2018-03-17 19:26:26 +00:00
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#pragma lib "libsat.a"
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typedef struct SATParam SATParam;
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typedef struct SATClause SATClause;
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typedef struct SATSolve SATSolve;
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typedef struct SATBlock SATBlock;
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typedef struct SATVar SATVar;
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typedef struct SATLit SATLit;
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typedef struct SATConflict SATConflict;
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2018-03-18 01:15:07 +00:00
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#pragma incomplete SATClause
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#pragma incomplete SATVar
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#pragma incomplete SATLit
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#pragma incomplete SATConflict
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2018-03-17 19:26:26 +00:00
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/* user adjustable parameters */
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struct SATParam {
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void (*errfun)(char *, void *);
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void *erraux;
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long (*randfn)(void *);
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void *randaux;
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uint goofprob; /* probability of making a random decision, times 2**31 */
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double varρ; /* Δactivity is multiplied by this after a conflict */
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double clauseρ; /* Δclactivity is multiplied by this after a conflict */
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int trivlim; /* number of extra literals we're willing to tolerate before substituting the trivial clause */
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int purgeΔ; /* initial purge interval (number of conflicts before a purge) */
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int purgeδ; /* increase in purge interval at purge */
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double purgeα; /* α weight factor for purge heuristic */
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u32int flushψ; /* agility threshold for restarts */
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};
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/* each block contains multiple SATClauses consecutively in its data region. each clause is 8 byte aligned and the total size is SATBLOCKSZ (64K) */
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struct SATBlock {
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SATBlock *next, *prev;
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SATClause *last; /* last clause, ==nil for empty blocks */
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void *end; /* first byte past the last clause */
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uchar data[1];
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};
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struct SATSolve {
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SATParam;
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uchar unsat; /* ==1 if unsatisfiable. don't even try to solve. */
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uchar scratched; /* <0 if error happened, state undefined */
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SATBlock bl[2]; /* two doubly linked list heads: list bl[0] contains user clauses, list bl[1] contains learned clauses */
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SATBlock *lastbl; /* the last block we added a learned clause to */
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SATClause *cl; /* all clauses are linked together; this is the first user clause */
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SATClause *learncl; /* first learned clause */
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SATClause **lastp[2]; /* this points towards the last link in each linked list */
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int ncl; /* total number of clauses */
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int ncl0; /* number of user clauses */
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SATVar *var; /* all variables (array with nvar elements) */
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SATLit *lit; /* all literals (array with 2*nvar elements) */
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int nvar;
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int nvaralloc; /* space allocated for variables */
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int *trail; /* the trail contains all literals currently assumed true */
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int ntrail;
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int *decbd; /* decision boundaries. trail[decbd[i]] has the first literal of level i */
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int lvl; /* current decision level */
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SATVar **heap; /* binary heap with free variables, sorted by activity (nonfree variables are removed lazily and so may also be in it) */
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int nheap;
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uint *lvlstamp; /* used to "stamp" levels during conflict resolution and purging */
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uint stamp; /* current "stamp" counter */
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int forptr; /* trail[forptr] is the first literal we haven't explored the implications of yet */
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int binptr; /* ditto for binary implications */
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int *cflcl; /* during conflict resolution we build the learned clause in here */
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int ncflcl;
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int cflclalloc; /* space allocated for cflcl */
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int cfllvl; /* the maximum level of the literals in cflcl, cflcl[0] excluded */
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int cflctr; /* number of unresolved literals during conflict resolution */
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double Δactivity; /* activity increment for variables */
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double Δclactivity; /* activity increment for clauses */
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uvlong conflicts; /* total number of conflicts so far */
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uvlong nextpurge; /* purge happens when conflicts >= nextpurge */
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uint purgeival; /* increment for nextpurge */
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/* during a purge we do a "full run", assigning all variables and recording conflicts rather than resolving them */
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SATConflict *fullrcfl; /* conflicts found thus */
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int nfullrcfl;
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int fullrlvl; /* minimum cfllvl for conflicts found during purging */
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int *fullrlits; /* literals implied by conflicts at level fullrlvl */
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int nfullrlits;
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int rangecnt[256]; /* number of clauses with certain range values */
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u64int nextflush; /* flush happens when conflicts >= nextflush */
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u32int flushu, flushv, flushθ; /* variables for flush scheduling algorithm */
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u32int agility; /* agility is a measure how quickly variables are being flipped. high agility inhibits flushes */
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void *scrap; /* auxiliary memory that may need to be freed after a fatal error */
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};
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SATSolve *satnew(void);
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SATSolve *satadd1(SATSolve *, int *, int);
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SATSolve *sataddv(SATSolve *, ...);
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SATSolve *satrange1(SATSolve *, int *, int, int, int);
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SATSolve *satrangev(SATSolve *, int, int, ...);
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int satsolve(SATSolve *);
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int satmore(SATSolve *);
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int satval(SATSolve *, int);
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void satfree(SATSolve *);
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void satreset(SATSolve *);
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2018-03-28 20:36:04 +00:00
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int satget(SATSolve *, int, int *, int);
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2018-04-24 11:20:07 +00:00
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void satvafix(va_list);
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