2018.2.0版中AGV如何乘升降机？

Pureua · 发表于 2018-11-4 16:20:35

请教一下，2018.2.0版中AGV模块，路径点逻辑里没有乘升降机的选项，该如何实现这个操作？

慧娴亚伦 · 发表于 2018-11-4 19:12:47

办法1：从2016版本里面复制相应的代码

具体代码如下：

treenode agv = param(1);# j% n2 T1 @, g. \; O9 q
treenode currentCP = param(2);
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{ //************* PickOption Start *************\\# L& v# }0 f w
/***popup:AGV_DivertToElevator*/
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/***tag:Description*//**Divert to Elevator*/
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int operation = param(3);$ c$ F4 ? x' z1 r, Q* S0 P
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#define AGV_LABEL_NAME "fs_AGV_Elev_State"+ b1 o1 z. }% {, o4 C: d! M1 H
if (operation == 0 && !objectexists(label(agv, AGV_LABEL_NAME))3 F2 P; J6 y- ]0 s) u: A
&& (/** \nCondition: *//***tag:Condition*//**/fabs(zloc(currentCP) - zloc(agvinfo(agv, AGV_DEST_CP))) > zsize(agv)/**/)) { // if it's a pointer, then do the initial case+ r7 |4 E" P5 x/ o* P
// initial trigger execution) z7 Q; s$ s4 V7 T
#define ON_ELEVATOR_START 13 O( u1 E- Z* U8 |5 A* F1 p! P0 @
#define ON_ELEVATOR_PICKUP_ARRIVAL 24 _2 c5 K, H- H: ?5 \3 G6 f' D
#define ON_ELEVATOR_DROPOFF_ARRIVAL 3: `4 A/ _1 S x) H+ _! c; ^" g; d
#define ON_AGV_AT_CP 4( d2 o8 L: a. j
#define ON_BOTH_AT_PICKUP 5' f. B/ o* b% E, p
#define ON_OPEN_DOOR 6; P+ W5 f1 b7 o$ H, w8 g
#define ON_CLOSE_DOOR 7/ z5 p- w9 i3 k
#define ON_PICKUP_DOOR_OPENED 8
7 u+ `) s" Y T1 Z+ U; s: z. d
#define ON_PICKUP_DOOR_CLOSED 9
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#define ON_DROPOFF_DOOR_OPENED 104 ]6 I% v6 {# [9 ^5 M% R: I7 _
#define ON_DROPOFF_DOOR_CLOSED 11( n# V/ N3 U! F H7 o
# j1 F+ D+ b2 u: [. Q. m
#define AGV_STATE_START 0; S$ E. p- s4 J3 m9 m
#define AGV_STATE_AT_ENTRY_CP 1
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#define AGV_STATE_AT_ELEV_CP 2
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#define AGV_STATE_AT_EXIT_CP 3
5 F5 J$ F6 o& O
" J8 |; u* { b3 j+ t
#define ELEV_STATE_NONE 0
' O& d" ]% ~ l( i
#define ELEV_STATE_AT_PICKUP_FLOOR 1
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#define ELEV_STATE_OPENING_DOOR 2+ l$ O Y* k. r: V8 |8 P* L, B
#define ELEV_STATE_DOOR_OPENED 3; Q! V; h2 b ~: t0 q
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treenode elevDisp = /** \nDispatcher: *//***tag:Dispatcher*//**/cpconnection(currentCP, "Elevators", 1)/**/;
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#define elevator outobject(elevDisp, $iter(1)), `9 R4 ]. i) D* L7 T* q
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if (!objectexists(elevDisp))/ U* R0 k' b4 u- \/ U1 P' E
return 0;' v9 b8 ~ t+ \7 Q+ C
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if (/** \nDo Search: *//***tag:DoSearch*//**/1/**/) {
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query(
2 k) u; K' z( j9 n
/** \nFull Query: */
7 G! }3 k, i. ~1 t' T0 @
/***tag:FullQuery*//**/"SELECT $2 AS Elevator FROM $1 Elevators WHERE $3 ORDER BY $4 ASC LIMIT 1"/**/,
+ |8 ?6 Q* l6 Y) J% |
nrop(elevDisp),; v6 X! w' O6 j% |( B* o
elevator/ I8 x C, S3 S1 y2 Q
/** \nWhere*/) M+ k- t' d. J& D6 t, | J
/***tagex:WhereParams*/,/** \n*/ /**AND*/ /** */ /**/getstatenum(elevator) == STATE_IDLE /**/
v* c% Y; G8 I+ ]8 {. K
/***/
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/** \nOrderBy*/) H I: m- C% _4 V/ j
/***tagex:OrderByParams*/,/** \n*/ /**/fabs(zloc(elevator) - zloc(agv))/**/ /**ASC*/
7 P. u* C+ s9 Y: r, t1 Q" E- o
/***/);+ ^: d' @. c5 a( `/ j; }7 Q
! Y- X3 o, M9 I" D+ X5 E" g8 b5 M' X
if (getquerymatchcount() > 0)) V9 w, K2 W" ]/ t
elevDisp = getqueryvalue(1, 1);" T3 q" E4 b, Z
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if (!objectexists(elevDisp))
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return 0;/ i! {& ?1 `% p
treenode destCP = agvinfo(agv, AGV_DEST_CP);' S* W3 Y! e& p+ P- }
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agvredirect(agv, /** \nDivert Point When None Available: *//***tag:WaitDivertPoint*//**/currentCP/**/, REDIRECT_AND_WAIT);
) j3 j$ w$ s5 G
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// Create the task sequence for the elevator
2 O0 A% y6 D9 Z
double destZ = zloc(destCP);% D, P. X5 A- p3 E8 H5 P
treenode ts = createemptytasksequence(elevDisp, 0, 0);
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inserttask(ts, TASKTYPE_TAG, agv, destCP);: Y1 D9 m% F7 H
// immediately when the elevator starts the task sequence, I call ON_ELEVATOR_START
6 ?4 s# b; w; J' F) M2 |
inserttask(ts, TASKTYPE_NODEFUNCTION, c, 0, 0, ON_ELEVATOR_START, destZ);* u3 @, z. O" H6 b0 ^2 ^
// travel to the z location of the current control point: ~' y3 g0 E: n( E% h9 c; q! f1 }* C
inserttask(ts, TASKTYPE_TRAVELTOLOC, 0, 0, 0, 0, zloc(currentCP));
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// then call ON_ELEVATOR_PICKUP_ARRIVAL
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inserttask(ts, TASKTYPE_NODEFUNCTION, c, 0, 0, ON_ELEVATOR_PICKUP_ARRIVAL);8 u3 z$ j6 q1 m
// then wait for the agv to get on
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inserttask(ts, TASKTYPE_UTILIZE, agv);
% s; r# l" ?/ x
// then travel to the destination z location
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inserttask(ts, TASKTYPE_TRAVELTOLOC, 0, 0, 0, 0, destZ);
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// then call ON_ELEVATOR_DROPOFF_ARRIVAL! U# @3 ^3 ^/ q: U) }0 z
inserttask(ts, TASKTYPE_NODEFUNCTION, c, 0, 0, ON_ELEVATOR_DROPOFF_ARRIVAL);
/ [5 k# R$ ]0 s- F+ k! E7 p
inserttask(ts, TASKTYPE_UTILIZE, agv);3 j. w: b6 A- G
dispatchtasksequence(ts);
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} else switch (operation) {
8 }, Y) v5 ], [' {: g
case ON_ELEVATOR_START: {
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// this is fired when I get a valid elevator6 e( G7 v: X3 N2 Q4 u h2 \6 Q( g
treenode elev = param(1);2 T ^6 {7 m2 I' I _+ ^* T4 v, k# g
treenode agv = gettaskinvolved(gettasksequence(elev, 0), 1, 1);
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// find the closest floor control point
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int floorCPCon = cpconnection(0, /** \nFloor Control Point Connection:*//***tag:FloorCPs*//**/"Destination"/**/, 0);
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treenode curFloorCP = findmin(cpnumconnections(elev, floorCPCon),
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fabs(zloc(agv) - zloc(cpconnection(elev, floorCPCon, count))),
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cpconnection(elev, floorCPCon, count));
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// return if there is none( r: K+ S/ p8 K; l' g
if (!objectexists(curFloorCP))
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return 0; G8 [7 i9 |* g
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// get the entry control point+ T8 x! V9 @! V/ O% g
treenode floorCP = curFloorCP;+ ?1 m; v1 _# p+ }1 U2 L
treenode curFloorEntryCP = /** \nEntry Control Point: *//***tag:EntryCP*//**/cpconnection(floorCP, "EntryCP", 1)/**/;' d. B$ D/ J; U+ f4 C1 a2 `
if (!objectexists(curFloorEntryCP)) S1 y1 n, Q3 L# m
return 0;
+ U) N3 {# k: w+ D
treenode floorEntryCP = curFloorEntryCP;
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treenode curFloorElevCP = /** \nElevator Control Point: *//***tag:ElevCP*//**/floorCP/**/;2 ~, |- `/ u8 H# T* X0 Y; V% j5 Q
if (!objectexists(curFloorElevCP))! l' \8 @7 l) L5 h
return 0;
M+ k& \' ~9 d1 G' @/ a0 s( o. \
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double destZ = param(4);; X4 D9 M% c5 I
// find the floor control point closest to the destination floor7 d, N5 L: U/ A! X# [
treenode destFloorCP = findmin(cpnumconnections(elev, floorCPCon),
4 I0 N& u' t$ p$ n. D* h
fabs(destZ - zloc(cpconnection(elev, floorCPCon, count)))," a1 t z8 E" _1 b& R% J$ ^
cpconnection(elev, floorCPCon, count));" K* A7 ?2 Z2 v0 y
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floorCP = destFloorCP;, h( b: V9 m9 m& g: ?- F
treenode destFloorElevCP = /** \nDest Elevator Control Point: *//***tag:DestElevCP*//**/floorCP/**/;* l$ W4 s9 A5 M: [: q5 G
if (!objectexists(destFloorElevCP)). m7 @$ A9 t; n2 P
return 0;
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// get the destination exit control point5 ], w, z: c6 f! ~/ A! n
treenode destExitCP = /** \nExit Control Point: *//***tag:ExitCP*//**/cpconnection(floorCP, "ExitCP", 1)/**/;6 W* u+ c, ~, L
if (!objectexists(destExitCP))
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return 0;
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// add a listener for the agv. This will call this nodefunction in the ON_AGV_AT_CP section whenever the
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// agv arrives at a node. I keep a state on the agv's state label, and then increment it each time
2 A! c+ Y" H. z; b
// the listener is called so I know which control point he's at, i.e. entry, elev, or exit.
3 U% ~% R6 H: h+ o* E6 h
agvaddlistener(agv, c, AGV_LISTEN_ARRIVAL | AGV_LISTEN_INTERMEDIATE_DEST,
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agv, elev, ON_AGV_AT_CP, AGV_LISTENER_PARAM_NODE);
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// set the data on the state label 1 I9 Y/ D3 t' i: T0 g
treenode stateLabel = assertlabel(agv, AGV_LABEL_NAME, DATATYPE_NUMBER);" \5 r, p; x3 U6 f0 W) ?
switch_destroyonreset(stateLabel, 1);
. I ]0 C% {- J {
set(stateLabel, AGV_STATE_START);/ i7 l% D7 P) E, M9 T& C
set(assertsubnode(stateLabel, "ElevState", DATATYPE_NUMBER), 0);9 a8 `( I5 q; Q
nodepoint(assertsubnode(stateLabel, "ElevCP", DATATYPE_COUPLING), curFloorElevCP);& c" ]# |+ m7 @. s% z3 `' d
nodepoint(assertsubnode(stateLabel, "DestElevCP", DATATYPE_COUPLING), destFloorElevCP);
4 ]+ p9 G, w5 }. \
nodepoint(assertsubnode(stateLabel, "ExitCP", DATATYPE_COUPLING), destExitCP);( u4 P& j6 Q$ c' u: } W# ~% K" R
agvredirect(agv, curFloorEntryCP, REDIRECT_AND_WAIT);( u6 l! S: E0 R' ^5 r$ @
return 0;
0 {- ~& o) K ~
}# \% n" h" t E8 x% z2 K
case ON_AGV_AT_CP: {
8 `2 \5 P- T T6 _
// this is fired by the agv listener every time the agv arrives at a node.+ V) n) j) A5 T' k2 j5 b+ `
treenode agv = param(1);
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treenode elev = param(2);$ }+ h* `: R1 @5 x
treenode stateLabel = label(agv, AGV_LABEL_NAME);
6 A1 j( ~" Z% @) |* N
// I increment the state label, and then switch on it$ b1 h) q: W4 q. C) h i
inc(stateLabel, 1);& S$ f) D2 X. e
switch (get(stateLabel)) {
j+ h1 G; P- N1 u3 o7 ~9 ^+ N" ?
case AGV_STATE_AT_ENTRY_CP: {) R9 b. c8 O1 ^9 L
// the agv just arrived at the entry cp3 h+ U" d2 g- h" J* U0 m/ A
// so, figure out where the elevator is.# A5 I# F6 j' b g) U$ }; ]
int elevState = get(node("ElevState", stateLabel));
, m1 D$ Z# q6 U* C; {
// if he's at the pickup floor with his door closed then open the door.% `# @$ D( h) ]8 L$ e
if (elevState == ELEV_STATE_AT_PICKUP_FLOOR)
2 k. w! v9 b0 @1 Q
nodefunction(c, agv, elev, ON_OPEN_DOOR, ON_PICKUP_DOOR_OPENED);2 m* Q% I' a* [
else if (elevState == ELEV_STATE_DOOR_OPENED) {+ W$ h! c! C8 C8 r' s: O8 I
// if his door is alread opened, then move the agv onto the elevator, i.e. to+ j% L! I9 \9 t% ^9 A
// the elevator cp; p$ n @7 I7 e
treenode elevatorCP = tonode(get(node("ElevCP", stateLabel)));
% D" u0 y2 m) T( V
agvredirect(agv, elevatorCP, REDIRECT_AND_WAIT);6 [5 h6 |6 ~- \ A3 W
}* B" o! L; C2 Z
break;
0 T, @9 Y2 y; |
}* e! i$ A1 J/ a Q
case AGV_STATE_AT_ELEV_CP: {* y7 G; j1 \* G4 B) O9 z
// once the agv is at the elevator cp, close the door! o& n7 J9 a: b# s
nodefunction(c, agv, elev, ON_CLOSE_DOOR, ON_PICKUP_DOOR_CLOSED);. \9 O8 {$ y& ~4 H
break;
' B$ J# k) z8 y+ x8 r
}
~+ q" f6 Z4 g
case AGV_STATE_AT_EXIT_CP: {/ y# z7 s# ]* y' Q9 e7 L1 \
// the agv is at the exit cp5 H6 H, g, U) x5 ~! k
// destroy the listener node because I'm finished listening$ r$ u7 ^* ~1 h# ^ i( P
treenode listenerNode = param(4);
3 [+ x) [0 k7 q
destroyobject(listenerNode);
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int agvWait = /** \nWait On Door Close: *//***tag:WaitFinalDoorClose*//**/0/**/;
3 j6 g/ k# V$ s2 [
if (!agvWait) {
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// if the agv is supposed to continue on, then tell him to go to his final destination
; X3 W# z2 D' e$ ?9 ?
treenode destCP = gettaskinvolved(gettasksequence(elev, 0), 1, 2);
8 F9 N& @5 ?$ q/ N. e- e, e% n
agvredirect(agv, destCP, REDIRECT_AS_FINAL);
3 U/ Y* {- I4 K! F; q4 q
}# r4 G8 _5 r( O7 `
// close the door
! r: {! `" `/ a2 A7 ?( m
nodefunction(c, agv, elev, ON_CLOSE_DOOR, ON_DROPOFF_DOOR_CLOSED, agvWait);
) V7 z+ x! c4 {& d/ }
// and I'm finished with the state label so I can destroy it.& q5 v/ R; H& b* L- R7 ~
destroyobject(stateLabel);! [/ F6 d) {* p; T# Q
break;; v- d- t1 W q3 b; M9 h% }% w4 ~
}- b7 m9 m3 m/ {9 Y& e
}) [7 P+ V" z6 G1 k. j% T
return 0;& ~9 U6 ?, C: B M1 x' H7 y
} {1 [- S* P# x4 A7 j
case ON_ELEVATOR_PICKUP_ARRIVAL: {
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// the elevator has arrived at the pick floor
* G5 X, v- O0 T/ l+ o+ V/ n, M
treenode elev = param(1);
* N4 {4 t! Y# A
treenode agv = gettaskinvolved(gettasksequence(elev, 0), 1, 1);. x, I9 v; C6 _) G( S% d5 P. }
treenode stateLabel = label(agv, AGV_LABEL_NAME);3 Y! Q$ U' Y+ d
treenode elevState = node("ElevState", stateLabel);
( }: X* r0 T" Z0 H$ u- X4 p( H# T
// set the elevator state to at-pickup-floor/ x1 K4 E# \9 q- H
set(elevState, ELEV_STATE_AT_PICKUP_FLOOR);" w: N4 g2 W( f& i
4 y$ Z9 T0 ^# \* X
int openDoorImmediately = /** \nOpen Elevator Door Immediately: *//***tag:OpenDoorImmediate*//**/0/**/;, ]5 x2 T1 M0 \0 P
' |" \! p5 I- `% L+ N
// if the agv is at the entry control point or I open the door immediately, then open it
8 v! e* P+ _. R ?
if (get(stateLabel) == AGV_STATE_AT_ENTRY_CP || openDoorImmediately) {7 Y- y" c* x j) X% t/ k1 e# v7 x$ t
set(elevState, ELEV_STATE_OPENING_DOOR);9 t0 \2 P1 x; t3 _: \7 B7 z# B, e
nodefunction(c, agv, elev, ON_OPEN_DOOR, ON_PICKUP_DOOR_OPENED);
$ F2 S4 X) `. y" E
}
7 Q" D5 Z! c/ ]# g8 ]
return 0;, y2 _0 I7 I6 A& m1 S9 x0 v
}+ ~* V: }8 K- k; D8 T% t" C' d7 l
case ON_OPEN_DOOR: {! Z4 H- J' {* M7 V# z1 P
treenode agv = param(1);4 Y/ R* n- |+ x
treenode elev = param(2);
) t6 z! p4 T6 o/ @9 G
int nextStep = param(4);$ t6 X/ L/ q7 l+ O6 u8 J, }
// open the door based on the time to open the door- s0 C/ T8 v' }6 o8 u/ ^; l& o
double openDoorTime = /** \nDoor Open Delay:*//***tag:DoorOpenTime*//**/5/**/;2 @5 Q. f/ B$ O1 {
delayednodefunction(c, openDoorTime, elev, agv, nextStep);
. `' h& }( m+ r7 s9 |/ m! i& g
return 0;' x( Y: H. v+ Q% T; ` [
}$ e s# N! U( T/ n7 D
case ON_CLOSE_DOOR: {
* d3 Y4 r B: |9 f8 ~$ Z. u
treenode agv = param(1);' `: F/ {$ K, v( h, w# g8 j; o [4 w
treenode elev = param(2);: v) C$ F6 k0 W4 \+ D' w. o0 |
int nextStep = param(4);
! ^5 M( f2 N" Y s- G2 { Y
// close the door base on the time to close the door
, }4 L; w; ?. W1 W( S& ^; L
double delayTime = /** \nDoor Close Delay:*//***tag:DoorCloseTime*//**/5/**/;
/ Y/ Z& M( y2 q! C
delayednodefunction(c, delayTime, elev, agv, nextStep, param(5));- l0 [5 V; r4 G# ]7 G. w/ J
return 0;
# b! k0 d: C! C
}( T+ _+ F" _3 _9 @, r. x
case ON_PICKUP_DOOR_OPENED: {
# B& A9 j* ?7 W D4 F5 I
// the elevator door has been opened on the pickup floor
/ p9 d0 z- b/ E6 E |1 m7 M/ r
treenode elev = param(1);
8 j5 v8 @, ^+ P+ x% m) t
treenode agv = gettaskinvolved(gettasksequence(elev, 0), 1, 1);
& a5 } S' U- U1 ]: Y
treenode entryCP = cp(agv);
9 f: N/ c2 \. R( M, p. C
treenode stateLabel = label(agv, AGV_LABEL_NAME);
; J, i V+ c7 Y+ L! ?$ U/ F
treenode elevatorCP = tonode(get(node("ElevCP", stateLabel)));4 z+ n3 u3 |2 z
treenode elevState = node("ElevState", stateLabel);
; o. q; n) ^0 Q& M: ]2 c# t4 I9 p+ [! {
// set the elevator state6 H+ q+ N* U3 M9 I& [3 b" K( ^- y
set(elevState, ELEV_STATE_DOOR_OPENED);
4 u8 V5 u8 K' o4 l0 e0 Y$ `* @. z
// if the agv is at the entry control point, move him to the elevator control point- G# A' n" i. L5 h/ L
if (get(stateLabel) == AGV_STATE_AT_ENTRY_CP)6 B& r% D D& S9 k1 T; m
agvredirect(agv, elevatorCP, REDIRECT_AND_WAIT);0 j2 Q4 a$ u5 E E5 Z5 X, A
return 0;
! U4 t% T" h- S: t! ?/ j3 s3 I
}
5 S |6 I% Q# \& q3 G) |
case ON_PICKUP_DOOR_CLOSED: {
5 X; B# M. U2 n0 X6 j5 g
treenode elev = param(1);
7 C3 H& C& P9 Q" K" Q. K, b9 Y
treenode agv = gettaskinvolved(gettasksequence(elev, 0), 1, 1);3 N1 s7 O" y& t( I, @
// assign the agv to "no control point"7 {) t3 z6 y: N8 z9 W- W# q
agvreassigncp(agv, 0);* k% y( A2 V- N0 a7 |
// move the agv into the elevator- j6 y# {2 U1 c- x0 R: j" f
moveobject(agv, elev);/ e6 M" ]1 Y4 j/ C
setrot(agv, 0, 0, 0);
- c i) g( ]1 d5 H
// release the elevator to continue to the destination floor
4 V& D0 h0 {6 m$ a1 a" v1 q
freeoperators(elev, agv);
; F+ z+ Y& Y! }, }4 p
return 0;5 M3 f3 S& ]1 |+ ^' p M, y
}
# E% u- ]4 H" `7 l' L0 S% O
case ON_ELEVATOR_DROPOFF_ARRIVAL: {, r/ G# G% `$ X0 E$ S7 t- m4 r
treenode elev = param(1);
3 m: d6 y, r' a& B. o+ T
treenode agv = gettaskinvolved(gettasksequence(elev, 0), 1, 1);
6 b! u# t3 c# Q* p( I' E& g
// when the elevator arrives at the destination floor4 b) b; j1 \. P' h3 ^' w
// move the agv back into the model
/ }1 u+ f: e/ u+ c+ H2 m( s
moveobject(agv, model());
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// reassign it to the destination floor control point. x0 L' a: f0 ]" ?/ \% a) H
agvreassigncp(agv, tonode(get(node("DestElevCP", label(agv, AGV_LABEL_NAME)))));
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// open the elevator door
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nodefunction(c, agv, elev, ON_OPEN_DOOR, ON_DROPOFF_DOOR_OPENED);
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return 0;
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}
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case ON_DROPOFF_DOOR_OPENED: {6 q0 T. ^( Y* h# r4 Y: t
treenode elev = param(1);
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treenode agv = param(2);" @& n0 M3 F5 c/ I1 G6 v
treenode agvLabel = label(agv, AGV_LABEL_NAME);" U, y4 z9 t$ B" a4 j
// once the elevator door is opened on the destination floor, - U" Y1 Y* m/ p/ b1 Y9 O# O
// redirect the agv to the exit control point
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agvredirect(agv, tonode(get(node("ExitCP", agvLabel))), REDIRECT_AND_WAIT);; B6 ]' B4 @# |, `5 q1 D+ ]% @( \9 v
return 0;, Q: l+ F( a. M: j, y" }- e, D
}
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case ON_DROPOFF_DOOR_CLOSED: {& W# K4 n3 K; V A& g) Q
treenode elev = param(1);3 B% i5 b, [% M$ o8 U7 F) n% P: @
treenode agv = param(2);$ { v( M- p+ A, T3 z" g
int isAGVWaiting = param(4);
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// once the door is closed at the destination floor,
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// if the agv is waiting, then send him to the final destination. v, R$ u/ h2 {" e# g
if (isAGVWaiting)' l/ B2 m& r9 U
agvredirect(agv, gettaskinvolved(gettasksequence(elev, 0), 1, 2), REDIRECT_AS_FINAL);( I3 n8 B t4 T8 o3 }2 o- N6 L
// release the elevator to finish his task sequence( ~7 d; H: \; Z- _4 k* `
freeoperators(elev, agv);
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return 0;
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}* ^# C- ]; {0 T& C9 [ }9 u
} //******* PickOption End *******\\; `5 b7 R9 g1 s( s! i/ t
# m0 ~8 P+ K' w

复制代码

办法2：使用工艺流程模块完成

Pureua · 发表于 2018-11-5 09:25:46

慧娴亚伦发表于 2018-11-4 19:12
/ D5 l+ A7 `7 H4 k) m: f办法1：从2016版本里面复制相应的代码
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$ u' R; F3 I1 s! k0 Y: o6 Z具体代码如下：

好的，非常感谢陈老师的解答~

2018.2.0版中AGV如何乘升降机？

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