR unresolved name `foo`
-        //~^^^ ERROR constant evaluation error: non-constant path in constant expression
+        //~^^ ERROR constant evaluation error: non-constant path in constant expression
     }
 
     println!("{}", Stuff::Bar);

src/test/compile-fail/issue-3668-2.rs

@@ -11,7 +11,6 @@
 fn f(x:isize) {
     static child: isize = x + 1;
     //~^ ERROR attempt to use a non-constant value in a constant
-    //~| ERROR unresolved name `x`
 }
 
 fn main() {}

src/test/compile-fail/issue-3668.rs

@@ -17,7 +17,6 @@ impl PTrait for P {
    fn getChildOption(&self) -> Option<Box<P>> {
        static childVal: Box<P> = self.child.get();
        //~^ ERROR attempt to use a non-constant value in a constant
-       //~| ERROR unresolved name `self`
        panic!();
    }
 }

src/test/compile-fail/issue-5997-enum.rs

@@ -11,7 +11,6 @@
 fn f<Z>() -> bool {
     enum E { V(Z) }
     //~^ ERROR can't use type parameters from outer function
-    //~^^ ERROR type name `Z` is undefined or not in scope
     true
 }
 

src/test/compile-fail/issue-5997-struct.rs

@@ -9,8 +9,7 @@
 // except according to those terms.
 
 fn f<T>() -> bool {
-    struct S(T); //~ ERROR type name `T` is undefined or not in scope
-    //~^ ERROR can't use type parameters from outer function; try using
+    struct S(T); //~ ERROR can't use type parameters from outer function; try using
 
     true
 }

src/test/compile-fail/issue-6642.rs

@@ -13,7 +13,6 @@ impl A {
     fn m(&self) {
         fn x() {
             self.m() //~ ERROR can't capture dynamic environment in a fn item
-            //~^ ERROR unresolved name `self`
         }
     }
 }

src/test/compile-fail/macro-inner-attributes.rs

@@ -26,6 +26,5 @@
 fn main() {
     a::bar();
     //~^ ERROR failed to resolve. Use of undeclared type or module `a`
-    //~^^ ERROR unresolved name `a::bar`
     b::bar();
 }

src/test/compile-fail/no-link.rs

@@ -14,6 +14,5 @@
 fn main() {
     unsafe {
         libc::abs(0);  //~ ERROR Use of undeclared type or module `libc`
-                      //~^ ERROR unresolved name `libc::abs`
     }
 }

src/test/compile-fail/resolve-type-param-in-item-in-trait.rs

@@ -18,7 +18,6 @@ enum Foo<B> {
             //~^ ERROR parameter `B` is never used
             Variance(A)
                 //~^ ERROR can't use type parameters from outer function
-                //~^^ ERROR type name `A` is undefined or not in scope
         }
     }
 }
@@ -27,8 +26,7 @@ trait TraitB<A> {
     fn outer(self) {
         struct Foo<B>(A);
                 //~^ ERROR can't use type parameters from outer function
-                //~^^ ERROR type name `A` is undefined or not in scope
-                //~^^^ ERROR parameter `B` is never used
+                //~^^ ERROR parameter `B` is never used
     }
 }
 
@@ -36,8 +34,7 @@ trait TraitC<A> {
     fn outer(self) {
         struct Foo<B> { a: A }
                 //~^ ERROR can't use type parameters from outer function
-                //~^^ ERROR type name `A` is undefined or not in scope
-                //~^^^ ERROR parameter `B` is never used
+                //~^^ ERROR parameter `B` is never used
     }
 }
 
@@ -45,7 +42,6 @@ trait TraitD<A> {
     fn outer(self) {
         fn foo<B>(a: A) { }
                 //~^ ERROR can't use type parameters from outer function
-                //~^^ ERROR type name `A` is undefined or not in scope
     }
 }