在看例子时有几个问题看不懂

yanyanxihua

新手，在看netlogo自带的例子时，有几行程序看不懂，希望高手能够指点。
netlogo自带的social science--traffic grid这一例子当中，
globals
[
. R6 Q3 [# _0 J( F# Q  grid-x-inc               ;; the amount of patches in between two roads in the x direction
  grid-y-inc               ;; the amount of patches in between two roads in the y direction
  acceleration             ;; the constant that controls how much a car speeds up or slows down by if
                           ;; it is to accelerate or decelerate
  phase                    ;; keeps track of the phase
9 o+ s1 `% t4 v2 M2 L6 a  num-cars-stopped         ;; the number of cars that are stopped during a single pass thru the go procedure
1 v* c7 Z7 C" K( q1 v  current-light            ;; the currently selected light

  ^- ]1 x4 h/ Z( Q  ;; patch agentsets
  intersections ;; agentset containing the patches that are intersections
2 S' Z3 b# d. P2 h! O1 q  roads         ;; agentset containing the patches that are roads
]
0 ?1 `* w3 J! n' s
1 P2 [! q# x$ [0 m4 V0 `9 yturtles-own
8 r5 N4 F4 H! }[
  speed     ;; the speed of the turtle
  up-car?   ;; true if the turtle moves downwards and false if it moves to the right
( F: M$ r: l3 {3 M! `- E  wait-time ;; the amount of time since the last time a turtle has moved
; r) s; u1 y: P: Y]
: `4 J8 u5 I" x; L
, V! P* v7 {# b' |patches-own
( F- r$ M  x. x; q7 L, S[
  intersection?   ;; true if the patch is at the intersection of two roads
% d+ C# i& v& Q" q0 j- N3 M$ v# ?2 F  green-light-up? ;; true if the green light is above the intersection.  otherwise, false.
( X6 q) p  f, ~# J                  ;; false for a non-intersection patches.
  my-row          ;; the row of the intersection counting from the upper left corner of the
                  ;; world.  -1 for non-intersection patches.
- p& ~; D! Q1 Z; Z  my-column       ;; the column of the intersection counting from the upper left corner of the
                  ;; world.  -1 for non-intersection patches.
  my-phase        ;; the phase for the intersection.  -1 for non-intersection patches.
  auto?           ;; whether or not this intersection will switch automatically.
; H8 ~1 @) g7 a0 a% v  J7 R6 w                  ;; false for non-intersection patches.
]

5 d* W1 ?3 ^/ g* `+ t
+ ]2 |5 M- l- D+ _6 j2 w;;;;;;;;;;;;;;;;;;;;;;
;; Setup Procedures ;;
;;;;;;;;;;;;;;;;;;;;;;

% c& Q8 y; h% l+ R- u5 j( P3 `5 S;; Initialize the display by giving the global and patch variables initial values.
;; Create num-cars of turtles if there are enough road patches for one turtle to
) M( x  D& ]! t/ B# C;; be created per road patch. Set up the plots.
to setup
  ca
& O! K3 T6 U; s( y  setup-globals
! A- [  i. S! S
( B( ]) ]4 O7 e( {2 H2 s  ;; First we ask the patches to draw themselves and set up a few variables
. V6 p. ?: a0 R3 P; Z0 R5 J; O  setup-patches
  make-current one-of intersections
  label-current

3 n& G2 S1 e. L0 {) A  set-default-shape turtles "car"
+ K# e5 V3 _, k- g6 o! s: Z! X+ N
3 ^, s* A# u* f3 I9 q8 \+ i  if (num-cars > count roads)
, w( u( O4 N4 }& E  [
    user-message (word "There are too many cars for the amount of "
5 ~7 {7 F9 _$ q2 x$ W' R7 ?, C                       "road.  Either increase the amount of roads "
                       "by increasing the GRID-SIZE-X or "
9 M$ f( ?, W2 R  d/ i                       "GRID-SIZE-Y sliders, or decrease the "
                       "number of cars by lowering the NUMBER slider.\n"
1 F: j) H& Y  T                       "The setup has stopped.")
' z) E/ y0 L! |    stop
4 J' S) B3 Q8 q  ]
0 g5 O1 a3 S) p  e$ V3 Z# \/ _2 Y6 N
  ;; Now create the turtles and have each created turtle call the functions setup-cars and set-car-color
  crt num-cars
' j/ V) y! Z4 y% u% m# z2 V1 q  [
3 `; z9 }7 l6 k2 o    setup-cars
0 [, o' B$ A, _7 b    set-car-color
# W; \% T! P2 {$ P4 Y' C. N; ?    record-data
  ]
8 k  S  y& Q* B* e% Z! W$ |/ u
; D/ K; g$ }: Y! b7 Z  ;; give the turtles an initial speed
( ~9 G9 L% \: S; O) z: f  ask turtles [ set-car-speed ]
) w1 D  A8 _2 f) M0 t
6 n- k9 S2 ^4 n/ K0 m7 m5 t7 n  reset-ticks
end
3 F* [# L2 \) [% _2 k
;; Initialize the global variables to appropriate values
to setup-globals
  `% X6 J$ k: L0 S/ F# R2 ~3 R  set current-light nobody ;; just for now, since there are no lights yet
  set phase 0
4 K$ ]& g3 j- W5 p( D  set num-cars-stopped 0
  set grid-x-inc world-width / grid-size-x
1 t$ A% i- @$ G8 O( l- @- B  set grid-y-inc world-height / grid-size-y
+ r* P  a/ {; T. w1 y& v
  ;; don't make acceleration 0.1 since we could get a rounding error and end up on a patch boundary
  set acceleration 0.099
; j9 B: a+ n% ^. w' [/ `# {end

;; Make the patches have appropriate colors, set up the roads and intersections agentsets,
;; and initialize the traffic lights to one setting
. B' A* S; g" j4 z; Q# Y* ]+ @to setup-patches
  ;; initialize the patch-owned variables and color the patches to a base-color
% D+ n; z; Y4 R8 X- y, @  ask patches
  [
    set intersection? false
    set auto? false
$ C) V1 }0 K3 `9 r- N4 L# q    set green-light-up? true
! L! e8 |9 {6 v* ^    set my-row -1
    set my-column -1
6 i/ X5 u. Q; Q; _' {; v    set my-phase -1
    set pcolor brown + 3
  ]
- }: N9 R9 H# C# b& s3 Q
! _' R% ^: M& ~5 m  r* h  ;; initialize the global variables that hold patch agentsets
! [5 Y' h7 F- [9 j  set roads patches with
' F( V) |4 W5 S4 N    [(floor((pxcor + max-pxcor - floor(grid-x-inc - 1)) mod grid-x-inc) = 0) or
8 M: I/ m5 x- C; n9 c0 y0 I    (floor((pycor + max-pycor) mod grid-y-inc) = 0)]
  set intersections roads with
    [(floor((pxcor + max-pxcor - floor(grid-x-inc - 1)) mod grid-x-inc) = 0) and
    (floor((pycor + max-pycor) mod grid-y-inc) = 0)]
4 ?. K  ]1 m6 w$ J# d
  ask roads [ set pcolor white ]
    setup-intersections
7 E5 x( o* R: T! j4 {' xend
" c3 q$ ^7 o9 `) \) G0 Z3 H其中定义道路的句子，如下所示，是什么意思啊？
) j$ M( ^  S1 @8 M set roads patches with
    [(floor((pxcor + max-pxcor - floor(grid-x-inc - 1)) mod grid-x-inc) = 0) or
: g. e: y- N* u    (floor((pycor + max-pycor) mod grid-y-inc) = 0)]
+ y* m$ [5 C: i# O谁能帮我解释一下[(floor((pxcor + max-pxcor - floor(grid-x-inc - 1)) mod grid-x-inc) = 0)是什么意思吗？