madagascar/scc.c


/*  2012 (C) Jussi Rintanen, jrintanen.jr@gmail.com  */

#include <stdio.h>
#include <stdlib.h>
#include <assert.h>

#include "asyntax.h"
#include "ordintsets.h"
#include "operators.h"

#include "main.h"

#include "scc.h"

/**********************************************************************/
/*  Strong components of a graph                                      */
/**********************************************************************/

/* Compute strong components  of the disabling graph. The arcs are not
   constructed explicitly, as computing them is expensive and most arcs
   would never be followed.
   The starting node is node number 0. The set of all nodes is
   {0,...,nOfNodes-1}. */

#define noDEBUG

int *NNdfnumber;
int *NNstack;
unsigned char *NNinstack;
int *NNlowlink;

int NNptr,NNdf;
int NNsingletons;

int maxSCCsize;

int nodecounter;

#define min(a,b) (((a)<(b))?(a):(b))

#define likely(expr) (__builtin_expect((expr),1))
#define unlikely(expr) (__builtin_expect((expr),0))

inline int getnext(int *el,eff **efs,int **e,int **as1,int **as2) {

 getfromas:

  if(**as1 != -1) {
    *el = **as1;
    (*as1)++;
    return 1;
  }

  if(**as2 != -1) {
    *el = **as2;
    (*as2)++;
    return 1;
  }

 getfrompene:

  if(**e != -1) {
    if((**e)&1) {
      *as1 = ApreconoccP[feVAR(**e)];
    } else {
      *as1 = ApreconoccN[feVAR(**e)];
    }
    *as2 = Acondocc[feVAR(**e)];
    *e = *e + 1;
    goto getfromas;
  }

  if(*efs != NULL) {
    *e = (*efs)->effectlits;
    *efs = (*efs)->tl;
    goto getfrompene;
  }

  return 0;
}

sccs NNtraverse(int i,sccs ac) {
  int j,current;

  eff *efs;
  int *e;
  int *as1,*as2;
  int dummy;
  int el;

  nodecounter = nodecounter + 1;

  if((10*nodecounter / nOfActions) != (10*(nodecounter-1) / nOfActions)) {
    printf(" %i",(nodecounter * 10 / nOfActions)*10); fflush(stdout);
  }

  NNdfnumber[i] = ++NNdf;
  NNlowlink[i] = NNdf;

  NNstack[++NNptr] = i;
  NNinstack[i] = 1;

  current = NNptr;

  efs = &(actions[i].effects);

  dummy = -1;

  e = &dummy;

  as1 = &dummy;
  as2 = &dummy;

  /* Go through all neighbor CANDIDATES. */

  while(getnext(&el,&efs,&e,&as1,&as2)) {
    
    if(NNdfnumber[el] == -1 && parallel(i,el)) {
      ac = NNtraverse(el,ac);
      NNlowlink[i] = min(NNlowlink[i],NNlowlink[el]);
    } else {
      if(NNinstack[el] == 1 && NNlowlink[i] > NNdfnumber[el] && parallel(i,el)) {
	NNlowlink[i] = NNdfnumber[el];
      }
    }
  }

  if(NNlowlink[i] == NNdfnumber[i]) { /* Found an SCC */
    sccs oldac;
    oldac = ac;
    ac = (sccs)statmalloc(405,sizeof(struct _scc));
    ac->NofEls = NNptr-current+1;
    ac->next = oldac;
    ac->els = (int *)statmalloc(406,ac->NofEls * sizeof(int));

    if(ac->NofEls > maxSCCsize) maxSCCsize = ac->NofEls;

    if(NNptr == current) NNsingletons += 1;

    for(j=current;j<=NNptr;j++) ac->els[j-current] = NNstack[j];

    if(flagShowInput) {
      printf("new SCC %i:",ac->NofEls);
      for(j=current;j<=NNptr;j++) printactionname(NNstack[j]); // printf(" %i",NNstack[j]);
      printf("\n");
    } else {
      if(debugOutput > 0 && NNptr != current) printf(" %i",NNptr-current+1);
    }
    
    for(j=current;j<=NNptr;j++) NNinstack[NNstack[j]] = 0;
    NNptr = current-1;
  }
  return ac;
}
    
int scc(int nOfNodes) {
  int i;
  sccs ac;
  
  nodecounter = 0;

  NNdf = -1;
  NNptr = -1;

  if(debugOutput > 0) printf("Finding SCCs for %i nodes.\n",nOfNodes);

  NNdfnumber = (int *)statmalloc(407,nOfNodes * sizeof(int));
  NNstack = (int *)statmalloc(408,nOfNodes * sizeof(int));
  NNinstack = (unsigned char *)statmalloc(409,nOfNodes * sizeof(unsigned char));
  NNlowlink = (int *)statmalloc(410,nOfNodes * sizeof(int));

  NNsingletons = 0;

  maxSCCsize = 0;

  for(i=0;i<nOfNodes;i++) {
    NNdfnumber[i] = -1;
    NNinstack[i] = 0;
  }

  ac = NULL;

  printf("Disabling graph %c:",'%');

  for(i=0;i<nOfNodes;i++)
    if(NNdfnumber[i] == -1) {
      ac = NNtraverse(i,ac);
    }

  if(debugOutput > 0) printf(", %i singleton components\n",NNsingletons);

  SCCS = ac;

  free(NNdfnumber);
  free(NNstack);
  free(NNinstack);
  free(NNlowlink);

  return maxSCCsize;
}
Initial commit with Madagascar 2016-01-22 2018-01-25 16:50:51 +01:00
			`/* 2012 (C) Jussi Rintanen, jrintanen.jr@gmail.com */`

			`#include <stdio.h>`
			`#include <stdlib.h>`
			`#include <assert.h>`

			`#include "asyntax.h"`
			`#include "ordintsets.h"`
			`#include "operators.h"`

			`#include "main.h"`

			`#include "scc.h"`

			`/**********************************************************************/`
			`/* Strong components of a graph */`
			`/**********************************************************************/`

			`/* Compute strong components of the disabling graph. The arcs are not`
			`constructed explicitly, as computing them is expensive and most arcs`
			`would never be followed.`
			`The starting node is node number 0. The set of all nodes is`
			`{0,...,nOfNodes-1}. */`

			`#define noDEBUG`

			`int *NNdfnumber;`
			`int *NNstack;`
			`unsigned char *NNinstack;`
			`int *NNlowlink;`

			`int NNptr,NNdf;`
			`int NNsingletons;`

			`int maxSCCsize;`

			`int nodecounter;`

			`#define min(a,b) (((a)<(b))?(a):(b))`

			`#define likely(expr) (__builtin_expect((expr),1))`
			`#define unlikely(expr) (__builtin_expect((expr),0))`

			`inline int getnext(int el,eff efs,int e,int as1,int *as2) {`

			`getfromas:`

			`if(**as1 != -1) {`
			`el = *as1;`
			`(*as1)++;`
			`return 1;`
			`}`

			`if(**as2 != -1) {`
			`el = *as2;`
			`(*as2)++;`
			`return 1;`
			`}`

			`getfrompene:`

			`if(**e != -1) {`
			`if((**e)&1) {`
			`as1 = ApreconoccP[feVAR(*e)];`
			`} else {`
			`as1 = ApreconoccN[feVAR(*e)];`
			`}`
			`as2 = Acondocc[feVAR(*e)];`
			`e = e + 1;`
			`goto getfromas;`
			`}`

			`if(*efs != NULL) {`
			`e = (efs)->effectlits;`
			`efs = (efs)->tl;`
			`goto getfrompene;`
			`}`

			`return 0;`
			`}`

			`sccs NNtraverse(int i,sccs ac) {`
			`int j,current;`

			`eff *efs;`
			`int *e;`
			`int as1,as2;`
			`int dummy;`
			`int el;`

			`nodecounter = nodecounter + 1;`

			`if((10nodecounter / nOfActions) != (10(nodecounter-1) / nOfActions)) {`
			`printf(" %i",(nodecounter * 10 / nOfActions)*10); fflush(stdout);`
			`}`

			`NNdfnumber[i] = ++NNdf;`
			`NNlowlink[i] = NNdf;`

			`NNstack[++NNptr] = i;`
			`NNinstack[i] = 1;`

			`current = NNptr;`

			`efs = &(actions[i].effects);`

			`dummy = -1;`

			`e = &dummy;`

			`as1 = &dummy;`
			`as2 = &dummy;`

			`/* Go through all neighbor CANDIDATES. */`

			`while(getnext(&el,&efs,&e,&as1,&as2)) {`

			`if(NNdfnumber[el] == -1 && parallel(i,el)) {`
			`ac = NNtraverse(el,ac);`
			`NNlowlink[i] = min(NNlowlink[i],NNlowlink[el]);`
			`} else {`
			`if(NNinstack[el] == 1 && NNlowlink[i] > NNdfnumber[el] && parallel(i,el)) {`
			`NNlowlink[i] = NNdfnumber[el];`
			`}`
			`}`
			`}`

			`if(NNlowlink[i] == NNdfnumber[i]) { /* Found an SCC */`
			`sccs oldac;`
			`oldac = ac;`
			`ac = (sccs)statmalloc(405,sizeof(struct _scc));`
			`ac->NofEls = NNptr-current+1;`
			`ac->next = oldac;`
			`ac->els = (int )statmalloc(406,ac->NofEls sizeof(int));`

			`if(ac->NofEls > maxSCCsize) maxSCCsize = ac->NofEls;`

			`if(NNptr == current) NNsingletons += 1;`

			`for(j=current;j<=NNptr;j++) ac->els[j-current] = NNstack[j];`

			`if(flagShowInput) {`
			`printf("new SCC %i:",ac->NofEls);`
			`for(j=current;j<=NNptr;j++) printactionname(NNstack[j]); // printf(" %i",NNstack[j]);`
			`printf("\n");`
			`} else {`
			`if(debugOutput > 0 && NNptr != current) printf(" %i",NNptr-current+1);`
			`}`

			`for(j=current;j<=NNptr;j++) NNinstack[NNstack[j]] = 0;`
			`NNptr = current-1;`
			`}`
			`return ac;`
			`}`

			`int scc(int nOfNodes) {`
			`int i;`
			`sccs ac;`

			`nodecounter = 0;`

			`NNdf = -1;`
			`NNptr = -1;`

			`if(debugOutput > 0) printf("Finding SCCs for %i nodes.\n",nOfNodes);`

			`NNdfnumber = (int )statmalloc(407,nOfNodes sizeof(int));`
			`NNstack = (int )statmalloc(408,nOfNodes sizeof(int));`
			`NNinstack = (unsigned char )statmalloc(409,nOfNodes sizeof(unsigned char));`
			`NNlowlink = (int )statmalloc(410,nOfNodes sizeof(int));`

			`NNsingletons = 0;`

			`maxSCCsize = 0;`

			`for(i=0;i<nOfNodes;i++) {`
			`NNdfnumber[i] = -1;`
			`NNinstack[i] = 0;`
			`}`

			`ac = NULL;`

			`printf("Disabling graph %c:",'%');`

			`for(i=0;i<nOfNodes;i++)`
			`if(NNdfnumber[i] == -1) {`
			`ac = NNtraverse(i,ac);`
			`}`

			`if(debugOutput > 0) printf(", %i singleton components\n",NNsingletons);`

			`SCCS = ac;`

			`free(NNdfnumber);`
			`free(NNstack);`
			`free(NNinstack);`
			`free(NNlowlink);`

			`return maxSCCsize;`
			`}`