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APE is a command line tool and an API for the automated exploration of possible computational pipelines (workflows) from large collections of computational tools.

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package nl.uu.cs.ape.automaton;

import nl.uu.cs.ape.models.enums.AtomType;
import nl.uu.cs.ape.models.logic.constructs.PredicateLabel;

/***
 * The {@code State} class is used to represent the states in module and type
 * automatons. Automaton corresponds to the structure of the possible solutions
 * of the synthesis, i.e. it represents the structure that the provided
 * solutions will follow.
 * 

* Labeling of the automaton is provided in * /APE/res/WorkflowAutomaton_Implementation.png. * * @author Vedran Kasalica */ public class State implements PredicateLabel, StateInterface { /** Unique name of the state */ private final String stateName; /** Local number of the state (within the block) */ private final int localStateNumber; /** * Order number of the state with respect to the state type (i.e., unique number * within the same type) */ private final int typeDependantStateNumber; /** Absolute order number of the state (i.e., unique number per state). */ private final int absoluteStateNumber; /** Type of the state */ private final AtomType workflowStateType; /** * Creates a state that corresponds to a state of the overall solution workflow. * * @param workflowStateType Parameter determining the state type. * @param blockNumber Corresponds to the block number within the type * automaton (not applicable for the module automaton). * @param stateNumber Corresponds to the state number within block. * @param inputBranching Max number of inputs per module. * @param outputBranching Max number of outputs per module. */ public State(AtomType workflowStateType, Integer blockNumber, int stateNumber, int inputBranching, int outputBranching) { this.stateName = AtomType.getStringShortcut(workflowStateType, blockNumber, stateNumber); this.localStateNumber = stateNumber; this.typeDependantStateNumber = calculateAutomatonStateNumber(blockNumber, stateNumber, inputBranching, outputBranching, workflowStateType); this.absoluteStateNumber = calculateAbsStateNumber(blockNumber, stateNumber, inputBranching, outputBranching, workflowStateType); this.workflowStateType = workflowStateType; } /* * (non-Javadoc) * * @see java.lang.Object#hashCode() */ @Override public int hashCode() { final int prime = 31; int result = 1; result = prime * result + absoluteStateNumber; result = prime * result + ((stateName == null) ? 0 : stateName.hashCode()); return result; } /* * (non-Javadoc) * * @see java.lang.Object#equals(java.lang.Object) */ @Override public boolean equals(Object obj) { if (this == obj) return true; if (obj == null) return false; if (getClass() != obj.getClass()) return false; State other = (State) obj; if (absoluteStateNumber != other.absoluteStateNumber) return false; if (stateName == null) { if (other.stateName != null) return false; } else if (!stateName.equals(other.stateName)) return false; return true; } /** * Compares the two States based on their order in the solution. * * @return Negative integer, zero, or a positive integer as this object is * before than, equal to, or after than the specified State. */ @Override public int compareTo(PredicateLabel other) { if (!(other instanceof State)) { return this.getPredicateID().compareTo(other.getPredicateID()); } State otherState = (State) other; int diff = 0; if ((diff = Integer.compare(this.absoluteStateNumber, otherState.absoluteStateNumber)) != 0) { return diff; } else { return this.getPredicateID().compareTo(otherState.getPredicateID()); } } /** * Returns the text representing the state (e.g. M04 or T02.31). * * @return String representation of the state. */ public String getPredicateID() { return this.stateName; } /** * Returns the text representing the state (e.g. M04 or T02.31). * * @return String representation of the state. */ public String getPredicateLabel() { return this.stateName; } /** * Returns the text representing the state (e.g. M04 or T02.31). * * @return String representation of the state. */ public String getPredicateLongLabel() { return this.stateName; } /** * Returns the order number of the state in the respective array of states. * * @return Order number of the state (within the block). Unlike the type states, * tool state indexing starts with index 1. */ public int getLocalStateNumber() { return this.localStateNumber; } /** * Returns the order number of the state with respect to the State Type * ({@link AtomType}). Unlike {@link #getLocalStateNumber}, this function * returns number that can be used to compare ordering of any 2 states of the * same type in the system, * disregarding the block. null memory state has * {@link #typeDependantStateNumber} = -1. * * @return Non-negative number that corresponds to the order number of the state * within the same type or -1 for null memory state. */ public int getTypeDependantStateNumber() { return this.typeDependantStateNumber; } /** * Returns the absolute order number of the state within the whole workflow. * Unlike {@link #getLocalStateNumber}, this function returns number that can be * used to compare ordering of any 2 states in the system, * disregarding the block or their type (data type, tool, etc.). null state has * AbsoluteStateNumber -1. * * @return Non-negative number that corresponds to the absolute order number of * the state or -1 for null state. */ public int getAbsoluteStateNumber() { return this.absoluteStateNumber; } /** * Get the type of the state (e.g. tool, memory type, etc.). * * @return The {@link AtomType} that describes the state. */ public AtomType getWorkflowStateType() { return this.workflowStateType; } /** * Function used to calculate the absolute order number of a state based on the * information regarding its block number, order number within the block and * type of the state. *

* {@link AtomType#MEMORY_TYPE} corresponds to the Memory Type State,
* {@link AtomType#USED_TYPE} corresponds to the Used Type State,
* {@link AtomType#MODULE} corresponds to the Module/Tool State. * * @param blockNumber Corresponds to the block number within the type * automaton (not applicable for the module automaton). * @param stateNumber Corresponds to the state number within block. * @param inputBranching Max number of inputs per module. * @param outputBranching Max number of outputs per module. * @param typeOfTheState Parameter determining the state type. * @return The calculated absolute order number of the state. */ private static int calculateAbsStateNumber(Integer blockNumber, int stateNumber, int inputBranching, int outputBranching, AtomType typeOfTheState) { int absOrderNumber = -1; if (typeOfTheState == AtomType.MEMORY_TYPE) { /* Case: Memory Type State */ absOrderNumber = (blockNumber * (inputBranching + outputBranching)) + blockNumber + stateNumber; } else if (typeOfTheState == AtomType.USED_TYPE) { /* Case: Used Type State */ absOrderNumber = (blockNumber * (inputBranching + outputBranching)) + blockNumber + outputBranching + stateNumber; } else if (typeOfTheState == AtomType.MODULE) { /* Case: Module/Tool State */ absOrderNumber = (stateNumber * (inputBranching + outputBranching) * 2) + stateNumber - 1; } return absOrderNumber; } /** * Function used to calculate the order number of a state within the * corresponding automaton (e.g., order number of a MemoryState in a MemoryState * Automaton) * The information is calculated based on the block number, order number within * the block and type of the state. *

* {@link AtomType#MEMORY_TYPE} corresponds to the Memory Type State,
* {@link AtomType#USED_TYPE} corresponds to the Used Type State,
* {@link AtomType#MODULE} corresponds to the Module/Tool State. * * @param blockNumber Corresponds to the block number within the type * automaton (not applicable for the module automaton). * @param stateNumber Corresponds to the state number within block. * @param inputBranching Max number of inputs per module. * @param outputBranching Max number of outputs per module. * @param typeOfTheState Parameter determining the state type. * @return The calculated order number of this type of state (where indexing * starts from 0). */ private static int calculateAutomatonStateNumber(Integer blockNumber, int stateNumber, int inputBranching, int outputBranching, AtomType typeOfTheState) { int orderNumber = 0; if (typeOfTheState == AtomType.MEMORY_TYPE) { /* Case: Memory Type State */ orderNumber = (blockNumber * outputBranching) + stateNumber + 1; } else if (typeOfTheState == AtomType.USED_TYPE) { /* Case: Used Type State */ orderNumber = (blockNumber * inputBranching) + stateNumber; } else if (typeOfTheState == AtomType.MODULE) { /* Case: Module/Tool State */ orderNumber = stateNumber - 1; } return orderNumber; } }





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