compiler: fix bug in handling of unordered set during exporting

    
    In CL 183850 a change was made to combine tracking/discovery of
    exported types and imported packages during export data generation. As
    a result of this refactoring a bug was introduced: the new code can
    potentially insert items into the exports set (an unordered_set) while
    iterating through the same set, which is illegal according to the spec
    for std::unordered_set.
    
    This patch fixes the problem by changing the type discovery phase to
    iterate through a separate list of sorted exports, as opposed to
    iterating through the main unordered set.  Also included is a change
    to fix the code that looks for variables that are referenced from
    inlined routine bodies (this code wasn't scanning all of the function
    that it needed to scan).
    
    New test case for this problem in CL 186697.
    
    Updates golang/go#33020.
    
    Reviewed-on: https://go-review.googlesource.com/c/gofrontend/+/185977

From-SVN: r273564

gcc/go/gofrontend/MERGE

-0e51b7e9c03c6f6bc3d06343f2050f17349ccdc3
+19ed722fb3ae5e618c746da20efb79fc837337cd
 
 The first line of this file holds the git revision number of the last
 merge done from the gofrontend repository.

gcc/go/gofrontend/export.cc

@@ -111,7 +111,7 @@ class Collect_export_references : public Traverse
     : Traverse(traverse_expressions
                | traverse_types),
       exp_(exp), exports_(exports), imports_(imports),
-      inline_fcn_worklist_(NULL)
+      inline_fcn_worklist_(NULL), exports_finalized_(false)
   { }
 
   // Initial entry point; performs a walk to expand the exports set.
@@ -121,7 +121,7 @@ class Collect_export_references : public Traverse
   // Second entry point (called after the method above), to find
   // all types referenced by exports.
   void
-  prepare_types();
+  prepare_types(const std::vector<Named_object*>& sorted_exports);
 
  protected:
   // Override of parent class method.
@@ -141,6 +141,13 @@ class Collect_export_references : public Traverse
   traverse_named_type(Named_type*);
 
  private:
+
+  // Add a named object to the exports set (during expand_exports()).
+  // Returns TRUE if a new object was added to the exports set,
+  // FALSE otherwise.
+  bool
+  add_to_exports(Named_object*);
+
   // The exporter.
   Export* exp_;
   // The set of named objects to export.
@@ -152,6 +159,8 @@ class Collect_export_references : public Traverse
   // Worklist of functions we are exporting with inline bodies that need
   // to be checked.
   std::vector<Named_object*>* inline_fcn_worklist_;
+  // Set to true if expand_exports() has been called and is complete.
+  bool exports_finalized_;
 };
 
 void
@@ -172,6 +181,18 @@ Collect_export_references::expand_exports(std::vector<Named_object*>* fcns)
 	}
     }
   this->inline_fcn_worklist_ = NULL;
+  this->exports_finalized_ = true;
+}
+
+bool
+Collect_export_references::add_to_exports(Named_object* no)
+{
+  std::pair<Unordered_set(Named_object*)::iterator, bool> ins =
+      this->exports_->insert(no);
+  // If the export list has been finalized, then we should not be
+  // adding anything new to the exports set.
+  go_assert(!this->exports_finalized_ || !ins.second);
+  return ins.second;
 }
 
 int
@@ -189,7 +210,7 @@ Collect_export_references::expression(Expression** pexpr)
           if (var_package != NULL)
             this->imports_->insert(var_package);
 
-	  this->exports_->insert(no);
+	  this->add_to_exports(no);
 	  no->var_value()->set_is_referenced_by_inline();
 	}
       return TRAVERSE_CONTINUE;
@@ -210,17 +231,16 @@ Collect_export_references::expression(Expression** pexpr)
 
       if (this->inline_fcn_worklist_ != NULL)
         {
-          std::pair<Unordered_set(Named_object*)::iterator, bool> ins =
-              this->exports_->insert(no);
+          bool added = this->add_to_exports(no);
 
           if (no->is_function())
             no->func_value()->set_is_referenced_by_inline();
 
-          // If ins.second is false then this object was already in
+          // If 'added' is false then this object was already in
           // exports_, in which case it was already added to
           // check_inline_refs_ the first time we added it to exports_, so
           // we don't need to add it again.
-          if (ins.second
+          if (added
               && no->is_function()
               && no->func_value()->export_for_inlining())
             this->inline_fcn_worklist_->push_back(no);
@@ -238,11 +258,11 @@ Collect_export_references::expression(Expression** pexpr)
 // exported inline function from another package).
 
 void
-Collect_export_references::prepare_types()
+Collect_export_references::prepare_types(const std::vector<Named_object*>& sorted_exports)
 {
   // Iterate through the exported objects and traverse any types encountered.
-  for (Unordered_set(Named_object*)::iterator p = this->exports_->begin();
-       p != this->exports_->end();
+  for (std::vector<Named_object*>::const_iterator p = sorted_exports.begin();
+       p != sorted_exports.end();
        ++p)
     {
       Named_object* no = *p;
@@ -506,7 +526,8 @@ Export::export_globals(const std::string& package_name,
 		       const std::map<std::string, Package*>& imports,
 		       const std::string& import_init_fn,
                        const Import_init_set& imported_init_fns,
-		       const Bindings* bindings)
+		       const Bindings* bindings,
+                       Unordered_set(Named_object*)* functions_marked_inline)
 {
   // If there have been any errors so far, don't try to export
   // anything.  That way the export code doesn't have to worry about
@@ -520,35 +541,21 @@ Export::export_globals(const std::string& package_name,
   // CHECK_INLINE_REFS is also on EXPORTS.
   Unordered_set(Named_object*) exports;
   std::vector<Named_object*> check_inline_refs;
+  check_inline_refs.reserve(functions_marked_inline->size());
+
+  // Add all functions/methods from the "marked inlined" set to the
+  // CHECK_INLINE_REFS worklist.
+  for (Unordered_set(Named_object*)::const_iterator p = functions_marked_inline->begin();
+       p != functions_marked_inline->end();
+       ++p)
+      check_inline_refs.push_back(*p);
 
   for (Bindings::const_definitions_iterator p = bindings->begin_definitions();
        p != bindings->end_definitions();
        ++p)
     {
       if (should_export(*p))
-	{
-	  exports.insert(*p);
-
-	  if ((*p)->is_function()
-	      && (*p)->func_value()->export_for_inlining())
-	    check_inline_refs.push_back(*p);
-	  else if ((*p)->is_type())
-	    {
-	      const Bindings* methods = (*p)->type_value()->local_methods();
-	      if (methods != NULL)
-		{
-		  for (Bindings::const_definitions_iterator pm =
-			 methods->begin_definitions();
-		       pm != methods->end_definitions();
-		       ++pm)
-		    {
-		      Function* fn = (*pm)->func_value();
-		      if (fn->export_for_inlining())
-			check_inline_refs.push_back(*pm);
-		    }
-		}
-	    }
-	}
+        exports.insert(*p);
     }
 
   for (Bindings::const_declarations_iterator p =
@@ -593,7 +600,7 @@ Export::export_globals(const std::string& package_name,
 
   // Collect up the set of types mentioned in things we're exporting,
   // and any packages that may be referred to indirectly.
-  collect.prepare_types();
+  collect.prepare_types(sorted_exports);
 
   // Assign indexes to all exported types and types referenced by
   // things we're exporting.  Return value is index of first non-exported

gcc/go/gofrontend/export.h

@@ -158,7 +158,8 @@ class Export : public String_dump
 		 const std::map<std::string, Package*>& imports,
 		 const std::string& import_init_fn,
 		 const Import_init_set& imported_init_fns,
-		 const Bindings* bindings);
+		 const Bindings* bindings,
+                 Unordered_set(Named_object*)* marked_inline_functions);
 
   // Record a type that is mentioned in export data. Return value is
   // TRUE for newly visited types, FALSE for types that have been seen

gcc/go/gofrontend/gogo.cc

@@ -5078,9 +5078,10 @@ Inline_within_budget::expression(Expression** pexpr)
 class Mark_inline_candidates : public Traverse
 {
  public:
-  Mark_inline_candidates()
+  Mark_inline_candidates(Unordered_set(Named_object*)* marked)
     : Traverse(traverse_functions
-	       | traverse_types)
+	       | traverse_types),
+      marked_functions_(marked)
   { }
 
   int
@@ -5097,6 +5098,9 @@ class Mark_inline_candidates : public Traverse
   // budget is a heuristic.  In the usual GCC spirit, we could
   // consider setting this via a command line option.
   const int budget_heuristic = 80;
+
+  // Set of named objects that are marked as inline candidates.
+  Unordered_set(Named_object*)* marked_functions_;
 };
 
 // Mark a function if it is an inline candidate.
@@ -5109,7 +5113,10 @@ Mark_inline_candidates::function(Named_object* no)
   Inline_within_budget iwb(&budget);
   func->block()->traverse(&iwb);
   if (budget >= 0)
-    func->set_export_for_inlining();
+    {
+      func->set_export_for_inlining();
+      this->marked_functions_->insert(no);
+    }
   return TRAVERSE_CONTINUE;
 }
 
@@ -5135,7 +5142,10 @@ Mark_inline_candidates::type(Type* t)
       Inline_within_budget iwb(&budget);
       func->block()->traverse(&iwb);
       if (budget >= 0)
-	func->set_export_for_inlining();
+        {
+          func->set_export_for_inlining();
+          this->marked_functions_->insert(no);
+        }
     }
   return TRAVERSE_CONTINUE;
 }
@@ -5150,7 +5160,8 @@ Gogo::do_exports()
 
   // Mark any functions whose body should be exported for inlining by
   // other packages.
-  Mark_inline_candidates mic;
+  Unordered_set(Named_object*) marked_functions;
+  Mark_inline_candidates mic(&marked_functions);
   this->traverse(&mic);
 
   // For now we always stream to a section.  Later we may want to
@@ -5187,7 +5198,8 @@ Gogo::do_exports()
 		     this->imports_,
 		     init_fn_name,
 		     this->imported_init_fns_,
-		     this->package_->bindings());
+		     this->package_->bindings(),
+                     &marked_functions);
 
   if (!this->c_header_.empty() && !saw_errors())
     this->write_c_header();