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RePast Tutorial IV

RePast Tutorial IV. Today’s agenda. More on the GUI mode… Probes How to create property descriptors How to create custom actions Introducing the batch mode How to use parameters and parameter files How to collect data ExperIPD. Probes.

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RePast Tutorial IV

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  1. RePast Tutorial IV

  2. Today’s agenda • More on the GUI mode… • Probes • How to create property descriptors • How to create custom actions • Introducing the batch mode • How to use parameters and parameter files • How to collect data • ExperIPD

  3. Probes • Probes allow the user to view and manipulate single agents • Require the display surface to be “probeable” • Variables become available through introspection using the get-set-methods (with set-methods necessary for changes)

  4. How to create property descriptors • To adjust parameters at startup or when the simulation is paused • Can be applied to both models and agents • Setup through the pre-defined descriptors variable of SimpleModel

  5. How to create property descriptors (cont.) • Drop-down list: publicvoid setup() { super.setup(); Hashtable h1 = new Hashtable(); h1.put(new Integer(0), "Von Neumann"); h1.put(new Integer(1), "Moore"); ListPropertyDescriptor pd = new ListPropertyDescriptor("Type", h1); descriptors.put("Type", pd); } publicvoid setType(int type) { this.type = type; }

  6. How to create property descriptors (cont.) • Numerical slider: publicvoid setup() { super.setup(); RangePropertyDescriptor d = new RangePropertyDescriptor("NumAgents", 10, 100, 20); descriptors.put("NumAgents", d); } publicvoid setNumAgents(int numAgents) { this.numAgents = numAgents; }

  7. How to create custom actions • Modify the simulation while it is running • Setup through modelManipulator variable of SimpleModel • Works for buttons, check boxes, sliders, and arbitrary Java components

  8. How to create custom actions (cont.) • modelManipulator.addButton("Clear Space",new ActionListener() {publicvoid actionPerformed(ActionEvent e){ space.clear(); }}); • modelManipulator.addSlider("Slider", 0, 100, 10, new SliderListener()); • modelManipulator.addCheckBox("Show/Hide",new CheckBoxListener(), false); • modelManipulator.addComponent(Component c);

  9. Failed invasion of TFT in ALLD-World ALLD: ALLD ALLD ALLD 4+4+4+8 4 = 5.0 3 4 3 4 3 8 ALLD TFT ALLD TFT: 3 4 3+3+3+3 4 = 3.0 ALLD ALLD ALLD

  10. 3 3 4 3 3 4 12 12 8 3 3 4 Successful invasion of two TFT players in ALLD-World ALLD: ALLD ALLD ALLD ALLD 4+4+4+8 4 = 5.0 ALLD TFT TFT ALLD TFT: 3+3+3+12 4 = 5.25 ALLD ALLD ALLD ALLD

  11. Further spread of TFT players in ALLD-World ALLD TFT TFT ALLD TFT TFT TFT TFT ALLD TFT TFT ALLD

  12. Separating GUI and batch modes Model extends SimpleModel GraphIPD,GridIPD ExperIPD ModelGUI extends Model ModelBatch extends Model

  13. Subclassing a batch model class ModelBatchextends Model{ Batch variables (data recorder) setup() { super.setup(); params = ... } buildModel() { super.buildModel(); create data recorder } step() { super.step(); record data } main() { init.loadModel(m, "params.txt", true); } } class Model extends SimpleModel { model variables setup() buildModel() step() main() } Batch mode Parameter file

  14. How to use parameters • Different purpose depending on context: • Batch mode: allow variables to be changed through parameter files • GUI mode: show the variables in the control panel publicvoid setup() {super.setup(); params = {"NumPlayers", "PALLC", "PTFT", "PATFT", "PALLD", "PAdapt"};}

  15. How to use parameters (cont.) • Requires accessor methods: publicvoid setup() {super.setup(); params = {"Variable", ...}}publicdouble getVariable() {returnvalue;} publicvoid setVariable(doublevalue) {this.value = value;} Setters only required to allow modification

  16. How to use parameter files • Different effects depending on context: • GUI mode: set initial values • Batch mode: allow to run sweeps • Usually defined in a file named params.txt • Runs the simulation with values of 10, 20, and 30: runs: 1 Variable { start: 10 end: 30incr: 10 }

  17. Multiple parameters: Nesting How to use parameter files (cont.) runs: 1 Food { start: 10 end: 30 incr: 10 { runs: 10 MaxAge { start: 0 end: 40 incr: 1 } } } runs: 10 Food { start: 10 end: 30 incr: 10 } MaxAge { start: 10 end: 30 incr: 10 }

  18. How to use parameter files (cont.) • Additional keywords: • setdefines a single numerical value as a constant for the entire collection of batch runs. • set_booleandefines a boolean value (true / false). • set_stringdefines a string value (without any white space). • set_list,set_boolean_list, set_string_listdefine a space-separated list of values. A batch simulation will iterate through the list.

  19. How to collect data • Recording of simulation states to: • archive simulation runs • further process the data into third-party packages (e.g. Excel, Stata, SPSS, SAS, ...) • Output format: Text files (comma, space or tab delimited)

  20. How to collect data (cont’d) • Prepare for the measurements in buildModel() • Determine the duration of the simulations: setStoppingTime(n); • Create the data recorder with output to file data.txt: recorder = new DataRecorder(“./data.txt”,this); • Add numeric streams using introspection: recorder.createNumericaDataSource(“X”,this,”computeX”); • The output can be formatted with x number of digits before the decimal point, and y after …createNumericaDataSource(“X”,this,”computeX”,x,y);

  21. How to collect data (cont’d) • Using introspection requires a method delivering the values • It is also possible to use inner classes (see the Repast How-To Documentation) • The data recorder has to be told to record and to write the data to file: recorder.record(); recorder.writeToFile(); • The user can change the data delimiter: recorder.setDelimiter(“ “);

  22. Typical output file Timestamp: May 31, 2004 6:09:01 PM Neighborhood: 0 NumOfTimeSteps: 200 PALLC: 0.25 PALLD: 0.25 PATFT: 0.25 PAdapt: 0.2 PTFT: 0.25 WorldSize: 16 "run" "tick" "Topology" "RngSeed" "ALLC" "TFT" "ATFT" "ALLD" "Payoff" 1 200.0 0 1 0.0 256.0 0.0 0.0 3.0000 2 200.0 0 2 0.0 256.0 0.0 0.0 3.0000 3 200.0 0 3 0.0 256.0 0.0 0.0 3.0000 4 200.0 0 4 0.0 256.0 0.0 0.0 3.0000 … 59 200.0 2 19 0.0 0.0 0.0 256.0 1.0000 60 200.0 2 20 0.0 0.0 0.0 256.0 1.0000 End Time: May 31, 2004 6:09:16 PM

  23. Replication results (N = 200) Number of TFT-dominated runs Initial number of TFT players

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