Changeset 66daee4 for src/ControlStruct

Timestamp:

Jan 31, 2022, 10:35:45 PM (3 years ago)

Author:

Peter A. Buhr <pabuhr@…>

Branches:

ADT, ast-experimental, enum, forall-pointer-decay, master, pthread-emulation, qualifiedEnum

Children:

7b38b28

Parents:

dd3263c

Message:

formatting

Location:

src/ControlStruct

Files:

• MultiLevelExit.cpp (modified) (25 diffs)
• MultiLevelExit.hpp (modified) (2 diffs)

src/ControlStruct/MultiLevelExit.cpp ¶

@@ -9 +9 @@
 // Author           : Andrew Beach
 // Created On       : Mon Nov  1 13:48:00 2021
-// Last Modified By : Andrew Beach
-// Last Modified On : Mon Nov  8 10:56:00 2021
-// Update Count     : 2
+// Last Modified By : Peter A. Buhr
+// Last Modified On : Mon Jan 31 22:35:08 2022
+// Update Count     : 28
 //
 
@@ -18 +18 @@
 #include "AST/Pass.hpp"
 #include "AST/Stmt.hpp"
-#include "ControlStruct/LabelGenerator.h"
+#include "LabelGeneratorNew.hpp"
 
 #include <set>
+using namespace std;
+using namespace ast;
 
 namespace ControlStruct {
-
-namespace {
-
 class Entry {
-public:
-        const ast::Stmt * stmt;
-private:
+  public:
+        const Stmt * stmt;
+  private:
         // Organized like a manual ADT. Avoids creating a bunch of dead data.
         struct Target {
-                ast::Label label;
+                Label label;
                 bool used = false;
-                Target( const ast::Label & label ) : label( label ) {}
+                Target( const Label & label ) : label( label ) {}
                 Target() : label( CodeLocation() ) {}
         };
@@ -41 +40 @@
 
         enum Kind {
-                ForStmt, WhileStmt, CompoundStmt, IfStmt, CaseStmt, SwitchStmt, TryStmt
+                ForStmtK, WhileStmtK, CompoundStmtK, IfStmtK, CaseStmtK, SwitchStmtK, TryStmtK
         } kind;
 
         bool fallDefaultValid = true;
 
-        static ast::Label & useTarget( Target & target ) {
+        static Label & useTarget( Target & target ) {
                 target.used = true;
                 return target.label;
         }
 
-public:
-        Entry( const ast::ForStmt * stmt, ast::Label breakExit, ast::Label contExit ) :
-                stmt( stmt ), firstTarget( breakExit ), secondTarget( contExit ), kind( ForStmt ) {}
-        Entry( const ast::WhileStmt * stmt, ast::Label breakExit, ast::Label contExit ) :
-                stmt( stmt ), firstTarget( breakExit ), secondTarget( contExit ), kind( WhileStmt ) {}
-        Entry( const ast::CompoundStmt *stmt, ast::Label breakExit ) :
-                stmt( stmt ), firstTarget( breakExit ), secondTarget(), kind( CompoundStmt ) {}
-        Entry( const ast::IfStmt *stmt, ast::Label breakExit ) :
-                stmt( stmt ), firstTarget( breakExit ), secondTarget(), kind( IfStmt ) {}
-        Entry( const ast::CaseStmt *stmt, ast::Label fallExit ) :
-                stmt( stmt ), firstTarget( fallExit ), secondTarget(), kind( CaseStmt ) {}
-        Entry( const ast::SwitchStmt *stmt, ast::Label breakExit, ast::Label fallDefaultExit ) :
-                stmt( stmt ), firstTarget( breakExit ), secondTarget( fallDefaultExit ), kind( SwitchStmt ) {}
-        Entry( const ast::TryStmt *stmt, ast::Label breakExit ) :
-                stmt( stmt ), firstTarget( breakExit ), secondTarget(), kind( TryStmt ) {}
-
-        bool isContTarget() const { return kind <= WhileStmt; }
-        bool isBreakTarget() const { return CaseStmt != kind; }
-        bool isFallTarget() const { return CaseStmt == kind; }
-        bool isFallDefaultTarget() const { return SwitchStmt == kind; }
-
-        ast::Label useContExit() { assert( kind <= WhileStmt ); return useTarget(secondTarget); }
-        ast::Label useBreakExit() { assert( CaseStmt != kind ); return useTarget(firstTarget); }
-        ast::Label useFallExit() { assert( CaseStmt == kind );  return useTarget(firstTarget); }
-        ast::Label useFallDefaultExit() { assert( SwitchStmt == kind ); return useTarget(secondTarget); }
-
-        bool isContUsed() const { assert( kind <= WhileStmt ); return secondTarget.used; }
-        bool isBreakUsed() const { assert( CaseStmt != kind ); return firstTarget.used; }
-        bool isFallUsed() const { assert( CaseStmt == kind ); return firstTarget.used; }
-        bool isFallDefaultUsed() const { assert( SwitchStmt == kind ); return secondTarget.used; }
+  public:
+        Entry( const ForStmt * stmt, Label breakExit, Label contExit ) :
+                stmt( stmt ), firstTarget( breakExit ), secondTarget( contExit ), kind( ForStmtK ) {}
+        Entry( const WhileStmt * stmt, Label breakExit, Label contExit ) :
+                stmt( stmt ), firstTarget( breakExit ), secondTarget( contExit ), kind( WhileStmtK ) {}
+        Entry( const CompoundStmt *stmt, Label breakExit ) :
+                stmt( stmt ), firstTarget( breakExit ), secondTarget(), kind( CompoundStmtK ) {}
+        Entry( const IfStmt *stmt, Label breakExit ) :
+                stmt( stmt ), firstTarget( breakExit ), secondTarget(), kind( IfStmtK ) {}
+        Entry( const CaseStmt *stmt, Label fallExit ) :
+                stmt( stmt ), firstTarget( fallExit ), secondTarget(), kind( CaseStmtK ) {}
+        Entry( const SwitchStmt *stmt, Label breakExit, Label fallDefaultExit ) :
+                stmt( stmt ), firstTarget( breakExit ), secondTarget( fallDefaultExit ), kind( SwitchStmtK ) {}
+        Entry( const TryStmt *stmt, Label breakExit ) :
+                stmt( stmt ), firstTarget( breakExit ), secondTarget(), kind( TryStmtK ) {}
+
+        bool isContTarget() const { return kind <= WhileStmtK; }
+        bool isBreakTarget() const { return kind != CaseStmtK; }
+        bool isFallTarget() const { return kind == CaseStmtK; }
+        bool isFallDefaultTarget() const { return kind == SwitchStmtK; }
+
+        Label useContExit() { assert( kind <= WhileStmtK ); return useTarget(secondTarget); }
+        Label useBreakExit() { assert( kind != CaseStmtK ); return useTarget(firstTarget); }
+        Label useFallExit() { assert( kind == CaseStmtK );  return useTarget(firstTarget); }
+        Label useFallDefaultExit() { assert( kind == SwitchStmtK ); return useTarget(secondTarget); }
+
+        bool isContUsed() const { assert( kind <= WhileStmtK ); return secondTarget.used; }
+        bool isBreakUsed() const { assert( kind != CaseStmtK ); return firstTarget.used; }
+        bool isFallUsed() const { assert( kind == CaseStmtK ); return firstTarget.used; }
+        bool isFallDefaultUsed() const { assert( kind == SwitchStmtK ); return secondTarget.used; }
         void seenDefault() { fallDefaultValid = false; }
         bool isFallDefaultValid() const { return fallDefaultValid; }
 };
 
-// Helper predicates used in std::find_if calls (it doesn't take methods):
+// Helper predicates used in find_if calls (it doesn't take methods):
 bool isBreakTarget( const Entry & entry ) {
         return entry.isBreakTarget();
@@ -103 +102 @@
 
 struct MultiLevelExitCore final :
-                public ast::WithVisitorRef<MultiLevelExitCore>,
-                public ast::WithShortCircuiting, public ast::WithGuards {
+        public WithVisitorRef<MultiLevelExitCore>,
+        public WithShortCircuiting, public WithGuards {
         MultiLevelExitCore( const LabelToStmt & lt );
 
-        void previsit( const ast::FunctionDecl * );
-
-        const ast::CompoundStmt * previsit( const ast::CompoundStmt * );
-        const ast::BranchStmt * postvisit( const ast::BranchStmt * );
-        void previsit( const ast::WhileStmt * );
-        const ast::WhileStmt * postvisit( const ast::WhileStmt * );
-        void previsit( const ast::ForStmt * );
-        const ast::ForStmt * postvisit( const ast::ForStmt * );
-        const ast::CaseStmt * previsit( const ast::CaseStmt * );
-        void previsit( const ast::IfStmt * );
-        const ast::IfStmt * postvisit( const ast::IfStmt * );
-        void previsit( const ast::SwitchStmt * );
-        const ast::SwitchStmt * postvisit( const ast::SwitchStmt * );
-        void previsit( const ast::ReturnStmt * );
-        void previsit( const ast::TryStmt * );
-        void postvisit( const ast::TryStmt * );
-        void previsit( const ast::FinallyStmt * );
-
-        const ast::Stmt * mutateLoop( const ast::Stmt * body, Entry& );
+        void previsit( const FunctionDecl * );
+
+        const CompoundStmt * previsit( const CompoundStmt * );
+        const BranchStmt * postvisit( const BranchStmt * );
+        void previsit( const WhileStmt * );
+        const WhileStmt * postvisit( const WhileStmt * );
+        void previsit( const ForStmt * );
+        const ForStmt * postvisit( const ForStmt * );
+        const CaseStmt * previsit( const CaseStmt * );
+        void previsit( const IfStmt * );
+        const IfStmt * postvisit( const IfStmt * );
+        void previsit( const SwitchStmt * );
+        const SwitchStmt * postvisit( const SwitchStmt * );
+        void previsit( const ReturnStmt * );
+        void previsit( const TryStmt * );
+        void postvisit( const TryStmt * );
+        void previsit( const FinallyStmt * );
+
+        const Stmt * mutateLoop( const Stmt * body, Entry& );
 
         const LabelToStmt & target_table;
-        std::set<ast::Label> fallthrough_labels;
-        std::vector<Entry> enclosing_control_structures;
-        ast::Label break_label;
+        set<Label> fallthrough_labels;
+        vector<Entry> enclosing_control_structures;
+        Label break_label;
         bool inFinally;
 
@@ -138 +137 @@
         const LoopNode * posthandleLoopStmt( const LoopNode * loopStmt );
 
-        std::list<ast::ptr<ast::Stmt>> fixBlock(
-                const std::list<ast::ptr<ast::Stmt>> & kids, bool caseClause );
+        list<ptr<Stmt>> fixBlock(
+                const list<ptr<Stmt>> & kids, bool caseClause );
 
         template<typename UnaryPredicate>
         auto findEnclosingControlStructure( UnaryPredicate pred ) {
-                return std::find_if( enclosing_control_structures.rbegin(),
-                        enclosing_control_structures.rend(), pred );
+                return find_if( enclosing_control_structures.rbegin(),
+                                                enclosing_control_structures.rend(), pred );
         }
 };
 
-ast::NullStmt * labelledNullStmt(
-                const CodeLocation & cl, const ast::Label & label ) {
-        return new ast::NullStmt( cl, std::vector<ast::Label>{ label } );
+NullStmt * labelledNullStmt(
+        const CodeLocation & cl, const Label & label ) {
+        return new NullStmt( cl, vector<Label>{ label } );
 }
 
@@ -158 +157 @@
 {}
 
-void MultiLevelExitCore::previsit( const ast::FunctionDecl * ) {
+void MultiLevelExitCore::previsit( const FunctionDecl * ) {
         visit_children = false;
 }
 
-const ast::CompoundStmt * MultiLevelExitCore::previsit(
-                const ast::CompoundStmt * stmt ) {
+const CompoundStmt * MultiLevelExitCore::previsit(
+        const CompoundStmt * stmt ) {
         visit_children = false;
         bool isLabeled = !stmt->labels.empty();
         if ( isLabeled ) {
-                ast::Label breakLabel = LabelGenerator::newLabel( "blockBreak", stmt );
+                Label breakLabel = newLabel( "blockBreak", stmt );
                 enclosing_control_structures.emplace_back( stmt, breakLabel );
                 GuardAction( [this]() { enclosing_control_structures.pop_back(); } );
         }
 
-        auto mutStmt = ast::mutate( stmt );
+        auto mutStmt = mutate( stmt );
         // A child statement may set the break label.
-        mutStmt->kids = std::move( fixBlock( stmt->kids, false ) );
+        mutStmt->kids = move( fixBlock( stmt->kids, false ) );
 
         if ( isLabeled ) {
@@ -187 +186 @@
 
 size_t getUnusedIndex(
-                const ast::Stmt * stmt, const ast::Label & originalTarget ) {
+        const Stmt * stmt, const Label & originalTarget ) {
         const size_t size = stmt->labels.size();
 
-        // If the label is empty, we can skip adding the unused attribute:
-        if ( originalTarget.empty() ) return size;
+        // If the label is empty, do not add unused attribute.
+  if ( originalTarget.empty() ) return size;
 
         // Search for a label that matches the originalTarget.
         for ( size_t i = 0 ; i < size ; ++i ) {
-                const ast::Label & label = stmt->labels[i];
+                const Label & label = stmt->labels[i];
                 if ( label == originalTarget ) {
-                        for ( const ast::Attribute * attr : label.attributes ) {
+                        for ( const Attribute * attr : label.attributes ) {
                                 if ( attr->name == "unused" ) return size;
                         }
@@ -204 +203 @@
         }
         assertf( false, "Could not find label '%s' on statement %s",
-                originalTarget.name.c_str(), toString( stmt ).c_str() );
-}
-
-const ast::Stmt * addUnused(
-                const ast::Stmt * stmt, const ast::Label & originalTarget ) {
+                         originalTarget.name.c_str(), toString( stmt ).c_str() );
+}
+
+const Stmt * addUnused(
+        const Stmt * stmt, const Label & originalTarget ) {
         size_t i = getUnusedIndex( stmt, originalTarget );
         if ( i == stmt->labels.size() ) {
                 return stmt;
         }
-        ast::Stmt * mutStmt = ast::mutate( stmt );
-        mutStmt->labels[i].attributes.push_back( new ast::Attribute( "unused" ) );
+        Stmt * mutStmt = mutate( stmt );
+        mutStmt->labels[i].attributes.push_back( new Attribute( "unused" ) );
         return mutStmt;
 }
 
-const ast::BranchStmt * MultiLevelExitCore::postvisit( const ast::BranchStmt * stmt ) {
-        std::vector<Entry>::reverse_iterator targetEntry =
+const BranchStmt * MultiLevelExitCore::postvisit( const BranchStmt * stmt ) {
+        vector<Entry>::reverse_iterator targetEntry =
                 enclosing_control_structures.rend();
         switch ( stmt->kind ) {
-        case ast::BranchStmt::Goto:
+          case BranchStmt::Goto:
                 return stmt;
-        case ast::BranchStmt::Continue:
-        case ast::BranchStmt::Break: {
-                bool isContinue = stmt->kind == ast::BranchStmt::Continue;
-                // Handle unlabeled break and continue.
-                if ( stmt->target.empty() ) {
-                        if ( isContinue ) {
-                                targetEntry = findEnclosingControlStructure( isContinueTarget );
-                        } else {
-                                if ( enclosing_control_structures.empty() ) {
-                                        SemanticError( stmt->location,
-                                                "'break' outside a loop, 'switch', or labelled block" );
-                                }
-                                targetEntry = findEnclosingControlStructure( isBreakTarget );
-                        }
-                // Handle labeled break and continue.
-                } else {
-                        // Lookup label in table to find attached control structure.
-                        targetEntry = findEnclosingControlStructure(
-                                [ targetStmt = target_table.at(stmt->target) ](auto entry){
-                                        return entry.stmt == targetStmt;
-                                } );
-                }
-                // Ensure that selected target is valid.
-                if ( targetEntry == enclosing_control_structures.rend() || ( isContinue && !isContinueTarget( *targetEntry ) ) ) {
-                        SemanticError(
-                                stmt->location,
-                                toString( (isContinue ? "'continue'" : "'break'"),
-                                        " target must be an enclosing ",
-                                        (isContinue ? "loop: " : "control structure: "),
-                                        stmt->originalTarget ) );
-                }
-                break;
-        }
-        case ast::BranchStmt::FallThrough: {
-                targetEntry = findEnclosingControlStructure( isFallthroughTarget );
-                // Check that target is valid.
-                if ( targetEntry == enclosing_control_structures.rend() ) {
-                        SemanticError( stmt->location, "'fallthrough' must be enclosed in a 'switch' or 'choose'" );
-                }
-                if ( !stmt->target.empty() ) {
-                        // Labelled fallthrough: target must be a valid fallthough label.
-                        if ( !fallthrough_labels.count( stmt->target ) ) {
-                                SemanticError( stmt->location, toString( "'fallthrough' target must be a later case statement: ", stmt->originalTarget ) );
-                        }
-                        return new ast::BranchStmt(
-                                stmt->location, ast::BranchStmt::Goto, stmt->originalTarget );
-                }
-                break;
-        }
-        case ast::BranchStmt::FallThroughDefault: {
-                targetEntry = findEnclosingControlStructure( isFallthroughDefaultTarget );
-
-                // Check that this is in a switch or choose statement.
-                if ( targetEntry == enclosing_control_structures.rend() ) {
-                        SemanticError( stmt->location, "'fallthrough' must be enclosed in a 'switch' or 'choose'" );
-                }
-
-                // Check that the switch or choose has a default clause.
-                auto switchStmt = strict_dynamic_cast< const ast::SwitchStmt * >(
-                        targetEntry->stmt );
-                bool foundDefault = false;
-                for ( auto subStmt : switchStmt->stmts ) {
-                        const ast::CaseStmt * caseStmt = subStmt.strict_as<ast::CaseStmt>();
-                        if ( caseStmt->isDefault() ) {
-                                foundDefault = true;
-                                break;
-                        }
-                }
-                if ( !foundDefault ) {
-                        SemanticError( stmt->location, "'fallthrough default' must be enclosed in a 'switch' or 'choose' control structure with a 'default' clause" );
-                }
-                break;
-        }
-        default:
+          case BranchStmt::Continue:
+          case BranchStmt::Break: {
+                  bool isContinue = stmt->kind == BranchStmt::Continue;
+                  // Handle unlabeled break and continue.
+                  if ( stmt->target.empty() ) {
+                          if ( isContinue ) {
+                                  targetEntry = findEnclosingControlStructure( isContinueTarget );
+                          } else {
+                                  if ( enclosing_control_structures.empty() ) {
+                                          SemanticError( stmt->location,
+                                                                         "'break' outside a loop, 'switch', or labelled block" );
+                                  }
+                                  targetEntry = findEnclosingControlStructure( isBreakTarget );
+                          }
+                          // Handle labeled break and continue.
+                  } else {
+                          // Lookup label in table to find attached control structure.
+                          targetEntry = findEnclosingControlStructure(
+                                  [ targetStmt = target_table.at(stmt->target) ](auto entry){
+                                          return entry.stmt == targetStmt;
+                                  } );
+                  }
+                  // Ensure that selected target is valid.
+                  if ( targetEntry == enclosing_control_structures.rend() || ( isContinue && !isContinueTarget( *targetEntry ) ) ) {
+                          SemanticError( stmt->location, toString( (isContinue ? "'continue'" : "'break'"),
+                                                        " target must be an enclosing ", (isContinue ? "loop: " : "control structure: "),
+                                                        stmt->originalTarget ) );
+                  }
+                  break;
+          }
+          case BranchStmt::FallThrough: {
+                  targetEntry = findEnclosingControlStructure( isFallthroughTarget );
+                  // Check that target is valid.
+                  if ( targetEntry == enclosing_control_structures.rend() ) {
+                          SemanticError( stmt->location, "'fallthrough' must be enclosed in a 'switch' or 'choose'" );
+                  }
+                  if ( !stmt->target.empty() ) {
+                          // Labelled fallthrough: target must be a valid fallthough label.
+                          if ( !fallthrough_labels.count( stmt->target ) ) {
+                                  SemanticError( stmt->location, toString( "'fallthrough' target must be a later case statement: ",
+                                                                                                                   stmt->originalTarget ) );
+                          }
+                          return new BranchStmt(
+                                  stmt->location, BranchStmt::Goto, stmt->originalTarget );
+                  }
+                  break;
+          }
+          case BranchStmt::FallThroughDefault: {
+                  targetEntry = findEnclosingControlStructure( isFallthroughDefaultTarget );
+
+                  // Check if in switch or choose statement.
+                  if ( targetEntry == enclosing_control_structures.rend() ) {
+                          SemanticError( stmt->location, "'fallthrough' must be enclosed in a 'switch' or 'choose'" );
+                  }
+
+                  // Check if switch or choose has default clause.
+                  auto switchStmt = strict_dynamic_cast< const SwitchStmt * >( targetEntry->stmt );
+                  bool foundDefault = false;
+                  for ( auto subStmt : switchStmt->stmts ) {
+                          const CaseStmt * caseStmt = subStmt.strict_as<CaseStmt>();
+                          if ( caseStmt->isDefault() ) {
+                                  foundDefault = true;
+                                  break;
+                          }
+                  }
+                  if ( ! foundDefault ) {
+                          SemanticError( stmt->location, "'fallthrough default' must be enclosed in a 'switch' or 'choose'"
+                                                         "control structure with a 'default' clause" );
+                  }
+                  break;
+          }
+          default:
                 assert( false );
         }
 
         // Branch error checks: get the appropriate label name:
-        // (This label will always be replaced.)
-        ast::Label exitLabel( CodeLocation(), "" );
+        // (This label is always replaced.)
+        Label exitLabel( CodeLocation(), "" );
         switch ( stmt->kind ) {
-        case ast::BranchStmt::Break:
+          case BranchStmt::Break:
                 assert( !targetEntry->useBreakExit().empty() );
                 exitLabel = targetEntry->useBreakExit();
                 break;
-        case ast::BranchStmt::Continue:
+          case BranchStmt::Continue:
                 assert( !targetEntry->useContExit().empty() );
                 exitLabel = targetEntry->useContExit();
                 break;
-        case ast::BranchStmt::FallThrough:
+          case BranchStmt::FallThrough:
                 assert( !targetEntry->useFallExit().empty() );
                 exitLabel = targetEntry->useFallExit();
                 break;
-        case ast::BranchStmt::FallThroughDefault:
+          case BranchStmt::FallThroughDefault:
                 assert( !targetEntry->useFallDefaultExit().empty() );
                 exitLabel = targetEntry->useFallDefaultExit();
                 // Check that fallthrough default comes before the default clause.
                 if ( !targetEntry->isFallDefaultValid() ) {
-                        SemanticError( stmt->location,
-                                "'fallthrough default' must precede the 'default' clause" );
+                        SemanticError( stmt->location, "'fallthrough default' must precede the 'default' clause" );
                 }
                 break;
-        default:
+          default:
                 assert(0);
         }
@@ -333 +329 @@
         targetEntry->stmt = addUnused( targetEntry->stmt, stmt->originalTarget );
 
-        // Replace this with a goto to make later passes more uniform.
-        return new ast::BranchStmt( stmt->location, ast::BranchStmt::Goto, exitLabel );
-}
-
-void MultiLevelExitCore::previsit( const ast::WhileStmt * stmt ) {
+        // Replace with goto to make later passes more uniform.
+        return new BranchStmt( stmt->location, BranchStmt::Goto, exitLabel );
+}
+
+void MultiLevelExitCore::previsit( const WhileStmt * stmt ) {
         return prehandleLoopStmt( stmt );
 }
 
-const ast::WhileStmt * MultiLevelExitCore::postvisit( const ast::WhileStmt * stmt ) {
+const WhileStmt * MultiLevelExitCore::postvisit( const WhileStmt * stmt ) {
         return posthandleLoopStmt( stmt );
 }
 
-void MultiLevelExitCore::previsit( const ast::ForStmt * stmt ) {
+void MultiLevelExitCore::previsit( const ForStmt * stmt ) {
         return prehandleLoopStmt( stmt );
 }
 
-const ast::ForStmt * MultiLevelExitCore::postvisit( const ast::ForStmt * stmt ) {
+const ForStmt * MultiLevelExitCore::postvisit( const ForStmt * stmt ) {
         return posthandleLoopStmt( stmt );
 }
@@ -355 +351 @@
 // Mimic what the built-in push_front would do anyways. It is O(n).
 void push_front(
-                std::vector<ast::ptr<ast::Stmt>> & vec, const ast::Stmt * element ) {
+        vector<ptr<Stmt>> & vec, const Stmt * element ) {
         vec.emplace_back( nullptr );
         for ( size_t i = vec.size() - 1 ; 0 < i ; --i ) {
-                vec[ i ] = std::move( vec[ i - 1 ] );
+                vec[ i ] = move( vec[ i - 1 ] );
         }
         vec[ 0 ] = element;
 }
 
-const ast::CaseStmt * MultiLevelExitCore::previsit( const ast::CaseStmt * stmt ) {
+const CaseStmt * MultiLevelExitCore::previsit( const CaseStmt * stmt ) {
         visit_children = false;
 
-        // If it is the default, mark the default as seen.
+        // If default, mark seen.
         if ( stmt->isDefault() ) {
                 assert( !enclosing_control_structures.empty() );
@@ -373 +369 @@
 
         // The cond may not exist, but if it does update it now.
-        visitor->maybe_accept( stmt, &ast::CaseStmt::cond );
+        visitor->maybe_accept( stmt, &CaseStmt::cond );
 
         // Just save the mutated node for simplicity.
-        ast::CaseStmt * mutStmt = ast::mutate( stmt );
-
-        ast::Label fallLabel = LabelGenerator::newLabel( "fallThrough", stmt );
-        if ( !mutStmt->stmts.empty() ) {
+        CaseStmt * mutStmt = mutate( stmt );
+
+        Label fallLabel = newLabel( "fallThrough", stmt );
+        if ( ! mutStmt->stmts.empty() ) {
                 // Ensure that the stack isn't corrupted by exceptions in fixBlock.
                 auto guard = makeFuncGuard(
                         [&](){ enclosing_control_structures.emplace_back( mutStmt, fallLabel ); },
                         [this](){ enclosing_control_structures.pop_back(); }
-                );
+                        );
 
                 // These should already be in a block.
-                auto block = ast::mutate( mutStmt->stmts.front().strict_as<ast::CompoundStmt>() );
+                auto block = mutate( mutStmt->stmts.front().strict_as<CompoundStmt>() );
                 block->kids = fixBlock( block->kids, true );
 
                 // Add fallthrough label if necessary.
-                assert( !enclosing_control_structures.empty() );
+                assert( ! enclosing_control_structures.empty() );
                 Entry & entry = enclosing_control_structures.back();
                 if ( entry.isFallUsed() ) {
@@ -398 +394 @@
                 }
         }
-        assert( !enclosing_control_structures.empty() );
+        assert( ! enclosing_control_structures.empty() );
         Entry & entry = enclosing_control_structures.back();
-        assertf( dynamic_cast< const ast::SwitchStmt * >( entry.stmt ),
-                "Control structure enclosing a case clause must be a switch, but is: %s",
-                toString( entry.stmt ).c_str() );
+        assertf( dynamic_cast< const SwitchStmt * >( entry.stmt ),
+                         "Control structure enclosing a case clause must be a switch, but is: %s",
+                         toString( entry.stmt ).c_str() );
         if ( mutStmt->isDefault() ) {
                 if ( entry.isFallDefaultUsed() ) {
                         // Add fallthrough default label if necessary.
                         push_front( mutStmt->stmts, labelledNullStmt(
-                                stmt->location, entry.useFallDefaultExit()
-                        ) );
+                                                        stmt->location, entry.useFallDefaultExit()
+                                                        ) );
                 }
         }
@@ -414 +410 @@
 }
 
-void MultiLevelExitCore::previsit( const ast::IfStmt * stmt ) {
+void MultiLevelExitCore::previsit( const IfStmt * stmt ) {
         bool labeledBlock = !stmt->labels.empty();
         if ( labeledBlock ) {
-                ast::Label breakLabel = LabelGenerator::newLabel( "blockBreak", stmt );
+                Label breakLabel = newLabel( "blockBreak", stmt );
                 enclosing_control_structures.emplace_back( stmt, breakLabel );
                 GuardAction( [this](){ enclosing_control_structures.pop_back(); } );
@@ -423 +419 @@
 }
 
-const ast::IfStmt * MultiLevelExitCore::postvisit( const ast::IfStmt * stmt ) {
+const IfStmt * MultiLevelExitCore::postvisit( const IfStmt * stmt ) {
         bool labeledBlock = !stmt->labels.empty();
         if ( labeledBlock ) {
@@ -434 +430 @@
 }
 
-bool isDefaultCase( const ast::ptr<ast::Stmt> & stmt ) {
-        const ast::CaseStmt * caseStmt = stmt.strict_as<ast::CaseStmt>();
+bool isDefaultCase( const ptr<Stmt> & stmt ) {
+        const CaseStmt * caseStmt = stmt.strict_as<CaseStmt>();
         return caseStmt->isDefault();
 }
 
-void MultiLevelExitCore::previsit( const ast::SwitchStmt * stmt ) {
-        ast::Label label = LabelGenerator::newLabel( "switchBreak", stmt );
-        auto it = std::find_if( stmt->stmts.rbegin(), stmt->stmts.rend(), isDefaultCase );
-
-        const ast::CaseStmt * defaultCase = it != stmt->stmts.rend()
-                ? (it)->strict_as<ast::CaseStmt>() : nullptr;
-        ast::Label defaultLabel = defaultCase
-                ? LabelGenerator::newLabel( "fallThroughDefault", defaultCase )
-                : ast::Label( stmt->location, "" );
+void MultiLevelExitCore::previsit( const SwitchStmt * stmt ) {
+        Label label = newLabel( "switchBreak", stmt );
+        auto it = find_if( stmt->stmts.rbegin(), stmt->stmts.rend(), isDefaultCase );
+
+        const CaseStmt * defaultCase = it != stmt->stmts.rend()
+                ? (it)->strict_as<CaseStmt>() : nullptr;
+        Label defaultLabel = defaultCase
+                ? newLabel( "fallThroughDefault", defaultCase )
+                : Label( stmt->location, "" );
         enclosing_control_structures.emplace_back( stmt, label, defaultLabel );
         GuardAction( [this]() { enclosing_control_structures.pop_back(); } );
 
         // Collect valid labels for fallthrough. It starts with all labels at
-        // this level, then removed as we see them in traversal.
-        for ( const ast::Stmt * stmt : stmt->stmts ) {
-                auto * caseStmt = strict_dynamic_cast< const ast::CaseStmt * >( stmt );
+        // this level, then remove as each is seen during traversal.
+        for ( const Stmt * stmt : stmt->stmts ) {
+                auto * caseStmt = strict_dynamic_cast< const CaseStmt * >( stmt );
                 if ( caseStmt->stmts.empty() ) continue;
-                auto block = caseStmt->stmts.front().strict_as<ast::CompoundStmt>();
-                for ( const ast::Stmt * stmt : block->kids ) {
-                        for ( const ast::Label & l : stmt->labels ) {
+                auto block = caseStmt->stmts.front().strict_as<CompoundStmt>();
+                for ( const Stmt * stmt : block->kids ) {
+                        for ( const Label & l : stmt->labels ) {
                                 fallthrough_labels.insert( l );
                         }
@@ -465 +461 @@
 }
 
-const ast::SwitchStmt * MultiLevelExitCore::postvisit( const ast::SwitchStmt * stmt ) {
+const SwitchStmt * MultiLevelExitCore::postvisit( const SwitchStmt * stmt ) {
         assert( !enclosing_control_structures.empty() );
         Entry & entry = enclosing_control_structures.back();
         assert( entry.stmt == stmt );
 
-        // Only run if we need to generate the break label.
+        // Only run to generate the break label.
         if ( entry.isBreakUsed() ) {
                 // To keep the switch statements uniform (all direct children of a
                 // SwitchStmt should be CastStmts), append the exit label and break
                 // to the last case, create a default case is there are no cases.
-                ast::SwitchStmt * mutStmt = ast::mutate( stmt );
+                SwitchStmt * mutStmt = mutate( stmt );
                 if ( mutStmt->stmts.empty() ) {
-                        mutStmt->stmts.push_back( new ast::CaseStmt(
-                                mutStmt->location, nullptr, {} ));
-                }
-
-                auto caseStmt = mutStmt->stmts.back().strict_as<ast::CaseStmt>();
-                auto mutCase = ast::mutate( caseStmt );
+                        mutStmt->stmts.push_back( new CaseStmt(
+                                                                                  mutStmt->location, nullptr, {} ));
+                }
+
+                auto caseStmt = mutStmt->stmts.back().strict_as<CaseStmt>();
+                auto mutCase = mutate( caseStmt );
                 mutStmt->stmts.back() = mutCase;
 
-                ast::Label label( mutCase->location, "breakLabel" );
-                auto branch = new ast::BranchStmt( mutCase->location, ast::BranchStmt::Break, label );
+                Label label( mutCase->location, "breakLabel" );
+                auto branch = new BranchStmt( mutCase->location, BranchStmt::Break, label );
                 branch->labels.push_back( entry.useBreakExit() );
                 mutCase->stmts.push_back( branch );
@@ -495 +491 @@
 }
 
-void MultiLevelExitCore::previsit( const ast::ReturnStmt * stmt ) {
+void MultiLevelExitCore::previsit( const ReturnStmt * stmt ) {
         if ( inFinally ) {
                 SemanticError( stmt->location, "'return' may not appear in a finally clause" );
@@ -501 +497 @@
 }
 
-void MultiLevelExitCore::previsit( const ast::TryStmt * stmt ) {
+void MultiLevelExitCore::previsit( const TryStmt * stmt ) {
         bool isLabeled = !stmt->labels.empty();
         if ( isLabeled ) {
-                ast::Label breakLabel = LabelGenerator::newLabel( "blockBreak", stmt );
+                Label breakLabel = newLabel( "blockBreak", stmt );
                 enclosing_control_structures.emplace_back( stmt, breakLabel );
                 GuardAction([this](){ enclosing_control_structures.pop_back(); } );
@@ -510 +506 @@
 }
 
-void MultiLevelExitCore::postvisit( const ast::TryStmt * stmt ) {
+void MultiLevelExitCore::postvisit( const TryStmt * stmt ) {
         bool isLabeled = !stmt->labels.empty();
         if ( isLabeled ) {
@@ -520 +516 @@
 }
 
-void MultiLevelExitCore::previsit( const ast::FinallyStmt * ) {
-        GuardAction([this, old = std::move(enclosing_control_structures)](){
-                enclosing_control_structures = std::move(old);
-        });
-        enclosing_control_structures = std::vector<Entry>();
+void MultiLevelExitCore::previsit( const FinallyStmt * ) {
+        GuardAction([this, old = move(enclosing_control_structures)](){
+                                        enclosing_control_structures = move(old);
+                                });
+        enclosing_control_structures = vector<Entry>();
         GuardValue( inFinally ) = true;
 }
 
-const ast::Stmt * MultiLevelExitCore::mutateLoop(
-                const ast::Stmt * body, Entry & entry ) {
+const Stmt * MultiLevelExitCore::mutateLoop(
+        const Stmt * body, Entry & entry ) {
         if ( entry.isBreakUsed() ) {
                 break_label = entry.useBreakExit();
@@ -535 +531 @@
 
         if ( entry.isContUsed() ) {
-                ast::CompoundStmt * new_body = new ast::CompoundStmt( body->location );
+                CompoundStmt * new_body = new CompoundStmt( body->location );
                 new_body->kids.push_back( body );
                 new_body->kids.push_back(
@@ -549 +545 @@
         // Remember is loop before going onto mutate the body.
         // The labels will be folded in if they are used.
-        ast::Label breakLabel = LabelGenerator::newLabel( "loopBreak", loopStmt );
-        ast::Label contLabel = LabelGenerator::newLabel( "loopContinue", loopStmt );
+        Label breakLabel = newLabel( "loopBreak", loopStmt );
+        Label contLabel = newLabel( "loopContinue", loopStmt );
         enclosing_control_structures.emplace_back( loopStmt, breakLabel, contLabel );
         GuardAction( [this](){ enclosing_control_structures.pop_back(); } );
@@ -561 +557 @@
         assert( entry.stmt == loopStmt );
 
-        // Now we check if the labels are used and add them if so.
-        return ast::mutate_field(
+        // Now check if the labels are used and add them if so.
+        return mutate_field(
                 loopStmt, &LoopNode::body, mutateLoop( loopStmt->body, entry ) );
 }
 
-std::list<ast::ptr<ast::Stmt>> MultiLevelExitCore::fixBlock(
-                const std::list<ast::ptr<ast::Stmt>> & kids, bool is_case_clause ) {
-        // Unfortunately we can't use the automatic error collection.
+list<ptr<Stmt>> MultiLevelExitCore::fixBlock(
+        const list<ptr<Stmt>> & kids, bool is_case_clause ) {
+        // Unfortunately cannot use automatic error collection.
         SemanticErrorException errors;
 
-        std::list<ast::ptr<ast::Stmt>> ret;
+        list<ptr<Stmt>> ret;
 
         // Manually visit each child.
-        for ( const ast::ptr<ast::Stmt> & kid : kids ) {
+        for ( const ptr<Stmt> & kid : kids ) {
                 if ( is_case_clause ) {
                         // Once a label is seen, it's no longer a valid for fallthrough.
-                        for ( const ast::Label & l : kid->labels ) {
+                        for ( const Label & l : kid->labels ) {
                                 fallthrough_labels.erase( l );
                         }
@@ -591 +587 @@
                         ret.push_back(
                                 labelledNullStmt( ret.back()->location, break_label ) );
-                        break_label = ast::Label( CodeLocation(), "" );
+                        break_label = Label( CodeLocation(), "" );
                 }
         }
@@ -601 +597 @@
 }
 
-} // namespace
-
-const ast::CompoundStmt * multiLevelExitUpdate(
-        const ast::CompoundStmt * stmt,
-                const LabelToStmt & labelTable ) {
+const CompoundStmt * multiLevelExitUpdate(
+        const CompoundStmt * stmt,
+        const LabelToStmt & labelTable ) {
         // Must start in the body, so FunctionDecls can be a stopping point.
-        ast::Pass<MultiLevelExitCore> visitor( labelTable );
-        const ast::CompoundStmt * ret = stmt->accept( visitor );
+        Pass<MultiLevelExitCore> visitor( labelTable );
+        const CompoundStmt * ret = stmt->accept( visitor );
         return ret;
 }
-
 } // namespace ControlStruct
 

src/ControlStruct/MultiLevelExit.hpp ¶

@@ -9 +9 @@
 // Author           : Andrew Beach
 // Created On       : Mon Nov  1 13:49:00 2021
-// Last Modified By : Andrew Beach
-// Last Modified On : Mon Nov  8 10:53:00 2021
-// Update Count     : 3
+// Last Modified By : Peter A. Buhr
+// Last Modified On : Mon Jan 31 22:34:06 2022
+// Update Count     : 6
 //
 
@@ -19 +19 @@
 
 namespace ast {
-        class CompoundStmt;
-        class Label;
-        class Stmt;
+class CompoundStmt;
+class Label;
+class Stmt;
 }
 
 namespace ControlStruct {
-
 using LabelToStmt = std::map<ast::Label, const ast::Stmt *>;
 
-/// Mutate a function body to handle multi-level exits.
-const ast::CompoundStmt * multiLevelExitUpdate(
-        const ast::CompoundStmt *, const LabelToStmt & );
-
+// Mutate a function body to handle multi-level exits.
+const ast::CompoundStmt * multiLevelExitUpdate( const ast::CompoundStmt *, const LabelToStmt & );
 }