A-index

A B C D E F G H I J K L M N O P Q R S T U V W X Y Z

A

Abstract2DEnvironment - class in it.unibo.alchemist.model.environments: Models a bidimensional environment.
Abstract2DShape - class in it.unibo.alchemist.model.positionfilters: A bidimensional Alchemist PositionBasedFilter that relies on AWT java.awt.Shape.
AbstractAction - class in it.unibo.alchemist.model.actions: An abstract class facility with some generic methods implemented.
AbstractActionOnSingleMolecule - class in it.unibo.alchemist.model.actions: This class offers the basic structures to provide operations with numeric concentrations on a single molecule.
AbstractAlchemistSimulationAdapter - class in it.unibo.alchemist.multivesta.adapter: This is an adapter that allow MultiVesta to interact with Alchemist.
AbstractCloseTo - class in it.unibo.alchemist.model.deployments: A generic Deployment that displaces a certain nodeCount of nodes in the proximity of a number of sources.
AbstractCognitiveCharacteristic - class in it.unibo.alchemist.model.cognitive.impact.cognitive: The generic implementation of a cognitive characteristic.
AbstractCognitiveCharacteristic.Companion - class in it.unibo.alchemist.model.cognitive.impact.cognitive.AbstractCognitiveCharacteristic: Cognitive characteristics are modeled following the principles of Network Oriented Modeling, which allow characteristics to influence each other and evolve during the simulation.
AbstractCondition - class in it.unibo.alchemist.model.conditions
AbstractConfigurableMoveNode - class in it.unibo.alchemist.model.actions: An abstract class that factorizes code for multiple different movements.
AbstractConvexPolygon - class in it.unibo.alchemist.model.geometry: An abstract ConvexPolygon providing a convexity test.
AbstractDistribution - class in it.unibo.alchemist.model.timedistributions: This class provides, through a template method pattern, an utility that ensures that the distribution does not trigger events before its initial scheduling time.
AbstractDoubleExporter - class in it.unibo.alchemist.boundary.extractors: Double-formatting utility.
AbstractEnvironment - class in it.unibo.alchemist.model.environments: Very generic and basic implementation for an environment.
AbstractEuclideanConfigurableMoveNode - class in it.unibo.alchemist.model.actions: It's an AbstractConfigurableMoveNode in the Euclidean world, which provides a default interpolatePositions that is accurate with respect to the target given and the current maximum walking distance.
AbstractEuclideanPosition - class in it.unibo.alchemist.model.positions: N-dimensional Euclidean position.
AbstractExporter - class in it.unibo.alchemist.boundary.exporters: Abstract implementation of a Exporter.
AbstractGPSTimeAlignment - class in it.unibo.alchemist.boundary.gps.alignments
AbstractGroupSteeringAction - class in it.unibo.alchemist.model.cognitive.actions: An abstract GroupSteeringAction.
AbstractLayerAction - class in it.unibo.alchemist.model.cognitive.actions: Abstract implementation of an action influenced by the concentration of a given molecule in the environment.
AbstractLocalAction - class in it.unibo.alchemist.model.actions
AbstractLocallyConsistentLinkingRule - class in it.unibo.alchemist.model.linkingrules
AbstractMoveNode - class in it.unibo.alchemist.model.actions: This action moves a node inside a given environment.
AbstractNavigationAction - class in it.unibo.alchemist.model.cognitive.actions: An abstract NavigationAction, taking care of properly moving the node in the environment while delegating the decision on where to move it to a NavigationStrategy.
AbstractNeighborAction - class in it.unibo.alchemist.model.biochemistry.actions: Represents an action on a neighbor.
AbstractNeighborCondition - class in it.unibo.alchemist.model.biochemistry.conditions: Represents a condition on a neighbor.
AbstractNodeProperty - class in it.unibo.alchemist.model.properties
AbstractNonPropensityContributingCondition - class in it.unibo.alchemist.model.conditions: This condition does not influence the reaction propensity, it contributes respectively with 1.0 in case it can execute, or with 0.0 in case it cannot.
AbstractPosition - class in it.unibo.alchemist.model.positions: N-dimensional position.
AbstractRandomDeployment - class in it.unibo.alchemist.model.deployments
AbstractRandomizableAction - class in it.unibo.alchemist.model.biochemistry.actions
AbstractReaction - class in it.unibo.alchemist.model.reactions: The type which describes the concentration of a molecule.
AbstractShapeFactory - class in it.unibo.alchemist.model.geometry: Base class for Transformation providing a standard implementation for GeometricShapeFactory.adimensional.
AbstractSlideInputManager - class in it.unibo.alchemist.boundary.ui.impl: ASlideInputManager is the base class for any class whose aim is to handle the the sliding of any physical/virtual device/control.
AbstractSteeringAction - class in it.unibo.alchemist.model.cognitive.actions: A SteeringAction in a vector space.
AbstractSteeringActionWithTarget - class in it.unibo.alchemist.model.cognitive.actions: A SteeringActionWithTarget in a vector space.
AbstractStrategyWithGPS - class in it.unibo.alchemist.model.maps.movestrategies: basic move strategy that use a GPSTrace.
AbstractWormhole2D - class in it.unibo.alchemist.boundary.ui.impl: Partial, abstract, implementation for the interface Wormhole2D.
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.ArgContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.ArgListContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.BiochemicalReactionContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.BiochemicalReactionLeftContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.BiochemicalReactionLeftContextContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.BiochemicalReactionLeftInCellContextContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.BiochemicalReactionLeftInEnvContextContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.BiochemicalReactionLeftInNeighborContextContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.BiochemicalReactionRightContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.BiochemicalReactionRightContextContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.BiochemicalReactionRightElemContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.BiochemicalReactionRightInCellContextContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.BiochemicalReactionRightInEnvContextContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.BiochemicalReactionRightInNeighborContextContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.BiomoleculeContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.ConcentrationContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.CreateJunctionContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.CreateJunctionJunctionContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.CreateJunctionLeftContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.CreateJunctionRightContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.CustomConditionContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.CustomConditionsContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.CustomReactionTypeContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.DecimalContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.JavaClassContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.JavaConstructorContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.JunctionContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.JunctionLeftContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.JunctionReactionContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.JunctionReactionJunctionConditionContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.JunctionReactionJunctionContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.JunctionReactionLeftContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.JunctionReactionRightContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.JunctionRightContext
accept(org.antlr.v4.runtime.tree.ParseTreeVisitor) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.ReactionContext
Action - class in it.unibo.alchemist.model
action(org.antlr.v4.runtime.RuleContext,int,int) - function in org.antlr.v4.runtime.Recognizer
Actionable - class in it.unibo.alchemist.model: A time-distributed entity with inboundDependencies, outboundDependencies and an execution strategy.
ADAPT_TO_VIEW - enum entry in it.unibo.alchemist.boundary.ui.api.Wormhole2D.Mode: Stretch to adapt to view.
AdaptiveRange - class in it.unibo.alchemist.model.linkingrules: This linking rule dynamically searches for the best radius for each device, in such a way that it connects to a certain number of devices.
add(it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.model.Neighborhood
add(it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.model.neighborhoods.SimpleNeighborhood
ADD - enum entry in it.unibo.alchemist.model.sapere.dsl.impl.Operator: Add list to list.
add(double,double) - function in java.awt.geom.Rectangle2D
add(it.unibo.alchemist.model.Node) - function in kotlin.collections.Group
add(java.lang.Integer,it.unibo.alchemist.model.Node) - function in kotlin.collections.Group
add(it.unibo.alchemist.model.Node) - function in kotlin.collections.GroupWithLeader
add(java.lang.Integer,it.unibo.alchemist.model.Node) - function in kotlin.collections.GroupWithLeader
add(it.unibo.alchemist.model.Node) - function in kotlin.collections.MutableList
add(it.unibo.alchemist.model.Node) - function in kotlin.collections.MutableList
add(it.unibo.alchemist.model.Node) - function in kotlin.collections.MutableList
add(it.unibo.alchemist.model.Node) - function in kotlin.collections.MutableList
add(java.lang.Integer,it.unibo.alchemist.model.Node) - function in kotlin.collections.MutableList
add(java.lang.Integer,it.unibo.alchemist.model.Node) - function in kotlin.collections.MutableList
add(java.lang.Integer,it.unibo.alchemist.model.Node) - function in kotlin.collections.MutableList
add(java.lang.Integer,it.unibo.alchemist.model.Node) - function in kotlin.collections.MutableList
addAll(java.lang.Integer,java.util.Collection) - function in kotlin.collections.Group
addAll(java.util.Collection) - function in kotlin.collections.Group
addAll(java.lang.Integer,java.util.Collection) - function in kotlin.collections.GroupWithLeader
addAll(java.util.Collection) - function in kotlin.collections.GroupWithLeader
addAll(java.lang.Integer,java.util.Collection) - function in kotlin.collections.MutableList
addAll(java.lang.Integer,java.util.Collection) - function in kotlin.collections.MutableList
addAll(java.lang.Integer,java.util.Collection) - function in kotlin.collections.MutableList
addAll(java.lang.Integer,java.util.Collection) - function in kotlin.collections.MutableList
addAll(java.util.Collection) - function in kotlin.collections.MutableList
addAll(java.util.Collection) - function in kotlin.collections.MutableList
addAll(java.util.Collection) - function in kotlin.collections.MutableList
addAll(java.util.Collection) - function in kotlin.collections.MutableList
addAnyChild(T) - function in org.antlr.v4.runtime.ParserRuleContext
addChild(org.antlr.v4.runtime.RuleContext) - function in org.antlr.v4.runtime.ParserRuleContext
addChild(org.antlr.v4.runtime.tree.TerminalNode) - function in org.antlr.v4.runtime.ParserRuleContext
addEdge(N,N) - function in org.jgrapht.Graph
addEdge(N,N) - function in org.jgrapht.Graph
addEdge(N,N) - function in org.jgrapht.Graph
addEdge(N,N,E) - function in org.jgrapht.Graph
addEdge(N,N,E) - function in org.jgrapht.Graph
addEdge(N,N,E) - function in org.jgrapht.Graph
addEdge(N,N) - function in org.jgrapht.NavigationGraph
addEdge(N,N,E) - function in org.jgrapht.NavigationGraph
addErrorListener(org.antlr.v4.runtime.ANTLRErrorListener) - function in org.antlr.v4.runtime.Recognizer
addErrorNode(org.antlr.v4.runtime.tree.ErrorNode) - function in org.antlr.v4.runtime.ParserRuleContext
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.BenchmarkableEnvironment: Add a GlobalReaction to the Environment.
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.Dynamics2DEnvironment
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.Environment: Add a GlobalReaction to the Environment.
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.Environment
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.Environment
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.Environment
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.Environment
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.Environment2DWithObstacles
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.EnvironmentSupportingDeformableCells
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.EnvironmentWithGraph
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.EnvironmentWithObstacles: Add a GlobalReaction to the Environment.
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.Euclidean2DEnvironment
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.Euclidean2DEnvironmentWithGraph
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.Euclidean2DEnvironmentWithObstacles
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.EuclideanEnvironment: Add a GlobalReaction to the Environment.
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.EuclideanPhysics2DEnvironmentWithGraph
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.EuclideanPhysics2DEnvironmentWithObstacles
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.MapEnvironment
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.Physics2DEnvironment
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.PhysicsEnvironment
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.PhysicsEnvironmentWithObstacles
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.cognitive.environments.EnvironmentWithDynamics
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addGlobalReaction(it.unibo.alchemist.model.GlobalReaction) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addInnerSpec(com.uchuhimo.konf.Spec) - function in com.uchuhimo.konf.CognitiveSpec
addInnerSpec(com.uchuhimo.konf.Spec) - function in com.uchuhimo.konf.ComplianceSpec
addInnerSpec(com.uchuhimo.konf.Spec) - function in com.uchuhimo.konf.HelpAttitudeSpec
addInnerSpec(com.uchuhimo.konf.Spec) - function in com.uchuhimo.konf.HelpAttitudeSpec.AdultFemale
addInnerSpec(com.uchuhimo.konf.Spec) - function in com.uchuhimo.konf.HelpAttitudeSpec.AdultMale
addInnerSpec(com.uchuhimo.konf.Spec) - function in com.uchuhimo.konf.HelpAttitudeSpec.ElderlyFemale
addInnerSpec(com.uchuhimo.konf.Spec) - function in com.uchuhimo.konf.HelpAttitudeSpec.ElderlyMale
addInnerSpec(com.uchuhimo.konf.Spec) - function in com.uchuhimo.konf.SpeedSpec
addItem(com.uchuhimo.konf.Item) - function in com.uchuhimo.konf.CognitiveSpec
addItem(com.uchuhimo.konf.Item) - function in com.uchuhimo.konf.ComplianceSpec
addItem(com.uchuhimo.konf.Item) - function in com.uchuhimo.konf.HelpAttitudeSpec
addItem(com.uchuhimo.konf.Item) - function in com.uchuhimo.konf.HelpAttitudeSpec.AdultFemale
addItem(com.uchuhimo.konf.Item) - function in com.uchuhimo.konf.HelpAttitudeSpec.AdultMale
addItem(com.uchuhimo.konf.Item) - function in com.uchuhimo.konf.HelpAttitudeSpec.ElderlyFemale
addItem(com.uchuhimo.konf.Item) - function in com.uchuhimo.konf.HelpAttitudeSpec.ElderlyMale
addItem(com.uchuhimo.konf.Item) - function in com.uchuhimo.konf.SpeedSpec
addJunction(it.unibo.alchemist.model.biochemistry.molecules.Junction,it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.model.biochemistry.CellProperty: Add a junction to the current node.
addJunction(it.unibo.alchemist.model.biochemistry.molecules.Junction,it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.model.biochemistry.CellProperty: Add a junction to the current node.
addJunction(it.unibo.alchemist.model.biochemistry.molecules.Junction,it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.model.biochemistry.CellProperty: Add a junction to the current node.
addJunction(it.unibo.alchemist.model.biochemistry.molecules.Junction,it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.model.biochemistry.CellProperty: Add a junction to the current node.
addJunction(it.unibo.alchemist.model.biochemistry.molecules.Junction,it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.model.biochemistry.CircularCellProperty: Add a junction to the current node.
addJunction(it.unibo.alchemist.model.biochemistry.molecules.Junction,it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.model.biochemistry.CircularDeformableCellProperty: Add a junction to the current node.
AddJunctionInCell - class in it.unibo.alchemist.model.biochemistry.actions: Represent the action of add a junction between the current node and a neighbor.
AddJunctionInNeighbor - class in it.unibo.alchemist.model.biochemistry.actions: Represent the action of add a junction between a neighbor and the current node.
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.BenchmarkableEnvironment: Add a Layer to the Environment.
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.Dynamics2DEnvironment
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.Environment: Add a Layer to the Environment.
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.Environment
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.Environment
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.Environment
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.Environment
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.Environment
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.Environment2DWithObstacles
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.EnvironmentSupportingDeformableCells
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.EnvironmentWithGraph
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.EnvironmentWithObstacles: Add a Layer to the Environment.
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.Euclidean2DEnvironment
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.Euclidean2DEnvironmentWithGraph
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.Euclidean2DEnvironmentWithObstacles
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.EuclideanEnvironment: Add a Layer to the Environment.
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.EuclideanPhysics2DEnvironmentWithGraph
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.EuclideanPhysics2DEnvironmentWithObstacles
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.MapEnvironment
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.Physics2DEnvironment
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.PhysicsEnvironment
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.PhysicsEnvironmentWithObstacles
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addLayer(it.unibo.alchemist.model.Molecule,it.unibo.alchemist.model.Layer) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addMember(N) - function in it.unibo.alchemist.model.cognitive.groups.GenericGroup: adds node to the group if not already added.
addMember(it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.model.cognitive.groups.GenericGroup: adds node to the group if not already added.
addMember(it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.model.cognitive.groups.GenericGroup: adds node to the group if not already added.
addNeighbor(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.core.DependencyGraph: Given two nodes, the graph assumes they are now neighbors and calculates the neighborhood dependencies between them.
addNeighbor(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.core.JGraphTDependencyGraph
addNetworkManger(it.unibo.alchemist.protelis.actions.RunProtelisProgram,it.unibo.alchemist.protelis.AlchemistNetworkManager) - function in it.unibo.alchemist.protelis.properties.ProtelisDevice: Adds a new AlchemistNetworkManager.
addNode(it.unibo.alchemist.model.Node,P) - function in it.unibo.alchemist.model.BenchmarkableEnvironment: This method allows to add a new node to this environment.
addNode(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.Dynamics2DEnvironment
addNode(it.unibo.alchemist.model.Node,P) - function in it.unibo.alchemist.model.Environment: This method allows to add a new node to this environment.
addNode(it.unibo.alchemist.model.Node,P) - function in it.unibo.alchemist.model.Environment
addNode(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.Environment
addNode(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.Environment
addNode(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.Environment
addNode(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.Environment2DWithObstacles
addNode(it.unibo.alchemist.model.Node,P) - function in it.unibo.alchemist.model.EnvironmentSupportingDeformableCells
addNode(it.unibo.alchemist.model.Node,P) - function in it.unibo.alchemist.model.EnvironmentWithGraph
addNode(it.unibo.alchemist.model.Node,P) - function in it.unibo.alchemist.model.EnvironmentWithObstacles: This method allows to add a new node to this environment.
addNode(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.Euclidean2DEnvironment
addNode(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.Euclidean2DEnvironmentWithGraph
addNode(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.Euclidean2DEnvironmentWithObstacles
addNode(it.unibo.alchemist.model.Node,P) - function in it.unibo.alchemist.model.EuclideanEnvironment: This method allows to add a new node to this environment.
addNode(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.EuclideanPhysics2DEnvironmentWithGraph
addNode(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.EuclideanPhysics2DEnvironmentWithObstacles
addNode(it.unibo.alchemist.model.Node,P) - function in it.unibo.alchemist.model.MapEnvironment
addNode(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.Physics2DEnvironment
addNode(it.unibo.alchemist.model.Node,P) - function in it.unibo.alchemist.model.PhysicsEnvironment
addNode(it.unibo.alchemist.model.Node,P) - function in it.unibo.alchemist.model.PhysicsEnvironmentWithObstacles
addNode(it.unibo.alchemist.model.Node,it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.cognitive.environments.EnvironmentWithDynamics
addNode(it.unibo.alchemist.model.Node,P) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addNode(it.unibo.alchemist.model.Node,P) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addNode(it.unibo.alchemist.model.Node,P) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addNode(it.unibo.alchemist.model.Node,P) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addNode(it.unibo.alchemist.model.Node,P) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addObservation(java.lang.String,java.lang.Double) - function in it.unibo.alchemist.multivesta.adapter.AlchemistStateObservations: Adds an observation for the state.
addObstacle(W) - function in it.unibo.alchemist.model.Environment2DWithObstacles
addObstacle(W) - function in it.unibo.alchemist.model.EnvironmentWithGraph
addObstacle(W) - function in it.unibo.alchemist.model.EnvironmentWithObstacles: Adds an obstacle to this environment.
addObstacle(W) - function in it.unibo.alchemist.model.EnvironmentWithObstacles
addObstacle(it.unibo.alchemist.model.obstacles.RectObstacle2D) - function in it.unibo.alchemist.model.EnvironmentWithObstacles
addObstacle(W) - function in it.unibo.alchemist.model.Euclidean2DEnvironmentWithGraph
addObstacle(W) - function in it.unibo.alchemist.model.Euclidean2DEnvironmentWithObstacles
addObstacle(W) - function in it.unibo.alchemist.model.EuclideanPhysics2DEnvironmentWithGraph
addObstacle(W) - function in it.unibo.alchemist.model.EuclideanPhysics2DEnvironmentWithObstacles
addObstacle(W) - function in it.unibo.alchemist.model.PhysicsEnvironmentWithObstacles
addObstacle(it.unibo.alchemist.model.obstacles.RectObstacle2D) - function in it.unibo.alchemist.model.physics.environments.Continuous2DObstacles
addObstacle(it.unibo.alchemist.model.obstacles.RectObstacle2D) - function in it.unibo.alchemist.model.physics.environments.Continuous2DObstacles
addObstacle(it.unibo.alchemist.model.obstacles.RectObstacle2D) - function in it.unibo.alchemist.model.physics.environments.Continuous2DObstacles
addOutputMonitor(it.unibo.alchemist.boundary.OutputMonitor) - function in it.unibo.alchemist.core.Engine
addOutputMonitor(it.unibo.alchemist.boundary.OutputMonitor) - function in it.unibo.alchemist.core.Engine
addOutputMonitor(it.unibo.alchemist.boundary.OutputMonitor) - function in it.unibo.alchemist.core.Simulation: Adds an OutputMonitor to this simulation.
addParseListener(org.antlr.v4.runtime.tree.ParseTreeListener) - function in org.antlr.v4.runtime.Parser
addPolarizationVersor(P) - function in it.unibo.alchemist.model.biochemistry.CellProperty: add versor to the polarization versor inside the cell; useful for considering the combination of various stimuli in a cell.
addPolarizationVersor(it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.biochemistry.CellProperty: add versor to the polarization versor inside the cell; useful for considering the combination of various stimuli in a cell.
addPolarizationVersor(it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.biochemistry.CellProperty: add versor to the polarization versor inside the cell; useful for considering the combination of various stimuli in a cell.
addPolarizationVersor(it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.biochemistry.CircularCellProperty: add versor to the polarization versor inside the cell; useful for considering the combination of various stimuli in a cell.
addPolarizationVersor(it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.biochemistry.CircularDeformableCellProperty: add versor to the polarization versor inside the cell; useful for considering the combination of various stimuli in a cell.
addPolarizationVersor(it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.biochemistry.properties.Cell: add versor to the polarization versor inside the cell; useful for considering the combination of various stimuli in a cell.
addProperty(it.unibo.alchemist.model.NodeProperty) - function in it.unibo.alchemist.model.EnvironmentNode
addProperty(it.unibo.alchemist.model.NodeProperty) - function in it.unibo.alchemist.model.ILsaNode
addProperty(it.unibo.alchemist.model.NodeProperty) - function in it.unibo.alchemist.model.Node: Adds a capability to the node.
addProperty(it.unibo.alchemist.model.NodeProperty) - function in it.unibo.alchemist.model.nodes.GenericNode
addProperty(it.unibo.alchemist.model.NodeProperty) - function in it.unibo.alchemist.model.nodes.GenericNode
addProperty(it.unibo.alchemist.model.NodeProperty) - function in it.unibo.alchemist.model.nodes.GenericNode
addReaction(it.unibo.alchemist.model.Actionable) - function in it.unibo.alchemist.core.ArrayIndexedPriorityQueue: Should not be overridden.
addReaction(it.unibo.alchemist.model.Actionable) - function in it.unibo.alchemist.core.BatchedScheduler
addReaction(it.unibo.alchemist.model.Actionable) - function in it.unibo.alchemist.core.Scheduler: Adds a reaction to the data structure.
addReaction(it.unibo.alchemist.model.Actionable) - function in it.unibo.alchemist.core.Scheduler
addReaction(it.unibo.alchemist.model.Actionable) - function in it.unibo.alchemist.core.Scheduler
addReaction(it.unibo.alchemist.model.Reaction) - function in it.unibo.alchemist.model.EnvironmentNode
addReaction(it.unibo.alchemist.model.Reaction) - function in it.unibo.alchemist.model.ILsaNode
addReaction(it.unibo.alchemist.model.Reaction) - function in it.unibo.alchemist.model.Node: Adds a reaction to this node.
addReaction(it.unibo.alchemist.model.Reaction) - function in it.unibo.alchemist.model.nodes.GenericNode
addReaction(it.unibo.alchemist.model.Reaction) - function in it.unibo.alchemist.model.nodes.GenericNode
addReaction(it.unibo.alchemist.model.Reaction) - function in it.unibo.alchemist.model.nodes.GenericNode
addSuppressed(java.lang.Throwable) - function in java.lang.Throwable
addSuppressed(java.lang.Throwable) - function in java.lang.Throwable
addSuppressed(java.lang.Throwable) - function in java.lang.Throwable
addSuppressed(java.lang.Throwable) - function in kotlin.Throwable
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.BenchmarkableEnvironment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.Dynamics2DEnvironment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.Environment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.Environment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.Environment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.Environment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.Environment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.Environment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.Environment2DWithObstacles
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.EnvironmentSupportingDeformableCells
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.EnvironmentWithGraph
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.EnvironmentWithObstacles
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.Euclidean2DEnvironment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.Euclidean2DEnvironmentWithGraph
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.Euclidean2DEnvironmentWithObstacles
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.EuclideanEnvironment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.EuclideanPhysics2DEnvironmentWithGraph
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.EuclideanPhysics2DEnvironmentWithObstacles
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.MapEnvironment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.Physics2DEnvironment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.PhysicsEnvironment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.PhysicsEnvironmentWithObstacles
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addTerminator(java.util.function.Predicate) - function in it.unibo.alchemist.model.environments.AbstractEnvironment
addTime(it.unibo.alchemist.model.Time) - function in it.unibo.alchemist.model.maps.GPSPoint
addTime(it.unibo.alchemist.model.Time) - function in it.unibo.alchemist.model.maps.positions.GPSPointImpl
addVertex(java.lang.Integer,java.lang.Double,java.lang.Double) - function in it.unibo.alchemist.model.geometry.AwtMutableConvexPolygon: Adds a vertex to the polygon.
addVertex(java.lang.Integer,java.lang.Double,java.lang.Double) - function in it.unibo.alchemist.model.geometry.ExtendableConvexPolygon: Adds a vertex to the polygon.
addVertex(java.lang.Integer,java.lang.Double,java.lang.Double) - function in it.unibo.alchemist.model.geometry.MutableConvexPolygon: Adds a vertex to the polygon.
addVertex(java.lang.Integer,java.lang.Double,java.lang.Double) - function in it.unibo.alchemist.model.geometry.navigationgraph.ExtendableConvexPolygonInEnvironment: Adds a vertex to the polygon.
addVertex() - function in org.jgrapht.Graph
addVertex() - function in org.jgrapht.Graph
addVertex() - function in org.jgrapht.Graph
addVertex(N) - function in org.jgrapht.Graph
addVertex(N) - function in org.jgrapht.Graph
addVertex(N) - function in org.jgrapht.Graph
addVertex() - function in org.jgrapht.NavigationGraph
addVertex(N) - function in org.jgrapht.NavigationGraph
adimensional() - function in it.unibo.alchemist.model.geometry.AbstractShapeFactory: A special shape which does not occupy space and does not intersect with any other, not even with itself.
adimensional() - function in it.unibo.alchemist.model.geometry.Euclidean2DShapeFactory: A special shape which does not occupy space and does not intersect with any other, not even with itself.
adimensional() - function in it.unibo.alchemist.model.geometry.GeometricShapeFactory: A special shape which does not occupy space and does not intersect with any other, not even with itself.
AdimensionalShape - class in it.unibo.alchemist.model.geometry.shapes: A special shape which does not occupy space and does not intersect with any other, not even with itself.
adjustBeginLineColumn(int,int) - function in it.unibo.alchemist.model.sapere.dsl.parser.SimpleCharStream: Method to adjust line and column numbers for the start of a token.
ADULT - enum entry in it.unibo.alchemist.model.cognitive.impact.individual.Age
advancedLogistic(java.lang.Double,java.lang.Double,java.lang.Double) - function in it.unibo.alchemist.util.math.Math
advanceEdge(java.lang.Integer,java.lang.Double) - function in it.unibo.alchemist.model.geometry.ExtendableConvexPolygon: Advances an edge in its normal direction.
advanceEdge(java.lang.Integer,java.lang.Double) - function in it.unibo.alchemist.model.geometry.navigationgraph.ExtendableConvexPolygonInEnvironment: Advances an edge in its normal direction of a quantity equal to step, if extend has modified the growth direction of the edge so as to follow an oblique obstacle (advanced case), the modified growth direction is used.
AfterTime - class in it.unibo.alchemist.model.terminators
Age - class in it.unibo.alchemist.model.cognitive.impact.individual: An enum representing the different periods of life.
Age.Companion - class in it.unibo.alchemist.model.cognitive.impact.individual.Age
AlchemistExecutionContext - class in it.unibo.alchemist.model.protelis
AlchemistModelProvider - class in it.unibo.alchemist.boundary: Translates inputs to a Map representing the Alchemist model.
AlchemistMultiVesta - class in it.unibo.alchemist.multivesta.adapter: Starts Alchemist.
AlchemistMultiVesta.AlchemistWouldHaveExitedException - class in it.unibo.alchemist.multivesta.adapter.AlchemistMultiVesta: This exception is thrown in place of calling System.exit when the simulator is used in debug mode.
AlchemistMultiVestaSimulationLauncher - class in it.unibo.alchemist.multivesta.adapter.launch: Launches a single simulation run that can be controlled by MultiVesta.
AlchemistNetworkManager - class in it.unibo.alchemist.protelis: Emulates a NetworkManager.
AlchemistSchemaGeneratorHooksProvider - class in it.unibo.alchemist.boundary.graphql: Provides hooks for generating GraphQL schema.
AlchemistSimStatesLoader - class in it.unibo.alchemist.multivesta.adapter: This object is used to load the simulation states from the relative output file.
AlchemistSimulationAdapter - class in it.unibo.alchemist.multivesta.adapter: The Alchemist simulation adapter that allows MultiVesta adapter to interact with the simulation.
AlchemistSimulationAdapterWithExporter - class in it.unibo.alchemist.multivesta.adapter: This is an adapter that allow MultiVesta to interact with Alchemist.
AlchemistSimulationAdapterWithExtractor - class in it.unibo.alchemist.multivesta.adapter: This is an adapter that allow MultiVesta to interact with Alchemist.
AlchemistStateObservations - class in it.unibo.alchemist.multivesta.adapter: Represents the state of an Alchemist simulation at a given time.
AlchemistTesting - class in it.unibo.alchemist.test
alignTime(java.util.List) - function in it.unibo.alchemist.boundary.gps.GPSTimeAlignment
alignTime(java.util.List) - function in it.unibo.alchemist.boundary.gps.GPSTimeAlignment
alignTime(java.util.List) - function in it.unibo.alchemist.boundary.gps.alignments.AbstractGPSTimeAlignment
alignTime(java.util.List) - function in it.unibo.alchemist.boundary.gps.alignments.AbstractGPSTimeAlignment
AlignToFirstTrace - class in it.unibo.alchemist.boundary.gps.alignments: Aligns all traces at the start time of the first trace.
AlignToSimulationTime - class in it.unibo.alchemist.boundary.gps.alignments: Aligns all traces at the initial simulation time.
AlignToTime - class in it.unibo.alchemist.boundary.gps.alignments: Aligns the traces with the given time in seconds from Epoch.
allocateVar(java.util.Map) - function in it.unibo.alchemist.model.sapere.ILsaMolecule
allocateVar(java.util.Map) - function in it.unibo.alchemist.model.sapere.molecules.LsaMolecule
allowed(double,double) - function in it.unibo.alchemist.model.physics.environments.InfiniteHalls: Checks whether a position is allowed or not.
allowedPointClosestTo(P) - function in it.unibo.alchemist.model.RoutingService: Retrieves (if available) the valid point closest to position, using the default options.
allowedPointClosestTo(P,O) - function in it.unibo.alchemist.model.RoutingService: Retrieves (if available) the valid point closest to position with the provided options.
allowedPointClosestTo(it.unibo.alchemist.model.GeoPosition) - function in it.unibo.alchemist.model.RoutingService: Retrieves (if available) the valid point closest to position, using the default options.
allowedPointClosestTo(it.unibo.alchemist.model.GeoPosition,it.unibo.alchemist.model.maps.routingservices.GraphHopperOptions) - function in it.unibo.alchemist.model.maps.routingservices.GraphHopperRoutingService: Retrieves (if available) the valid point closest to position with the provided options.
allProtelisPrograms() - function in it.unibo.alchemist.protelis.properties.ProtelisDevice: Finds all the RunProtelisPrograms installed on this node.
Alone - class in it.unibo.alchemist.model.cognitive.groups: Group representing a node alone.
And - class in it.unibo.alchemist.model.positionfilters: Check if both positionBasedFilterA and positionBasedFilterB are satisfied.
and(java.util.function.Predicate) - function in java.util.function.PositionBasedFilter
and(java.util.function.Predicate) - function in java.util.function.Predicate
and(java.util.function.Predicate) - function in java.util.function.Predicate
and(java.util.function.Predicate) - function in java.util.function.Predicate
and(java.util.function.Predicate) - function in java.util.function.Predicate
and(java.util.function.Predicate) - function in java.util.function.Predicate
and(java.util.function.Predicate) - function in java.util.function.Predicate
and(java.util.function.Predicate) - function in java.util.function.Predicate
and(java.util.function.Predicate) - function in java.util.function.Predicate
angleBetween(S) - function in it.unibo.alchemist.model.geometry.Vector
angleBetween(S) - function in it.unibo.alchemist.model.geometry.Vector: Computes the angle in radians between two vectors.
angleBetween(it.unibo.alchemist.model.positions.Euclidean2DPosition) - function in it.unibo.alchemist.model.geometry.Vector
angleBetween(P) - function in it.unibo.alchemist.model.geometry.Vector2D: Computes the angle in radians between two vectors.
AngleManager - class in it.unibo.alchemist.boundary.ui.api: A class that implements the IAngleManager interface is able to convert the sliding of any physical/virtual device/control into a positive double value that represents an angle.
AnyRealDistribution - class in it.unibo.alchemist.model.timedistributions: This class is able to use any distribution provided by Apache Math 3 as a subclass of RealDistribution, blocking the execution if getPropensityContribution returns zero for any condition.
Anys - class in it.unibo.alchemist.util: Collection of extensions that apply to Any object.
apply(double) - function in it.unibo.alchemist.boundary.ExportFilter: From a single value, builds a stream of values.
ArbitraryVariable - class in it.unibo.alchemist.boundary.variables: A variable spanning over an arbitrary set of values.
arg() - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser
arg() - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.ArgListContext
arg(int) - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.ArgListContext
argList() - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser
argList() - function in it.unibo.alchemist.model.biochemistry.dsl.BiochemistrydslParser.JavaConstructorContext
argsNumber() - function in it.unibo.alchemist.model.sapere.ILsaMolecule
argsNumber() - function in it.unibo.alchemist.model.sapere.molecules.LsaMolecule
ArrayIndexedPriorityEpsilonBatchQueue - class in it.unibo.alchemist.core: Batched extension for ArrayIndexedPriorityQueue.
ArrayIndexedPriorityFixedBatchQueue - class in it.unibo.alchemist.core: Batched extension for ArrayIndexedPriorityQueue.
ArrayIndexedPriorityQueue - class in it.unibo.alchemist.core: This class implements the indexed priority queue through an Array.
Arrays - class in it.unibo.alchemist.util: Container object for utility functions related to Arrays.
asAwtShape() - function in it.unibo.alchemist.model.geometry.AwtMutableConvexPolygon
asAwtShape() - function in it.unibo.alchemist.model.geometry.AwtMutableConvexPolygon
asAwtShape() - function in it.unibo.alchemist.model.geometry.AwtShapeCompatible
asAwtShape() - function in it.unibo.alchemist.model.geometry.AwtShapeCompatible
asAwtShape() - function in it.unibo.alchemist.model.geometry.ConvexPolygon
asAwtShape() - function in it.unibo.alchemist.model.geometry.Ellipse
asAwtShape() - function in it.unibo.alchemist.model.geometry.ExtendableConvexPolygon
asAwtShape() - function in it.unibo.alchemist.model.geometry.MutableConvexPolygon
asMolecule() - function in it.unibo.alchemist.protelis.actions.RunProtelisProgram
asProperty(kotlin.reflect.KClass) - function in it.unibo.alchemist.model.EnvironmentNode
asProperty(kotlin.reflect.KClass) - function in it.unibo.alchemist.model.ILsaNode
asProperty(java.lang.Class) - function in it.unibo.alchemist.model.Node: returns a NodeProperty of the provided superType.
asProperty(java.lang.Class) - function in it.unibo.alchemist.model.Node
asProperty(kotlin.reflect.KClass) - function in it.unibo.alchemist.model.Node
asProperty(kotlin.reflect.KClass) - function in it.unibo.alchemist.model.Node
asProperty(kotlin.reflect.KClass) - function in it.unibo.alchemist.model.Node: returns a NodeProperty of the provided superType.
asProperty(kotlin.reflect.KClass) - function in it.unibo.alchemist.model.Node
asProperty(it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.model.Node.Companion: returns a NodeProperty of the provided type C.
asPropertyOrNull(java.lang.Class) - function in it.unibo.alchemist.model.EnvironmentNode
asPropertyOrNull(java.lang.Class) - function in it.unibo.alchemist.model.ILsaNode
asPropertyOrNull(java.lang.Class) - function in it.unibo.alchemist.model.Node
asPropertyOrNull(java.lang.Class) - function in it.unibo.alchemist.model.Node
asPropertyOrNull(java.lang.Class) - function in it.unibo.alchemist.model.Node: returns a NodeProperty of the provided superType.
asPropertyOrNull(java.lang.Class) - function in it.unibo.alchemist.model.Node
asPropertyOrNull(kotlin.reflect.KClass) - function in it.unibo.alchemist.model.Node: returns a NodeProperty of the provided superType.
asPropertyOrNull(kotlin.reflect.KClass) - function in it.unibo.alchemist.model.Node
asPropertyOrNull(it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.model.Node.Companion: returns a NodeProperty of the provided type C or null if the node does not have a compatible property.
assignVarValue(java.util.Map) - function in it.unibo.alchemist.model.sapere.dsl.ITree: This method substitutes variables present in matches map with their values.
assignVarValue(java.util.Map) - function in it.unibo.alchemist.model.sapere.dsl.impl.AST: This method substitutes variables present in matches map with their values.
AST - class in it.unibo.alchemist.model.sapere.dsl.impl
AtomicExpr() - function in it.unibo.alchemist.model.sapere.dsl.parser.Exp
ATreeNode - class in it.unibo.alchemist.model.sapere.dsl.impl
avoid(it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.model.cognitive.properties.PhysicalPedestrian2D
avoid(it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.model.physics.properties.PhysicalPedestrian: Computes the repulsion force caused by a node that entered the rectangleOfInfluence.
avoid(it.unibo.alchemist.model.Node) - function in it.unibo.alchemist.model.physics.properties.PhysicalPedestrian2D: Computes the repulsion force caused by a node that entered the rectangleOfInfluence.
avoidanceForces() - function in it.unibo.alchemist.model.cognitive.properties.PhysicalPedestrian2D
avoidanceForces() - function in it.unibo.alchemist.model.physics.properties.PhysicalPedestrian: Computes the total avoidance force this node is subject to.
avoidanceForces() - function in it.unibo.alchemist.model.physics.properties.PhysicalPedestrian2D: Computes the total avoidance force this node is subject to.
AwtMutableConvexPolygon - class in it.unibo.alchemist.model.geometry: MutableConvexPolygon partly delegated to AwtEuclidean2DShape and java.awt.geom.
AwtShapeCompatible - class in it.unibo.alchemist.model.geometry: Anything which can be represented as a java.awt.Shape.
AwtShapes - class in it.unibo.alchemist.model.geometry.util: Collection of extensions to Java AWT meant to simplify its usage as geometric engine.

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