gridfire::AdaptiveEngineView Class Reference

An engine view that dynamically adapts the reaction network based on runtime conditions. More...

#include <engine_adaptive.h>

Inheritance diagram for gridfire::AdaptiveEngineView:

Classes
struct	ReactionFlow
	A struct to hold a reaction and its flow rate. More...

Public Member Functions
	AdaptiveEngineView (DynamicEngine &baseEngine)
	Constructs an AdaptiveEngineView.
fourdst::composition::Composition	update (const NetIn &netIn) override
	Updates the active species and reactions based on the current conditions.
bool	isStale (const NetIn &netIn) override
const std::vector< fourdst::atomic::Species > &	getNetworkSpecies () const override
	Gets the list of active species in the network.
std::expected< StepDerivatives< double >, expectations::StaleEngineError >	calculateRHSAndEnergy (const std::vector< double > &Y_culled, const double T9, const double rho) const override
	Calculates the right-hand side (dY/dt) and energy generation for the active species.
void	generateJacobianMatrix (const std::vector< double > &Y_dynamic, const double T9, const double rho) const override
	Generates the Jacobian matrix for the active species.
double	getJacobianMatrixEntry (const int i_culled, const int j_culled) const override
	Gets an entry from the Jacobian matrix for the active species.
void	generateStoichiometryMatrix () override
	Generates the stoichiometry matrix for the active reactions and species.
int	getStoichiometryMatrixEntry (const int speciesIndex_culled, const int reactionIndex_culled) const override
	Gets an entry from the stoichiometry matrix for the active species and reactions.
double	calculateMolarReactionFlow (const reaction::Reaction &reaction, const std::vector< double > &Y_culled, double T9, double rho) const override
	Calculates the molar reaction flow for a given reaction in the active network.
const reaction::LogicalReactionSet &	getNetworkReactions () const override
	Gets the set of active logical reactions in the network.
void	setNetworkReactions (const reaction::LogicalReactionSet &reactions) override
std::expected< std::unordered_map< fourdst::atomic::Species, double >, expectations::StaleEngineError >	getSpeciesTimescales (const std::vector< double > &Y_culled, double T9, double rho) const override
	Computes timescales for all active species in the network.
std::expected< std::unordered_map< fourdst::atomic::Species, double >, expectations::StaleEngineError >	getSpeciesDestructionTimescales (const std::vector< double > &Y, double T9, double rho) const override
const DynamicEngine &	getBaseEngine () const override
	Gets the base engine.
void	setScreeningModel (screening::ScreeningType model) override
	Sets the screening model for the base engine.
screening::ScreeningType	getScreeningModel () const override
	Gets the screening model from the base engine.
int	getSpeciesIndex (const fourdst::atomic::Species &species) const override
std::vector< double >	mapNetInToMolarAbundanceVector (const NetIn &netIn) const override
PrimingReport	primeEngine (const NetIn &netIn) override
Public Member Functions inherited from gridfire::DynamicEngine
virtual void	generateJacobianMatrix (const std::vector< double > &Y_dynamic, double T9, double rho, const SparsityPattern &sparsityPattern) const
virtual BuildDepthType	getDepth () const
virtual void	rebuild (const fourdst::composition::Composition &comp, BuildDepthType depth)
Public Member Functions inherited from gridfire::Engine
virtual	~Engine ()=default
	Virtual destructor.
Public Member Functions inherited from gridfire::EngineView< DynamicEngine >
virtual	~EngineView ()=default
	Virtual destructor.

Private Types
using	Config = fourdst::config::Config
using	LogManager = fourdst::logging::LogManager
typedef std::pair< std::unordered_set< const reaction::LogicalReaction * >, std::unordered_set< fourdst::atomic::Species > >	RescueSet

Private Member Functions
std::vector< size_t >	constructSpeciesIndexMap () const
	Constructs the species index map.
std::vector< size_t >	constructReactionIndexMap () const
	Constructs the reaction index map.
std::vector< double >	mapCulledToFull (const std::vector< double > &culled) const
	Maps a vector of culled abundances to a vector of full abundances.
std::vector< double >	mapFullToCulled (const std::vector< double > &full) const
	Maps a vector of full abundances to a vector of culled abundances.
size_t	mapCulledToFullSpeciesIndex (size_t culledSpeciesIndex) const
	Maps a culled species index to a full species index.
size_t	mapCulledToFullReactionIndex (size_t culledReactionIndex) const
	Maps a culled reaction index to a full reaction index.
void	validateState () const
	Validates that the AdaptiveEngineView is not stale.
std::vector< ReactionFlow >	calculateAllReactionFlows (const NetIn &netIn, std::vector< double > &out_Y_Full) const
	Calculates the molar reaction flow rate for all reactions in the full network.
std::unordered_set< fourdst::atomic::Species >	findReachableSpecies (const NetIn &netIn) const
	Finds all species that are reachable from the initial fuel through the reaction network.
std::vector< const reaction::LogicalReaction * >	cullReactionsByFlow (const std::vector< ReactionFlow > &allFlows, const std::unordered_set< fourdst::atomic::Species > &reachableSpecies, const std::vector< double > &Y_full, double maxFlow) const
	Culls reactions from the network based on their flow rates.
RescueSet	rescueEdgeSpeciesDestructionChannel (const std::vector< double > &Y_full, const double T9, const double rho, const std::vector< fourdst::atomic::Species > &activeSpecies, const reaction::LogicalReactionSet &activeReactions) const
void	finalizeActiveSet (const std::vector< const reaction::LogicalReaction * > &finalReactions)
	Finalizes the set of active species and reactions.

Private Attributes
Config &	m_config = Config::getInstance()
	A reference to the singleton Config instance, used for retrieving configuration parameters.
quill::Logger *	m_logger = LogManager::getInstance().getLogger("log")
	A pointer to the logger instance, used for logging messages.
DynamicEngine &	m_baseEngine
	The underlying engine to which this view delegates calculations.
std::vector< fourdst::atomic::Species >	m_activeSpecies
	The set of species that are currently active in the network.
reaction::LogicalReactionSet	m_activeReactions
	The set of reactions that are currently active in the network.
std::vector< size_t >	m_speciesIndexMap
	A map from the indices of the active species to the indices of the corresponding species in the full network.
std::vector< size_t >	m_reactionIndexMap
	A map from the indices of the active reactions to the indices of the corresponding reactions in the full network.
bool	m_isStale = true
	A flag indicating whether the view is stale and needs to be updated.

Detailed Description

An engine view that dynamically adapts the reaction network based on runtime conditions.

This class implements an EngineView that dynamically culls species and reactions from the full reaction network based on their reaction flow rates and connectivity. This allows for efficient simulation of reaction networks by focusing computational effort on the most important species and reactions.

The AdaptiveEngineView maintains a subset of "active" species and reactions, and maps between the full network indices and the active subset indices. This allows the base engine to operate on the full network data, while the AdaptiveEngineView provides a reduced view for external clients.

The adaptation process is driven by the update() method, which performs the following steps:

1. Reaction Flow Calculation: Calculates the molar reaction flow rate for each reaction in the full network based on the current temperature, density, and composition.
2. Reaction Culling: Culls reactions with flow rates below a threshold, determined by a relative culling threshold multiplied by the maximum flow rate.
3. Connectivity Analysis: Performs a connectivity analysis to identify species that are reachable from the initial fuel species through the culled reaction network.
4. Species Culling: Culls species that are not reachable from the initial fuel.
5. Index Map Construction: Constructs index maps to map between the full network indices and the active subset indices for species and reactions.

<DynamicEngine>

See also

engine_abstract.h

engine_view_abstract.h

AdaptiveEngineView::update()

Definition at line 50 of file engine_adaptive.h.

Member Typedef Documentation

Config

using gridfire::AdaptiveEngineView::Config = fourdst::config::Config

private

Definition at line 279 of file engine_adaptive.h.

LogManager

using gridfire::AdaptiveEngineView::LogManager = fourdst::logging::LogManager

private

Definition at line 280 of file engine_adaptive.h.

RescueSet

typedef std::pair<std::unordered_set<const reaction::LogicalReaction*>, std::unordered_set<fourdst::atomic::Species> > gridfire::AdaptiveEngineView::RescueSet

private

Definition at line 452 of file engine_adaptive.h.

Constructor & Destructor Documentation

AdaptiveEngineView()

gridfire::AdaptiveEngineView::AdaptiveEngineView ( DynamicEngine & baseEngine )

explicit

Constructs an AdaptiveEngineView.

Parameters

baseEngine

The underlying DynamicEngine to which this view delegates calculations.

Initializes the active species and reactions to the full network, and constructs the initial index maps.

Definition at line 16 of file engine_adaptive.cpp.

Member Function Documentation

calculateAllReactionFlows()

std::vector< AdaptiveEngineView::ReactionFlow > gridfire::AdaptiveEngineView::calculateAllReactionFlows ( const NetIn & netIn, std::vector< double > & out_Y_Full ) const

private

Calculates the molar reaction flow rate for all reactions in the full network.

This method iterates through all reactions in the base engine's network and calculates their molar flow rates based on the provided network input conditions (temperature, density, and composition). It also constructs a vector of molar abundances for all species in the full network.

Parameters

netIn	The current network input, containing temperature, density, and composition.
out_Y_Full	A vector that will be populated with the molar abundances of all species in the full network.

Returns

A vector of ReactionFlow structs, each containing a pointer to a reaction and its calculated flow rate.

Algorithm:

1. Clears and reserves space in out_Y_Full.
2. Iterates through all species in the base engine's network.
3. For each species, it retrieves the molar abundance from netIn.composition. If the species is not found, its abundance is set to 0.0.
4. Converts the temperature from Kelvin to T9.
5. Iterates through all reactions in the base engine's network.
6. For each reaction, it calls the base engine's calculateMolarReactionFlow to get the flow rate.
7. Stores the reaction pointer and its flow rate in a ReactionFlow struct and adds it to the returned vector.

Definition at line 368 of file engine_adaptive.cpp.

calculateMolarReactionFlow()

double gridfire::AdaptiveEngineView::calculateMolarReactionFlow ( const reaction::Reaction & reaction, const std::vector< double > & Y_culled, double T9, double rho ) const

nodiscardoverridevirtual

Calculates the molar reaction flow for a given reaction in the active network.

Parameters

reaction	The reaction for which to calculate the flow.
Y_culled	Vector of current abundances for the active species.
T9	Temperature in units of 10^9 K.
rho	Density in g/cm^3.

Returns

Molar flow rate for the reaction (e.g., mol/g/s).

This method maps the culled abundances to the full network abundances and calls the base engine to calculate the molar reaction flow.

Exceptions

std::runtime_error	If the AdaptiveEngineView is stale (i.e., update() has not been called).
std::runtime_error	If the reaction is not part of the active reactions in the adaptive engine view.

Implements gridfire::DynamicEngine.

Definition at line 212 of file engine_adaptive.cpp.

calculateRHSAndEnergy()

std::expected< StepDerivatives< double >, expectations::StaleEngineError > gridfire::AdaptiveEngineView::calculateRHSAndEnergy ( const std::vector< double > & Y_culled, const double T9, const double rho ) const

nodiscardoverridevirtual

Calculates the right-hand side (dY/dt) and energy generation for the active species.

Parameters

Y_culled	A vector of abundances for the active species.
T9	The temperature in units of 10^9 K.
rho	The density in g/cm^3.

Returns

A StepDerivatives struct containing the derivatives of the active species and the nuclear energy generation rate.

This method maps the culled abundances to the full network abundances, calls the base engine to calculate the RHS and energy generation, and then maps the full network derivatives back to the culled derivatives.

Exceptions

std::runtime_error

If the AdaptiveEngineView is stale (i.e., update() has not been called).

See also

AdaptiveEngineView::update()

Implements gridfire::Engine.

Definition at line 152 of file engine_adaptive.cpp.

constructReactionIndexMap()

std::vector< size_t > gridfire::AdaptiveEngineView::constructReactionIndexMap ( ) const

nodiscardprivate

Constructs the reaction index map.

Returns

A vector mapping culled reaction indices to full reaction indices.

This method creates a map from the indices of the active reactions to the indices of the corresponding reactions in the full network.

See also

AdaptiveEngineView::update()

Definition at line 56 of file engine_adaptive.cpp.

constructSpeciesIndexMap()

std::vector< size_t > gridfire::AdaptiveEngineView::constructSpeciesIndexMap ( ) const

nodiscardprivate

Constructs the species index map.

Returns

A vector mapping culled species indices to full species indices.

This method creates a map from the indices of the active species to the indices of the corresponding species in the full network.

See also

AdaptiveEngineView::update()

Definition at line 27 of file engine_adaptive.cpp.

cullReactionsByFlow()

std::vector< const reaction::LogicalReaction * > gridfire::AdaptiveEngineView::cullReactionsByFlow ( const std::vector< ReactionFlow > & allFlows, const std::unordered_set< fourdst::atomic::Species > & reachableSpecies, const std::vector< double > & Y_full, double maxFlow ) const

nodiscardprivate

Culls reactions from the network based on their flow rates.

This method filters the list of all reactions, keeping only those with a flow rate above an absolute culling threshold. The threshold is calculated by multiplying the maximum flow rate by a relative culling threshold read from the configuration.

Parameters

allFlows	A vector of all reactions and their flow rates.
reachableSpecies	A set of all species reachable from the initial fuel.
Y_full	A vector of molar abundances for all species in the full network.
maxFlow	The maximum reaction flow rate in the network.

Returns

A vector of pointers to the reactions that have been kept after culling.

Algorithm:

1. Retrieves the RelativeCullingThreshold from the configuration.
2. Calculates the absoluteCullingThreshold by multiplying maxFlow with the relative threshold.
3. Iterates through allFlows.
4. A reaction is kept if its flowRate is greater than the absoluteCullingThreshold.
5. The pointers to the kept reactions are stored in a vector and returned.

Definition at line 442 of file engine_adaptive.cpp.

finalizeActiveSet()

void gridfire::AdaptiveEngineView::finalizeActiveSet ( const std::vector< const reaction::LogicalReaction * > & finalReactions )

private

Finalizes the set of active species and reactions.

This method takes the final list of culled reactions and populates the m_activeReactions and m_activeSpecies members. The active species are determined by collecting all reactants and products from the final reactions. The active species list is then sorted by mass.

Parameters

finalReactions

A vector of pointers to the reactions to be included in the active set.

Postcondition

• m_activeReactions is cleared and populated with the reactions from finalReactions.
• m_activeSpecies is cleared and populated with all unique species present in finalReactions.
• m_activeSpecies is sorted by atomic mass.

Definition at line 641 of file engine_adaptive.cpp.

findReachableSpecies()

std::unordered_set< Species > gridfire::AdaptiveEngineView::findReachableSpecies ( const NetIn & netIn ) const

nodiscardprivate

Finds all species that are reachable from the initial fuel through the reaction network.

This method performs a connectivity analysis to identify all species that can be produced starting from the initial fuel species. A species is considered part of the initial fuel if its mass fraction is above a certain threshold (ABUNDANCE_FLOOR).

Parameters

netIn

The current network input, containing the initial composition.

Returns

An unordered set of all reachable species.

Algorithm:

1. Initializes a set reachable and a queue to_visit with the initial fuel species.
2. Iteratively processes the reaction network until no new species can be reached.
3. In each pass, it iterates through all reactions in the base engine's network.
4. If all reactants of a reaction are in the reachable set, all products of that reaction are added to the reachable set.
5. The process continues until a full pass over all reactions does not add any new species to the reachable set.

Definition at line 399 of file engine_adaptive.cpp.

generateJacobianMatrix()

void gridfire::AdaptiveEngineView::generateJacobianMatrix ( const std::vector< double > & Y_dynamic, const double T9, const double rho ) const

overridevirtual

Generates the Jacobian matrix for the active species.

Parameters

Y_dynamic	A vector of abundances for the active species.
T9	The temperature in units of 10^9 K.
rho	The density in g/cm^3.

This method maps the culled abundances to the full network abundances and calls the base engine to generate the Jacobian matrix.

Exceptions

std::runtime_error

If the AdaptiveEngineView is stale (i.e., update() has not been called).

See also

AdaptiveEngineView::update()

Implements gridfire::DynamicEngine.

Definition at line 175 of file engine_adaptive.cpp.

generateStoichiometryMatrix()

void gridfire::AdaptiveEngineView::generateStoichiometryMatrix ( )

overridevirtual

Generates the stoichiometry matrix for the active reactions and species.

This method calls the base engine to generate the stoichiometry matrix.

Exceptions

std::runtime_error

If the AdaptiveEngineView is stale (i.e., update() has not been called).

Note

The stoichiometry matrix generated by the base engine is assumed to be consistent with the active species and reactions in this view.

Implements gridfire::DynamicEngine.

Definition at line 197 of file engine_adaptive.cpp.

getBaseEngine()

const DynamicEngine & gridfire::AdaptiveEngineView::getBaseEngine ( ) const

inlinenodiscardoverridevirtual

Gets the base engine.

Returns

A const reference to the base engine.

Implements gridfire::EngineView< DynamicEngine >.

Definition at line 239 of file engine_adaptive.h.

getJacobianMatrixEntry()

double gridfire::AdaptiveEngineView::getJacobianMatrixEntry ( const int i_culled, const int j_culled ) const

nodiscardoverridevirtual

Gets an entry from the Jacobian matrix for the active species.

Parameters

i_culled	The row index (species index) in the culled matrix.
j_culled	The column index (species index) in the culled matrix.

Returns

The value of the Jacobian matrix at (i_culled, j_culled).

This method maps the culled indices to the full network indices and calls the base engine to get the Jacobian matrix entry.

Exceptions

std::runtime_error	If the AdaptiveEngineView is stale (i.e., update() has not been called).
std::out_of_range	If the culled index is out of bounds for the species index map.

See also

AdaptiveEngineView::update()

Implements gridfire::DynamicEngine.

Definition at line 186 of file engine_adaptive.cpp.

getNetworkReactions()

const reaction::LogicalReactionSet & gridfire::AdaptiveEngineView::getNetworkReactions ( ) const

nodiscardoverridevirtual

Gets the set of active logical reactions in the network.

Returns

Reference to the LogicalReactionSet containing all active reactions.

Implements gridfire::DynamicEngine.

Definition at line 229 of file engine_adaptive.cpp.

getNetworkSpecies()

const std::vector< Species > & gridfire::AdaptiveEngineView::getNetworkSpecies ( ) const

nodiscardoverridevirtual

Gets the list of active species in the network.

Returns

A const reference to the vector of active species.

Implements gridfire::Engine.

Definition at line 148 of file engine_adaptive.cpp.

getScreeningModel()

screening::ScreeningType gridfire::AdaptiveEngineView::getScreeningModel ( ) const

nodiscardoverridevirtual

Gets the screening model from the base engine.

This method delegates the call to the base engine to get the screening model.

Returns

The current screening model type.

Usage Example:

AdaptiveEngineView engineView(...);
screening::ScreeningType model = engineView.getScreeningModel();

Implements gridfire::DynamicEngine.

Definition at line 296 of file engine_adaptive.cpp.

getSpeciesDestructionTimescales()

std::expected< std::unordered_map< fourdst::atomic::Species, double >, expectations::StaleEngineError > gridfire::AdaptiveEngineView::getSpeciesDestructionTimescales ( const std::vector< double > & Y, double T9, double rho ) const

nodiscardoverridevirtual

Implements gridfire::DynamicEngine.

Definition at line 266 of file engine_adaptive.cpp.

getSpeciesIndex()

int gridfire::AdaptiveEngineView::getSpeciesIndex ( const fourdst::atomic::Species & species ) const

nodiscardoverridevirtual

Implements gridfire::DynamicEngine.

Definition at line 312 of file engine_adaptive.cpp.

getSpeciesTimescales()

std::expected< std::unordered_map< Species, double >, expectations::StaleEngineError > gridfire::AdaptiveEngineView::getSpeciesTimescales ( const std::vector< double > & Y_culled, double T9, double rho ) const

nodiscardoverridevirtual

Computes timescales for all active species in the network.

Parameters

Y_culled	Vector of current abundances for the active species.
T9	Temperature in units of 10^9 K.
rho	Density in g/cm^3.

Returns

Map from Species to their characteristic timescales (s).

This method maps the culled abundances to the full network abundances and calls the base engine to compute the species timescales.

Exceptions

std::runtime_error

If the AdaptiveEngineView is stale (i.e., update() has not been called).

Implements gridfire::DynamicEngine.

Definition at line 238 of file engine_adaptive.cpp.

getStoichiometryMatrixEntry()

int gridfire::AdaptiveEngineView::getStoichiometryMatrixEntry ( const int speciesIndex_culled, const int reactionIndex_culled ) const

nodiscardoverridevirtual

Gets an entry from the stoichiometry matrix for the active species and reactions.

Parameters

speciesIndex_culled	The index of the species in the culled species list.
reactionIndex_culled	The index of the reaction in the culled reaction list.

Returns

The stoichiometric coefficient for the given species and reaction.

This method maps the culled indices to the full network indices and calls the base engine to get the stoichiometry matrix entry.

Exceptions

std::runtime_error	If the AdaptiveEngineView is stale (i.e., update() has not been called).
std::out_of_range	If the culled index is out of bounds for the species or reaction index map.

See also

AdaptiveEngineView::update()

Implements gridfire::DynamicEngine.

Definition at line 202 of file engine_adaptive.cpp.

isStale()

bool gridfire::AdaptiveEngineView::isStale ( const NetIn & netIn )

overridevirtual

Implements gridfire::DynamicEngine.

Definition at line 144 of file engine_adaptive.cpp.

mapCulledToFull()

std::vector< double > gridfire::AdaptiveEngineView::mapCulledToFull ( const std::vector< double > & culled ) const

nodiscardprivate

Maps a vector of culled abundances to a vector of full abundances.

Parameters

culled

A vector of abundances for the active species.

Returns

A vector of abundances for the full network, with the abundances of the active species copied from the culled vector.

Definition at line 323 of file engine_adaptive.cpp.

mapCulledToFullReactionIndex()

size_t gridfire::AdaptiveEngineView::mapCulledToFullReactionIndex ( size_t culledReactionIndex ) const

nodiscardprivate

Maps a culled reaction index to a full reaction index.

Parameters

culledReactionIndex

The index of the reaction in the culled reaction list.

Returns

The index of the corresponding reaction in the full network.

Exceptions

std::out_of_range

If the culled index is out of bounds for the reaction index map.

Definition at line 350 of file engine_adaptive.cpp.

mapCulledToFullSpeciesIndex()

size_t gridfire::AdaptiveEngineView::mapCulledToFullSpeciesIndex ( size_t culledSpeciesIndex ) const

nodiscardprivate

Maps a culled species index to a full species index.

Parameters

culledSpeciesIndex

The index of the species in the culled species list.

Returns

The index of the corresponding species in the full network.

Exceptions

std::out_of_range

If the culled index is out of bounds for the species index map.

Definition at line 341 of file engine_adaptive.cpp.

mapFullToCulled()

std::vector< double > gridfire::AdaptiveEngineView::mapFullToCulled ( const std::vector< double > & full ) const

nodiscardprivate

Maps a vector of full abundances to a vector of culled abundances.

Parameters

full	A vector of abundances for the full network.

Returns

A vector of abundances for the active species, with the abundances of the active species copied from the full vector.

Definition at line 332 of file engine_adaptive.cpp.

mapNetInToMolarAbundanceVector()

std::vector< double > gridfire::AdaptiveEngineView::mapNetInToMolarAbundanceVector ( const NetIn & netIn ) const

nodiscardoverridevirtual

Implements gridfire::DynamicEngine.

Definition at line 300 of file engine_adaptive.cpp.

primeEngine()

PrimingReport gridfire::AdaptiveEngineView::primeEngine ( const NetIn & netIn )

nodiscardoverridevirtual

Implements gridfire::DynamicEngine.

Definition at line 308 of file engine_adaptive.cpp.

rescueEdgeSpeciesDestructionChannel()

AdaptiveEngineView::RescueSet gridfire::AdaptiveEngineView::rescueEdgeSpeciesDestructionChannel ( const std::vector< double > & Y_full, const double T9, const double rho, const std::vector< fourdst::atomic::Species > & activeSpecies, const reaction::LogicalReactionSet & activeReactions ) const

nodiscardprivate

Definition at line 485 of file engine_adaptive.cpp.

setNetworkReactions()

void gridfire::AdaptiveEngineView::setNetworkReactions ( const reaction::LogicalReactionSet & reactions )

overridevirtual

Implements gridfire::DynamicEngine.

Definition at line 233 of file engine_adaptive.cpp.

setScreeningModel()

void gridfire::AdaptiveEngineView::setScreeningModel ( screening::ScreeningType model )

overridevirtual

Sets the screening model for the base engine.

This method delegates the call to the base engine to set the electron screening model.

Parameters

model

The electron screening model to set.

Usage Example:

AdaptiveEngineView engineView(...);
engineView.setScreeningModel(screening::ScreeningType::WEAK);

Postcondition

The screening model of the base engine is updated.

Implements gridfire::DynamicEngine.

Definition at line 292 of file engine_adaptive.cpp.

update()

fourdst::composition::Composition gridfire::AdaptiveEngineView::update ( const NetIn & netIn )

overridevirtual

Updates the active species and reactions based on the current conditions.

Parameters

netIn

The current network input, containing temperature, density, and composition.

This method performs the reaction flow calculation, reaction culling, connectivity analysis, and index map construction steps described above.

The culling thresholds are read from the configuration using the following keys:

• gridfire:AdaptiveEngineView:RelativeCullingThreshold (default: 1e-75)

Exceptions

std::runtime_error

If there is a mismatch between the active reactions and the base engine.

Postcondition

The active species and reactions are updated, and the index maps are reconstructed.

See also

AdaptiveEngineView

AdaptiveEngineView::constructSpeciesIndexMap()

AdaptiveEngineView::constructReactionIndexMap()

Implements gridfire::DynamicEngine.

Definition at line 88 of file engine_adaptive.cpp.

validateState()

void gridfire::AdaptiveEngineView::validateState ( ) const

private

Validates that the AdaptiveEngineView is not stale.

Exceptions

std::runtime_error

If the AdaptiveEngineView is stale (i.e., update() has not been called).

Definition at line 359 of file engine_adaptive.cpp.

Member Data Documentation

m_activeReactions

reaction::LogicalReactionSet gridfire::AdaptiveEngineView::m_activeReactions

private

The set of reactions that are currently active in the network.

Definition at line 292 of file engine_adaptive.h.

m_activeSpecies

std::vector<fourdst::atomic::Species> gridfire::AdaptiveEngineView::m_activeSpecies

private

The set of species that are currently active in the network.

Definition at line 290 of file engine_adaptive.h.

m_baseEngine

DynamicEngine& gridfire::AdaptiveEngineView::m_baseEngine

private

The underlying engine to which this view delegates calculations.

Definition at line 287 of file engine_adaptive.h.

m_config

Config& gridfire::AdaptiveEngineView::m_config = Config::getInstance()

private

A reference to the singleton Config instance, used for retrieving configuration parameters.

Definition at line 282 of file engine_adaptive.h.

m_isStale

bool gridfire::AdaptiveEngineView::m_isStale = true

private

A flag indicating whether the view is stale and needs to be updated.

Definition at line 300 of file engine_adaptive.h.

m_logger

quill::Logger* gridfire::AdaptiveEngineView::m_logger = LogManager::getInstance().getLogger("log")

private

A pointer to the logger instance, used for logging messages.

Definition at line 284 of file engine_adaptive.h.

m_reactionIndexMap

std::vector<size_t> gridfire::AdaptiveEngineView::m_reactionIndexMap

private

A map from the indices of the active reactions to the indices of the corresponding reactions in the full network.

Definition at line 297 of file engine_adaptive.h.

m_speciesIndexMap

std::vector<size_t> gridfire::AdaptiveEngineView::m_speciesIndexMap

private

A map from the indices of the active species to the indices of the corresponding species in the full network.

Definition at line 295 of file engine_adaptive.h.

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

• src/include/gridfire/engine/views/engine_adaptive.h
• src/lib/engine/views/engine_adaptive.cpp