source: vis_dev/glu-2.3/src/cuBdd/cuddAnneal.c @ 100

Last change on this file since 100 was 13, checked in by cecile, 13 years ago

library glu 2.3

File size: 21.9 KB
Line 
1/**CFile***********************************************************************
2
3  FileName    [cuddAnneal.c]
4
5  PackageName [cudd]
6
7  Synopsis    [Reordering of DDs based on simulated annealing]
8
9  Description [Internal procedures included in this file:
10                <ul>
11                <li> cuddAnnealing()
12                </ul>
13               Static procedures included in this file:
14                <ul>
15                <li> stopping_criterion()
16                <li> random_generator()
17                <li> ddExchange()
18                <li> ddJumpingAux()
19                <li> ddJumpingUp()
20                <li> ddJumpingDown()
21                <li> siftBackwardProb()
22                <li> copyOrder()
23                <li> restoreOrder()
24                </ul>
25                ]
26
27  SeeAlso     []
28
29  Author      [Jae-Young Jang, Jorgen Sivesind]
30
31  Copyright   [Copyright (c) 1995-2004, Regents of the University of Colorado
32
33  All rights reserved.
34
35  Redistribution and use in source and binary forms, with or without
36  modification, are permitted provided that the following conditions
37  are met:
38
39  Redistributions of source code must retain the above copyright
40  notice, this list of conditions and the following disclaimer.
41
42  Redistributions in binary form must reproduce the above copyright
43  notice, this list of conditions and the following disclaimer in the
44  documentation and/or other materials provided with the distribution.
45
46  Neither the name of the University of Colorado nor the names of its
47  contributors may be used to endorse or promote products derived from
48  this software without specific prior written permission.
49
50  THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
51  "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
52  LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
53  FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE
54  COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT,
55  INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
56  BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
57  LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
58  CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
59  LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
60  ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
61  POSSIBILITY OF SUCH DAMAGE.]
62
63******************************************************************************/
64
65#include "util.h"
66#include "cuddInt.h"
67
68/*---------------------------------------------------------------------------*/
69/* Constant declarations                                                     */
70/*---------------------------------------------------------------------------*/
71
72/* Annealing parameters */
73#define BETA 0.6
74#define ALPHA 0.90
75#define EXC_PROB 0.4
76#define JUMP_UP_PROB 0.36
77#define MAXGEN_RATIO 15.0
78#define STOP_TEMP 1.0
79
80/*---------------------------------------------------------------------------*/
81/* Stucture declarations                                                     */
82/*---------------------------------------------------------------------------*/
83
84
85/*---------------------------------------------------------------------------*/
86/* Type declarations                                                         */
87/*---------------------------------------------------------------------------*/
88
89
90/*---------------------------------------------------------------------------*/
91/* Variable declarations                                                     */
92/*---------------------------------------------------------------------------*/
93
94#ifndef lint
95static char rcsid[] DD_UNUSED = "$Id: cuddAnneal.c,v 1.14 2004/08/13 18:04:46 fabio Exp $";
96#endif
97
98#ifdef DD_STATS
99extern  int     ddTotalNumberSwapping;
100extern  int     ddTotalNISwaps;
101static  int     tosses;
102static  int     acceptances;
103#endif
104
105/*---------------------------------------------------------------------------*/
106/* Macro declarations                                                        */
107/*---------------------------------------------------------------------------*/
108
109
110/**AutomaticStart*************************************************************/
111
112/*---------------------------------------------------------------------------*/
113/* Static function prototypes                                                */
114/*---------------------------------------------------------------------------*/
115
116static int stopping_criterion (int c1, int c2, int c3, int c4, double temp);
117static double random_generator (void);
118static int ddExchange (DdManager *table, int x, int y, double temp);
119static int ddJumpingAux (DdManager *table, int x, int x_low, int x_high, double temp);
120static Move * ddJumpingUp (DdManager *table, int x, int x_low, int initial_size);
121static Move * ddJumpingDown (DdManager *table, int x, int x_high, int initial_size);
122static int siftBackwardProb (DdManager *table, Move *moves, int size, double temp);
123static void copyOrder (DdManager *table, int *array, int lower, int upper);
124static int restoreOrder (DdManager *table, int *array, int lower, int upper);
125
126/**AutomaticEnd***************************************************************/
127
128
129/*---------------------------------------------------------------------------*/
130/* Definition of exported functions                                          */
131/*---------------------------------------------------------------------------*/
132
133/*---------------------------------------------------------------------------*/
134/* Definition of internal functions                                          */
135/*---------------------------------------------------------------------------*/
136
137
138/**Function********************************************************************
139
140  Synopsis    [Get new variable-order by simulated annealing algorithm.]
141
142  Description [Get x, y by random selection. Choose either
143  exchange or jump randomly. In case of jump, choose between jump_up
144  and jump_down randomly. Do exchange or jump and get optimal case.
145  Loop until there is no improvement or temperature reaches
146  minimum. Returns 1 in case of success; 0 otherwise.]
147
148  SideEffects [None]
149
150  SeeAlso     []
151
152******************************************************************************/
153int
154cuddAnnealing(
155  DdManager * table,
156  int  lower,
157  int  upper)
158{
159    int         nvars;
160    int         size;
161    int         x,y;
162    int         result;
163    int         c1, c2, c3, c4;
164    int         BestCost;
165    int         *BestOrder;
166    double      NewTemp, temp;
167    double      rand1;
168    int         innerloop, maxGen;
169    int         ecount, ucount, dcount;
170   
171    nvars = upper - lower + 1;
172
173    result = cuddSifting(table,lower,upper);
174#ifdef DD_STATS
175    (void) fprintf(table->out,"\n");
176#endif
177    if (result == 0) return(0);
178
179    size = table->keys - table->isolated;
180
181    /* Keep track of the best order. */
182    BestCost = size;
183    BestOrder = ALLOC(int,nvars);
184    if (BestOrder == NULL) {
185        table->errorCode = CUDD_MEMORY_OUT;
186        return(0);
187    }
188    copyOrder(table,BestOrder,lower,upper);
189
190    temp = BETA * size;
191    maxGen = (int) (MAXGEN_RATIO * nvars);
192
193    c1 = size + 10;
194    c2 = c1 + 10;
195    c3 = size;
196    c4 = c2 + 10;
197    ecount = ucount = dcount = 0;
198 
199    while (!stopping_criterion(c1, c2, c3, c4, temp)) {
200#ifdef DD_STATS
201        (void) fprintf(table->out,"temp=%f\tsize=%d\tgen=%d\t",
202                       temp,size,maxGen);
203        tosses = acceptances = 0;
204#endif
205        for (innerloop = 0; innerloop < maxGen; innerloop++) {
206            /* Choose x, y  randomly. */
207            x = (int) Cudd_Random() % nvars;
208            do {
209                y = (int) Cudd_Random() % nvars;
210            } while (x == y);
211            x += lower;
212            y += lower;
213            if (x > y) {
214                int tmp = x;
215                x = y;
216                y = tmp;
217            }
218
219            /* Choose move with roulette wheel. */
220            rand1 = random_generator();
221            if (rand1 < EXC_PROB) {
222                result = ddExchange(table,x,y,temp);       /* exchange */
223                ecount++;
224#if 0
225                (void) fprintf(table->out,
226                               "Exchange of %d and %d: size = %d\n",
227                               x,y,table->keys - table->isolated);
228#endif
229            } else if (rand1 < EXC_PROB + JUMP_UP_PROB) {
230                result = ddJumpingAux(table,y,x,y,temp); /* jumping_up */
231                ucount++;
232#if 0
233                (void) fprintf(table->out,
234                               "Jump up of %d to %d: size = %d\n",
235                               y,x,table->keys - table->isolated);
236#endif
237            } else {
238                result = ddJumpingAux(table,x,x,y,temp); /* jumping_down */
239                dcount++;
240#if 0
241                (void) fprintf(table->out,
242                               "Jump down of %d to %d: size = %d\n",
243                               x,y,table->keys - table->isolated);
244#endif
245            }
246
247            if (!result) {
248                FREE(BestOrder);
249                return(0);
250            }
251
252            size = table->keys - table->isolated;       /* keep current size */
253            if (size < BestCost) {                      /* update best order */
254                BestCost = size;
255                copyOrder(table,BestOrder,lower,upper);
256            }
257        }
258        c1 = c2;
259        c2 = c3;
260        c3 = c4;
261        c4 = size;
262        NewTemp = ALPHA * temp;
263        if (NewTemp >= 1.0) {
264            maxGen = (int)(log(NewTemp) / log(temp) * maxGen);
265        }
266        temp = NewTemp;                 /* control variable */
267#ifdef DD_STATS
268        (void) fprintf(table->out,"uphill = %d\taccepted = %d\n",
269                       tosses,acceptances);
270        fflush(table->out);
271#endif
272    }
273
274    result = restoreOrder(table,BestOrder,lower,upper);
275    FREE(BestOrder);
276    if (!result) return(0);
277#ifdef DD_STATS
278    fprintf(table->out,"#:N_EXCHANGE %8d : total exchanges\n",ecount);
279    fprintf(table->out,"#:N_JUMPUP   %8d : total jumps up\n",ucount);
280    fprintf(table->out,"#:N_JUMPDOWN %8d : total jumps down",dcount);
281#endif
282    return(1);
283
284} /* end of cuddAnnealing */
285
286
287/*---------------------------------------------------------------------------*/
288/* Definition of static functions                                            */
289/*---------------------------------------------------------------------------*/
290
291/**Function********************************************************************
292
293  Synopsis    [Checks termination condition.]
294
295  Description [If temperature is STOP_TEMP or there is no improvement
296  then terminates. Returns 1 if the termination criterion is met; 0
297  otherwise.]
298
299  SideEffects [None]
300
301  SeeAlso     []
302
303******************************************************************************/
304static int
305stopping_criterion(
306  int  c1,
307  int  c2,
308  int  c3,
309  int  c4,
310  double  temp)
311{
312    if (STOP_TEMP < temp) {
313        return(0);
314    } else if ((c1 == c2) && (c1 == c3) && (c1 == c4)) {
315        return(1);
316    } else {
317        return(0);
318    }
319
320} /* end of stopping_criterion */
321
322
323/**Function********************************************************************
324
325  Synopsis    [Random number generator.]
326
327  Description [Returns a double precision value between 0.0 and 1.0.]
328
329  SideEffects [None]
330
331  SeeAlso     []
332
333******************************************************************************/
334static double
335random_generator(void)
336{
337    return((double)(Cudd_Random() / 2147483561.0));
338
339} /* end of random_generator */
340
341
342/**Function********************************************************************
343
344  Synopsis    [This function is for exchanging two variables, x and y.]
345
346  Description [This is the same funcion as ddSwapping except for
347  comparison expression.  Use probability function, exp(-size_change/temp).]
348
349  SideEffects [None]
350
351  SeeAlso     []
352
353******************************************************************************/
354static int
355ddExchange(
356  DdManager * table,
357  int  x,
358  int  y,
359  double  temp)
360{
361    Move       *move,*moves;
362    int        tmp;
363    int        x_ref,y_ref;
364    int        x_next,y_next;
365    int        size, result;
366    int        initial_size, limit_size;
367
368    x_ref = x;
369    y_ref = y;
370
371    x_next = cuddNextHigh(table,x);
372    y_next = cuddNextLow(table,y);
373    moves = NULL;
374    initial_size = limit_size = table->keys - table->isolated;
375
376    for (;;) {
377        if (x_next == y_next) {
378            size = cuddSwapInPlace(table,x,x_next);
379            if (size == 0) goto ddExchangeOutOfMem;
380            move = (Move *)cuddDynamicAllocNode(table);
381            if (move == NULL) goto ddExchangeOutOfMem;
382            move->x = x;
383            move->y = x_next;
384            move->size = size;
385            move->next = moves;
386            moves = move;
387            size = cuddSwapInPlace(table,y_next,y);
388            if (size == 0) goto ddExchangeOutOfMem;
389            move = (Move *)cuddDynamicAllocNode(table);
390            if (move == NULL) goto ddExchangeOutOfMem;
391            move->x = y_next;
392            move->y = y;
393            move->size = size;
394            move->next = moves;
395            moves = move;
396            size = cuddSwapInPlace(table,x,x_next);
397            if (size == 0) goto ddExchangeOutOfMem;
398            move = (Move *)cuddDynamicAllocNode(table);
399            if (move == NULL) goto ddExchangeOutOfMem;
400            move->x = x;
401            move->y = x_next;
402            move->size = size;
403            move->next = moves;
404            moves = move;
405
406            tmp = x;
407            x = y;
408            y = tmp;
409        } else if (x == y_next) {
410            size = cuddSwapInPlace(table,x,x_next);
411            if (size == 0) goto ddExchangeOutOfMem;
412            move = (Move *)cuddDynamicAllocNode(table);
413            if (move == NULL) goto ddExchangeOutOfMem;
414            move->x = x;
415            move->y = x_next;
416            move->size = size;
417            move->next = moves;
418            moves = move;
419            tmp = x;
420            x = y;
421            y = tmp;
422        } else {
423            size = cuddSwapInPlace(table,x,x_next);
424            if (size == 0) goto ddExchangeOutOfMem;
425            move = (Move *)cuddDynamicAllocNode(table);
426            if (move == NULL) goto ddExchangeOutOfMem;
427            move->x = x;
428            move->y = x_next;
429            move->size = size;
430            move->next = moves;
431            moves = move;
432            size = cuddSwapInPlace(table,y_next,y);
433            if (size == 0) goto ddExchangeOutOfMem;
434            move = (Move *)cuddDynamicAllocNode(table);
435            if (move == NULL) goto ddExchangeOutOfMem;
436            move->x = y_next;
437            move->y = y;
438            move->size = size;
439            move->next = moves;
440            moves = move;
441            x = x_next;
442            y = y_next;
443        }
444
445        x_next = cuddNextHigh(table,x);
446        y_next = cuddNextLow(table,y);
447        if (x_next > y_ref) break;
448
449        if ((double) size > DD_MAX_REORDER_GROWTH * (double) limit_size) {
450            break;
451        } else if (size < limit_size) {
452            limit_size = size;
453        }
454    }
455
456    if (y_next>=x_ref) {
457        size = cuddSwapInPlace(table,y_next,y);
458        if (size == 0) goto ddExchangeOutOfMem;
459        move = (Move *)cuddDynamicAllocNode(table);
460        if (move == NULL) goto ddExchangeOutOfMem;
461        move->x = y_next;
462        move->y = y;
463        move->size = size;
464        move->next = moves;
465        moves = move;
466    }
467
468    /* move backward and stop at best position or accept uphill move */
469    result = siftBackwardProb(table,moves,initial_size,temp);
470    if (!result) goto ddExchangeOutOfMem;
471
472    while (moves != NULL) {
473        move = moves->next;
474        cuddDeallocMove(table, moves);
475        moves = move;
476    }
477    return(1);
478
479ddExchangeOutOfMem:
480    while (moves != NULL) {
481        move = moves->next;
482        cuddDeallocMove(table, moves);
483        moves = move;
484    }
485    return(0);
486
487} /* end of ddExchange */
488
489
490/**Function********************************************************************
491
492  Synopsis    [Moves a variable to a specified position.]
493
494  Description [If x==x_low, it executes jumping_down. If x==x_high, it
495  executes jumping_up. This funcion is similar to ddSiftingAux. Returns
496  1 in case of success; 0 otherwise.]
497
498  SideEffects [None]
499
500  SeeAlso     []
501
502******************************************************************************/
503static int
504ddJumpingAux(
505  DdManager * table,
506  int  x,
507  int  x_low,
508  int  x_high,
509  double  temp)
510{
511    Move       *move;
512    Move       *moves;        /* list of moves */
513    int        initial_size;
514    int        result;
515
516    initial_size = table->keys - table->isolated;
517
518#ifdef DD_DEBUG
519    assert(table->subtables[x].keys > 0);
520#endif
521
522    moves = NULL;
523
524    if (cuddNextLow(table,x) < x_low) {
525        if (cuddNextHigh(table,x) > x_high) return(1);
526        moves = ddJumpingDown(table,x,x_high,initial_size);
527        /* after that point x --> x_high unless early termination */
528        if (moves == NULL) goto ddJumpingAuxOutOfMem;
529        /* move backward and stop at best position or accept uphill move */
530        result = siftBackwardProb(table,moves,initial_size,temp);
531        if (!result) goto ddJumpingAuxOutOfMem;
532    } else if (cuddNextHigh(table,x) > x_high) {
533        moves = ddJumpingUp(table,x,x_low,initial_size);
534        /* after that point x --> x_low unless early termination */
535        if (moves == NULL) goto ddJumpingAuxOutOfMem;
536        /* move backward and stop at best position or accept uphill move */
537        result = siftBackwardProb(table,moves,initial_size,temp);
538        if (!result) goto ddJumpingAuxOutOfMem;
539    } else {
540        (void) fprintf(table->err,"Unexpected condition in ddJumping\n");
541        goto ddJumpingAuxOutOfMem;
542    }
543    while (moves != NULL) {
544        move = moves->next;
545        cuddDeallocMove(table, moves);
546        moves = move;
547    }
548    return(1);
549
550ddJumpingAuxOutOfMem:
551    while (moves != NULL) {
552        move = moves->next;
553        cuddDeallocMove(table, moves);
554        moves = move;
555    }
556    return(0);
557
558} /* end of ddJumpingAux */
559
560
561/**Function********************************************************************
562
563  Synopsis    [This function is for jumping up.]
564
565  Description [This is a simplified version of ddSiftingUp. It does not
566  use lower bounding. Returns the set of moves in case of success; NULL
567  if memory is full.]
568
569  SideEffects [None]
570
571  SeeAlso     []
572
573******************************************************************************/
574static Move *
575ddJumpingUp(
576  DdManager * table,
577  int  x,
578  int  x_low,
579  int  initial_size)
580{
581    Move       *moves;
582    Move       *move;
583    int        y;
584    int        size;
585    int        limit_size = initial_size;
586
587    moves = NULL;
588    y = cuddNextLow(table,x);
589    while (y >= x_low) {
590        size = cuddSwapInPlace(table,y,x);
591        if (size == 0) goto ddJumpingUpOutOfMem;
592        move = (Move *)cuddDynamicAllocNode(table);
593        if (move == NULL) goto ddJumpingUpOutOfMem;
594        move->x = y;
595        move->y = x;
596        move->size = size;
597        move->next = moves;
598        moves = move;
599        if ((double) size > table->maxGrowth * (double) limit_size) {
600            break;
601        } else if (size < limit_size) {
602            limit_size = size;
603        }
604        x = y;
605        y = cuddNextLow(table,x);
606    }
607    return(moves);
608
609ddJumpingUpOutOfMem:
610    while (moves != NULL) {
611        move = moves->next;
612        cuddDeallocMove(table, moves);
613        moves = move;
614    }
615    return(NULL);
616
617} /* end of ddJumpingUp */
618
619
620/**Function********************************************************************
621
622  Synopsis    [This function is for jumping down.]
623
624  Description [This is a simplified version of ddSiftingDown. It does not
625  use lower bounding. Returns the set of moves in case of success; NULL
626  if memory is full.]
627
628  SideEffects [None]
629
630  SeeAlso     []
631
632******************************************************************************/
633static Move *
634ddJumpingDown(
635  DdManager * table,
636  int  x,
637  int  x_high,
638  int  initial_size)
639{
640    Move       *moves;
641    Move       *move;
642    int        y;
643    int        size;
644    int        limit_size = initial_size;
645
646    moves = NULL;
647    y = cuddNextHigh(table,x);
648    while (y <= x_high) {
649        size = cuddSwapInPlace(table,x,y);
650        if (size == 0) goto ddJumpingDownOutOfMem;
651        move = (Move *)cuddDynamicAllocNode(table);
652        if (move == NULL) goto ddJumpingDownOutOfMem;
653        move->x = x;
654        move->y = y;
655        move->size = size;
656        move->next = moves;
657        moves = move;
658        if ((double) size > table->maxGrowth * (double) limit_size) {
659            break;
660        } else if (size < limit_size) {
661            limit_size = size;
662        }
663        x = y;
664        y = cuddNextHigh(table,x);
665    }
666    return(moves);
667
668ddJumpingDownOutOfMem:
669    while (moves != NULL) {
670        move = moves->next;
671        cuddDeallocMove(table, moves);
672        moves = move;
673    }
674    return(NULL);
675
676} /* end of ddJumpingDown */
677
678
679/**Function********************************************************************
680
681  Synopsis [Returns the DD to the best position encountered during
682  sifting if there was improvement.]
683
684  Description [Otherwise, "tosses a coin" to decide whether to keep
685  the current configuration or return the DD to the original
686  one. Returns 1 in case of success; 0 otherwise.]
687
688  SideEffects [None]
689
690  SeeAlso     []
691
692******************************************************************************/
693static int
694siftBackwardProb(
695  DdManager * table,
696  Move * moves,
697  int  size,
698  double  temp)
699{
700    Move   *move;
701    int    res;
702    int    best_size = size;
703    double coin, threshold;
704
705    /* Look for best size during the last sifting */
706    for (move = moves; move != NULL; move = move->next) {
707        if (move->size < best_size) {
708            best_size = move->size;
709        }
710    }
711   
712    /* If best_size equals size, the last sifting did not produce any
713    ** improvement. We now toss a coin to decide whether to retain
714    ** this change or not.
715    */
716    if (best_size == size) {
717        coin = random_generator();
718#ifdef DD_STATS
719        tosses++;
720#endif
721        threshold = exp(-((double)(table->keys - table->isolated - size))/temp);
722        if (coin < threshold) {
723#ifdef DD_STATS
724            acceptances++;
725#endif
726            return(1);
727        }
728    }
729
730    /* Either there was improvement, or we have decided not to
731    ** accept the uphill move. Go to best position.
732    */
733    res = table->keys - table->isolated;
734    for (move = moves; move != NULL; move = move->next) {
735        if (res == best_size) return(1);
736        res = cuddSwapInPlace(table,(int)move->x,(int)move->y);
737        if (!res) return(0);
738    }
739
740    return(1);
741
742} /* end of sift_backward_prob */
743
744
745/**Function********************************************************************
746
747  Synopsis    [Copies the current variable order to array.]
748
749  Description [Copies the current variable order to array.
750  At the same time inverts the permutation.]
751
752  SideEffects [None]
753
754  SeeAlso     []
755
756******************************************************************************/
757static void
758copyOrder(
759  DdManager * table,
760  int * array,
761  int  lower,
762  int  upper)
763{
764    int i;
765    int nvars;
766
767    nvars = upper - lower + 1;
768    for (i = 0; i < nvars; i++) {
769        array[i] = table->invperm[i+lower];
770    }
771
772} /* end of copyOrder */
773
774
775/**Function********************************************************************
776
777  Synopsis    [Restores the variable order in array by a series of sifts up.]
778
779  Description [Restores the variable order in array by a series of sifts up.
780  Returns 1 in case of success; 0 otherwise.]
781
782  SideEffects [None]
783
784  SeeAlso     []
785
786******************************************************************************/
787static int
788restoreOrder(
789  DdManager * table,
790  int * array,
791  int  lower,
792  int  upper)
793{
794    int i, x, y, size;
795    int nvars = upper - lower + 1;
796
797    for (i = 0; i < nvars; i++) {
798        x = table->perm[array[i]];
799#ifdef DD_DEBUG
800    assert(x >= lower && x <= upper);
801#endif
802        y = cuddNextLow(table,x);
803        while (y >= i + lower) {
804            size = cuddSwapInPlace(table,y,x);
805            if (size == 0) return(0);
806            x = y;
807            y = cuddNextLow(table,x);
808        }
809    }
810
811    return(1);
812
813} /* end of restoreOrder */
814
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