globals [ ;; used to keep score mate-leader mates-found predator-leader prey-found total-mates-found total-prey-found ;; used for different aspects of the appearance wander-angle old-show-age? ;; used to mutate the colors of the fish min-size max-size chance-mutate-color chance-mutate-size max-fish-size max-size-mutation-step max-color-mutation-step ] breed [ fish a-fish ] breed [ fish-parts fish-part ] breed [ rocks rock ] breed [ players player ] players-own [user-name found attempts role] ;; gene-frequencies are used to determine the color of the fish ;; (or fish parts). When fish reproduce the gene-frequencies ;; will mutate making a slightly different color fish-own [ red-pigment-gene-frequency blue-pigment-gene-frequency green-pigment-gene-frequency age ;; fish cannot reproduce until they have reached MIN-AGE-REPRODUCTION reproduce? eaten? my-parts ;; agentset including tail and fins for easy access ] fish-parts-own [ owned-by ;; parent fish body-part ;; which part of the body this turtle displays (tail, top or bottom fins) red-pigment-gene-frequency blue-pigment-gene-frequency green-pigment-gene-frequency ] ;;;;;;;;;;;;;;;;;;; ;; Setup Procedures ;;;;;;;;;;;;;;;;;;; to startup hubnet-reset init-globals setup-environment make-initial-fish end ;; set constants once at the very beginning. to init-globals set wander-angle 40 set chance-mutate-color 20 set chance-mutate-size 20 set max-fish-size 3 set min-size 1 set max-size 5 set max-size-mutation-step 1 set max-color-mutation-step 50 end ;; reset the fish, predators, and mates ;; to their initial conditions to start ;; the simulation over to setup reset-ticks ask fish [ die ] ask fish-parts [ die ] ask rocks [ die ] clear-all-plots init-globals setup-environment make-initial-fish ask players [ init-player-variables update-player ] end to setup-environment ask patches [ set pcolor background-color ] if (rock-shelters?) [ create-rocks 1 [ set size world-width set color (brown - 3) set shape "rocks" ] ] import-drawing background end ;; each fish consists of several turtles, one for the body ;; one for the tail, and one for each of the fins ;; so the colors can vary separately to make-initial-fish create-fish carrying-capacity [ set shape "fish-body" assign-initial-body-genotype-and-phenotype setxy random-xcor random-ycor set size (max-fish-size / 2) assign-initial-fish-parts set age 0 set eaten? false set reproduce? false if show-age? [ set label-color red set label (word age " ") ] ] end to assign-initial-body-genotype-and-phenotype set red-pigment-gene-frequency 150 set blue-pigment-gene-frequency 150 set green-pigment-gene-frequency 150 set-phenotype-color end ;; make the fish parts and ;; use the my-part turtle variable to ;; have a quick reference to the turtles ;; that make up the tail and fins. to assign-initial-fish-parts hatch-fish-part "top" hatch-fish-part "bottom" hatch-fish-part "tail" set my-parts fish-parts with [ owned-by = myself ] end to hatch-fish-part [name] hatch-fish-parts 1 [ set body-part name set owned-by myself set shape word "fish-" name assign-initial-part-genotype-and-phenotype ] end to assign-initial-part-genotype-and-phenotype set red-pigment-gene-frequency (red-pigment-gene-frequency + random-float 20) set green-pigment-gene-frequency (green-pigment-gene-frequency + random-float 20) set blue-pigment-gene-frequency (blue-pigment-gene-frequency + random-float 20) set-phenotype-color end ;; convert the genetic representation of gene frequency ;; into a phenotype using the rgb primitive to set-phenotype-color ;; turtle procedure set color rgb red-pigment-gene-frequency green-pigment-gene-frequency blue-pigment-gene-frequency end to toggle-labels ;; only change the labels when the switch is ;; changed so they don't flicker and slow the ;; model down. if old-show-age? != show-age? [ ask fish [ ifelse show-age? [ set label-color red set label (word age " ") ;; add spaces at the end to the label is shifted to the left a bit ] [ set label "" ] ] set old-show-age? show-age? ] end ;; the rock shelter is used to hide newborn ;; fish so they don't clump up too much. to make-rock-shelter ;; keep the existence of the rock shelters in ;; sync with the switch. if rock-shelters? and count rocks = 0 [ if (rock-shelters?) [ create-rocks 1 [ set size world-width set color ( brown - 3) set shape "rocks" ] ] ] if not rock-shelters? and count rocks > 0 [ ask rocks [ die ] ] end ;;;;;;;;;;;;;;;;;;;;; ;; Runtime Procedures ;;;;;;;;;;;;;;;;;;;;; to go ask fish [ set age age + 1 ] ask fish [ move-fish ] ask fish [ update-fish ] ;; keep the world in a state consistent ;; with the model settings toggle-labels make-rock-shelter enforce-capacity every 0.01 [ listen-clients ] tick update-plots end to move-fish ;; fish procedure let move-right random wander-angle let move-left random wander-angle let move-forward 0 ;; fish-speed-scale slows down or speeds up fish ;; to make the game more playable without slowing ;; down the entire model. ifelse (count fish <= 50) [ set move-forward fish-speed-scale * 0.001 * (count fish) ] [ set move-forward fish-speed-scale * 0.001 * 50 ] ;; move myself and my fins and tail. ask my-parts [ right move-right left move-left fd move-forward ] right move-right left move-left fd move-forward end to update-fish ;; fish procedure ;; remove fish that are tagged to die ;; and all associated parts if eaten? [ ask my-parts [ die ] die ] ;; reproduce fish that are tagged to reproduce if reproduce? [ make-one-offspring set age 0 set reproduce? false ] end to enforce-capacity ;; keeps the world population ;; constant so there is no population ;; boom or bust. if enforce-capacity? [ if count fish > 0 [ while [ count fish < carrying-capacity ] [ reproduce-fish ] while [ count fish with [ eaten? = false ] > carrying-capacity ] [ eat-one-random-fish ] ] ] end to eat-one-random-fish ask one-of fish [ set eaten? true ] end to reproduce-fish ask one-of fish [ make-one-offspring set age 0 ] end to make-one-offspring ;; fish procedure set age 0 hatch 1 [ set reproduce? false make-offspring-parts myself ] end to make-offspring-parts [parent] ;; fish procedure let baby-xcor random-pxcor let baby-ycor (1 + min-pycor) if rock-shelters? [ setxy baby-xcor baby-ycor set heading 0 ] ;; keep track of the fish that is hatching the parts ;; because we get double perspective change below and ;; we can't get back to the parent fish. let owner self ask [my-parts] of parent [ hatch 1 [ set owned-by owner set red-pigment-gene-frequency color-mutation red-pigment-gene-frequency set green-pigment-gene-frequency color-mutation green-pigment-gene-frequency set blue-pigment-gene-frequency color-mutation blue-pigment-gene-frequency set-phenotype-color size-mutation if rock-shelters? [ setxy baby-xcor baby-ycor set heading 0 ] ] ] set my-parts fish-parts with [ owned-by = myself ] end ;; everytime a predator or mate catches a fish update ;; his found variable and the totals for that role to update-found-stats ask players with [ user-name = hubnet-message-source ] [ set found found + 1 if role = "predator" [ set total-prey-found total-prey-found + 1 ] if role = "mate" [ set total-mates-found total-mates-found + 1 ] ] end ;; update the stats for the leaders in the game to update-mate-leaders let mates players with [ role = "mate" ] let leaders mates with-max [ found ] ifelse count leaders > 1 [ set mate-leader (word count leaders "-way tie") ] [ set mate-leader [user-name] of one-of leaders ] set mates-found [found] of one-of leaders end to update-predator-leaders let predators players with [ role = "predator" ] let leaders predators with-max [ found ] ifelse count leaders > 1 [ set predator-leader (word count leaders "-way tie") ] [ set predator-leader [user-name] of one-of leaders ] set prey-found [found] of one-of leaders end ;; extract the coordinates of the mouse event ;; on client, find any fish on that location ;; and mark them for reproduction or eating to select-fish let owner nobody let clicked-xcor (round item 0 hubnet-message) let clicked-ycor (round item 1 hubnet-message) let this-players-role "" let fishies-here fish-on patch clicked-xcor clicked-ycor ask players with [user-name = hubnet-message-source] [ set attempts attempts + 1 if any? fishies-here [ update-found-stats ;; predators or mates only get one of the fish here ;; each time they click. ask one-of fishies-here [ ifelse [role] of myself = "mate" [ if age > min-age-reproduction [ set reproduce? true ] ] [ set eaten? true ] ] update-leader-stats ;; every time any player finds a fish update the ;; monitors on all the players with the same ;; role, so the leader stats don't get out of date ;; if they don't click for awhile ask players with [ role = [role] of myself ] [ update-player ] ] ] end ;; mutate the size, don't let the size go outside ;; the range min-size - max-size to size-mutation if random 100 < chance-mutate-size [ set size size + random-float max-size-mutation-step if size < min-size [ set size min-size ] if size > max-size [ set size max-size ] ] end ;; mutate the color but don't let it mutate ;; outside the random 1 - 10 to-report color-mutation [gene-frequency] let mutation (random (max-color-mutation-step * 2)) - max-color-mutation-step if random 100 < chance-mutate-color [ set gene-frequency gene-frequency + mutation ] if gene-frequency < 0 [ set gene-frequency 0 ] if gene-frequency > 255 [ set gene-frequency 255 ] report gene-frequency end to update-leader-stats if any? players with [role = "mate"] [ update-mate-leaders ] if any? players with [role = "predator"] [ update-predator-leaders ] end ;; ;; HubNet Procedures ;; to listen-clients while [hubnet-message-waiting?] [ hubnet-fetch-message ifelse hubnet-enter-message? [ add-player ] [ ifelse hubnet-exit-message? [ remove-player ] [ if hubnet-message-tag = "View" [ select-fish ] ] ] ] end ;; report name of the leader of a players group to-report my-leader ;; player procedure ifelse role = "mate" [ report mate-leader ] [ report predator-leader ] end to-report my-leaders-score ;; player procedure report max [ found ] of players with [ role = [role] of myself ] end ;; update all the monitors that change on the clients to update-player ;; player procedure hubnet-send user-name "Your role" role let max-found my-leaders-score hubnet-send user-name "Your leader" my-leader hubnet-send user-name "Leader found" max-found hubnet-send user-name "You found" found ifelse max-found = 0 [ hubnet-send user-name "Success %" 100 ] [ hubnet-send user-name "Success %" precision ((found / max-found) * 100) 2 ] end to add-player create-players 1 [ set user-name hubnet-message-source init-player-variables hubnet-send user-name "Your name" user-name update-player ] end ;; initialize one player to init-player-variables ;; player procedure set attempts 0 set found 0 if player-roles = "all predators" [ set role "predator" ] if player-roles = "all mates" [ set role "mate" ] if player-roles = "predators v. mates" [ ifelse random 2 = 0 [ set role "predator" ] [ set role "mate" ] ] set hidden? true end to remove-player ask players with [user-name = hubnet-message-source ] [ die ] end ; Copyright 2006 Uri Wilensky. ; See Info tab for full copyright and license. @#$#@#$#@ GRAPHICS-WINDOW 274 35 690 472 14 14 14.0 1 10 1 1 1 0 1 1 1 -14 14 -14 14 1 1 1 ticks 30.0 BUTTON 39 23 142 56 NIL setup NIL 1 T OBSERVER NIL NIL NIL NIL 1 BUTTON 144 23 247 56 NIL go T 1 T OBSERVER NIL NIL NIL NIL 1 SLIDER 54 156 235 189 carrying-capacity carrying-capacity 0 50 14 1 1 fish HORIZONTAL BUTTON 141 312 261 345 clear background clear-drawing NIL 1 T OBSERVER NIL NIL NIL NIL 1 SLIDER 50 78 227 111 fish-speed-scale fish-speed-scale 0 10 7.8 0.2 1 NIL HORIZONTAL SLIDER 49 354 223 387 background-color background-color 93 98 97 0.1 1 NIL HORIZONTAL MONITOR 780 66 870 111 fish count fish 3 1 11 SLIDER 54 190 235 223 min-age-reproduction min-age-reproduction 0 1000 200 1 1 NIL HORIZONTAL SWITCH 68 122 217 155 enforce-capacity? enforce-capacity? 0 1 -1000 SWITCH 64 393 210 426 rock-shelters? rock-shelters? 1 1 -1000 SWITCH 71 225 220 258 show-age? show-age? 1 1 -1000 CHOOSER 27 288 134 333 background background "aquarium.jpg" "underwater.jpg" 0 BUTTON 141 276 261 310 change background import-drawing background NIL 1 T OBSERVER NIL NIL NIL NIL 1 CHOOSER 747 17 901 62 player-roles player-roles "all predators" "all mates" "predators v. mates" 1 MONITOR 722 118 812 163 mates count players with [role = \"mate\"] 0 1 11 MONITOR 842 118 932 163 predators count players with [role = \"predator\"] 0 1 11 MONITOR 704 171 827 216 NIL mate-leader 0 1 11 MONITOR 704 218 827 263 NIL mates-found 0 1 11 MONITOR 832 171 951 216 NIL predator-leader 0 1 11 MONITOR 832 218 951 263 NIL prey-found 0 1 11 MONITOR 704 265 827 310 NIL total-mates-found 3 1 11 MONITOR 832 265 951 310 NIL total-prey-found 3 1 11 PLOT 701 320 955 479 Found v. Time Time Found 0.0 10.0 0.0 10.0 true false "" "" PENS "prey" 1.0 0 -16777216 true "" "plot total-prey-found" "mates" 1.0 0 -8630108 true "" "plot total-mates-found" @#$#@#$#@ ## WHAT IS IT? This selection model shows how sexual attraction and predation change the coloration and patterns in guppy's population. If you have not seen guppies you can see some at the "Sex and the Single Guppy" webpage: http://www.pbs.org/wgbh/evolution/sex/guppy/low_bandwidth.html When you run the model, you can either play the role of a predator or the role of a mate. As a predator, you will probably notice the more brightly colored guppy males. In other words, the more colored the guppy is, the more likely he will be seen by you, the predator. In this model, (as happens in the wild in streams where predators are plentiful), male guppies become increasingly drab over generations, pushed by predation pressure toward greater camouflage. You can notice that many guppies are very colorful, have garish patterns and large tails, even if it makes them more noticeable to predators. You might ask yourself: Why doesn't a guppy remain camouflaged and discreet in order to avoid the detection by a predator? The answer lies in the fact that guppies are driven by more than only a survival instinct. Guppies also desire to reproduce with other guppies and to do this they must be noticed by their mates. The "flashier" a male guppy is, the likelier a female guppy will choose him as a mate, passing his genes to the next generation. This is sexual selection at work, and it is the force that drives guppy's coloration toward conspicuousness just as hard as predation pushes coloration toward drabness. Thus as a mate, you will again probably notice the more brightly colored guppy males. When you click on a colorful mate, he will hatch an offspring, which will likely create another colorful guppy and guppies will increasingly become colorful over generations, pushed by breeding pressure. Quoting from "Sex and the Single Guppy" [2]: There may be several evolutionary reasons why female guppies prefer flashy males. On the most basic level, the male with the biggest, brightest tail spot announces most loudly, "Hey, I'm over here" to any female it can see. Flashy colors are simply easier to locate. However, there is also research to suggest that bright colors serve as an indicator of good genes in the way the strong physique of a human athlete is a direct indicator of that individual's health and vitality. Or, bright coloration may signal to a potential mate that he's got something else going for him. After all, he's been able to survive the very handicap -- conspicuousness to predators -- that his flashiness creates. Whatever the reasons, it is clear from the research of Endler and other evolutionary biologists that male guppies live in the crossfire between their enemies and their would-be mates, with the opposing forces of predation and sexual selection forever pushing the guppy coloration in opposite directions. ## HOW IT WORKS You can assume either the role of a predator or the role of a mate. When GO is pressed, if you are a predator you should try to click on the guppies, as fast as you can, in order to eat them. Each time you click on a guppy it will be removed from the guppy population. At that point, another guppy in the population will hatch an offspring to replace the one that was caught (keeping the population of guppies constant). If you are a mate (a female guppy), you should try to click on the guppies as fast as you can (they are all males). When you click on a guppy that is old enough to mate, he will hatch an offspring. When the population of guppies exceeds the capacity, a random guppy will be removed. Each new guppy may undergo small mutations in its genetics for each of its three fins. These mutations will results in changes in the size and the three pigments that make up the color of each fin. Predators prey on the most brightly colored or patterned individuals more often than the less colored ones since they are easier to spot and eliminate them from the gene pool. Thus, predators cause guppy populations to remain relatively drab (with respect to colors and patterns of the environment they live in). However, guppies looking for a mate exert the opposite selection. Relatively drab guppies are hard to find and mate with, while guppies with garish colors and patterns are easier to find and mate with. As these guppies reproduce, the frequency of their genes increases in the gene pool. Guppy populations are evolving to match, and/or stand out, from their environment depending on which of the selective pressures are stronger. ## HOW TO USE IT To run the activity press the GO button. To start the activity over with the same group of students stop the GO button by pressing it again, press the SETUP button, and press GO again. To run the activity with a new group of students press the RESET button in the Control Center. Buttons: SETUP - Clears the world and populates the world with fish. All players are set to initial values. GO - Runs the simulation, students can login and start eating, or mating with the fish population. CHANGE BACKGROUND - loads the image selected in the BACKGROUND chooser into the drawing. CLEAR BACKGROUND - erases the drawing so the patches show through. Sliders: FISH-SPEED-SCALE - controls how quickly the fish move around the world CARRYING-CAPACITY - the simulation will automatically keep CARRYING-CAPACITY fish in the world at all times. If there are too many fish it will randomly kill some, however, if there are too few fish, a random fish already will automatically be reproduced. Note that CARRYING-CAPACITY will only be active when the ENFORCE-CAPACITY? switch is in the "on" position. MIN-AGE-REPRODUCTION - The minimum amount of time before a fish can reproduce after it is born and since the last time it reproduced. BACKGROUND-COLOR - the value of the color of the background (patches), which is only visible when there is no image loaded in the drawing. Switches: ENFORCE-CAPACITY? - When it is on, the simulation automatically maintains number of fish in the world at CARRYING-CAPACITY. SHOW-AGE? - When it is on, set the label of each fish to its age. ROCK-SHELTERS? - When it is on, a rock shelter is placed on top of the world, as new fish are born they emerge from the rocks rather than appearing where its parent was at the time of reproduction. Monitors: FISH - The number of fish in the world. MATES - The number of students logged in as mates. PREDATORS - The number of students logged in as predators. MATES-LEADER - The name of the student (or indication of a tie) with the highest number of mates found. PREDATOR-LEADER - The name of the student (or indication of a tie) with the highest number of prey found. MATES-FOUND - The number of mates found by the leader. PREY-FOUND - The number of prey found by the leader. TOTAL-MATES-FOUND - The number of mates found by all mates. TOTAL-PREY-FOUND - The number of prey found by all predators. Choosers: BACKGROUND - Select the name of the background image to use in the world. PLAYER-ROLES - Select the type of game to play so you can explore the affects of the two forces (mates and predators) separately and in competition with each other. Plots: FOUND V TIME - The number of fish found by both predators and mates over time. Global variables in the procedures to change: WANDER-ANGLE - The amount that the fish will wiggle when they move around the world. MAX-COLOR-MUTATION-STEP - the maximum amount that a color gene can change by in one step CHANCE-MUTATE-COLOR - The percent chance the fish parts will slightly change color when reproduced CHANCE-MUTATE-SIZE - The percent chance the fish parts will slightly change size when reproduced MAX-FISH-SIZE - A limit on the size fish can grow to, to keep the simulation reasonable MAX-SIZE-MUTATION-STEP - the maximum amount that a size gene can change by in one step ## THINGS TO TRY Select ALL MATES in the PLAYER-ROLES chooser, run the activity notice the results, Are the fish very colorful or are they drab? Do the same with ALL PREDATORS and MATES V PREDATORS, which force wins out in the end? Try different backgrounds to see if the drab color of the guppies becomes closer to the common objects in the background (backlit seawater, rocky bottoms, green plants, etc.) Try to run the model without using a backdrop, instead adjust the color of the patches using the BACKGROUND-COLOR slider. ## EXTENDING THE MODEL It can sometimes be difficult to click on the fish because catching fish is dependent on patch boundaries, change it so it uses in-radius instead. ## NETLOGO FEATURES This model uses `import-drawing` to load high resolution backdrops into the drawing layer. However, the fish do not directly interact with the background; it only affects how the users see the world. ## RELATED MODELS Bug Hunt Pursuit Peppered Moths ## CREDITS AND REFERENCES [1] Inspired by Sex and the Single Guppy http://www.pbs.org/wgbh/evolution/sex/guppy/low_bandwidth.html [2] Sex and the Single Guppy. Conclusion: Exhibitionism Explained http://www.pbs.org/wgbh/evolution/sex/guppy/conclusion.html ## HOW TO CITE If you mention this model in a publication, we ask that you include these citations for the model itself and for the NetLogo software: * Novak, M. and Wilensky, U. (2006). NetLogo HubNet Guppy Spots model. http://ccl.northwestern.edu/netlogo/models/HubNetGuppySpots. Center for Connected Learning and Computer-Based Modeling, Northwestern University, Evanston, IL. * Wilensky, U. (1999). NetLogo. http://ccl.northwestern.edu/netlogo/. Center for Connected Learning and Computer-Based Modeling, Northwestern University, Evanston, IL. ## COPYRIGHT AND LICENSE Copyright 2006 Uri Wilensky. ![CC BY-NC-SA 3.0](http://i.creativecommons.org/l/by-nc-sa/3.0/88x31.png) This work is licensed under the Creative Commons Attribution-NonCommercial-ShareAlike 3.0 License. To view a copy of this license, visit http://creativecommons.org/licenses/by-nc-sa/3.0/ or send a letter to Creative Commons, 559 Nathan Abbott Way, Stanford, California 94305, USA. Commercial licenses are also available. To inquire about commercial licenses, please contact Uri Wilensky at uri@northwestern.edu. @#$#@#$#@ default true 0 Polygon -7500403 true true 150 5 40 250 150 205 260 250 airplane true 0 Polygon -7500403 true true 150 0 135 15 120 60 120 105 15 165 15 195 120 180 135 240 105 270 120 285 150 270 180 285 210 270 165 240 180 180 285 195 285 165 180 105 180 60 165 15 arrow true 0 Polygon -7500403 true true 150 0 0 150 105 150 105 293 195 293 195 150 300 150 box false 0 Polygon -7500403 true true 150 285 285 225 285 75 150 135 Polygon -7500403 true true 150 135 15 75 150 15 285 75 Polygon -7500403 true true 15 75 15 225 150 285 150 135 Line -16777216 false 150 285 150 135 Line -16777216 false 150 135 15 75 Line -16777216 false 150 135 285 75 bug true 0 Circle -7500403 true true 96 182 108 Circle -7500403 true true 110 127 80 Circle -7500403 true true 110 75 80 Line -7500403 true 150 100 80 30 Line -7500403 true 150 100 220 30 butterfly true 0 Polygon -7500403 true true 150 165 209 199 225 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105 10 135 25 180 40 195 85 194 139 163 Polygon -16777216 true false 162 150 200 105 245 90 275 90 290 105 290 135 275 180 260 195 215 195 162 165 Polygon -16777216 true false 150 255 135 225 120 150 135 120 150 105 165 120 180 150 165 225 Circle -16777216 true false 135 90 30 Line -16777216 false 150 105 195 60 Line -16777216 false 150 105 105 60 moth-white true 0 Polygon -1 true false 150 165 209 199 225 225 225 255 195 270 165 255 150 240 Polygon -1 true false 150 165 89 198 75 225 75 255 105 270 135 255 150 240 Polygon -1 true false 139 148 100 105 55 90 25 90 10 105 10 135 25 180 40 195 85 194 139 163 Polygon -1 true false 162 150 200 105 245 90 275 90 290 105 290 135 275 180 260 195 215 195 162 165 Polygon -1 true false 150 255 135 225 120 150 135 120 150 105 165 120 180 150 165 225 Circle -1 true false 135 90 30 Line -1 false 150 105 195 60 Line -1 false 150 105 105 60 pentagon false 0 Polygon -7500403 true true 150 15 15 120 60 285 240 285 285 120 person false 0 Circle -7500403 true true 110 5 80 Polygon -7500403 true true 105 90 120 195 90 285 105 300 135 300 150 225 165 300 195 300 210 285 180 195 195 90 Rectangle -7500403 true true 127 79 172 94 Polygon -7500403 true true 195 90 240 150 225 180 165 105 Polygon -7500403 true true 105 90 60 150 75 180 135 105 plant false 0 Rectangle -7500403 true true 135 90 165 300 Polygon -7500403 true true 135 255 90 210 45 195 75 255 135 285 Polygon -7500403 true true 165 255 210 210 255 195 225 255 165 285 Polygon -7500403 true true 135 180 90 135 45 120 75 180 135 210 Polygon -7500403 true true 165 180 165 210 225 180 255 120 210 135 Polygon -7500403 true true 135 105 90 60 45 45 75 105 135 135 Polygon -7500403 true true 165 105 165 135 225 105 255 45 210 60 Polygon -7500403 true true 135 90 120 45 150 15 180 45 165 90 rocks true 0 Polygon -7500403 true true 0 300 0 0 15 0 18 38 19 84 28 105 24 123 22 134 16 171 28 201 41 219 35 236 54 251 67 245 90 251 109 247 137 248 150 255 152 301 Polygon -7500403 true true 149 255 179 266 197 249 210 254 226 238 243 246 249 247 265 254 269 242 270 230 252 203 261 185 270 168 277 150 287 113 282 97 286 71 282 -1 304 -8 299 300 151 300 square false 0 Rectangle -7500403 true true 30 30 270 270 square 2 false 0 Rectangle -7500403 true true 30 30 270 270 Rectangle -16777216 true false 60 60 240 240 star false 0 Polygon -7500403 true true 151 1 185 108 298 108 207 175 242 282 151 216 59 282 94 175 3 108 116 108 target false 0 Circle -7500403 true true 0 0 300 Circle -16777216 true false 30 30 240 Circle -7500403 true true 60 60 180 Circle -16777216 true false 90 90 120 Circle -7500403 true true 120 120 60 tree false 0 Circle -7500403 true true 118 3 94 Rectangle -6459832 true false 120 195 180 300 Circle -7500403 true true 65 21 108 Circle -7500403 true true 116 41 127 Circle -7500403 true true 45 90 120 Circle -7500403 true true 104 74 152 triangle false 0 Polygon -7500403 true true 150 30 15 255 285 255 triangle 2 false 0 Polygon -7500403 true true 150 30 15 255 285 255 Polygon -16777216 true false 151 99 225 223 75 224 truck false 0 Rectangle -7500403 true true 4 45 195 187 Polygon -7500403 true true 296 193 296 150 259 134 244 104 208 104 207 194 Rectangle -1 true false 195 60 195 105 Polygon -16777216 true false 238 112 252 141 219 141 218 112 Circle -16777216 true false 234 174 42 Rectangle -7500403 true true 181 185 214 194 Circle -16777216 true false 144 174 42 Circle -16777216 true false 24 174 42 Circle -7500403 false true 24 174 42 Circle -7500403 false true 144 174 42 Circle -7500403 false true 234 174 42 turtle true 0 Polygon -10899396 true false 215 204 240 233 246 254 228 266 215 252 193 210 Polygon -10899396 true false 195 90 225 75 245 75 260 89 269 108 261 124 240 105 225 105 210 105 Polygon -10899396 true false 105 90 75 75 55 75 40 89 31 108 39 124 60 105 75 105 90 105 Polygon -10899396 true false 132 85 134 64 107 51 108 17 150 2 192 18 192 52 169 65 172 87 Polygon -10899396 true false 85 204 60 233 54 254 72 266 85 252 107 210 Polygon -7500403 true true 119 75 179 75 209 101 224 135 220 225 175 261 128 261 81 224 74 135 88 99 wheel false 0 Circle -7500403 true true 3 3 294 Circle -16777216 true false 30 30 240 Line -7500403 true 150 285 150 15 Line -7500403 true 15 150 285 150 Circle -7500403 true true 120 120 60 Line -7500403 true 216 40 79 269 Line -7500403 true 40 84 269 221 Line -7500403 true 40 216 269 79 Line -7500403 true 84 40 221 269 x false 0 Polygon -7500403 true true 270 75 225 30 30 225 75 270 Polygon -7500403 true true 30 75 75 30 270 225 225 270 @#$#@#$#@ NetLogo 5.0beta5 @#$#@#$#@ @#$#@#$#@ @#$#@#$#@ @#$#@#$#@ VIEW 150 10 556 416 0 0 0 1 1 1 1 1 0 1 1 1 -14 14 -14 14 MONITOR 13 265 139 314 You found NIL 0 1 MONITOR 13 316 139 365 Success % NIL 1 1 MONITOR 13 163 139 212 Your leader NIL 3 1 MONITOR 13 214 139 263 Leader found NIL 0 1 MONITOR 13 61 139 110 Your name NIL 0 1 MONITOR 13 112 139 161 Your role NIL 3 1 @#$#@#$#@ default 0.0 -0.2 0 0.0 1.0 0.0 1 1.0 0.0 0.2 0 0.0 1.0 link direction true 0 Line -7500403 true 150 150 90 180 Line -7500403 true 150 150 210 180 @#$#@#$#@ 0 @#$#@#$#@