P4::DoRemoveExits Class Reference

#include <removeExits.h>

Inheritance diagram for P4::DoRemoveExits:

Public Member Functions
	DoRemoveExits (TypeMap *typeMap)
const IR::Node *	preorder (IR::AssignmentStatement *statement) override
const IR::Node *	preorder (IR::BlockStatement *statement) override
const IR::Node *	preorder (IR::ExitStatement *action) override
const IR::Node *	preorder (IR::IfStatement *statement) override
const IR::Node *	preorder (IR::MethodCallStatement *statement) override
const IR::Node *	preorder (IR::P4Action *action) override
const IR::Node *	preorder (IR::P4Control *control) override
const IR::Node *	preorder (IR::P4Table *table) override
const IR::Node *	preorder (IR::SwitchStatement *statement) override
Public Member Functions inherited from P4::DoRemoveReturns
	DoRemoveReturns (cstring varName="hasReturned"_cs, cstring retValName="retval"_cs)
profile_t	init_apply (const IR::Node *node) override
const IR::Node *	postorder (IR::LoopStatement *loop) override
const IR::Node *	preorder (IR::BlockStatement *statement) override
const IR::Node *	preorder (IR::ExitStatement *statement) override
const IR::Node *	preorder (IR::Function *function) override
const IR::Node *	preorder (IR::IfStatement *statement) override
const IR::Node *	preorder (IR::P4Action *action) override
const IR::Node *	preorder (IR::P4Control *control) override
const IR::Node *	preorder (IR::P4Parser *parser) override
const IR::Node *	preorder (IR::ReturnStatement *statement) override
const IR::Node *	preorder (IR::SwitchStatement *statement) override
Public Member Functions inherited from P4::Transform
const IR::Node *	apply_visitor (const IR::Node *, const char *name=0) override
profile_t	init_apply (const IR::Node *root) override
virtual void	loop_revisit (const IR::Node *)
virtual const IR::Node *	postorder (IR::Node *n)
virtual const IR::Node *	preorder (IR::Node *n)
void	prune ()
virtual void	revisit (const IR::Node *, const IR::Node *)
void	revisit_visited ()
bool	visit_in_progress (const IR::Node *) const
void	visitAgain () const override
void	visitOnce () const override
Public Member Functions inherited from P4::Visitor
virtual bool	check_global (cstring)
virtual void	clear_globals ()
virtual Visitor *	clone () const
virtual ControlFlowVisitor *	controlFlowVisitor ()
virtual void	end_apply ()
virtual void	end_apply (const IR::Node *root)
virtual void	erase_global (cstring)
template<class T >
const T *	findContext () const
template<class T >
const T *	findContext (const Context *&c) const
template<class T >
const T *	findOrigCtxt () const
template<class T >
const T *	findOrigCtxt (const Context *&c) const
virtual Visitor &	flow_clone ()
virtual void	flow_merge (Visitor &)
virtual bool	flow_merge_closure (Visitor &)
virtual void	flow_merge_global_from (cstring)
virtual void	flow_merge_global_to (cstring)
const Context *	getChildContext () const
int	getChildrenVisited () const
const Context *	getContext () const
int	getContextDepth () const
const IR::Node *	getCurrentNode () const
template<class T >
const T *	getCurrentNode () const
const IR::Node *	getOriginal () const
template<class T >
const T *	getOriginal () const
template<class T >
const T *	getParent () const
virtual bool	has_flow_joins () const
profile_t	init_apply (const IR::Node *root, const Context *parent_context)
bool	isInContext (const IR::Node *n) const
virtual const char *	name () const
template<class T >
void	parallel_visit (const IR::Vector< T > &v, const char *name, int cidx)
template<class T >
void	parallel_visit (const IR::Vector< T > &v, const char *name=0)
template<class T >
void	parallel_visit (IR::Vector< T > &v, const char *name, int cidx)
template<class T >
void	parallel_visit (IR::Vector< T > &v, const char *name=0)
void	print_context () const
const Visitor &	setCalledBy (const Visitor *visitor)
void	setName (const char *name)
void	visit (const IR::Node &n, const char *name, int cidx)
void	visit (const IR::Node &n, const char *name=0)
void	visit (const IR::Node *&n, const char *name, int cidx)
void	visit (const IR::Node *&n, const char *name=0)
void	visit (const IR::Node *const &n, const char *name, int cidx)
void	visit (const IR::Node *const &n, const char *name=0)
void	visit (IR::Node &n, const char *name, int cidx)
void	visit (IR::Node &n, const char *name=0)
void	visit (IR::Node *&, const char *=0, int=0)
template<class T , typename = std::enable_if_t<Util::has_SourceInfo_v<T> && !std::is_pointer_v<T>>, class... Args>
void	warn (const int kind, const char *format, const T &node, Args &&...args)
	The const ref variant of the above.
template<class T , typename = std::enable_if_t<Util::has_SourceInfo_v<T>>, class... Args>
void	warn (const int kind, const char *format, const T *node, Args &&...args)
bool	warning_enabled (int warning_kind) const
Public Member Functions inherited from P4::ResolutionContext
const IR::IDeclaration *	getDeclaration (const IR::Path *path, bool notNull=false) const
const IR::IDeclaration *	getDeclaration (const IR::This *, bool notNull=false) const
auto	getDeclarations (const IR::INamespace *ns) const
	Returns the set of decls that exist in the given namespace.
auto	getDeclsByName (const IR::INamespace *ns, cstring name) const
	Returns the set of decls with the given name that exist in the given namespace.
std::vector< const IR::IDeclaration * >	resolve (const IR::ID &name, ResolutionType type) const
	Resolve references for name, restricted to type declarations.
virtual const IR::IDeclaration *	resolvePath (const IR::Path *path, bool isType) const
const IR::Type *	resolveType (const IR::Type *type) const
	Resolve a refrence to a type type.
const IR::IDeclaration *	resolveUnique (const IR::ID &name, ResolutionType type, const IR::INamespace *=nullptr) const
	Resolve reference for name, restricted to type declarations, and expect one result.
Public Member Functions inherited from P4::DeclarationLookup

Additional Inherited Members
Public Types inherited from P4::Visitor
typedef Visitor_Context	Context
Static Public Member Functions inherited from P4::Visitor
static cstring	demangle (const char *)
static bool	warning_enabled (const Visitor *visitor, int warning_kind)
Public Attributes inherited from P4::Visitor
const Visitor *	called_by = nullptr
cstring	internalName
SplitFlowVisit_base *&	split_link
SplitFlowVisit_base *	split_link_mem = nullptr
Protected Member Functions inherited from P4::DoRemoveReturns
TernaryBool	hasReturned ()
void	pop ()
void	push ()
void	set (TernaryBool r)
Protected Member Functions inherited from P4::Transform
const IR::Node *	transform_child (const IR::Node *child)
Protected Member Functions inherited from P4::Visitor
virtual void	init_join_flows (const IR::Node *)
virtual bool	join_flows (const IR::Node *)
virtual void	post_join_flows (const IR::Node *, const IR::Node *)
void	visit_children (const IR::Node *, std::function< void()> fn)
Protected Member Functions inherited from P4::ResolutionContext
	ResolutionContext (bool ao)
std::vector< const IR::IDeclaration * >	lookup (const IR::INamespace *ns, const IR::ID &name, ResolutionType type) const
std::vector< const IR::IDeclaration * >	lookupMatchKind (const IR::ID &name) const
const IR::Vector< IR::Argument > *	methodArguments (cstring name) const
	We are resolving a method call. Find the arguments from the context.
Protected Attributes inherited from P4::DoRemoveReturns
MinimalNameGenerator	nameGen
IR::ID	returnedValue
IR::ID	returnVar
cstring	retValName
std::vector< TernaryBool >	stack
cstring	variableName
Protected Attributes inherited from P4::Transform
bool	forceClone = false
Protected Attributes inherited from P4::Visitor
bool	dontForwardChildrenBeforePreorder = false
bool	joinFlows = false
bool	visitDagOnce = true
Protected Attributes inherited from P4::ResolutionContext
bool	anyOrder = false

Detailed Description

This visitor removes "exit" calls. It is significantly more involved than return removal, since an exit in an action causes the calling control to terminate. This pass assumes that each statement in a control block can exit only once – so it should be run after a pass that enforces this, e.g., SideEffectOrdering. (E.g., it does not handle: if (t1.apply().hit && t2.apply().hit) { ... } It also assumes that there are no global actions and that action calls have been inlined.