Logging::Manifest Class Reference

#include <manifest.h>

Inheritance diagram for Logging::Manifest:

Public Member Functions
void	addArchitecture (const BFN::ProgramPipelines &pipelines_in)
void	addContext (const int pipe, const cstring path)
void	addGraph (int pipe, const cstring graphType, const cstring graphName, const gress_t gress, const cstring extension_including_the_leading_period=".dot"_cs)
void	addLog (int pipe, const cstring logType, const cstring logName)
void	addResources (const int pipe, const cstring path, const cstring type="resources"_cs)
void	postorder (const IR::BFN::TnaControl *control) override
void	postorder (const IR::BFN::TnaParser *parser) override
	Visitor methods to generate graphs.
virtual void	serialize ()
	serialize the entire manifest
void	setEventLog (const cstring eventLogPath_in)
void	setFrontendIrLog (const cstring frontendIrLogPath_in)
void	setPipe (int pipe_ID, const cstring pipe_name)
void	setRefMap (P4::ReferenceMap *const refMap_in)
void	setSourceInfo (const cstring sourceInfo_in)
void	setSuccess (const bool success)
Public Member Functions inherited from P4::Inspector
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 void	postorder (const IR::Node *)
virtual bool	preorder (const IR::Node *)
virtual void	revisit (const IR::Node *)
void	revisit_visited ()
bool	visit_in_progress (const IR::Node *n) 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

Static Public Member Functions
static Manifest &	getManifest ()
	Return the singleton object.
Static Public Member Functions inherited from P4::Visitor
static cstring	demangle (const char *)
static bool	warning_enabled (const Visitor *visitor, int warning_kind)

Additional Inherited Members
Public Types inherited from P4::Visitor
typedef Visitor_Context	Context
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::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 Attributes inherited from P4::Visitor
bool	dontForwardChildrenBeforePreorder = false
bool	joinFlows = false
bool	visitDagOnce = true

Detailed Description

A manifest file is the TOC for the compiler outputs. It is a JSON file, specified by the schema defined in archive_manifest.py We derive it from an inspector, since it needs access to the P4 blocks to figure out what graphs were generated. Ideally, it should be passed to the p4-graphs calls and generate the signature there. But we won't pollute that code with BFN internals.

Member Function Documentation

setRefMap()

void Logging::Manifest::setRefMap ( P4::ReferenceMap *const refMap_in )

inline

helper methods for the graph generators one can set any of the maps and invoke the appropriate visitors