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- fallenAgentAvoidanceForces() - function in it.unibo.alchemist.model.cognitive.properties.PhysicalPedestrian2D
- fallenAgentAvoidanceForces() - function in it.unibo.alchemist.model.physics.properties.PhysicalPedestrian
- Computes the avoidance force from a fallen pedestrian.
- fallenAgentAvoidanceForces() - function in it.unibo.alchemist.model.physics.properties.PhysicalPedestrian2D
- Computes the avoidance force from a fallen pedestrian.
- Family - class in it.unibo.alchemist.model.cognitive.groups
- A Family is modeled as a group of pedestrians with a leader.
- family() - function in it.unibo.alchemist.model.cognitive.groups.GroupFactory
- Builds a new Family.
- farthestPositionReachable(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition,java.lang.Double) - function in it.unibo.alchemist.model.physics.Dynamics2DEnvironment
- Computes the farthest position reachable by a node towards a desiredPosition, avoiding node overlapping.
- farthestPositionReachable(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition,java.lang.Double) - function in it.unibo.alchemist.model.physics.EuclideanPhysics2DEnvironmentWithGraph
- Computes the farthest position reachable by a node towards a desiredPosition, avoiding node overlapping.
- farthestPositionReachable(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition,java.lang.Double) - function in it.unibo.alchemist.model.physics.EuclideanPhysics2DEnvironmentWithObstacles
- Computes the farthest position reachable by a node towards a desiredPosition, avoiding node overlapping.
- farthestPositionReachable(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition,java.lang.Double) - function in it.unibo.alchemist.model.physics.Physics2DEnvironment
- Computes the farthest position reachable by a node towards a desiredPosition, avoiding node overlapping.
- farthestPositionReachable(it.unibo.alchemist.model.Node,P,double) - function in it.unibo.alchemist.model.physics.PhysicsEnvironment
- farthestPositionReachable(it.unibo.alchemist.model.Node,P,double) - function in it.unibo.alchemist.model.physics.PhysicsEnvironment
- Computes the farthest position reachable by a node towards a desiredPosition, avoiding node overlapping.
- farthestPositionReachable(it.unibo.alchemist.model.Node,P,java.lang.Double) - function in it.unibo.alchemist.model.physics.PhysicsEnvironment
- Computes the farthest position reachable by a node towards a desiredPosition, avoiding node overlapping.
- farthestPositionReachable(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition,java.lang.Double) - function in it.unibo.alchemist.model.physics.PhysicsEnvironment
- farthestPositionReachable(it.unibo.alchemist.model.Node,P,java.lang.Double) - function in it.unibo.alchemist.model.physics.PhysicsEnvironmentWithObstacles
- Computes the farthest position reachable by a node towards a desiredPosition, avoiding node overlapping.
- farthestPositionReachable(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition,double) - function in it.unibo.alchemist.model.physics.environments.ContinuousPhysics2DEnvironment
- farthestPositionReachable(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition,double) - function in it.unibo.alchemist.model.physics.environments.ContinuousPhysics2DEnvironment
- Computes the farthest position reachable by a node towards a desiredPosition, avoiding node overlapping.
- farthestPositionReachable(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition,java.lang.Double) - function in it.unibo.alchemist.model.physics.environments.ContinuousPhysics2DEnvironment
- farthestPositionReachable(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition,java.lang.Double) - function in it.unibo.alchemist.model.physics.environments.ContinuousPhysics2DEnvironment
- Computes the farthest position reachable by a node towards a desiredPosition, avoiding node overlapping.
- fear() - function in it.unibo.alchemist.model.cognitive.CognitiveModel
- Value representing the level of fear.
- fear() - function in it.unibo.alchemist.model.cognitive.impact.ImpactModel
- Value representing the level of fear.
- Fear - class in it.unibo.alchemist.model.cognitive.impact.cognitive
- The fear emotion.
- FEMALE - enum entry in it.unibo.alchemist.model.cognitive.impact.individual.Gender
- FieldOfView2D - class in it.unibo.alchemist.model.physics
- A sphere of influence representing the sight of a node in the Euclidean world.
- FileLock - class in it.unibo.alchemist.multivesta.adapter.utils
- A file lock that uses the local filesystem.
- fillInStackTrace() - function in java.lang.Throwable
- fillInStackTrace() - function in java.lang.Throwable
- fillInStackTrace() - function in java.lang.Throwable
- fillInStackTrace() - function in kotlin.Throwable
- filter(java.util.List,java.util.List,java.util.List) - function in it.unibo.alchemist.model.sapere.ILsaCondition
- When this method is called, the condition must filter the current matches and allowed nodes.
- filter(java.util.List,java.util.List,java.util.List) - function in it.unibo.alchemist.model.sapere.ILsaCondition
- When this method is called, the condition must filter the current matches and allowed nodes.
- filter(java.util.List,java.util.List,java.util.List) - function in it.unibo.alchemist.model.sapere.conditions.LsaNeighborhoodCondition
- When this method is called, the condition must filter the current matches and allowed nodes.
- filter(java.util.List,java.util.List,java.util.List) - function in it.unibo.alchemist.model.sapere.conditions.LsaStandardCondition
- When this method is called, the condition must filter the current matches and allowed nodes.
- Filtered - class in it.unibo.alchemist.model.cognitive.steering
- SteeringStrategy decorator applying a filter to the list of steering actions (see computeNextPosition).
- FILTERINFINITY - enum entry in it.unibo.alchemist.boundary.exportfilters.CommonFilters
Remove all values that match isInfinite (NaN don't get filtered).
- FILTERNAN - enum entry in it.unibo.alchemist.boundary.exportfilters.CommonFilters
/** Remove all NaN values.
- findExtremeCoordsOnX(java.util.List) - function in it.unibo.alchemist.util.Ranges
- Given a non-empty list of points represented as vectors, this method finds the extreme coordinates (i.e.
- findExtremeCoordsOnY(java.util.List) - function in it.unibo.alchemist.util.Ranges
- Given a non-empty list of points represented as vectors, this method finds the extreme coordinates (i.e.
- findPoint(java.lang.Double) - function in it.unibo.alchemist.model.geometry.Line2D
- Finds the point belonging to the line with the given x-coordinate.
- findPoint(java.lang.Double) - function in it.unibo.alchemist.model.geometry.SlopeInterceptLine2D
- Finds the point belonging to the line with the given x-coordinate.
- findY(java.lang.Double) - function in it.unibo.alchemist.model.geometry.SlopeInterceptLine2D
- Solves the line equation for the given x.
- finished(it.unibo.alchemist.model.Environment,it.unibo.alchemist.model.Time,long) - function in it.unibo.alchemist.boundary.OutputMonitor
- This method will be called by the simulation once the whole simulation has finished, either because it reached its latest point or because the user stopped it.
- finished(it.unibo.alchemist.model.Environment,it.unibo.alchemist.model.Time,java.lang.Long) - function in it.unibo.alchemist.boundary.exporters.GlobalExporter
- finished(it.unibo.alchemist.model.Environment,it.unibo.alchemist.model.Time,java.lang.Long) - function in it.unibo.alchemist.boundary.graphql.monitor.EnvironmentSubscriptionMonitor
- Flag - class in it.unibo.alchemist.boundary.variables
- This variable is a flag.
- FollowAtDistance - class in it.unibo.alchemist.model.actions
- Makes the Node follow a target defined in a Molecule with some speed, but keeping a distance from it.
- FollowRoute - class in it.unibo.alchemist.model.cognitive.navigation
- A NavigationStrategy allowing to follow a given route.
- FollowTarget - class in it.unibo.alchemist.model.movestrategies.target
- This strategy reads the value of a "target" molecule and tries to interpret it as a coordinate.
- FollowTargetOnMap - class in it.unibo.alchemist.model.maps.movestrategies.target
- This strategy reads the value of a "target" molecule and tries to interpret it as a coordinate.
- FollowTrace - class in it.unibo.alchemist.model.maps.movestrategies.target
- This strategy follows a Route.
- forEach(java.util.function.Consumer) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
- forEach(java.util.function.Consumer) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
- forEach(java.util.function.Consumer) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
- forEach(java.util.function.Consumer) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
- forEach(java.util.function.Consumer) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
- forEach(java.util.function.Consumer) - function in it.unibo.alchemist.model.nodes.GenericNode
- forEach(java.util.function.Consumer) - function in it.unibo.alchemist.model.nodes.GenericNode
- forEach(java.util.function.Consumer) - function in it.unibo.alchemist.model.nodes.GenericNode
- Performs an action for every reaction.
- forEach(java.util.function.Consumer) - function in it.unibo.alchemist.model.sapere.molecules.LsaMolecule
- forEach(java.util.function.Consumer) - function in java.lang.BenchmarkableEnvironment
- forEach(java.util.function.Consumer) - function in java.lang.Deployment
- forEach(java.util.function.Consumer) - function in java.lang.Environment
- forEach(java.util.function.Consumer) - function in java.lang.EnvironmentNode
- forEach(java.util.function.Consumer) - function in java.lang.EnvironmentSupportingDeformableCells
- forEach(java.util.function.Consumer) - function in java.lang.GPSTrace
- forEach(java.util.function.Consumer) - function in java.lang.ILsaMolecule
- forEach(java.util.function.Consumer) - function in java.lang.ILsaNode
- forEach(java.util.function.Consumer) - function in java.lang.Iterable
- forEach(java.util.function.Consumer) - function in java.lang.Iterable
- forEach(java.util.function.Consumer) - function in java.lang.Iterable
- forEach(java.util.function.Consumer) - function in java.lang.Iterable
- forEach(java.util.function.Consumer) - function in java.lang.MapEnvironment
- forEach(java.util.function.Consumer) - function in java.lang.Neighborhood
- forEach(java.util.function.Consumer) - function in java.lang.Route
- forEach(java.util.function.Consumer) - function in java.lang.TimedRoute
- forEach(java.util.function.Consumer) - function in java.lang.Variable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Dynamics2DEnvironment
- forEach(java.util.function.Consumer) - function in kotlin.collections.Environment2DWithObstacles
- forEach(java.util.function.Consumer) - function in kotlin.collections.EnvironmentWithGraph
- forEach(java.util.function.Consumer) - function in kotlin.collections.EnvironmentWithObstacles
- forEach(java.util.function.Consumer) - function in kotlin.collections.Euclidean2DEnvironment
- forEach(java.util.function.Consumer) - function in kotlin.collections.Euclidean2DEnvironmentWithGraph
- forEach(java.util.function.Consumer) - function in kotlin.collections.Euclidean2DEnvironmentWithObstacles
- forEach(java.util.function.Consumer) - function in kotlin.collections.EuclideanEnvironment
- forEach(java.util.function.Consumer) - function in kotlin.collections.EuclideanPhysics2DEnvironmentWithGraph
- forEach(java.util.function.Consumer) - function in kotlin.collections.EuclideanPhysics2DEnvironmentWithObstacles
- forEach(java.util.function.Consumer) - function in kotlin.collections.Group
- forEach(java.util.function.Consumer) - function in kotlin.collections.GroupWithLeader
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Iterable
- forEach(java.util.function.Consumer) - function in kotlin.collections.Node
- forEach(java.util.function.Consumer) - function in kotlin.collections.Physics2DEnvironment
- forEach(java.util.function.Consumer) - function in kotlin.collections.PhysicsEnvironment
- forEach(java.util.function.Consumer) - function in kotlin.collections.PhysicsEnvironmentWithObstacles
- Friends - class in it.unibo.alchemist.model.cognitive.groups
- A generic, leaderless group of pedestrians.
- friends() - function in it.unibo.alchemist.model.cognitive.groups.GroupFactory
- Builds a new group of Friends.
- from(java.io.InputStream) - function in it.unibo.alchemist.boundary.AlchemistModelProvider
- Reads input from an InputStream.
- from(java.io.Reader) - function in it.unibo.alchemist.boundary.AlchemistModelProvider
- Reads input from a Reader.
- from(java.net.URL) - function in it.unibo.alchemist.boundary.AlchemistModelProvider
- Reads input from a URL.
- from(java.lang.String) - function in it.unibo.alchemist.boundary.AlchemistModelProvider
- Reads input from a String.
- from(java.io.File,java.util.List) - function in it.unibo.alchemist.boundary.LoadAlchemist
- Load from a file with overrides.
- from(java.io.File) - function in it.unibo.alchemist.boundary.LoadAlchemist
- Load from a file with overrides.
- from(java.io.InputStream,it.unibo.alchemist.boundary.AlchemistModelProvider,java.util.List) - function in it.unibo.alchemist.boundary.LoadAlchemist
- Load from an InputStream with overrides.
- from(java.io.InputStream,it.unibo.alchemist.boundary.AlchemistModelProvider) - function in it.unibo.alchemist.boundary.LoadAlchemist
- Load from an InputStream with overrides.
- from(java.io.Reader,it.unibo.alchemist.boundary.AlchemistModelProvider,java.util.List) - function in it.unibo.alchemist.boundary.LoadAlchemist
- Load from a reader with overrides.
- from(java.io.Reader,it.unibo.alchemist.boundary.AlchemistModelProvider) - function in it.unibo.alchemist.boundary.LoadAlchemist
- Load from a reader with overrides.
- from(java.net.URL,it.unibo.alchemist.boundary.AlchemistModelProvider,java.util.List) - function in it.unibo.alchemist.boundary.LoadAlchemist
- Load from an url with overrides.
- from(java.net.URL,it.unibo.alchemist.boundary.AlchemistModelProvider) - function in it.unibo.alchemist.boundary.LoadAlchemist
- Load from an url with overrides.
- from(java.net.URL,java.util.List) - function in it.unibo.alchemist.boundary.LoadAlchemist
- Load from an url with overrides.
- from(java.net.URL) - function in it.unibo.alchemist.boundary.LoadAlchemist
- Load from an url with overrides.
- from(java.lang.String,it.unibo.alchemist.boundary.AlchemistModelProvider,java.util.List) - function in it.unibo.alchemist.boundary.LoadAlchemist
- Load from an input with overrides.
- from(java.lang.String,it.unibo.alchemist.boundary.AlchemistModelProvider) - function in it.unibo.alchemist.boundary.LoadAlchemist
- Load from an input with overrides.
- from(java.lang.String,java.util.List) - function in it.unibo.alchemist.boundary.LoadAlchemist
- Load from a string with overrides.
- from(java.lang.String) - function in it.unibo.alchemist.boundary.LoadAlchemist
- Load from a string with overrides.
- from(java.io.InputStream) - function in it.unibo.alchemist.boundary.modelproviders.YamlProvider
- Reads input from an InputStream.
- from(java.io.Reader) - function in it.unibo.alchemist.boundary.modelproviders.YamlProvider
- Reads input from a Reader.
- from(java.net.URL) - function in it.unibo.alchemist.boundary.modelproviders.YamlProvider
- Reads input from a URL.
- from(java.lang.String) - function in it.unibo.alchemist.boundary.modelproviders.YamlProvider
- Reads input from a String.
- from(double,double) - function in it.unibo.alchemist.boundary.ui.impl.PointAdapter
- Builds a PointAdapter from coordinates.
- from(it.unibo.alchemist.model.Position2D) - function in it.unibo.alchemist.boundary.ui.impl.PointAdapter
- Builds a PointAdapter.
- from(java.awt.geom.Point2D) - function in it.unibo.alchemist.boundary.ui.impl.PointAdapter
- Builds a PointAdapter.
- fromAny(java.lang.Object) - function in it.unibo.alchemist.model.cognitive.impact.individual.Age.Companion
- Returns the corresponding age in this enum given a string resembling it.
- fromCoordinates(kotlin.Array) - function in it.unibo.alchemist.model.geometry.Vector
- fromCoordinates(kotlin.DoubleArray) - function in it.unibo.alchemist.model.geometry.Vector
- Builds a new Vector from the provided coordinates.
- fromCoordinates(kotlin.DoubleArray) - function in it.unibo.alchemist.model.geometry.Vector2D
- Builds a new Vector from the provided coordinates.
- fromCoordinates(kotlin.DoubleArray) - function in it.unibo.alchemist.model.positions.Euclidean2DPosition
- fromCSV(java.lang.String,java.lang.String) - function in it.unibo.alchemist.multivesta.adapter.AlchemistSimStatesLoader
- Reads the simulation states from the given file.
- FromGPSTrace - class in it.unibo.alchemist.model.maps.deployments
- Distributes nodes in the first positions of GPSTrace.
- fromPositionInput(it.unibo.alchemist.boundary.graphql.schema.model.surrogates.PositionInput) - function in it.unibo.alchemist.boundary.graphql.schema.util.PositionSurrogateUtils
- Converts a PositionInput to its relative PositionSurrogate.
- fromSegment(it.unibo.alchemist.model.geometry.Segment2D) - function in it.unibo.alchemist.model.geometry.SlopeInterceptLine2D.Companion
- Creates a line from a non-degenerate segment.
- fromString(java.lang.String) - function in it.unibo.alchemist.boundary.exportfilters.CommonFilters
- fromString(java.lang.String) - function in it.unibo.alchemist.model.cognitive.impact.individual.Age.Companion
- Returns the corresponding age in this enum given a string resembling it.
- fromString(java.lang.String) - function in it.unibo.alchemist.model.cognitive.impact.individual.Gender.Companion
- Returns the corresponding gender in this enum given a string resembling it.
- fromYears(java.lang.Integer) - function in it.unibo.alchemist.model.cognitive.impact.individual.Age.Companion
- Returns the corresponding age in this enum given the age in years.
- FullyConnected - class in it.unibo.alchemist.model.linkingrules
- This rule connects each and every node to each and every other.
- fuzzyEquals(java.lang.Double,java.lang.Double) - function in it.unibo.alchemist.util.Doubles
- Checks if two double values are fuzzy equal.
- fuzzyEquals(java.lang.Double,java.lang.Double) - function in it.unibo.alchemist.util.math.Math
- Compares two double values, taking care of computing a relative error tolerance threshold.
- fuzzyGreaterEquals(java.lang.Double,java.lang.Double) - function in it.unibo.alchemist.util.math.Math
- Compares two double values, taking care of computing a relative error tolerance threshold.
- fuzzyIn(java.lang.Double,kotlin.ranges.ClosedRange) - function in it.unibo.alchemist.util.Doubles
- Checks if a double value is fuzzy contained in a range.
- fuzzySmallerEquals(java.lang.Double,java.lang.Double) - function in it.unibo.alchemist.util.math.Math
- Compares two double values, taking care of computing a relative error tolerance threshold.