sparta::Event< sched_phase_T > Class Template Reference

Event is a simple class for scheduling random events on the Scheduler. More...

#include <Event.hpp>

Inheritance diagram for sparta::Event< sched_phase_T >:

Collaboration diagram for sparta::Event< sched_phase_T >:

Public Member Functions
	Event (TreeNode *event_set, const std::string &name, const SpartaHandler &consumer_event_handler, Clock::Cycle delay=0)
	Create a generic Event. This type of class is hardly used, but available.
Scheduleable &	getScheduleable () override
	Get the scheduleable associated with this event node.
void	schedule ()
	Schedule this event with its pre-set delay using the pre-set Clock.
void	schedule (const Clock *clk)
	Schedule this event with its pre-set delay using the given clock.
void	schedule (Clock::Cycle delay)
	Schedule an event in the future using the pre-set Clock.
void	schedule (Clock::Cycle delay, const Clock *clk)
	Schedule an event in the future using the given Clock.
Public Member Functions inherited from sparta::EventNode
const char *	getLabel () const
	Get the name of this EventNode as registered in the consumer handler for the TopoSortable.
sparta::SchedulingPhase	getSchedulingPhase () const
	Get the scheduling phase of this event node.
virtual void	participateInAutoPrecedence (bool participate)
	Turn on/off auto precedence for this EvendNode.
virtual bool	doesParticipateInAutoPrecedence () const
	Does this EventNode participate in auto-precedence establishment by sparta::Unit?
Public Member Functions inherited from sparta::TreeNode
const Clock *	getClock () override
	Walks up parents (starting with self) until a parent with an associated local clock is found, then returns that clock.
const Clock *	getClock () const
const Clock *	getLocalClock ()
	Gets the clock associated directly with this Node. This is useful for configuration and simulator debug, but not at run-time.
const Clock *	getLocalClock () const
virtual void	setClock (const Clock *clk)
	Assigns a clock to this node. This clock will then be accessed by any descendant which has no assigned clock or an ancestor with an assigned clock between that descendant and this node. getClock returns the Clock associated with the nearest ancestor.
Scheduler *	getScheduler (const bool must_exist=false)
	Get the scheduler associated with this tree node's root.
const Scheduler *	getScheduler (const bool must_exist=false) const
WeakPtr	getWeakPtr ()
	Gets a weak pointer to this TreeNode. This weak pointer is guaranteed to expire when this TreeNode is destructed unless locked.
ConstWeakPtr	getWeakPtr () const
	Const variant of getWeakPtr.
virtual void	addLink (TreeNode *node, const std::string &label)
	Link this tree node with another tree node.
virtual void	activateLink (const std::string &label)
	Activate one of the links added with addLink.
	TreeNode ()=delete
	Not default-constructable.
	TreeNode (const TreeNode &)=delete
	Not copy-constructable.
	TreeNode (TreeNode &&rhp)
	Move constructor.
TreeNode &	operator= (const TreeNode &)=delete
	Not assign-constructable.
	TreeNode (TreeNode *parent, const std::string &name, const std::string &group, group_idx_type group_idx, const std::string &desc, bool is_indexable)
	TreeNode full constructor. Initializes node and adds it as a child of an existing tree node (if parent is not null).
	TreeNode (TreeNode *parent, const std::string &name, const std::string &group, group_idx_type group_idx, const std::string &desc)
	TreeNode constructor with no is_indexable parameter [defaults to true].
	TreeNode (const std::string &name, const std::string &group, group_idx_type group_idx, const std::string &desc)
	TreeNode constructor with no parent Node.
	TreeNode (TreeNode *parent, const std::string &name, const std::string &desc)
	TreeNode constructor with no group information.
	TreeNode (TreeNode *parent, const std::string &group, group_idx_type group_idx, const std::string &desc)
	TreeNode constructor for anonymous node with group information.
	TreeNode (const std::string &name, const std::string &desc)
	TreeNode constructor with no parent node or group information.
virtual	~TreeNode ()
	Virtual destructor.
void	addAlias (const std::string &alias)
	Add a single alias for this node.
void	addAliases (const AliasVector &v)
	Adds each element of a vector of aliases to this node..
void	addTag (const std::string &tag)
	Adds single tag to this node.
void	addTags (const std::vector< std::string > &v)
	Adds each elements of a vector of tags to this node.
virtual std::string	stringize (bool pretty=false) const
	Create a string representation of this node.
void	stringizeTags (std::stringstream &ss) const
	Render tags to a string in the form: " tags:[tag0, tag1]" If there are any tags. The leading space makes this a useful sub-utility of stringize because if there are no tags, returns empty string with no leading space.
node_uid_type	getNodeUID () const
	Gets the unique ID of this node.
const std::string &	getName () const override
	Gets the name of this node.
const std::string *	getNamePtr () const
	Gets the name of this node's string pointer which isinterned in StringManager)
bool	isAnonymous () const
	Is this node anonymous.
bool	isExpired () const
	Is this expired (i.e. has it been the rhp of a move constructor)
bool	isIndexableByGroup () const
	Returns whether this object is accessible through its parent's interfaces for getting children by group and index.
const std::string &	getGroup () const
	Gets the group name of this node.
const std::string *	getGroupNamePtr () const
	Gets the group name string pointer (interned in StringManager singleton) of this node.
group_idx_type	getGroupIdx () const
	Gets the group index of this node.
const std::vector< const std::string * > &	getTags () const
	Gets the set of tags associated with this TreeNode.
bool	hasTag (const std::string &tag) const
	Does this node have a specific tag (by name)
bool	hasTag (const std::string *interned_tag_name) const
	Does this node have a specific tag (by string pointer interned with StringManager). This is faster than the alternate hasTag method because it relies only on pointer comparisons.
const std::string &	getDesc () const
	Gets the description of this node.
bool	isBuiltin () const
	Is this node in the builtins group.
void	markHidden (bool hidden=true)
	Marks this TreeNode hidden for the purposes of printint out nodes. This does not make the node inaccessible, but causes it (and its subtree) to be hidden from typical recursive tree printouts.
bool	isHidden () const
	Is this TreeNode supposed to be hidden during tree printouts This value does not have to be respected by anything using TreeNode and is mainly a UI/printout convenience.
void	validateName (const std::string &nm)
	Validates the given name string for this TreeNode. Does not consider context (e.g. name collisions)
void	validateGroup (const std::string &name, const std::string &group, group_idx_type idx)
	Validates the given group name string and group index for this TreeNode. Does not consider context (e.g. name collisions)
void	validateDesc (const std::string &desc)
	Validates the given description string for this TreeNode.
void	addExtensionParameters (const std::string &extension_name, std::unique_ptr< ParameterSet > extension_params)
	Add a named parameter set to extend this tree node's metadata.
void	addExtensionFactory (const std::string &extension_name, std::function< ExtensionsBase *()> factory)
	Add an extension factory to this tree node by its type (name). This method does not actually create any objects at this time. It will validate and create the extension only if asked for later on during simulation.
ExtensionsBase *	getExtension (const std::string &extension_name)
	Get an extension object by type string. Returns nullptr if not found (unrecognized).
ExtensionsBase *	getExtension ()
	Get an extension without needing to specify any particular type string. If no extensions exist, returns nullptr. If only one extension exists, returns that extension. If more than one extension exists, throws an exception.
const std::set< std::string > &	getAllExtensionNames ()
	Extension names, if any. Tree node extensions are typically instantiated on-demand for best performance (you have to explicitly ask for an extension by its name, or it won't be created) - so note that calling this method will trigger the creation of all this node's extensions. The performance cost is proportional to the number of nodes in the virtual parameter tree.
void	addChild (TreeNode *child, bool inherit_phase=true)
	Adds a TreeNode to this node as a child.
void	addChild (TreeNode &child)
	AddChild by reference for convenience.
void	makeSubtreePrivate ()
	Make the entire subtree private.
void	setScopeRoot ()
bool	isScopeRoot () const
void	lockdownParameters ()
	Method to put the device tree in lockdown phase. All LOCKED and HIDDEN parameters are frozen after this point. Regular parameters are not affected by this phase. This method requires a Simulation pointer and will assert at compile time if anyone tries to lockdown the tree without the context of a Simulation.
virtual bool	isAttached () const
	Is this node part of a device tree with a proper RootTreeNode at the root.
virtual TreeNode *	getParent ()
	Gets immediate parent of this node if one exists.
virtual const TreeNode *	getParent () const
template<class T , typename = typename std::enable_if<std::is_pointer<T>::value>::type>
const T	getParentAs (bool must_exist=true) const
	Retrieves a parent casted to type T* if this node has a parent.
template<class T , typename = typename std::enable_if<!std::is_pointer<T>::value>::type>
const T *	getParentAs (bool must_exist=true) const
template<class T , typename = typename std::enable_if<std::is_pointer<T>::value>::type>
T	getParentAs (bool must_exist=true)
template<class T , typename = typename std::enable_if<!std::is_pointer<T>::value>::type>
T *	getParentAs (bool must_exist=true)
virtual TreeNode *	getRoot ()
	Gets farthest ancestor of this node.
virtual const TreeNode *	getRoot () const
TreeNode *	getScopeRoot ()
const TreeNode *	getScopeRoot () const
const TreeNode *	getExpectedRoot () const
	build-time equivalent to getRoot before an object is actually attached to a tree. This is a mainly a framework and debugging tool for determining what the root of a node being constructed will be when complete
app::Simulation *	getSimulation () const
	Gets the simulation (if any) associated with this tree.
uint32_t	getNumChildren () const
	Gets the number of children that this node has including those in the sparta builtins group.
TreeNode *	getChildAt (uint32_t idx) const
	Gets a child at a position in the children vector in the order in which they were added to this node.
const ChildrenVector	getChildren () const
	Gets a vector of all children of this node in any group in the order in which they were added to this node.
uint32_t	getChildren (std::vector< TreeNode * > &results, bool ignore_builtin_group=true, bool ignore_anonymous_nodes=true)
	Gets all children of this node in the order in which they were added to this node.
template<class T >
uint32_t	getChildrenOfType (std::vector< T * > &results) const
	return all the children matching a particular type using dynamic cast.
sparta::TreeNode *	findAncestorByName (const std::string &name)
	Find ancestor by name.
template<typename T >
sparta::TreeNode *	findAncestorByType ()
	Find ancestor by type.
sparta::TreeNode *	findAncestorByTag (const std::string &tag)
	Find the first ancestor with a particular tag.
template<typename T >
T *	findAncestorResourceByType ()
	Find an ancestor's resource with a certain type.
const AliasVector &	getAliases () const
	Gets a vector of all aliases of this node.
uint32_t	getChildrenIdentifiers (std::vector< std::string > &idents, bool ignore_builtin_group=true) const
	Gets all child identifiers, aliases, group names, and group-aliases which can be used to refer to a child of this node.
std::vector< const std::string * >	getIdentifiers () const
	Gets all the identifiers for this node (excluding groups)
uint32_t	getGroupSize (const std::string &group)
	Gets the number of nodes in a group.
group_idx_type	getGroupIndexMax (const std::string &group)
	Gets the largest index of a node in the given group.
uint32_t	getGroup (const std::string &group, std::vector< TreeNode * > &results)
	Gets all nodes in a child group.
uint32_t	findChildren (const std::string &pattern, std::vector< TreeNode * > &results, std::vector< std::vector< std::string > > &replacements)
	Finds all children starting at this node with a given pattern relative to this node by matching names an aliases. Appends each found child to <results>.
uint32_t	findChildren (const std::string &pattern, std::vector< TreeNode * > &results)
	Version of findChildren with no replacements vector.
virtual uint32_t	findImmediateChildren_ (std::regex &expr, std::vector< TreeNode * > &found, std::vector< std::vector< std::string > > &replacements, bool allow_private=false)
	Finds immediate children with some identity (name or alias) matching a regex.
uint32_t	findImmediateChildren_ (std::regex &expr, std::vector< TreeNode * > &found, bool allow_private=false)
	Variant of findImmediateChildren_ with no replacements vector.
virtual uint32_t	findImmediateChildren_ (std::regex &expr, std::vector< const TreeNode * > &found, std::vector< std::vector< std::string > > &replacements, bool allow_private=false) const
	Const-qualified variant of findImmediateChildren_.
uint32_t	findImmediateChildren_ (std::regex &expr, std::vector< const TreeNode * > &found, bool allow_private=false) const
	Variant of const-qualified findImmediateChildren_ with no replacements vector.
bool	locationMatchesPattern (const std::string &pattern, const TreeNode *pat_loc) const
	Determines if the given pattern (which may contain wildcards) can describe this node.
TreeNode *	getChild (const std::string &name, bool must_exist=true)
	Retrieves a child with this dotted path name.
const TreeNode *	getChild (const std::string &name, bool must_exist=true) const
	Overloaded const-qualified.
std::string	getDeepestMatchingPath (const std::string &path) const
	Gets the deepest whole node location starting from this node that matches some part of path starting at its beginning.
bool	hasChild (const std::string &name) const noexcept
	Determines if a child can be found with the given dotted path.
bool	hasImmediateChild (const TreeNode *n) const noexcept
	Determines if the node n is an immediate child of this node.
template<class T , typename = typename std::enable_if<std::is_pointer<T>::value>::type, class ConstT = typename ptr_to_const_obj_ptr<T>::type>
const ConstT	getChildAs (const std::string &name, bool must_exist=true) const
	Retrieves a child that is castable to T with the given dotted path.
template<class T , typename = typename std::enable_if<!std::is_pointer<T>::value>::type>
const T *	getChildAs (const std::string &name, bool must_exist=true) const
template<class T , typename = typename std::enable_if<std::is_pointer<T>::value>::type>
T	getChildAs (const std::string &name, bool must_exist=true)
template<class T , typename = typename std::enable_if<!std::is_pointer<T>::value>::type>
T *	getChildAs (const std::string &name, bool must_exist=true)
template<class T , typename = typename std::enable_if<std::is_pointer<T>::value>::type, class ConstT = typename ptr_to_const_obj_ptr<T>::type>
ConstT	getAs () const
	Retrieves this node after casting to type T.
template<class T , typename = typename std::enable_if<!std::is_pointer<T>::value>::type>
const T *	getAs () const
	Retrieves this node after casting to type const T.
template<class T , typename = typename std::enable_if<std::is_pointer<T>::value>::type>
T	getAs ()
	Retrieves this node after casting to type const T.
template<class T , typename = typename std::enable_if<!std::is_pointer<T>::value>::type>
T *	getAs ()
	Retrieves this node after casting to type const T.
uint32_t	findChildrenByTag (const std::string &tag, std::vector< TreeNode * > &results, int32_t max_depth=-1)
	Finds a set of all children having the selected tag which this node or descendants of this node within a distance of the given max_depth.
bool	isDescendantOf (const TreeNode *ancestor, int32_t max_depth=-1) const
	Determines if this node is a descendant of the specified ancestor node within some number of generations (depth).
std::string	getLocation () const override final
std::string	getDisplayLocation () const
	Returns the location of this node in the device tree which might not be usable for navigating the device tree (it cannot be used as an argument for getChild/findChildren).
std::string	getExpectedLocation () const
	build-time equivalent to getLocation before an object is actually attached to a tree. This is a mainly a framework and debugging tool for determining what the location of a node currently being constructed will be when complete.
std::string	renderSubtree (int32_t max_depth=-1, bool show_builtins=false, bool names_only=false, bool hide_hidden=false, bool(*leaf_filt_fxn)(const TreeNode *)=nullptr) const
	Renders the subtree starting at this node as a string containing an indentation-based depth-first representation.
uint32_t	getLevel () const
	Gets the level of this node. 0 is root.
template<typename T >
uint32_t	getRecursiveNodeCount () const
	Recursively gets the count of a nodes that are a subclass of a particular type (determined by dynamic_cast). Includes all descendants of this node in the tree, but excludes this node.
uint32_t	getPossibleNotifications (std::vector< NotificationInfo > &infos) const
	Gets information on the possible notifications generated by this node (excludes children).
void	dumpPossibleNotifications (std::ostream &o) const noexcept
	Dumps a listing of the notifications which this node can generate to the ostream o.
template<typename DataT = ANY_TYPE>
uint32_t	locateNotificationSources (std::vector< TreeNode * > &nodes, const std::string &name="")
	Gets all possible notification info from NotificationSources within this node's subtree.
template<typename DataT = ANY_TYPE>
void	dumpLocatedNotificationSources (std::ostream &o, const std::string &name="")
	Retrieves the relevant NotificationSources from locateNotificationSources and prints them to the output o.
uint32_t	getPossibleSubtreeNotifications (std::vector< NotificationInfo > &infos) const noexcept
	Gets information on the possible notifications generated by this node and all its descendants.
void	dumpPossibleSubtreeNotifications (std::ostream &o) const noexcept
	Dumps a listing of the notifications which this node and its descendants can generate to the ostream o.
bool	canGenerateNotification (const std::type_info &tinfo, const std::string *name) const
	Can this TreeNode generate a notification of the given type having the given name or pattern.
bool	canGenerateNotification (const std::type_info &tinfo, const std::string &name) const
	Can this TreeNode generate a notification of the given type having the given name (does not require interned string - will intern automatically with StringManager).
bool	canGenerateNotification (const NotificationInfo &info) const
	Can this TreeNode generate a notification of the given NotificationInfo.
bool	canSubtreeGenerateNotification (const std::type_info &tinfo, const std::string *name) const
	Can this TreeNode or its descendants (of any distance) generate a notification of the given type having the given name.
bool	canSubtreeGenerateNotification (const std::type_info &tinfo, const std::string &name) const
	Can this TreeNode or its descendants (of any distance) generate a notification of the given type having the given name (does not require interned string)
bool	canSubtreeGenerateNotifications (const std::type_info &tinfo, const std::vector< const std::string * > &names) const
	Checks to see if any a subtree can generate any of several notification names which may be patterns.
template<typename DataT , typename T , void(T::*)(const TreeNode &, const TreeNode &, const DataT &) TMethod>
void	registerForNotification (T *obj, const std::string &name, bool ensure_possible=true)
	Registers a callback method to listen for all notifications having the specified data type DataT and name (or any name if name is "") occuring on this node or any descendant (subtree).
template<typename DataT , typename T , void(T::*)(const DataT &) TMethod>
void	registerForNotification (T *obj, const std::string &name, bool ensure_possible=true)
template<typename DataT , typename T , void(T::*)(const TreeNode &, const TreeNode &, const DataT &) TMethod>
void	deregisterForNotification (T *obj, const std::string &name)
	Removes at most one registration made with registerForNotification.
template<typename DataT , typename T , void(T::*)(const DataT &) TMethod>
void	deregisterForNotification (T *obj, const std::string &name)
bool	hasObserversRegisteredForNotification (const std::type_info &tinfo, const std::string *name) const noexcept
	Determines if this TreeNode (not descendants) has any observers for this type of event and name.
void	getDelegatesRegisteredForNotification (const std::type_info &tinfo, const std::string *name, std::vector< delegate > &dels) noexcept
	Gets the vector of delegates registered for a notification on this TreeNode.
Public Member Functions inherited from sparta::ResourceContainer
	ResourceContainer ()
	Consturct with a null, unlocked resource.
	ResourceContainer (const ResourceContainer &)=delete
	Copy construction disbled.
	ResourceContainer (ResourceContainer &&)=default
	Move constructor.
virtual	~ResourceContainer ()
	Destructor.
Resource *	getResource ()
	Gets the resource contained by this node if any. May only be called after finalization begins or during teardown.
const Resource *	getResource () const
	Const variant of getResource.
bool	hasResource () const
	Determines if this node has a resource. This method exists in case the TreeNode is being explored by a tool or interactive UI. Typical TreeNode clients (such as Resources) will assume that there is a resource if they are expecting one.
template<class T , typename = typename std::enable_if<std::is_pointer<T>::value>::type>
const T	getResourceAs () const
	Gets the resource contained by this node (if any) as the given type.
template<class T , typename = typename std::enable_if<!std::is_pointer<T>::value>::type>
const T *	getResourceAs () const
	Overload of getResourceAs for const access with a non-pointer template type.
template<class T , typename = typename std::enable_if<std::is_pointer<T>::value>::type>
T	getResourceAs ()
	Non-const overload of getResourceAs.
template<class T , typename = typename std::enable_if<!std::is_pointer<T>::value>::type>
T *	getResourceAs ()
	Non-const overload of getResourceAs.
virtual std::string	getResourceType () const
	Gets the typename of the resource that this node will eventually contain.
virtual std::string	getResourceTypeRaw () const
	Gets the typename of the resource that this node will eventually contain.
Public Member Functions inherited from sparta::PhasedObject
	PhasedObject (PhasedObject &&)=default
TreePhase	getPhase () const
	Gets the trees current phase.
virtual bool	isBuilding () const
	Is this node (and thus the entire tree above and below it) currently in the TREE_BUILDING phase.
virtual bool	isBuilt () const
	Is this node (and thus the entire tree above it) "built". Checks that getPhase has passed TREE_BUILDING.
virtual bool	isConfigured () const
	Is this node (and thus the entire tree above it) "configured". Checks that getPhase has passed TREE_CONFIGURING (i.e. FINALIZED, FINALIZING, TEARDOWN, etc).
virtual bool	isConfiguring () const
	Is this node (and thus the entire tree above it) currently in the TREE_CONFIGURING phase.
virtual bool	isFinalizing () const
	Is this node (and thus the entire tree above it) "finalized".
virtual bool	isFinalized () const
	Is this node (and thus the entire tree above it) "finalized".
virtual bool	isTearingDown () const
	Is this node (and thus the entire tree above it) in the "teardown" phase.
Public Member Functions inherited from sparta::ArchDataContainer
std::vector< ArchData * >	getAssociatedArchDatas ()
	Retrieves all ArchDatas associated with this TreeNode so that children can use it to allocate their data.
const std::vector< ArchData * >	getAssociatedArchDatas () const
	Const variant of getAssociatedArchDatas.
	ArchDataContainer ()=default
	Default constructor.
	ArchDataContainer (ArchDataContainer &)=delete
	Copy construction disabled.
	ArchDataContainer (ArchDataContainer &&)=default
	Move constructor.
virtual	~ArchDataContainer ()
	Virtual destructor.
Public Member Functions inherited from sparta::Scheduleable
	Scheduleable (const SpartaHandler &consumer_event_handler, Clock::Cycle delay, SchedulingPhase sched_phase, bool is_unique_event=false)
	Construct a Scheduleable object.
virtual	~Scheduleable ()=default
	Destructor.
	Scheduleable (const Scheduleable &)=default
	Allow copies.
	Scheduleable (Scheduleable &&) noexcept=default
	Allow moves. Marked as noexcept to force containers to use it.
Scheduler *	getScheduler (const bool must_exist=true)
	Get the scheduler this Scheduleable is assigned to.
const Scheduler *	getScheduler (const bool must_exist=true) const
	Get the scheduler this Scheduleable is assigned to.
void	setDelay (Clock::Cycle delay)
	Set a fixed delay for this event.
void	addDelay (Clock::Cycle delay)
	Add to the delay for this event.
Clock::Cycle	getDelay () const
	Get the delay associated with this event.
void	setContinuing (bool continuing)
	This event, if continuing == true, will keep the simulation running.
bool	isContinuing () const
	Is this Event continuing?
const SpartaHandler &	getHandler () const
	Get the consumer handler/callback associated with this event.
SpartaHandler &	getHandler ()
	Get the consumer handler/callback associated with this event.
void	setHandler (const SpartaHandler &handler)
	Set the consumer handler/callback associated with this event.
void	schedule ()
	Schedule this event with its pre-set delay using the pre-set Clock.
void	schedule (const Clock *clk)
	Schedule this event with its pre-set delay using the given clock.
void	schedule (Clock::Cycle delay)
	Schedule an event in the future using the pre-set Clock.
virtual void	scheduleRelativeTick (const Scheduler::Tick rel_tick, Scheduler *const scheduler)
	Schedule this event on a relative scheduler tick.
void	schedule (Clock::Cycle delay, const Clock *clk)
	Schedule an event in the future using the given Clock.
bool	isScheduled () const
	Return true if this scheduleable was scheduled at all.
bool	isOrphan () const
	Return true if this scheduleable is not associated with a vertex.
bool	isScheduled (Clock::Cycle rel_cycle) const
	Return true if this Scheduleable was scheduled on the given relative cycle.
SchedulingPhase	getSchedulingPhase () const
	Get the internal phase number.
const char *	getLabel () const
	Get the internal label.
void	setLabel (const char *label)
	Set a new label for this Scheduleable – used in debugging.
Vertex *	getVertex ()
	get the internal Vertex of this scheduleable
void	precedes (Scheduleable &consumer, const std::string &reason="")
	Have this Scheduleable precede another.
void	precedes (Vertex &consumer, const std::string &reason="") const
	Have this Scheduleable precede a Vertex.
void	precedes (Scheduleable *consumer, const std::string &reason="")
	Have this Scheduleablee precede another.
void	precedes (Vertex *consumer, const std::string &reason="") const
	Have this Scheduleable precede a Vertex.
void	setGOP (bool gop)
void	setGroupID (const PrecedenceGroup gid)
bool	unlink (Scheduleable *w)
	Unlink this scheduleables vertex from another scheduleables vertex.
PrecedenceGroup	getGroupID () const
	Get the group ID.
void	cancel ()
	Cancel all the times that this Scheduleable was placed on the Scheduler.
void	cancel (Clock::Cycle rel_cycle)
	Cancel this Scheduleable at the given time, if placed on the Scheduler.
void	setScheduleableClock (const Clock *clk)
	Set the clock and scheduler of this Scheduleable.
void	setScheduler (Scheduler *sched)
	Set the Scheduler of this Scheduleable, and set the local vertex_ to a new vertex from the Vertex Factory.
void	setVertex ()
	Set the local vertex_ to a new vertex from the Vertex Factory. This needs to happen before the Scheduleable goes through the DAGs linking process in onSchedulerAssignment.

Static Public Attributes
static constexpr SchedulingPhase	event_phase = sched_phase_T
Static Public Attributes inherited from sparta::TreeNode
static const group_idx_type	GROUP_IDX_NONE = (group_idx_type)-1
	GroupIndex indicating that a node has no group index because it belongs to no group.
static const node_uid_type	MAX_NODE_UID
	Maximum value of node_uid_ before the framework throws an exception.
static constexpr char	GROUP_NAME_NONE [] = ""
	Group name indicating that a node belongs to no group.
static constexpr char	NODE_NAME_NONE [] = ""
	Node name for anonymous node.
static const std::string	DEBUG_DUMP_SECTION_DIVIDER
	String dividing sections in a debug dump file.
static constexpr char	NODE_NAME_VIRTUAL_GLOBAL [] = "_SPARTA_virtual_global_"
	Node name for the virtual glopbal node.
static constexpr char	LOCATION_NODE_SEPARATOR_ATTACHED = '.'
	Separator character between node identifiers in a location string when the child is attached to the parent.
static constexpr char	LOCATION_NODE_SEPARATOR_EXPECTING = ','
	Separator character between node identifiers in a location string when the child is being attached to the parent but has not been entirely attached (i.g. during construction of the child node)
static constexpr char	LOCATION_NODE_SEPARATOR_UNATTACHED = '~'
	Separator character preceding a node identifiers in a location string when that node has no parent and is not in the process of being attached to one.
static const uint32_t	RENDER_SUBTREE_INDENT = 2
	Spaces to indent for each tree level in sparta::TreeNode::renderSubtree.
static constexpr char	GROUP_NAME_BUILTIN [] = "_SPARTA_builtin_group_"
	Reserved name for built-in nodes.
static const uint64_t	CHILD_FIND_THRESHOLD = 100000
	Threshold for number of findChildren calls after finalization before a warning message is printed about framework misuse.
static const uint64_t	CHILD_GET_THRESHOLD = 100000
	Threshold for number of getChild calls after finalization before a warning message is printed about framework misuse.
static const uint32_t	TEARDOWN_ERROR_LIMIT = 5
	Number of teardown-phase-related messages that can be printed before the rest will be suppressed.
static const std::vector< std::pair< const char *, std::function< void(std::string &)> > >	TREE_NODE_PATTERN_SUBS
	List of pattern susbtitutions when creating a search pattern from a TreeNode name containing wildcards.
Static Public Attributes inherited from sparta::Scheduleable
static const PrecedenceGroup	INVALID_GROUP

Additional Inherited Members
Public Types inherited from sparta::TreeNode
typedef uint64_t	node_uid_type
	Type of unique-identifier assigned to every node.
typedef std::vector< TreeNode * >	ChildrenVector
	Vector of TreeNode children.
typedef std::vector< std::string >	AliasVector
	Vector of aliases (other names for this node)
typedef std::multimap< std::string, TreeNode * >	ChildNameMapping
	Mapping of names, aliases, and groups to individual child nodes within one node. This must be in a deterministic order, so an ordered container (e.g. std::map) is required. A sorted contained is probably desirable, but not required.
typedef uint32_t	group_idx_type
	Index within a group.
typedef std::weak_ptr< TreeNode >	WeakPtr
	Weak pointer to a TreeNode. Acquire with getWeakPtr.
typedef std::weak_ptr< const TreeNode >	ConstWeakPtr
	Weak pointer to a const TreeNode. Acquire with getWeakPtr.
typedef std::shared_ptr< TreeNode >	SharedPtr
	Shared pointer to TreeNode. Acquire with WeakPtr::lock().
typedef std::map< const std::string *, std::vector< TreeNode * > >	TagsMap
	Map of strings (interned in StringManager) tags to TreeNodes.
Public Types inherited from sparta::PhasedObject
enum	TreePhase {   TREE_BUILDING = 0 , TREE_CONFIGURING = 1 , TREE_FINALIZING = 2 , TREE_FINALIZED = 3 ,   TREE_TEARDOWN = 4 }
	Current phase of tree construction (applies to node and entire tree). More...
Public Types inherited from sparta::Scheduleable
typedef uint32_t	PrecedenceGroup
	Typedef defining the precedence group ID.
Static Public Member Functions inherited from sparta::TreeNode
static std::string	createSearchRegexPattern (const std::string &pat)
	Compute a regex pattern for a node child path containing any number of wildcard characters (not a dot-separated location) which can be used to test against child node names.
static bool	hasWildcardCharacters (const std::string &name)
	Determines if a given node name has any wildcard characters which will be substituted in createSearchRegexPattern.
static std::string	getNextName (const std::string &name, size_t &pos)
	Gets the next name between two '.' chars in a string starting at pos.
static bool	matchesGlobLike (const std::string &pattern, const std::string &other)
	Determine if a glob-like search pattern matches some other string.
static const std::map< const TreeNode *, WeakPtr > &	getParentlessNodes ()
static const std::map< const TreeNode *, WeakPtr > &	getAllNodes ()
	Gets the vector of all TreeNodes currently known to be constructed.
static std::string	formatAllNodes ()
	Prints the list of all TreeNodes currently known to be constructed.
static bool	isNodeConstructed (const TreeNode *)
	Is a given node constructed?
static TreeNode *	getVirtualGlobalNode ()
	Gets the virtual global node singleton. This node can have no parent and no children. It receives notifications from all nodes in the simulator as if it were the parent of every node in the simulation that has no parent.
static std::vector< const std::string * >	parseNotificationNameString (const std::string &csl)
	Parses a comma-separated list of notification names (or patterns) separated by commas and ignoring whitespace around commas.
static bool	notificationCategoryMatch (const std::string *query_id, const std::string *node_id)
	Checks if two notification categories match where one is an actual category.
Protected Types inherited from sparta::TreeNode
typedef std::vector< delegate >	DelegateVector
	Vector of delegates representing a list of observers to notify.
typedef std::map< type_info_container, DelegateVector >	NotificationObserverMap
	Map of delegate vectors containing all observers.
Protected Member Functions inherited from sparta::EventNode
	EventNode (TreeNode *event_set, const std::string &name, sparta::SchedulingPhase sched_phase)
	Create an Event Node.
	EventNode (const EventNode &)=delete
	Do not allow copies.
	EventNode (EventNode &&)=delete
	Do not allow moves.
EventNode &	operator= (const EventNode &)=delete
	Do not allow assignments.
virtual	~EventNode ()=default
	Destroy! Does nothing.
Protected Member Functions inherited from sparta::TreeNode
std::pair< uint32_t, std::string >	recursGetDeepestMatchingPath_ (const std::string &path, size_t name_pos) const
	Finds the deepest node path mathing the input path. Implements getDeepestMatchingPath.
void	setExpectedParent_ (const TreeNode *parent)
	Tracks a node as an expected parent without actually adding this node as a child. This is used almost exclusively for printing error messages which include a device-tree location BEFORE actually inserting this node into the device tree since node construction can fail.
void	enterFinalizing_ ()
	Recursively enter TREE_FINALIZING phase.
void	finalizeTree_ ()
	Recursively create resources based on tree configuration. enter_finalize_ should be invoked after this method successfully completes for an entire tree. Finalizes in the order of construction.
void	validateTree_ ()
	Iterates the finalized tree and validates each node (e.g. ensures statistics can be evaluated)
void	enterFinalized_ ()
	Recursively enter TREE_FINALIZED phase.
void	enterConfig_ () noexcept
	Recursively enter TREE_CONFIGURING phase.
void	bindTreeEarly_ ()
	Recursively invoke TreeNode::onBindTreeEarly_ and Resource::onBindTreeEarly_ (in that order for each node)
void	bindTreeLate_ ()
	Recursively invoke TreeNode::onBindTreeEarly_ and Resource::onBindTreeLate_ (in that order for each node)
void	simulationTerminating_ ()
	Hook to allow simulation resources to clean-up before simulation is ended.
void	validatePostRun_ (const PostRunValidationInfo &info) const
	Hook to check the state of the simulator post-run and throw exceptions if something is incorrect.
void	dumpDebugContent_ (std::ostream &out) const noexcept
	Allows resources to write out detailed textual debugging information about the node. This is typically called by a simulator when shutting down due to an exception (or depending on simulator config). However, it could also be called at other times.
void	enterTeardown_ () noexcept
	Recursively enter TREE_TEARDOWN phase while alerting nodes through onEnteringTeardown_ and alterting Resources through Resource::onStartingTeardown_. Nodes already in TREE_TEARDOWN phase will not be alerted (neither will their associated Resources). All nodes are visited regardless of their parent's phase.
void	verifyUniqueChildIdentifier_ (const std::string &ident, bool ignore_group_collision=false)
	Verifies that the given identifier is unique for all children of this node by comparing against names, groups, and aliases. Throws SpartaException if not unique.
void	removeChildForTeardown_ (TreeNode *child)
	"Removes" the given child by invoking onDestroyingChild_ then removing this child from the children_ list
void	removeFromParentForTeardown_ (TreeNode *parent)
	Protected Wrapper for getParent()->removeChildForTeardown_ which allows subclases of TreeNode to indirectly invoke removeChildForTeardown_ with themselves as the argument.
void	detachFromParent_ ()
	Removes a node from its parent with the expectation this node will be immediately destroyed (i.e. is an xvalue)
void	detachFromChildren_ ()
	Removes a node from its children with the expectation this node will be immediately destroyed (i.e. is an xvalue)
bool	areParametersLocked_ () const
	This method informs whether the tree is past the lockdown phase for all LOCKED and HIDDEN parameters. Modifying LOCKED and HIDDEN parameters after this phase is disallowed. Tree can be locked down during TREE_BUILDING phase or TREE_CONFIGURING phase. During TREE_FINALIZING phase, all parameters are locked down as is.
template<typename DataT >
void	postPropagatingNotification_ (const TreeNode *origin, const DataT &data, const std::string *name_id)
	Starts a notification propagating up the tree.
template<typename DataT , typename T , void(T::*)(const TreeNode &, const TreeNode &, const DataT &) TMethod>
DelegateVector::iterator	findDelegate_ (DelegateVector &dvec, T *obj, const std::string &target_name)
	Finds a delegate associated with the given type T, object pointer, DataT, and TMethod within a DelevateVector. The intent of this function is to help see if a delegate is already registered with a calback by checking all known information associated with that callback against the input arguments.
template<typename DataT , typename T , void(T::*)(const DataT &) TMethod>
DelegateVector::iterator	findDelegate_ (DelegateVector &dvec, T *obj, const std::string &target_name)
virtual void	broadcastRegistrationForNotificationToChildren_ (const std::type_info &tinfo, const std::vector< const std::string * > &name_ids, TreeNode *obs_node, const delegate *del, const bool allow_private)
	Recursively notifies children that the notification described is now (or still is) being observed at the observation point TreeNode obs_node with the newly registered delegate del.
virtual void	broadcastDeregistrationForNotificationToChildren_ (const std::type_info &tinfo, const std::vector< const std::string * > &name_ids, TreeNode *obs_node, const delegate *del, const bool allow_private)
	Recursively notifies children that the notification described has lost one particular observer (del) which was observing at the observation point TreeNode obs_node with the delegate del.
void	broadcastRegistrationForNotificationListStringToChildren_ (const std::type_info &tinfo, const std::string &name, TreeNode *obs_node, const delegate *del, const bool private_only)
	Entry point to broadcastRegistrationForNotificationToChildren_ recursion. Breaks a name string.
void	broadcastDeregistrationForNotificationListStringToChildren_ (const std::type_info &tinfo, const std::string &name, TreeNode *obs_node, const delegate *del, const bool private_only)
	Symmetric oppostie of broadcastRegistrationForNotificationListStringToChildren_.
template<typename DataT >
void	invokeDelegatesOn_ (TreeNode *to_invoke, const DataT &data, const std::string *name_id)
	Protected wrapper for invokeDelegates_ which allows a TreeNode to invoke delegates on another TreeNode using itself as the origin.
Protected Member Functions inherited from sparta::ResourceContainer
std::string	getResourceTypeName_ () const
	Gets the rtti type name (demangled) of the resource type held by this container. If there is no resource held, returns empty string.
void	setResource_ (Resource *r)
	Allows subclasses to assign the resource associated with this node.
void	unsetResource_ ()
	Allows a resource to unset the resource set with setResource_.
void	lockResource_ ()
	Allows subclasses to assign the resource associated with this node.
Resource *	getResource_ () noexcept
	Returns the currently held resource of this node (if any). This method can be called at any time.
const Resource *	getResource_ () const noexcept
	Const variant of getResource_.
Protected Member Functions inherited from sparta::PhasedObject
void	setPhase_ (TreePhase phase)
	Sets the current phase.
Protected Member Functions inherited from sparta::Scheduleable
uint32_t	getScheduleableHandleCount_ () const
virtual void	setGroupID_ (const PrecedenceGroup gid)
	Set the group ID of this Scheduleable's derivatives.
virtual void	eventCancelled_ ()
Static Protected Member Functions inherited from sparta::EventNode
static Scheduler *	determineScheduler (const Clock *clk)
	Center point of Scheduler location.
Static Protected Member Functions inherited from sparta::TreeNode
static bool	identityMatchesPattern_ (const std::string &ident, std::regex &expr, std::vector< std::string > &replacements)
	Performs pattern matching on a identity string.
static bool	identityMatchesPattern_ (const std::string &ident, std::regex &expr)
	Variant of identityMatchesPattern_ with no replacements vector.
static std::string	getPreviousName_ (const std::string &name, size_t &pos)
	Gets the previous name between two '.' chars in a string starting at pos.
Protected Attributes inherited from sparta::EventNode
friend	StartupEvent
Protected Attributes inherited from sparta::Scheduleable
SpartaHandler	consumer_event_handler_
	The Consumer callback registered with the Event.
const Clock *	local_clk_ = nullptr
	A local clock for speed.
PrecedenceSetup	scheduler_ {this}
	Cache a pointer to the scheduler used.

Detailed Description

template<SchedulingPhase sched_phase_T = SchedulingPhase::Tick>
class sparta::Event< sched_phase_T >

Event is a simple class for scheduling random events on the Scheduler.

The purpose of this class is for a user to create an event specific to an action within simulation, but can occur at random times and possibly many times during a time quantum.

Behaviors of the default Event:

• No guarantee on order with repect to other Event if no precedence is established
• If an Event is scheduled multiple times within same cycle, the consumer's callback is called multiple times within the targeted cycle [If this is undesired behavior, use sparta::UniqueEvent]
• If a precedence is established, it is guaranteed that one Event will be scheduled before or after the other always, depending on the order requested

Definition at line 41 of file Event.hpp.

Constructor & Destructor Documentation

Event()

template<SchedulingPhase sched_phase_T = SchedulingPhase::Tick>

sparta::Event< sched_phase_T >::Event ( TreeNode *  event_set, const std::string &  name, const SpartaHandler &  consumer_event_handler, Clock::Cycle  delay = 0  )

inline

Create a generic Event. This type of class is hardly used, but available.

Parameters

event_set	Pointer to the sparta::EventNodeSet this EventNode is part of
name	The name of this event (as it shows in the EventNodeSet)
clk	The clock this EventNode will use to schedule itself
delay	Preset delay for this event
scheduler	Scheduler on which this even will scheduler. If nullptr, uses the scheduler attached to clk. If clk is nullptr or has no scheduler, uses the singleton scheduler

Create a EventNode that will be associated with events placed on the scheduler once data is send from one component to another.

The best practice for using events within a sparta::Resource block, is to create a persistent sparta::EventNodeSet within the resource and create events (which return handles) for use within simulation. For example:

class MyResource : public sparta::Resource
{
public:
    // ...
private:
    sparta::UniqueEventNode & my_unique_event_;
    sparta::EventNode       & my_regular_event_;
};
 
MyResource::MyResource(TreeNode * node, MyResourceParams * params) :
    my_event_set_(node),
    // ....
    my_unique_event_(my_event_set_.createEventNode<sparta::UniqueEventNode>(...)),
    my_regular_event_(my_event_set_.createEventNode<sparta::EventNode>(...))
{
}
 
void MyResource::myFunction()
{
    my_unique_event_.schedule();
}

Definition at line 96 of file Event.hpp.

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Member Function Documentation

getScheduleable()

template<SchedulingPhase sched_phase_T = SchedulingPhase::Tick>

Scheduleable & sparta::Event< sched_phase_T >::getScheduleable ( )

inlineoverridevirtual

Get the scheduleable associated with this event node.

Implements sparta::EventNode.

Definition at line 111 of file Event.hpp.

schedule() [1/4]

template<SchedulingPhase sched_phase_T = SchedulingPhase::Tick>

void sparta::Scheduleable::schedule ( )

inline

Schedule this event with its pre-set delay using the pre-set Clock.

Definition at line 156 of file Scheduleable.hpp.

schedule() [2/4]

template<SchedulingPhase sched_phase_T = SchedulingPhase::Tick>

void sparta::Scheduleable::schedule ( Clock::Cycle  delay )

inline

Schedule an event in the future using the pre-set Clock.

Parameters

delay

The relative time (in Clock::Cycle) to schedule from "now"

Definition at line 176 of file Scheduleable.hpp.

schedule() [3/4]

template<SchedulingPhase sched_phase_T = SchedulingPhase::Tick>

void sparta::Scheduleable::schedule ( Clock::Cycle  delay, const Clock *  clk  )

inline

Schedule an event in the future using the given Clock.

Parameters

delay	The relative time (in Ticks) to schedule from "now"
clk	The clock this Event will use to schedule itself

Definition at line 201 of file Scheduleable.hpp.

schedule() [4/4]

template<SchedulingPhase sched_phase_T = SchedulingPhase::Tick>

void sparta::Scheduleable::schedule ( const Clock *  clk )

inline

Schedule this event with its pre-set delay using the given clock.

Parameters

clk	Pointer to the clock to use

Definition at line 166 of file Scheduleable.hpp.

Member Data Documentation

event_phase

template<SchedulingPhase sched_phase_T = SchedulingPhase::Tick>

constexpr SchedulingPhase sparta::Event< sched_phase_T >::event_phase = sched_phase_T

staticconstexpr

Definition at line 45 of file Event.hpp.

---

The documentation for this class was generated from the following file:

• /github/workspace/sparta/sparta/events/Event.hpp