diff --git a/Makefile.am b/Makefile.am index 4eb5be399..d76361ccd 100644 --- a/Makefile.am +++ b/Makefile.am @@ -32,7 +32,8 @@ if USE_PYTHON PYTHON_SUBDIR = python endif -SUBDIRS = buddy lib ltdl spot bin tests $(PYTHON_SUBDIR) doc $(NEVER_SUBDIRS) +SUBDIRS = picosat buddy lib ltdl spot bin tests $(PYTHON_SUBDIR) doc \ + $(NEVER_SUBDIRS) UTF8 = utf8/doc/ReleaseNotes utf8/doc/utf8cpp.html utf8/utf8.h \ utf8/utf8/checked.h utf8/utf8/core.h utf8/utf8/unchecked.h diff --git a/README b/README index 0d818f4d0..1249a4c4d 100644 --- a/README +++ b/README @@ -218,6 +218,7 @@ ltdl/ Libtool's portable dlopen() wrapper library. lib/ Gnulib's portability modules. utf8/ Nemanja Trifunovic's utf-8 routines. elisp/ Related emacs modes, used for building the documentation. +picosat/ A distribution of PicoSAT 965 (a satsolver library). Build-system stuff ------------------ diff --git a/configure.ac b/configure.ac index 989e65cad..a471db413 100644 --- a/configure.ac +++ b/configure.ac @@ -261,6 +261,7 @@ AC_CONFIG_FILES([ doc/org/init.el elisp/Makefile lib/Makefile + picosat/Makefile spot/graph/Makefile spot/kripke/Makefile spot/ltsmin/Makefile diff --git a/debian/copyright b/debian/copyright index 55ad09caf..ee92f3601 100644 --- a/debian/copyright +++ b/debian/copyright @@ -162,3 +162,24 @@ License: GPL-3+ . On Debian systems, the complete text of the GNU General Public License version 3 can be found in "/usr/share/common-licenses/GPL-3". + +Files: picosat/* +Copyright: 2006 - 2015, Armin Biere, Johannes Kepler University. +License: MIT style + Permission is hereby granted, free of charge, to any person obtaining a copy + of this software and associated documentation files (the "Software"), to + deal in the Software without restriction, including without limitation the + rights to use, copy, modify, merge, publish, distribute, sublicense, and/or + sell copies of the Software, and to permit persons to whom the Software is + furnished to do so, subject to the following conditions: + + The above copyright notice and this permission notice shall be included in + all copies or substantial portions of the Software. + + THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR + IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, + FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE + AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER + LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING + FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS + IN THE SOFTWARE. diff --git a/picosat/LICENSE b/picosat/LICENSE new file mode 100644 index 000000000..96739de29 --- /dev/null +++ b/picosat/LICENSE @@ -0,0 +1,20 @@ +Copyright (c) 2006 - 2014, Armin Biere, Johannes Kepler University. + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to +deal in the Software without restriction, including without limitation the +rights to use, copy, modify, merge, publish, distribute, sublicense, and/or +sell copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in +all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING +FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS +IN THE SOFTWARE. + diff --git a/picosat/Makefile.am b/picosat/Makefile.am new file mode 100644 index 000000000..2cbe9dd25 --- /dev/null +++ b/picosat/Makefile.am @@ -0,0 +1,7 @@ +noinst_LTLIBRARIES = libpico.la + +libpico_la_SOURCES = picosat.c picosat.h + +# Force -DNDEBUG regardless of the Spot settings +libpico_la_CPPFLAGS = -DNDEBUG -DNGETRUSAGE +EXTRA_DIST = LICENSE NEWS VERSION diff --git a/picosat/NEWS b/picosat/NEWS new file mode 100644 index 000000000..7ad60b530 --- /dev/null +++ b/picosat/NEWS @@ -0,0 +1,162 @@ +news for release 965 since 959 +------------------------------ + +* ADC code works again (spotted by Himanshu Jain) +* include into R projects (with Christoph Muessel) (--rcode) +* fixed 'undefined' + 'ptrdiff_' issues (thanks to Christoph Muessel) +* added 'picosat_set_interrupt' and '-a ' command line option +* fixed various issues pointed out by Stefan Hengelein: + - fixed incremental usage of 'picosat_adjust' + - added CPP fixes (STATS, NO_BINARY_CLAUSE versus TRACE mix-ups) + - removed redundant explicit set to zero on reset +* fixed various usage bugs with 'picomus' (thanks to Stefan Hengelein) +* removed '-fno-strict-aliasing' (thanks to Jerry James) + +news for release 959 since 953 +------------------------------ + +* fixed header comments + +* fixed minor compilation issues + +* fixed unitialized memory access problem for 'picosat_deref_partial' + and another issue with partial models + +* added 'picosat_add_arg' and 'picosat_add_lits' + +* '--plain' and 'picosat_set_plain' to disable failed literal probing + +* new '#define PICOSAT_REENTRANT_API' in 'picosat.h' + +* added manager so no more global variables + (allows multiple instances, requires manager object) + +news for release 951 since 941 +------------------------------ + +* cleaned up code (based on comments by Donald Knuth) + +* lreduce=O(conflicts^.5) + +* added 'picosat_visits' and 'picosat_decisions' + +* added '--partial' command line option + +* added 'picosat_deref_partial' and 'picosat_save_original_clauses' + +* added 'picomcs' as example for MSS computation + +news for release 941 since 936 +------------------------------ + +* added 'picogcnf' + +* added All-SAT mode ('--all' command line option) + +* statistics include time spent in failed literal preprocessing (probing) + +* 'picosat_failed_context' for 'push & pop' + (and tested failed assumptions for 'push & pop') + +* 'picosat_simplify' for forced garbage collection + +* undefined NFL, defined NADC (= failed literals on, ADC's off) + +* 'picosat_push' and 'picosat_pop' (beta version) + +* fixed some issues related to binary clause handling and + generating list of failed assumptions + +news for release 936 since 935 +------------------------------ + +* simple minimal unsatisfiable core (MUS) extractor 'picomus' + (example for using 'picosat_mus_assumptions' and 'picosat_coreclause') + +* added 'picosat_mus_assumptions' + +* added 'picosat_{set_}propagations' + +* new 'int' return value for 'picosat_enable_trace_generation' to + check for trace code being compiled + +news for release 935 since 926 +------------------------------ + +* added 'picosat_failed_assumptions' (plural) + +* new '-A ' command line option + +* fixed failed assumption issues + +* added 'picosat_remove_learned' + +* added 'picosat_reset_{phases,scores}' + +* added 'picosat_set_less_important_lit' + +* added 'picosat_res' + +news for release 926 since 846 +------------------------------ + +* random initial phase (API of 'picosat_set_default_phase' changed) + +* fixed accumulative failed assumption (multiple times) + +* fixed missing original clause in core generation with assumptions + +* fixed debugging code for memory allocation + +* shared library in addition to static library + +* removed potential UNKNOWN result without decision limit + +* added picosat_set_more_important_lit + +* added picosat_coreclause + +* propagation of binary clauses until completion + +* fixed API usage 'assume;sat;sat' + +* literals move to front (LMTF) during traversal of visited clauses + +* switched from inner/outer to Luby style restart scheduling + +* less agressive reduce schedule + +* replaced watched literals with head and tail pointers + +* add 'picosat_failed_assumption', which allows to avoid tracing and core + generation, if one is only interested in assumptions in the core + +* fixed a BUG in the generic iterator code of clauses + (should rarely happen unless you use a very sophisticated malloc lib) + +news for release 846 since 632 +------------------------------ + +* cleaned up assumption handling (actually removed buggy optimization) + +* incremental core generation + +* experimental 'all different constraint' handling as in our FMCAD'08 paper + +* new API calls: + + - picosat_add_ado_lit (add all different object literal) + - picosat_deref_top_level (deref top level assignment) + - picosat_changed (check whether extension was possible) + - picosat_measure_all_calls (per default do not measure adding time) + - picosat_set_prefix (set prefix for messages) + +* 64 bit port (and compilation options) + +* optional NVSIDS visualization code + +* resource controlled failed literal implementation + +* disconnect long clauses satisfied at lower decision level + +* controlling restarts diff --git a/picosat/VERSION b/picosat/VERSION new file mode 100644 index 000000000..aa5bea4ec --- /dev/null +++ b/picosat/VERSION @@ -0,0 +1 @@ +965 diff --git a/picosat/picosat.c b/picosat/picosat.c new file mode 100644 index 000000000..76db7ae00 --- /dev/null +++ b/picosat/picosat.c @@ -0,0 +1,8502 @@ +/**************************************************************************** +Copyright (c) 2006 - 2015, Armin Biere, Johannes Kepler University. + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to +deal in the Software without restriction, including without limitation the +rights to use, copy, modify, merge, publish, distribute, sublicense, and/or +sell copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in +all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING +FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS +IN THE SOFTWARE. +****************************************************************************/ + +#include +#include +#include +#include +#include +#include +#include +#include + +#include "picosat.h" + +/* By default code for 'all different constraints' is disabled, since 'NADC' + * is defined. + */ +#define NADC + +/* By default we enable failed literals, since 'NFL' is undefined. + * +#define NFL + */ + +/* By default we 'detach satisfied (large) clauses', e.g. NDSC undefined. + * +#define NDSC + */ + +/* Do not use luby restart schedule instead of inner/outer. + * +#define NLUBY + */ + +/* Enabling this define, will use gnuplot to visualize how the scores evolve. + * +#define VISCORES + */ +#ifdef VISCORES +// #define WRITEGIF /* ... to generate a video */ +#endif + +#ifdef VISCORES +#ifndef WRITEGIF +#include /* for 'usleep' */ +#endif +#endif + +#ifdef RCODE +#include +#endif + +#define MINRESTART 100 /* minimum restart interval */ +#define MAXRESTART 1000000 /* maximum restart interval */ +#define RDECIDE 1000 /* interval of random decisions */ +#define FRESTART 110 /* restart increase factor in percent */ +#define FREDUCE 110 /* reduce increase factor in percent */ +#define FREDADJ 121 /* reduce increase adjustment factor */ +#define MAXCILS 10 /* maximal number of unrecycled internals */ +#define FFLIPPED 10000 /* flipped reduce factor */ +#define FFLIPPEDPREC 10000000/* flipped reduce factor precision */ +#define INTERRUPTLIM 1024 /* check interrupt after that many decisions */ + +#ifndef TRACE +#define NO_BINARY_CLAUSES /* store binary clauses more compactly */ +#endif + +/* For debugging purposes you may want to define 'LOGGING', which actually + * can be enforced by using './configure.sh --log'. + */ +#ifdef LOGGING +#define LOG(code) do { code; } while (0) +#else +#define LOG(code) do { } while (0) +#endif +#define NOLOG(code) do { } while (0) /* log exception */ +#define ONLYLOG(code) do { code; } while (0) /* force logging */ + +#define FALSE ((Val)-1) +#define UNDEF ((Val)0) +#define TRUE ((Val)1) + +#define COMPACT_TRACECHECK_TRACE_FMT 0 +#define EXTENDED_TRACECHECK_TRACE_FMT 1 +#define RUP_TRACE_FMT 2 + +#define NEWN(p,n) do { (p) = new (ps, sizeof (*(p)) * (n)); } while (0) +#define CLRN(p,n) do { memset ((p), 0, sizeof (*(p)) * (n)); } while (0) +#define CLR(p) CLRN(p,1) +#define DELETEN(p,n) \ + do { delete (ps, p, sizeof (*(p)) * (n)); (p) = 0; } while (0) + +#define RESIZEN(p,old_num,new_num) \ + do { \ + size_t old_size = sizeof (*(p)) * (old_num); \ + size_t new_size = sizeof (*(p)) * (new_num); \ + (p) = resize (ps, (p), old_size, new_size) ; \ + } while (0) + +#define ENLARGE(start,head,end) \ + do { \ + unsigned old_num = (ptrdiff_t)((end) - (start)); \ + size_t new_num = old_num ? (2 * old_num) : 1; \ + unsigned count = (head) - (start); \ + assert ((start) <= (end)); \ + RESIZEN((start),old_num,new_num); \ + (head) = (start) + count; \ + (end) = (start) + new_num; \ + } while (0) + +#define NOTLIT(l) (ps->lits + (1 ^ ((l) - ps->lits))) + +#define LIT2IDX(l) ((ptrdiff_t)((l) - ps->lits) / 2) +#define LIT2IMPLS(l) (ps->impls + (ptrdiff_t)((l) - ps->lits)) +#define LIT2INT(l) ((int)(LIT2SGN(l) * LIT2IDX(l))) +#define LIT2SGN(l) (((ptrdiff_t)((l) - ps->lits) & 1) ? -1 : 1) +#define LIT2VAR(l) (ps->vars + LIT2IDX(l)) +#define LIT2HTPS(l) (ps->htps + (ptrdiff_t)((l) - ps->lits)) +#define LIT2JWH(l) (ps->jwh + ((l) - ps->lits)) + +#ifndef NDSC +#define LIT2DHTPS(l) (ps->dhtps + (ptrdiff_t)((l) - ps->lits)) +#endif + +#ifdef NO_BINARY_CLAUSES +typedef uintptr_t Wrd; +#define ISLITREASON(C) (1&(Wrd)C) +#define LIT2REASON(L) \ + (assert (L->val==TRUE), ((Cls*)(1 + (2*(L - ps->lits))))) +#define REASON2LIT(C) ((Lit*)(ps->lits + ((Wrd)C)/2)) +#endif + +#define ENDOFCLS(c) ((void*)((Lit**)(c)->lits + (c)->size)) + +#define SOC ((ps->oclauses == ps->ohead) ? ps->lclauses : ps->oclauses) +#define EOC (ps->lhead) +#define NXC(p) (((p) + 1 == ps->ohead) ? ps->lclauses : (p) + 1) + +#define OIDX2IDX(idx) (2 * ((idx) + 1)) +#define LIDX2IDX(idx) (2 * (idx) + 1) + +#define ISLIDX(idx) ((idx)&1) + +#define IDX2OIDX(idx) (assert(!ISLIDX(idx)), (idx)/2 - 1) +#define IDX2LIDX(idx) (assert(ISLIDX(idx)), (idx)/2) + +#define EXPORTIDX(idx) \ + ((ISLIDX(idx) ? (IDX2LIDX (idx) + (ps->ohead - ps->oclauses)) : IDX2OIDX(idx)) + 1) + +#define IDX2CLS(i) \ + (assert(i), (ISLIDX(i) ? ps->lclauses : ps->oclauses)[(i)/2 - !ISLIDX(i)]) + +#define IDX2ZHN(i) (assert(i), (ISLIDX(i) ? ps->zhains[(i)/2] : 0)) + +#define CLS2TRD(c) (((Trd*)(c)) - 1) +#define CLS2IDX(c) ((((Trd*)(c)) - 1)->idx) + +#define CLS2ACT(c) \ + ((Act*)((assert((c)->learned)),assert((c)->size>2),ENDOFCLS(c))) + +#define VAR2LIT(v) (ps->lits + 2 * ((v) - ps->vars)) +#define VAR2RNK(v) (ps->rnks + ((v) - ps->vars)) + +#define RNK2LIT(r) (ps->lits + 2 * ((r) - ps->rnks)) +#define RNK2VAR(r) (ps->vars + ((r) - ps->rnks)) + +#define BLK_FILL_BYTES 8 +#define SIZE_OF_BLK (sizeof (Blk) - BLK_FILL_BYTES) + +#define PTR2BLK(void_ptr) \ + ((void_ptr) ? (Blk*)(((char*)(void_ptr)) - SIZE_OF_BLK) : 0) + +#define AVERAGE(a,b) ((b) ? (((double)a) / (double)(b)) : 0.0) +#define PERCENT(a,b) (100.0 * AVERAGE(a,b)) + +#ifndef RCODE +#define ABORT(msg) \ + do { \ + fputs ("*** picosat: " msg "\n", stderr); \ + abort (); \ + } while (0) +#else +#define ABORT(msg) \ + do { \ + Rf_error (msg); \ + } while (0) +#endif + +#define ABORTIF(cond,msg) \ + do { \ + if (!(cond)) break; \ + ABORT (msg); \ + } while (0) + +#define ZEROFLT (0x00000000u) +#define EPSFLT (0x00000001u) +#define INFFLT (0xffffffffu) + +#define FLTCARRY (1u << 25) +#define FLTMSB (1u << 24) +#define FLTMAXMANTISSA (FLTMSB - 1) + +#define FLTMANTISSA(d) ((d) & FLTMAXMANTISSA) +#define FLTEXPONENT(d) ((int)((d) >> 24) - 128) + +#define FLTMINEXPONENT (-128) +#define FLTMAXEXPONENT (127) + +#define CMPSWAPFLT(a,b) \ + do { \ + Flt tmp; \ + if (((a) < (b))) \ + { \ + tmp = (a); \ + (a) = (b); \ + (b) = tmp; \ + } \ + } while (0) + +#define UNPACKFLT(u,m,e) \ + do { \ + (m) = FLTMANTISSA(u); \ + (e) = FLTEXPONENT(u); \ + (m) |= FLTMSB; \ + } while (0) + +#define INSERTION_SORT_LIMIT 10 + +#define SORTING_SWAP(T,p,q) \ +do { \ + T tmp = *(q); \ + *(q) = *(p); \ + *(p) = tmp; \ +} while (0) + +#define SORTING_CMP_SWAP(T,cmp,p,q) \ +do { \ + if ((cmp) (ps, *(p), *(q)) > 0) \ + SORTING_SWAP (T, p, q); \ +} while(0) + +#define QUICKSORT_PARTITION(T,cmp,a,l,r) \ +do { \ + T pivot; \ + int j; \ + i = (l) - 1; /* result in 'i' */ \ + j = (r); \ + pivot = (a)[j]; \ + for (;;) \ + { \ + while ((cmp) (ps, (a)[++i], pivot) < 0) \ + ; \ + while ((cmp) (ps, pivot, (a)[--j]) < 0) \ + if (j == (l)) \ + break; \ + if (i >= j) \ + break; \ + SORTING_SWAP (T, (a) + i, (a) + j); \ + } \ + SORTING_SWAP (T, (a) + i, (a) + (r)); \ +} while(0) + +#define QUICKSORT(T,cmp,a,n) \ +do { \ + int l = 0, r = (n) - 1, m, ll, rr, i; \ + assert (ps->ihead == ps->indices); \ + if (r - l <= INSERTION_SORT_LIMIT) \ + break; \ + for (;;) \ + { \ + m = (l + r) / 2; \ + SORTING_SWAP (T, (a) + m, (a) + r - 1); \ + SORTING_CMP_SWAP (T, cmp, (a) + l, (a) + r - 1); \ + SORTING_CMP_SWAP (T, cmp, (a) + l, (a) + r); \ + SORTING_CMP_SWAP (T, cmp, (a) + r - 1, (a) + r); \ + QUICKSORT_PARTITION (T, cmp, (a), l + 1, r - 1); \ + if (i - l < r - i) \ + { \ + ll = i + 1; \ + rr = r; \ + r = i - 1; \ + } \ + else \ + { \ + ll = l; \ + rr = i - 1; \ + l = i + 1; \ + } \ + if (r - l > INSERTION_SORT_LIMIT) \ + { \ + assert (rr - ll > INSERTION_SORT_LIMIT); \ + if (ps->ihead == ps->eoi) \ + ENLARGE (ps->indices, ps->ihead, ps->eoi); \ + *ps->ihead++ = ll; \ + if (ps->ihead == ps->eoi) \ + ENLARGE (ps->indices, ps->ihead, ps->eoi); \ + *ps->ihead++ = rr; \ + } \ + else if (rr - ll > INSERTION_SORT_LIMIT) \ + { \ + l = ll; \ + r = rr; \ + } \ + else if (ps->ihead > ps->indices) \ + { \ + r = *--ps->ihead; \ + l = *--ps->ihead; \ + } \ + else \ + break; \ + } \ +} while (0) + +#define INSERTION_SORT(T,cmp,a,n) \ +do { \ + T pivot; \ + int l = 0, r = (n) - 1, i, j; \ + for (i = r; i > l; i--) \ + SORTING_CMP_SWAP (T, cmp, (a) + i - 1, (a) + i); \ + for (i = l + 2; i <= r; i++) \ + { \ + j = i; \ + pivot = (a)[i]; \ + while ((cmp) (ps, pivot, (a)[j - 1]) < 0) \ + { \ + (a)[j] = (a)[j - 1]; \ + j--; \ + } \ + (a)[j] = pivot; \ + } \ +} while (0) + +#ifdef NDEBUG +#define CHECK_SORTED(cmp,a,n) do { } while(0) +#else +#define CHECK_SORTED(cmp,a,n) \ +do { \ + int i; \ + for (i = 0; i < (n) - 1; i++) \ + assert ((cmp) (ps, (a)[i], (a)[i + 1]) <= 0); \ +} while(0) +#endif + +#define SORT(T,cmp,a,n) \ +do { \ + T * aa = (a); \ + int nn = (n); \ + QUICKSORT (T, cmp, aa, nn); \ + INSERTION_SORT (T, cmp, aa, nn); \ + assert (ps->ihead == ps->indices); \ + CHECK_SORTED (cmp, aa, nn); \ +} while (0) + +#define WRDSZ (sizeof (long) * 8) + +#ifdef RCODE +#define fprintf(...) do { } while (0) +#define vfprintf(...) do { } while (0) +#define fputs(...) do { } while (0) +#define fputc(...) do { } while (0) +#endif + +typedef unsigned Flt; /* 32 bit deterministic soft float */ +typedef Flt Act; /* clause and variable activity */ +typedef struct Blk Blk; /* allocated memory block */ +typedef struct Cls Cls; /* clause */ +typedef struct Lit Lit; /* literal */ +typedef struct Rnk Rnk; /* variable to score mapping */ +typedef signed char Val; /* TRUE, UNDEF, FALSE */ +typedef struct Var Var; /* variable */ +#ifdef TRACE +typedef struct Trd Trd; /* trace data for clauses */ +typedef struct Zhn Zhn; /* compressed chain (=zain) data */ +typedef unsigned char Znt; /* compressed antecedent data */ +#endif + +#ifdef NO_BINARY_CLAUSES +typedef struct Ltk Ltk; + +struct Ltk +{ + Lit ** start; + unsigned count : WRDSZ == 32 ? 27 : 32; + unsigned ldsize : WRDSZ == 32 ? 5 : 32; +}; +#endif + +struct Lit +{ + Val val; +}; + +struct Var +{ + unsigned mark : 1; /*bit 1*/ + unsigned resolved : 1; /*bit 2*/ + unsigned phase : 1; /*bit 3*/ + unsigned assigned : 1; /*bit 4*/ + unsigned used : 1; /*bit 5*/ + unsigned failed : 1; /*bit 6*/ + unsigned internal : 1; /*bit 7*/ + unsigned usedefphase : 1; /*bit 8*/ + unsigned defphase : 1; /*bit 9*/ + unsigned msspos : 1; /*bit 10*/ + unsigned mssneg : 1; /*bit 11*/ + unsigned humuspos : 1; /*bit 12*/ + unsigned humusneg : 1; /*bit 13*/ + unsigned partial : 1; /*bit 14*/ +#ifdef TRACE + unsigned core : 1; /*bit 15*/ +#endif + unsigned level; + Cls *reason; +#ifndef NADC + Lit ** inado; + Lit ** ado; + Lit *** adotabpos; +#endif +}; + +struct Rnk +{ + Act score; + unsigned pos : 30; /* 0 iff not on heap */ + unsigned moreimportant : 1; + unsigned lessimportant : 1; +}; + +struct Cls +{ + unsigned size; + + unsigned collect:1; /* bit 1 */ + unsigned learned:1; /* bit 2 */ + unsigned locked:1; /* bit 3 */ + unsigned used:1; /* bit 4 */ +#ifndef NDEBUG + unsigned connected:1; /* bit 5 */ +#endif +#ifdef TRACE + unsigned collected:1; /* bit 6 */ + unsigned core:1; /* bit 7 */ +#endif + +#define LDMAXGLUE 25 /* 32 - 7 */ +#define MAXGLUE ((1<= FLTCARRY) + { + if (e >= FLTMAXEXPONENT) + return INFFLT; + + e++; + m >>= 1; + } + } + + m &= ~FLTMSB; + return packflt (m, e); +} + +static Flt +addflt (Flt a, Flt b) +{ + unsigned ma, mb, delta; + int ea, eb; + + CMPSWAPFLT (a, b); + if (!b) + return a; + + UNPACKFLT (a, ma, ea); + UNPACKFLT (b, mb, eb); + + assert (ea >= eb); + delta = ea - eb; + if (delta < 32) mb >>= delta; else mb = 0; + if (!mb) + return a; + + ma += mb; + if (ma & FLTCARRY) + { + if (ea == FLTMAXEXPONENT) + return INFFLT; + + ea++; + ma >>= 1; + } + + assert (ma < FLTCARRY); + ma &= FLTMAXMANTISSA; + + return packflt (ma, ea); +} + +static Flt +mulflt (Flt a, Flt b) +{ + unsigned ma, mb; + unsigned long long accu; + int ea, eb; + + CMPSWAPFLT (a, b); + if (!b) + return ZEROFLT; + + UNPACKFLT (a, ma, ea); + UNPACKFLT (b, mb, eb); + + ea += eb; + ea += 24; + if (ea > FLTMAXEXPONENT) + return INFFLT; + + if (ea < FLTMINEXPONENT) + return EPSFLT; + + accu = ma; + accu *= mb; + accu >>= 24; + + if (accu >= FLTCARRY) + { + if (ea == FLTMAXEXPONENT) + return INFFLT; + + ea++; + accu >>= 1; + + if (accu >= FLTCARRY) + return INFFLT; + } + + assert (accu < FLTCARRY); + assert (accu & FLTMSB); + + ma = accu; + ma &= ~FLTMSB; + + return packflt (ma, ea); +} + +static Flt +ascii2flt (const char *str) +{ + Flt ten = base2flt (10, 0); + Flt onetenth = base2flt (26843546, -28); + Flt res = ZEROFLT, tmp, base; + const char *p = str; + int ch; + + ch = *p++; + + if (ch != '.') + { + if (!isdigit (ch)) + return INFFLT; /* better abort ? */ + + res = base2flt (ch - '0', 0); + + while ((ch = *p++)) + { + if (ch == '.') + break; + + if (!isdigit (ch)) + return INFFLT; /* better abort? */ + + res = mulflt (res, ten); + tmp = base2flt (ch - '0', 0); + res = addflt (res, tmp); + } + } + + if (ch == '.') + { + ch = *p++; + if (!isdigit (ch)) + return INFFLT; /* better abort ? */ + + base = onetenth; + tmp = mulflt (base2flt (ch - '0', 0), base); + res = addflt (res, tmp); + + while ((ch = *p++)) + { + if (!isdigit (ch)) + return INFFLT; /* better abort? */ + + base = mulflt (base, onetenth); + tmp = mulflt (base2flt (ch - '0', 0), base); + res = addflt (res, tmp); + } + } + + return res; +} + +#if defined(VISCORES) + +static double +flt2double (Flt f) +{ + double res; + unsigned m; + int e, i; + + UNPACKFLT (f, m, e); + res = m; + + if (e < 0) + { + for (i = e; i < 0; i++) + res *= 0.5; + } + else + { + for (i = 0; i < e; i++) + res *= 2.0; + } + + return res; +} + +#endif + +static int +log2flt (Flt a) +{ + return FLTEXPONENT (a) + 24; +} + +static int +cmpflt (Flt a, Flt b) +{ + if (a < b) + return -1; + + if (a > b) + return 1; + + return 0; +} + +static void * +new (PS * ps, size_t size) +{ + size_t bytes; + Blk *b; + + if (!size) + return 0; + + bytes = size + SIZE_OF_BLK; + + if (ps->enew) + b = ps->enew (ps->emgr, bytes); + else + b = malloc (bytes); + + ABORTIF (!b, "out of memory in 'new'"); +#ifndef NDEBUG + b->header.size = size; +#endif + ps->current_bytes += size; + if (ps->current_bytes > ps->max_bytes) + ps->max_bytes = ps->current_bytes; + return b->data; +} + +static void +delete (PS * ps, void *void_ptr, size_t size) +{ + size_t bytes; + Blk *b; + + if (!void_ptr) + { + assert (!size); + return; + } + + assert (size); + b = PTR2BLK (void_ptr); + + assert (size <= ps->current_bytes); + ps->current_bytes -= size; + + assert (b->header.size == size); + + bytes = size + SIZE_OF_BLK; + if (ps->edelete) + ps->edelete (ps->emgr, b, bytes); + else + free (b); +} + +static void * +resize (PS * ps, void *void_ptr, size_t old_size, size_t new_size) +{ + size_t old_bytes, new_bytes; + Blk *b; + + b = PTR2BLK (void_ptr); + + assert (old_size <= ps->current_bytes); + ps->current_bytes -= old_size; + + if ((old_bytes = old_size)) + { + assert (old_size && b && b->header.size == old_size); + old_bytes += SIZE_OF_BLK; + } + else + assert (!b); + + if ((new_bytes = new_size)) + new_bytes += SIZE_OF_BLK; + + if (ps->eresize) + b = ps->eresize (ps->emgr, b, old_bytes, new_bytes); + else + b = realloc (b, new_bytes); + + if (!new_size) + { + assert (!b); + return 0; + } + + ABORTIF (!b, "out of memory in 'resize'"); +#ifndef NDEBUG + b->header.size = new_size; +#endif + + ps->current_bytes += new_size; + if (ps->current_bytes > ps->max_bytes) + ps->max_bytes = ps->current_bytes; + + return b->data; +} + +static unsigned +int2unsigned (int l) +{ + return (l < 0) ? 1 + 2 * -l : 2 * l; +} + +static Lit * +int2lit (PS * ps, int l) +{ + return ps->lits + int2unsigned (l); +} + +static Lit ** +end_of_lits (Cls * c) +{ + return (Lit**)c->lits + c->size; +} + +#if !defined(NDEBUG) || defined(LOGGING) + +static void +dumplits (PS * ps, Lit ** l, Lit ** end) +{ + int first; + Lit ** p; + + if (l == end) + { + /* empty clause */ + } + else if (l + 1 == end) + { + fprintf (ps->out, "%d ", LIT2INT (l[0])); + } + else + { + assert (l + 2 <= end); + first = (abs (LIT2INT (l[0])) > abs (LIT2INT (l[1]))); + fprintf (ps->out, "%d ", LIT2INT (l[first])); + fprintf (ps->out, "%d ", LIT2INT (l[!first])); + for (p = l + 2; p < end; p++) + fprintf (ps->out, "%d ", LIT2INT (*p)); + } + + fputc ('0', ps->out); +} + +static void +dumpcls (PS * ps, Cls * c) +{ + Lit **end; + + if (c) + { + end = end_of_lits (c); + dumplits (ps, c->lits, end); +#ifdef TRACE + if (ps->trace) + fprintf (ps->out, " clause(%u)", CLS2IDX (c)); +#endif + } + else + fputs ("DECISION", ps->out); +} + +static void +dumpclsnl (PS * ps, Cls * c) +{ + dumpcls (ps, c); + fputc ('\n', ps->out); +} + +void +dumpcnf (PS * ps) +{ + Cls **p, *c; + + for (p = SOC; p != EOC; p = NXC (p)) + { + c = *p; + + if (!c) + continue; + +#ifdef TRACE + if (c->collected) + continue; +#endif + + dumpclsnl (ps, *p); + } +} + +#endif + +static void +delete_prefix (PS * ps) +{ + if (!ps->prefix) + return; + + delete (ps, ps->prefix, strlen (ps->prefix) + 1); + ps->prefix = 0; +} + +static void +new_prefix (PS * ps, const char * str) +{ + delete_prefix (ps); + assert (str); + ps->prefix = new (ps, strlen (str) + 1); + strcpy (ps->prefix, str); +} + +static PS * +init (void * pmgr, + picosat_malloc pnew, picosat_realloc presize, picosat_free pdelete) +{ + PS * ps; + +#if 0 + int count = 3 - !pnew - !presize - !pdelete; + + ABORTIF (count && !pnew, "API usage: missing 'picosat_set_new'"); + ABORTIF (count && !presize, "API usage: missing 'picosat_set_resize'"); + ABORTIF (count && !pdelete, "API usage: missing 'picosat_set_delete'"); +#endif + + ps = pnew ? pnew (pmgr, sizeof *ps) : malloc (sizeof *ps); + ABORTIF (!ps, "failed to allocate memory for PicoSAT manager"); + memset (ps, 0, sizeof *ps); + + ps->emgr = pmgr; + ps->enew = pnew; + ps->eresize = presize; + ps->edelete = pdelete; + + ps->size_vars = 1; + ps->state = RESET; + ps->defaultphase = JWLPHASE; +#ifdef TRACE + ps->ocore = -1; +#endif + ps->lastrheader = -2; +#ifndef NADC + ps->adoconflictlimit = UINT_MAX; +#endif + ps->min_flipped = UINT_MAX; + + NEWN (ps->lits, 2 * ps->size_vars); + NEWN (ps->jwh, 2 * ps->size_vars); + NEWN (ps->htps, 2 * ps->size_vars); +#ifndef NDSC + NEWN (ps->dhtps, 2 * ps->size_vars); +#endif + NEWN (ps->impls, 2 * ps->size_vars); + NEWN (ps->vars, ps->size_vars); + NEWN (ps->rnks, ps->size_vars); + + /* because '0' pos denotes not on heap + */ + ENLARGE (ps->heap, ps->hhead, ps->eoh); + ps->hhead = ps->heap + 1; + + ps->vinc = base2flt (1, 0); /* initial var activity */ + ps->ifvinc = ascii2flt ("1.05"); /* var score rescore factor */ +#ifdef VISCORES + ps->fvinc = ascii2flt ("0.9523809"); /* 1/f = 1/1.05 */ + ps->nvinc = ascii2flt ("0.0476191"); /* 1 - 1/f = 1 - 1/1.05 */ +#endif + ps->lscore = base2flt (1, 90); /* var activity rescore limit */ + ps->ilvinc = base2flt (1, -90); /* inverse of 'lscore' */ + + ps->cinc = base2flt (1, 0); /* initial clause activity */ + ps->fcinc = ascii2flt ("1.001"); /* cls activity rescore factor */ + ps->lcinc = base2flt (1, 90); /* cls activity rescore limit */ + ps->ilcinc = base2flt (1, -90); /* inverse of 'ilcinc' */ + + ps->lreduceadjustcnt = ps->lreduceadjustinc = 100; + ps->lpropagations = ~0ull; + +#ifndef RCODE + ps->out = stdout; +#else + ps->out = 0; +#endif + new_prefix (ps, "c "); + ps->verbosity = 0; + ps->plain = 0; + +#ifdef NO_BINARY_CLAUSES + memset (&ps->impl, 0, sizeof (ps->impl)); + ps->impl.size = 2; + + memset (&ps->cimpl, 0, sizeof (ps->impl)); + ps->cimpl.size = 2; +#endif + +#ifdef VISCORES + ps->fviscores = popen ( + "/usr/bin/gnuplot -background black" + " -xrm 'gnuplot*textColor:white'" + " -xrm 'gnuplot*borderColor:white'" + " -xrm 'gnuplot*axisColor:white'" + , "w"); + fprintf (ps->fviscores, "unset key\n"); + // fprintf (ps->fviscores, "set log y\n"); + fflush (ps->fviscores); + system ("rm -rf /tmp/picosat-viscores"); + system ("mkdir /tmp/picosat-viscores"); + system ("mkdir /tmp/picosat-viscores/data"); +#ifdef WRITEGIF + system ("mkdir /tmp/picosat-viscores/gif"); + fprintf (ps->fviscores, + "set terminal gif giant animate opt size 1024,768 x000000 xffffff" + "\n"); + + fprintf (ps->fviscores, + "set output \"/tmp/picosat-viscores/gif/animated.gif\"\n"); +#endif +#endif + ps->defaultphase = JWLPHASE; + ps->state = READY; + ps->last_sat_call_result = 0; + + return ps; +} + +static size_t +bytes_clause (PS * ps, unsigned size, unsigned learned) +{ + size_t res; + + res = sizeof (Cls); + res += size * sizeof (Lit *); + res -= 2 * sizeof (Lit *); + + if (learned && size > 2) + res += sizeof (Act); /* add activity */ + +#ifdef TRACE + if (ps->trace) + res += sizeof (Trd); /* add trace data */ +#else + (void) ps; +#endif + + return res; +} + +static Cls * +new_clause (PS * ps, unsigned size, unsigned learned) +{ + size_t bytes; + void * tmp; +#ifdef TRACE + Trd *trd; +#endif + Cls *res; + + bytes = bytes_clause (ps, size, learned); + tmp = new (ps, bytes); + +#ifdef TRACE + if (ps->trace) + { + trd = tmp; + + if (learned) + trd->idx = LIDX2IDX (ps->lhead - ps->lclauses); + else + trd->idx = OIDX2IDX (ps->ohead - ps->oclauses); + + res = trd->cls; + } + else +#endif + res = tmp; + + res->size = size; + res->learned = learned; + + res->collect = 0; +#ifndef NDEBUG + res->connected = 0; +#endif + res->locked = 0; + res->used = 0; +#ifdef TRACE + res->core = 0; + res->collected = 0; +#endif + + if (learned && size > 2) + { + Act * p = CLS2ACT (res); + *p = ps->cinc; + } + + return res; +} + +static void +delete_clause (PS * ps, Cls * c) +{ + size_t bytes; +#ifdef TRACE + Trd *trd; +#endif + + bytes = bytes_clause (ps, c->size, c->learned); + +#ifdef TRACE + if (ps->trace) + { + trd = CLS2TRD (c); + delete (ps, trd, bytes); + } + else +#endif + delete (ps, c, bytes); +} + +static void +delete_clauses (PS * ps) +{ + Cls **p; + for (p = SOC; p != EOC; p = NXC (p)) + if (*p) + delete_clause (ps, *p); + + DELETEN (ps->oclauses, ps->eoo - ps->oclauses); + DELETEN (ps->lclauses, ps->EOL - ps->lclauses); + + ps->ohead = ps->eoo = ps->lhead = ps->EOL = 0; +} + +#ifdef TRACE + +static void +delete_zhain (PS * ps, Zhn * zhain) +{ + const Znt *p, *znt; + + assert (zhain); + + znt = zhain->znt; + for (p = znt; *p; p++) + ; + + delete (ps, zhain, sizeof (Zhn) + (p - znt) + 1); +} + +static void +delete_zhains (PS * ps) +{ + Zhn **p, *z; + for (p = ps->zhains; p < ps->zhead; p++) + if ((z = *p)) + delete_zhain (ps, z); + + DELETEN (ps->zhains, ps->eoz - ps->zhains); + ps->eoz = ps->zhead = 0; +} + +#endif + +#ifdef NO_BINARY_CLAUSES +static void +lrelease (PS * ps, Ltk * stk) +{ + if (stk->start) + DELETEN (stk->start, (1 << (stk->ldsize))); + memset (stk, 0, sizeof (*stk)); +} +#endif + +#ifndef NADC + +static unsigned +llength (Lit ** a) +{ + Lit ** p; + for (p = a; *p; p++) + ; + return p - a; +} + +static void +resetadoconflict (PS * ps) +{ + assert (ps->adoconflict); + delete_clause (ps, ps->adoconflict); + ps->adoconflict = 0; +} + +static void +reset_ados (PS * ps) +{ + Lit *** p; + + for (p = ps->ados; p < ps->hados; p++) + DELETEN (*p, llength (*p) + 1); + + DELETEN (ps->ados, ps->eados - ps->ados); + ps->hados = ps->eados = 0; + + DELETEN (ps->adotab, ps->szadotab); + ps->szadotab = ps->nadotab = 0; + + if (ps->adoconflict) + resetadoconflict (ps); + + ps->adoconflicts = 0; + ps->adoconflictlimit = UINT_MAX; + ps->adodisabled = 0; +} + +#endif + +static void +reset (PS * ps) +{ + ABORTIF (!ps || + ps->state == RESET, "API usage: reset without initialization"); + + delete_clauses (ps); +#ifdef TRACE + delete_zhains (ps); +#endif +#ifdef NO_BINARY_CLAUSES + { + unsigned i; + for (i = 2; i <= 2 * ps->max_var + 1; i++) + lrelease (ps, ps->impls + i); + } +#endif +#ifndef NADC + reset_ados (ps); +#endif +#ifndef NFL + DELETEN (ps->saved, ps->saved_size); +#endif + DELETEN (ps->htps, 2 * ps->size_vars); +#ifndef NDSC + DELETEN (ps->dhtps, 2 * ps->size_vars); +#endif + DELETEN (ps->impls, 2 * ps->size_vars); + DELETEN (ps->lits, 2 * ps->size_vars); + DELETEN (ps->jwh, 2 * ps->size_vars); + DELETEN (ps->vars, ps->size_vars); + DELETEN (ps->rnks, ps->size_vars); + DELETEN (ps->trail, ps->eot - ps->trail); + DELETEN (ps->heap, ps->eoh - ps->heap); + DELETEN (ps->als, ps->eoals - ps->als); + DELETEN (ps->CLS, ps->eocls - ps->CLS); + DELETEN (ps->rils, ps->eorils - ps->rils); + DELETEN (ps->cils, ps->eocils - ps->cils); + DELETEN (ps->fals, ps->eofals - ps->fals); + DELETEN (ps->mass, ps->szmass); + DELETEN (ps->mssass, ps->szmssass); + DELETEN (ps->mcsass, ps->szmcsass); + DELETEN (ps->humus, ps->szhumus); + DELETEN (ps->added, ps->eoa - ps->added); + DELETEN (ps->marked, ps->eom - ps->marked); + DELETEN (ps->dfs, ps->eod - ps->dfs); + DELETEN (ps->resolved, ps->eor - ps->resolved); + DELETEN (ps->levels, ps->eolevels - ps->levels); + DELETEN (ps->dused, ps->eodused - ps->dused); + DELETEN (ps->buffer, ps->eob - ps->buffer); + DELETEN (ps->indices, ps->eoi - ps->indices); + DELETEN (ps->soclauses, ps->eoso - ps->soclauses); + delete_prefix (ps); + delete (ps, ps->rline[0], ps->szrline); + delete (ps, ps->rline[1], ps->szrline); + assert (getenv ("LEAK") || !ps->current_bytes); /* found leak if failing */ +#ifdef VISCORES + pclose (ps->fviscores); +#endif + if (ps->edelete) + ps->edelete (ps->emgr, ps, sizeof *ps); + else + free (ps); +} + +inline static void +tpush (PS * ps, Lit * lit) +{ + assert (ps->lits < lit && lit <= ps->lits + 2* ps->max_var + 1); + if (ps->thead == ps->eot) + { + unsigned ttail2count = ps->ttail2 - ps->trail; + unsigned ttailcount = ps->ttail - ps->trail; +#ifndef NADC + unsigned ttailadocount = ps->ttailado - ps->trail; +#endif + ENLARGE (ps->trail, ps->thead, ps->eot); + ps->ttail = ps->trail + ttailcount; + ps->ttail2 = ps->trail + ttail2count; +#ifndef NADC + ps->ttailado = ps->trail + ttailadocount; +#endif + } + + *ps->thead++ = lit; +} + +static void +assign_reason (PS * ps, Var * v, Cls * reason) +{ +#if defined(NO_BINARY_CLAUSES) && !defined(NDEBUG) + assert (reason != &ps->impl); +#else + (void) ps; +#endif + v->reason = reason; +} + +static void +assign_phase (PS * ps, Lit * lit) +{ + unsigned new_phase, idx; + Var * v = LIT2VAR (lit); + +#ifndef NFL + /* In 'simplifying' mode we only need to keep 'min_flipped' up to date if + * we force assignments on the top level. The other assignments will be + * undone and thus we can keep the old saved value of the phase. + */ + if (!ps->LEVEL || !ps->simplifying) +#endif + { + new_phase = (LIT2SGN (lit) > 0); + + if (v->assigned) + { + ps->sdflips -= ps->sdflips/FFLIPPED; + + if (new_phase != v->phase) + { + assert (FFLIPPEDPREC >= FFLIPPED); + ps->sdflips += FFLIPPEDPREC / FFLIPPED; + ps->flips++; + + idx = LIT2IDX (lit); + if (idx < ps->min_flipped) + ps->min_flipped = idx; + + NOLOG (fprintf (ps->out, + "%sflipped %d\n", + ps->prefix, LIT2INT (lit))); + } + } + + v->phase = new_phase; + v->assigned = 1; + } + + lit->val = TRUE; + NOTLIT (lit)->val = FALSE; +} + +inline static void +assign (PS * ps, Lit * lit, Cls * reason) +{ + Var * v = LIT2VAR (lit); + assert (lit->val == UNDEF); +#ifdef STATS + ps->assignments++; +#endif + v->level = ps->LEVEL; + assign_phase (ps, lit); + assign_reason (ps, v, reason); + tpush (ps, lit); +} + +inline static int +cmp_added (PS * ps, Lit * k, Lit * l) +{ + Val a = k->val, b = l->val; + Var *u, *v; + int res; + + if (a == UNDEF && b != UNDEF) + return -1; + + if (a != UNDEF && b == UNDEF) + return 1; + + u = LIT2VAR (k); + v = LIT2VAR (l); + + if (a != UNDEF) + { + assert (b != UNDEF); + res = v->level - u->level; + if (res) + return res; /* larger level first */ + } + + res = cmpflt (VAR2RNK (u)->score, VAR2RNK (v)->score); + if (res) + return res; /* smaller activity first */ + + return u - v; /* smaller index first */ +} + +static void +sorttwolits (Lit ** v) +{ + Lit * a = v[0], * b = v[1]; + + assert (a != b); + + if (a < b) + return; + + v[0] = b; + v[1] = a; +} + +inline static void +sortlits (PS * ps, Lit ** v, unsigned size) +{ + if (size == 2) + sorttwolits (v); /* same order with and with out 'NO_BINARY_CLAUSES' */ + else + SORT (Lit *, cmp_added, v, size); +} + +#ifdef NO_BINARY_CLAUSES +static Cls * +setimpl (PS * ps, Lit * a, Lit * b) +{ + assert (!ps->implvalid); + assert (ps->impl.size == 2); + + ps->impl.lits[0] = a; + ps->impl.lits[1] = b; + + sorttwolits (ps->impl.lits); + ps->implvalid = 1; + + return &ps->impl; +} + +static void +resetimpl (PS * ps) +{ + ps->implvalid = 0; +} + +static Cls * +setcimpl (PS * ps, Lit * a, Lit * b) +{ + assert (!ps->cimplvalid); + assert (ps->cimpl.size == 2); + + ps->cimpl.lits[0] = a; + ps->cimpl.lits[1] = b; + + sorttwolits (ps->cimpl.lits); + ps->cimplvalid = 1; + + return &ps->cimpl; +} + +static void +resetcimpl (PS * ps) +{ + assert (ps->cimplvalid); + ps->cimplvalid = 0; +} + +#endif + +static int +cmp_ptr (PS * ps, void *l, void *k) +{ + (void) ps; + return ((char*)l) - (char*)k; /* arbitrarily already reverse */ +} + +static int +cmp_rnk (Rnk * r, Rnk * s) +{ + if (!r->moreimportant && s->moreimportant) + return -1; + + if (r->moreimportant && !s->moreimportant) + return 1; + + if (!r->lessimportant && s->lessimportant) + return 1; + + if (r->lessimportant && !s->lessimportant) + return -1; + + if (r->score < s->score) + return -1; + + if (r->score > s->score) + return 1; + + return -cmp_ptr (0, r, s); +} + +static void +hup (PS * ps, Rnk * v) +{ + int upos, vpos; + Rnk *u; + +#ifndef NFL + assert (!ps->simplifying); +#endif + + vpos = v->pos; + + assert (0 < vpos); + assert (vpos < ps->hhead - ps->heap); + assert (ps->heap[vpos] == v); + + while (vpos > 1) + { + upos = vpos / 2; + + u = ps->heap[upos]; + + if (cmp_rnk (u, v) > 0) + break; + + ps->heap[vpos] = u; + u->pos = vpos; + + vpos = upos; + } + + ps->heap[vpos] = v; + v->pos = vpos; +} + +static Cls *add_simplified_clause (PS *, int); + +inline static void +add_antecedent (PS * ps, Cls * c) +{ + assert (c); + +#ifdef NO_BINARY_CLAUSES + if (ISLITREASON (c)) + return; + + if (c == &ps->impl) + return; +#elif defined(STATS) && defined(TRACE) + ps->antecedents++; +#endif + if (ps->rhead == ps->eor) + ENLARGE (ps->resolved, ps->rhead, ps->eor); + + assert (ps->rhead < ps->eor); + *ps->rhead++ = c; +} + +#ifdef TRACE + +#ifdef NO_BINARY_CLAUSES +#error "can not combine TRACE and NO_BINARY_CLAUSES" +#endif + +#endif /* TRACE */ + +static void +add_lit (PS * ps, Lit * lit) +{ + assert (lit); + + if (ps->ahead == ps->eoa) + ENLARGE (ps->added, ps->ahead, ps->eoa); + + *ps->ahead++ = lit; +} + +static void +push_var_as_marked (PS * ps, Var * v) +{ + if (ps->mhead == ps->eom) + ENLARGE (ps->marked, ps->mhead, ps->eom); + + *ps->mhead++ = v; +} + +static void +mark_var (PS * ps, Var * v) +{ + assert (!v->mark); + v->mark = 1; + push_var_as_marked (ps, v); +} + +#ifdef NO_BINARY_CLAUSES + +static Cls * +impl2reason (PS * ps, Lit * lit) +{ + Lit * other; + Cls * res; + other = ps->impl.lits[0]; + if (lit == other) + other = ps->impl.lits[1]; + assert (other->val == FALSE); + res = LIT2REASON (NOTLIT (other)); + resetimpl (ps); + return res; +} + +#endif + +/* Whenever we have a top level derived unit we really should derive a unit + * clause otherwise the resolutions in 'add_simplified_clause' become + * incorrect. + */ +static Cls * +resolve_top_level_unit (PS * ps, Lit * lit, Cls * reason) +{ + unsigned count_resolved; + Lit **p, **eol, *other; + Var *u, *v; + + assert (ps->rhead == ps->resolved); + assert (ps->ahead == ps->added); + + add_lit (ps, lit); + add_antecedent (ps, reason); + count_resolved = 1; + v = LIT2VAR (lit); + + eol = end_of_lits (reason); + for (p = reason->lits; p < eol; p++) + { + other = *p; + u = LIT2VAR (other); + if (u == v) + continue; + + add_antecedent (ps, u->reason); + count_resolved++; + } + + /* Some of the literals could be assumptions. If at least one + * variable is not an assumption, we should resolve. + */ + if (count_resolved >= 2) + { +#ifdef NO_BINARY_CLAUSES + if (reason == &ps->impl) + resetimpl (ps); +#endif + reason = add_simplified_clause (ps, 1); +#ifdef NO_BINARY_CLAUSES + if (reason->size == 2) + { + assert (reason == &ps->impl); + reason = impl2reason (ps, lit); + } +#endif + assign_reason (ps, v, reason); + } + else + { + ps->ahead = ps->added; + ps->rhead = ps->resolved; + } + + return reason; +} + +static void +fixvar (PS * ps, Var * v) +{ + Rnk * r; + + assert (VAR2LIT (v) != UNDEF); + assert (!v->level); + + ps->fixed++; + + r = VAR2RNK (v); + r->score = INFFLT; + +#ifndef NFL + if (ps->simplifying) + return; +#endif + + if (!r->pos) + return; + + hup (ps, r); +} + +static void +use_var (PS * ps, Var * v) +{ + if (v->used) + return; + + v->used = 1; + ps->vused++; +} + +static void +assign_forced (PS * ps, Lit * lit, Cls * reason) +{ + Var *v; + + assert (reason); + assert (lit->val == UNDEF); + +#ifdef STATS + ps->FORCED++; +#endif + assign (ps, lit, reason); + +#ifdef NO_BINARY_CLAUSES + assert (reason != &ps->impl); + if (ISLITREASON (reason)) + { + reason = setimpl (ps, lit, NOTLIT (REASON2LIT (reason))); + assert (reason); + } +#endif + LOG ( fprintf (ps->out, + "%sassign %d at level %d by ", + ps->prefix, LIT2INT (lit), ps->LEVEL); + dumpclsnl (ps, reason)); + + v = LIT2VAR (lit); + if (!ps->LEVEL) + use_var (ps, v); + + if (!ps->LEVEL && reason->size > 1) + { + reason = resolve_top_level_unit (ps, lit, reason); + assert (reason); + } + +#ifdef NO_BINARY_CLAUSES + if (ISLITREASON (reason) || reason == &ps->impl) + { + /* DO NOTHING */ + } + else +#endif + { + assert (!reason->locked); + reason->locked = 1; + if (reason->learned && reason->size > 2) + ps->llocked++; + } + +#ifdef NO_BINARY_CLAUSES + if (reason == &ps->impl) + resetimpl (ps); +#endif + + if (!ps->LEVEL) + fixvar (ps, v); +} + +#ifdef NO_BINARY_CLAUSES + +static void +lpush (PS * ps, Lit * lit, Cls * c) +{ + int pos = (c->lits[0] == lit); + Ltk * s = LIT2IMPLS (lit); + unsigned oldsize, newsize; + + assert (c->size == 2); + + if (!s->start) + { + assert (!s->count); + assert (!s->ldsize); + NEWN (s->start, 1); + } + else + { + oldsize = (1 << (s->ldsize)); + assert (s->count <= oldsize); + if (s->count == oldsize) + { + newsize = 2 * oldsize; + RESIZEN (s->start, oldsize, newsize); + s->ldsize++; + } + } + + s->start[s->count++] = c->lits[pos]; +} + +#endif + +static void +connect_head_tail (PS * ps, Lit * lit, Cls * c) +{ + Cls ** s; + assert (c->size >= 1); + if (c->size == 2) + { +#ifdef NO_BINARY_CLAUSES + lpush (ps, lit, c); + return; +#else + s = LIT2IMPLS (lit); +#endif + } + else + s = LIT2HTPS (lit); + + if (c->lits[0] != lit) + { + assert (c->size >= 2); + assert (c->lits[1] == lit); + c->next[1] = *s; + } + else + c->next[0] = *s; + + *s = c; +} + +#ifdef TRACE +static void +zpush (PS * ps, Zhn * zhain) +{ + assert (ps->trace); + + if (ps->zhead == ps->eoz) + ENLARGE (ps->zhains, ps->zhead, ps->eoz); + + *ps->zhead++ = zhain; +} + +static int +cmp_resolved (PS * ps, Cls * c, Cls * d) +{ +#ifndef NDEBUG + assert (ps->trace); +#else + (void) ps; +#endif + return CLS2IDX (c) - CLS2IDX (d); +} + +static void +bpushc (PS * ps, unsigned char ch) +{ + if (ps->bhead == ps->eob) + ENLARGE (ps->buffer, ps->bhead, ps->eob); + + *ps->bhead++ = ch; +} + +static void +bpushu (PS * ps, unsigned u) +{ + while (u & ~0x7f) + { + bpushc (ps, u | 0x80); + u >>= 7; + } + + bpushc (ps, u); +} + +static void +bpushd (PS * ps, unsigned prev, unsigned this) +{ + unsigned delta; + assert (prev < this); + delta = this - prev; + bpushu (ps, delta); +} + +static void +add_zhain (PS * ps) +{ + unsigned prev, this, count, rcount; + Cls **p, *c; + Zhn *res; + + assert (ps->trace); + assert (ps->bhead == ps->buffer); + assert (ps->rhead > ps->resolved); + + rcount = ps->rhead - ps->resolved; + SORT (Cls *, cmp_resolved, ps->resolved, rcount); + + prev = 0; + for (p = ps->resolved; p < ps->rhead; p++) + { + c = *p; + this = CLS2TRD (c)->idx; + bpushd (ps, prev, this); + prev = this; + } + bpushc (ps, 0); + + count = ps->bhead - ps->buffer; + + res = new (ps, sizeof (Zhn) + count); + res->core = 0; + res->ref = 0; + memcpy (res->znt, ps->buffer, count); + + ps->bhead = ps->buffer; +#ifdef STATS + ps->znts += count - 1; +#endif + zpush (ps, res); +} + +#endif + +static void +add_resolved (PS * ps, int learned) +{ +#if defined(STATS) || defined(TRACE) + Cls **p, *c; + + for (p = ps->resolved; p < ps->rhead; p++) + { + c = *p; + if (c->used) + continue; + + c->used = 1; + + if (c->size <= 2) + continue; + +#ifdef STATS + if (c->learned) + ps->llused++; + else + ps->loused++; +#endif + } +#endif + +#ifdef TRACE + if (learned && ps->trace) + add_zhain (ps); +#else + (void) learned; +#endif + ps->rhead = ps->resolved; +} + +static void +incjwh (PS * ps, Cls * c) +{ + Lit **p, *lit, ** eol; + Flt * f, inc, sum; + unsigned size = 0; + Var * v; + Val val; + + eol = end_of_lits (c); + + for (p = c->lits; p < eol; p++) + { + lit = *p; + val = lit->val; + + if (val && ps->LEVEL > 0) + { + v = LIT2VAR (lit); + if (v->level > 0) + val = UNDEF; + } + + if (val == TRUE) + return; + + if (val != FALSE) + size++; + } + + inc = base2flt (1, -size); + + for (p = c->lits; p < eol; p++) + { + lit = *p; + f = LIT2JWH (lit); + sum = addflt (*f, inc); + *f = sum; + } +} + +static void +write_rup_header (PS * ps, FILE * file) +{ + char line[80]; + int i; + + sprintf (line, "%%RUPD32 %u %u", ps->rupvariables, ps->rupclauses); + + fputs (line, file); + for (i = 255 - strlen (line); i >= 0; i--) + fputc (' ', file); + + fputc ('\n', file); + fflush (file); +} + +static Cls * +add_simplified_clause (PS * ps, int learned) +{ + unsigned num_true, num_undef, num_false, size, count_resolved; + Lit **p, **q, *lit, ** end; + unsigned litlevel, glue; + Cls *res, * reason; + int reentered; + Val val; + Var *v; +#if !defined(NDEBUG) && defined(TRACE) + unsigned idx; +#endif + + reentered = 0; + +REENTER: + + size = ps->ahead - ps->added; + + add_resolved (ps, learned); + + if (learned) + { + ps->ladded++; + ps->llitsadded += size; + if (size > 2) + { + ps->lladded++; + ps->nlclauses++; + ps->llits += size; + } + } + else + { + ps->oadded++; + if (size > 2) + { + ps->loadded++; + ps->noclauses++; + ps->olits += size; + } + } + + ps->addedclauses++; + assert (ps->addedclauses == ps->ladded + ps->oadded); + +#ifdef NO_BINARY_CLAUSES + if (size == 2) + res = setimpl (ps, ps->added[0], ps->added[1]); + else +#endif + { + sortlits (ps, ps->added, size); + + if (learned) + { + if (ps->lhead == ps->EOL) + { + ENLARGE (ps->lclauses, ps->lhead, ps->EOL); + + /* A very difficult to find bug, which only occurs if the + * learned clauses stack is immediately allocated before the + * original clauses stack without padding. In this case, we + * have 'SOC == EOC', which terminates all loops using the + * idiom 'for (p = SOC; p != EOC; p = NXC(p))' immediately. + * Unfortunately this occurred in 'fix_clause_lits' after + * using a recent version of the memory allocator of 'Google' + * perftools in the context of one large benchmark for + * our SMT solver 'Boolector'. + */ + if (ps->EOL == ps->oclauses) + ENLARGE (ps->lclauses, ps->lhead, ps->EOL); + } + +#if !defined(NDEBUG) && defined(TRACE) + idx = LIDX2IDX (ps->lhead - ps->lclauses); +#endif + } + else + { + if (ps->ohead == ps->eoo) + { + ENLARGE (ps->oclauses, ps->ohead, ps->eoo); + if (ps->EOL == ps->oclauses) + ENLARGE (ps->oclauses, ps->ohead, ps->eoo); /* ditto */ + } + +#if !defined(NDEBUG) && defined(TRACE) + idx = OIDX2IDX (ps->ohead - ps->oclauses); +#endif + } + + assert (ps->EOL != ps->oclauses); /* ditto */ + + res = new_clause (ps, size, learned); + + glue = 0; + + if (learned) + { + assert (ps->dusedhead == ps->dused); + + for (p = ps->added; p < ps->ahead; p++) + { + lit = *p; + if (lit->val) + { + litlevel = LIT2VAR (lit)->level; + assert (litlevel <= ps->LEVEL); + while (ps->levels + litlevel >= ps->levelshead) + { + if (ps->levelshead >= ps->eolevels) + ENLARGE (ps->levels, ps->levelshead, ps->eolevels); + assert (ps->levelshead < ps->eolevels); + *ps->levelshead++ = 0; + } + if (!ps->levels[litlevel]) + { + if (ps->dusedhead >= ps->eodused) + ENLARGE (ps->dused, ps->dusedhead, ps->eodused); + assert (ps->dusedhead < ps->eodused); + *ps->dusedhead++ = litlevel; + ps->levels[litlevel] = 1; + glue++; + } + } + else + glue++; + } + + while (ps->dusedhead > ps->dused) + { + litlevel = *--ps->dusedhead; + assert (ps->levels + litlevel < ps->levelshead); + assert (ps->levels[litlevel]); + ps->levels[litlevel] = 0; + } + } + + assert (glue <= MAXGLUE); + res->glue = glue; + +#if !defined(NDEBUG) && defined(TRACE) + if (ps->trace) + assert (CLS2IDX (res) == idx); +#endif + if (learned) + *ps->lhead++ = res; + else + *ps->ohead++ = res; + +#if !defined(NDEBUG) && defined(TRACE) + if (ps->trace && learned) + assert (ps->zhead - ps->zhains == ps->lhead - ps->lclauses); +#endif + assert (ps->lhead != ps->oclauses); /* ditto */ + } + + if (learned && ps->rup) + { + if (!ps->rupstarted) + { + write_rup_header (ps, ps->rup); + ps->rupstarted = 1; + } + } + + num_true = num_undef = num_false = 0; + + q = res->lits; + for (p = ps->added; p < ps->ahead; p++) + { + lit = *p; + *q++ = lit; + + if (learned && ps->rup) + fprintf (ps->rup, "%d ", LIT2INT (lit)); + + val = lit->val; + + num_true += (val == TRUE); + num_undef += (val == UNDEF); + num_false += (val == FALSE); + } + assert (num_false + num_true + num_undef == size); + + if (learned && ps->rup) + fputs ("0\n", ps->rup); + + ps->ahead = ps->added; /* reset */ + + if (!reentered) // TODO merge + if (size > 0) + { + assert (size <= 2 || !reentered); // TODO remove + connect_head_tail (ps, res->lits[0], res); + if (size > 1) + connect_head_tail (ps, res->lits[1], res); + } + + if (size == 0) + { + if (!ps->mtcls) + ps->mtcls = res; + } + +#ifdef NO_BINARY_CLAUSES + if (size != 2) +#endif +#ifndef NDEBUG + res->connected = 1; +#endif + + LOG ( fprintf (ps->out, "%s%s ", ps->prefix, learned ? "learned" : "original"); + dumpclsnl (ps, res)); + + /* Shrink clause by resolving it against top level assignments. + */ + if (!ps->LEVEL && num_false > 0) + { + assert (ps->ahead == ps->added); + assert (ps->rhead == ps->resolved); + + count_resolved = 1; + add_antecedent (ps, res); + + end = end_of_lits (res); + for (p = res->lits; p < end; p++) + { + lit = *p; + v = LIT2VAR (lit); + use_var (ps, v); + + if (lit->val == FALSE) + { + add_antecedent (ps, v->reason); + count_resolved++; + } + else + add_lit (ps, lit); + } + + assert (count_resolved >= 2); + + learned = 1; +#ifdef NO_BINARY_CLAUSES + if (res == &ps->impl) + resetimpl (ps); +#endif + reentered = 1; + goto REENTER; /* and return simplified clause */ + } + + if (!num_true && num_undef == 1) /* unit clause */ + { + lit = 0; + for (p = res->lits; p < res->lits + size; p++) + { + if ((*p)->val == UNDEF) + lit = *p; + + v = LIT2VAR (*p); + use_var (ps, v); + } + assert (lit); + + reason = res; +#ifdef NO_BINARY_CLAUSES + if (size == 2) + { + Lit * other = res->lits[0]; + if (other == lit) + other = res->lits[1]; + + assert (other->val == FALSE); + reason = LIT2REASON (NOTLIT (other)); + } +#endif + assign_forced (ps, lit, reason); + num_true++; + } + + if (num_false == size && !ps->conflict) + { +#ifdef NO_BINARY_CLAUSES + if (res == &ps->impl) + ps->conflict = setcimpl (ps, res->lits[0], res->lits[1]); + else +#endif + ps->conflict = res; + } + + if (!learned && !num_true && num_undef) + incjwh (ps, res); + +#ifdef NO_BINARY_CLAUSES + if (res == &ps->impl) + resetimpl (ps); +#endif + return res; +} + +static int +trivial_clause (PS * ps) +{ + Lit **p, **q, *prev; + Var *v; + + SORT (Lit *, cmp_ptr, ps->added, ps->ahead - ps->added); + + prev = 0; + q = ps->added; + for (p = q; p < ps->ahead; p++) + { + Lit *this = *p; + + v = LIT2VAR (this); + + if (prev == this) /* skip repeated literals */ + continue; + + /* Top level satisfied ? + */ + if (this->val == TRUE && !v->level) + return 1; + + if (prev == NOTLIT (this))/* found pair of dual literals */ + return 1; + + *q++ = prev = this; + } + + ps->ahead = q; /* shrink */ + + return 0; +} + +static void +simplify_and_add_original_clause (PS * ps) +{ +#ifdef NO_BINARY_CLAUSES + Cls * c; +#endif + if (trivial_clause (ps)) + { + ps->ahead = ps->added; + + if (ps->ohead == ps->eoo) + ENLARGE (ps->oclauses, ps->ohead, ps->eoo); + + *ps->ohead++ = 0; + + ps->addedclauses++; + ps->oadded++; + } + else + { + if (ps->CLS != ps->clshead) + add_lit (ps, NOTLIT (ps->clshead[-1])); + +#ifdef NO_BINARY_CLAUSES + c = +#endif + add_simplified_clause (ps, 0); +#ifdef NO_BINARY_CLAUSES + if (c == &ps->impl) assert (!ps->implvalid); +#endif + } +} + +#ifndef NADC + +static void +add_ado (PS * ps) +{ + unsigned len = ps->ahead - ps->added; + Lit ** ado, ** p, ** q, *lit; + Var * v, * u; + +#ifdef TRACE + assert (!ps->trace); +#endif + + ABORTIF (ps->ados < ps->hados && llength (ps->ados[0]) != len, + "internal: non matching all different constraint object lengths"); + + if (ps->hados == ps->eados) + ENLARGE (ps->ados, ps->hados, ps->eados); + + NEWN (ado, len + 1); + *ps->hados++ = ado; + + p = ps->added; + q = ado; + u = 0; + while (p < ps->ahead) + { + lit = *p++; + v = LIT2VAR (lit); + ABORTIF (v->inado, + "internal: variable in multiple all different objects"); + v->inado = ado; + if (!u && !lit->val) + u = v; + *q++ = lit; + } + + assert (q == ado + len); + *q++ = 0; + + /* TODO simply do a conflict test as in propado */ + + ABORTIF (!u, + "internal: " + "adding fully instantiated all different object not implemented yet"); + + assert (u); + assert (u->inado == ado); + assert (!u->ado); + u->ado = ado; + + ps->ahead = ps->added; +} + +#endif + +static void +hdown (PS * ps, Rnk * r) +{ + unsigned end, rpos, cpos, opos; + Rnk *child, *other; + + assert (r->pos > 0); + assert (ps->heap[r->pos] == r); + + end = ps->hhead - ps->heap; + rpos = r->pos; + + for (;;) + { + cpos = 2 * rpos; + if (cpos >= end) + break; + + opos = cpos + 1; + child = ps->heap[cpos]; + + if (cmp_rnk (r, child) < 0) + { + if (opos < end) + { + other = ps->heap[opos]; + + if (cmp_rnk (child, other) < 0) + { + child = other; + cpos = opos; + } + } + } + else if (opos < end) + { + child = ps->heap[opos]; + + if (cmp_rnk (r, child) >= 0) + break; + + cpos = opos; + } + else + break; + + ps->heap[rpos] = child; + child->pos = rpos; + rpos = cpos; + } + + r->pos = rpos; + ps->heap[rpos] = r; +} + +static Rnk * +htop (PS * ps) +{ + assert (ps->hhead > ps->heap + 1); + return ps->heap[1]; +} + +static Rnk * +hpop (PS * ps) +{ + Rnk *res, *last; + unsigned end; + + assert (ps->hhead > ps->heap + 1); + + res = ps->heap[1]; + res->pos = 0; + + end = --ps->hhead - ps->heap; + if (end == 1) + return res; + + last = ps->heap[end]; + + ps->heap[last->pos = 1] = last; + hdown (ps, last); + + return res; +} + +inline static void +hpush (PS * ps, Rnk * r) +{ + assert (!r->pos); + + if (ps->hhead == ps->eoh) + ENLARGE (ps->heap, ps->hhead, ps->eoh); + + r->pos = ps->hhead++ - ps->heap; + ps->heap[r->pos] = r; + hup (ps, r); +} + +static void +fix_trail_lits (PS * ps, long delta) +{ + Lit **p; + for (p = ps->trail; p < ps->thead; p++) + *p += delta; +} + +#ifdef NO_BINARY_CLAUSES +static void +fix_impl_lits (PS * ps, long delta) +{ + Ltk * s; + Lit ** p; + + for (s = ps->impls + 2; s <= ps->impls + 2 * ps->max_var + 1; s++) + for (p = s->start; p < s->start + s->count; p++) + *p += delta; +} +#endif + +static void +fix_clause_lits (PS * ps, long delta) +{ + Cls **p, *clause; + Lit **q, *lit, **eol; + + for (p = SOC; p != EOC; p = NXC (p)) + { + clause = *p; + if (!clause) + continue; + + q = clause->lits; + eol = end_of_lits (clause); + while (q < eol) + { + assert (q - clause->lits <= (int) clause->size); + lit = *q; + lit += delta; + *q++ = lit; + } + } +} + +static void +fix_added_lits (PS * ps, long delta) +{ + Lit **p; + for (p = ps->added; p < ps->ahead; p++) + *p += delta; +} + +static void +fix_assumed_lits (PS * ps, long delta) +{ + Lit **p; + for (p = ps->als; p < ps->alshead; p++) + *p += delta; +} + +static void +fix_cls_lits (PS * ps, long delta) +{ + Lit **p; + for (p = ps->CLS; p < ps->clshead; p++) + *p += delta; +} + +static void +fix_heap_rnks (PS * ps, long delta) +{ + Rnk **p; + + for (p = ps->heap + 1; p < ps->hhead; p++) + *p += delta; +} + +#ifndef NADC + +static void +fix_ado (long delta, Lit ** ado) +{ + Lit ** p; + for (p = ado; *p; p++) + *p += delta; +} + +static void +fix_ados (PS * ps, long delta) +{ + Lit *** p; + + for (p = ps->ados; p < ps->hados; p++) + fix_ado (delta, *p); +} + +#endif + +static void +enlarge (PS * ps, unsigned new_size_vars) +{ + long rnks_delta, lits_delta; + Lit *old_lits = ps->lits; + Rnk *old_rnks = ps->rnks; + + RESIZEN (ps->lits, 2 * ps->size_vars, 2 * new_size_vars); + RESIZEN (ps->jwh, 2 * ps->size_vars, 2 * new_size_vars); + RESIZEN (ps->htps, 2 * ps->size_vars, 2 * new_size_vars); +#ifndef NDSC + RESIZEN (ps->dhtps, 2 * ps->size_vars, 2 * new_size_vars); +#endif + RESIZEN (ps->impls, 2 * ps->size_vars, 2 * new_size_vars); + RESIZEN (ps->vars, ps->size_vars, new_size_vars); + RESIZEN (ps->rnks, ps->size_vars, new_size_vars); + + if ((lits_delta = ps->lits - old_lits)) + { + fix_trail_lits (ps, lits_delta); + fix_clause_lits (ps, lits_delta); + fix_added_lits (ps, lits_delta); + fix_assumed_lits (ps, lits_delta); + fix_cls_lits (ps, lits_delta); +#ifdef NO_BINARY_CLAUSES + fix_impl_lits (ps, lits_delta); +#endif +#ifndef NADC + fix_ados (ps, lits_delta); +#endif + } + + if ((rnks_delta = ps->rnks - old_rnks)) + { + fix_heap_rnks (ps, rnks_delta); + } + + assert (ps->mhead == ps->marked); + + ps->size_vars = new_size_vars; +} + +static void +unassign (PS * ps, Lit * lit) +{ + Cls *reason; + Var *v; + Rnk *r; + + assert (lit->val == TRUE); + + LOG ( fprintf (ps->out, "%sunassign %d\n", ps->prefix, LIT2INT (lit))); + + v = LIT2VAR (lit); + reason = v->reason; + +#ifdef NO_BINARY_CLAUSES + assert (reason != &ps->impl); + if (ISLITREASON (reason)) + { + /* DO NOTHING */ + } + else +#endif + if (reason) + { + assert (reason->locked); + reason->locked = 0; + if (reason->learned && reason->size > 2) + { + assert (ps->llocked > 0); + ps->llocked--; + } + } + + lit->val = UNDEF; + NOTLIT (lit)->val = UNDEF; + + r = VAR2RNK (v); + if (!r->pos) + hpush (ps, r); + +#ifndef NDSC + { + Cls * p, * next, ** q; + + q = LIT2DHTPS (lit); + p = *q; + *q = 0; + + while (p) + { + Lit * other = p->lits[0]; + + if (other == lit) + { + other = p->lits[1]; + q = p->next + 1; + } + else + { + assert (p->lits[1] == lit); + q = p->next; + } + + next = *q; + *q = *LIT2HTPS (other); + *LIT2HTPS (other) = p; + p = next; + } + } +#endif + +#ifndef NADC + if (v->adotabpos) + { + assert (ps->nadotab); + assert (*v->adotabpos == v->ado); + + *v->adotabpos = 0; + v->adotabpos = 0; + + ps->nadotab--; + } +#endif +} + +static Cls * +var2reason (PS * ps, Var * var) +{ + Cls * res = var->reason; +#ifdef NO_BINARY_CLAUSES + Lit * this, * other; + if (ISLITREASON (res)) + { + this = VAR2LIT (var); + if (this->val == FALSE) + this = NOTLIT (this); + + other = REASON2LIT (res); + assert (other->val == TRUE); + assert (this->val == TRUE); + res = setimpl (ps, NOTLIT (other), this); + } +#else + (void) ps; +#endif + return res; +} + +static void +mark_clause_to_be_collected (Cls * c) +{ + assert (!c->collect); + c->collect = 1; +} + +static void +undo (PS * ps, unsigned new_level) +{ + Lit *lit; + Var *v; + + while (ps->thead > ps->trail) + { + lit = *--ps->thead; + v = LIT2VAR (lit); + if (v->level == new_level) + { + ps->thead++; /* fix pre decrement */ + break; + } + + unassign (ps, lit); + } + + ps->LEVEL = new_level; + ps->ttail = ps->thead; + ps->ttail2 = ps->thead; +#ifndef NADC + ps->ttailado = ps->thead; +#endif + +#ifdef NO_BINARY_CLAUSES + if (ps->conflict == &ps->cimpl) + resetcimpl (ps); +#endif +#ifndef NADC + if (ps->conflict && ps->conflict == ps->adoconflict) + resetadoconflict (ps); +#endif + ps->conflict = ps->mtcls; + if (ps->LEVEL < ps->adecidelevel) + { + assert (ps->als < ps->alshead); + ps->adecidelevel = 0; + ps->alstail = ps->als; + } + LOG ( fprintf (ps->out, "%sback to level %u\n", ps->prefix, ps->LEVEL)); +} + +#ifndef NDEBUG + +static int +clause_satisfied (Cls * c) +{ + Lit **p, **eol, *lit; + + eol = end_of_lits (c); + for (p = c->lits; p < eol; p++) + { + lit = *p; + if (lit->val == TRUE) + return 1; + } + + return 0; +} + +static void +original_clauses_satisfied (PS * ps) +{ + Cls **p, *c; + + for (p = ps->oclauses; p < ps->ohead; p++) + { + c = *p; + + if (!c) + continue; + + if (c->learned) + continue; + + assert (clause_satisfied (c)); + } +} + +static void +assumptions_satisfied (PS * ps) +{ + Lit *lit, ** p; + + for (p = ps->als; p < ps->alshead; p++) + { + lit = *p; + assert (lit->val == TRUE); + } +} + +#endif + +static void +sflush (PS * ps) +{ + double now = picosat_time_stamp (); + double delta = now - ps->entered; + delta = (delta < 0) ? 0 : delta; + ps->seconds += delta; + ps->entered = now; +} + +static double +mb (PS * ps) +{ + return ps->current_bytes / (double) (1 << 20); +} + +static double +avglevel (PS * ps) +{ + return ps->decisions ? ps->levelsum / ps->decisions : 0.0; +} + +static void +rheader (PS * ps) +{ + assert (ps->lastrheader <= ps->reports); + + if (ps->lastrheader == ps->reports) + return; + + ps->lastrheader = ps->reports; + + fprintf (ps->out, "%s\n", ps->prefix); + fprintf (ps->out, "%s %s\n", ps->prefix, ps->rline[0]); + fprintf (ps->out, "%s %s\n", ps->prefix, ps->rline[1]); + fprintf (ps->out, "%s\n", ps->prefix); +} + +static unsigned +dynamic_flips_per_assignment_per_mille (PS * ps) +{ + assert (FFLIPPEDPREC >= 1000); + return ps->sdflips / (FFLIPPEDPREC / 1000); +} + +#ifdef NLUBY + +static int +high_agility (PS * ps) +{ + return dynamic_flips_per_assignment_per_mille (ps) >= 200; +} + +static int +very_high_agility (PS * ps) +{ + return dynamic_flips_per_assignment_per_mille (ps) >= 250; +} + +#else + +static int +medium_agility (PS * ps) +{ + return dynamic_flips_per_assignment_per_mille (ps) >= 230; +} + +#endif + +static void +relemdata (PS * ps) +{ + char *p; + int x; + + if (ps->reports < 0) + { + /* strip trailing white space + */ + for (x = 0; x <= 1; x++) + { + p = ps->rline[x] + strlen (ps->rline[x]); + while (p-- > ps->rline[x]) + { + if (*p != ' ') + break; + + *p = 0; + } + } + + rheader (ps); + } + else + fputc ('\n', ps->out); + + ps->RCOUNT = 0; +} + +static void +relemhead (PS * ps, const char * name, int fp, double val) +{ + int x, y, len, size; + const char *fmt; + unsigned tmp, e; + + if (ps->reports < 0) + { + x = ps->RCOUNT & 1; + y = (ps->RCOUNT / 2) * 12 + x * 6; + + if (ps->RCOUNT == 1) + sprintf (ps->rline[1], "%6s", ""); + + len = strlen (name); + while (ps->szrline <= len + y + 1) + { + size = ps->szrline ? 2 * ps->szrline : 128; + ps->rline[0] = resize (ps, ps->rline[0], ps->szrline, size); + ps->rline[1] = resize (ps, ps->rline[1], ps->szrline, size); + ps->szrline = size; + } + + fmt = (len <= 6) ? "%6s%10s" : "%-10s%4s"; + sprintf (ps->rline[x] + y, fmt, name, ""); + } + else if (val < 0) + { + assert (fp); + + if (val > -100 && (tmp = val * 10.0 - 0.5) > -1000.0) + { + fprintf (ps->out, "-%4.1f ", -tmp / 10.0); + } + else + { + tmp = -val / 10.0 + 0.5; + e = 1; + while (tmp >= 100) + { + tmp /= 10; + e++; + } + + fprintf (ps->out, "-%2ue%u ", tmp, e); + } + } + else + { + if (fp && val < 1000 && (tmp = val * 10.0 + 0.5) < 10000) + { + fprintf (ps->out, "%5.1f ", tmp / 10.0); + } + else if (!fp && (tmp = val) < 100000) + { + fprintf (ps->out, "%5u ", tmp); + } + else + { + tmp = val / 10.0 + 0.5; + e = 1; + + while (tmp >= 1000) + { + tmp /= 10; + e++; + } + + fprintf (ps->out, "%3ue%u ", tmp, e); + } + } + + ps->RCOUNT++; +} + +inline static void +relem (PS * ps, const char *name, int fp, double val) +{ + if (name) + relemhead (ps, name, fp, val); + else + relemdata (ps); +} + +static unsigned +reduce_limit_on_lclauses (PS * ps) +{ + unsigned res = ps->lreduce; + res += ps->llocked; + return res; +} + +static void +report (PS * ps, int replevel, char type) +{ + int rounds; + +#ifdef RCODE + (void) type; +#endif + + if (ps->verbosity < replevel) + return; + + sflush (ps); + + if (!ps->reports) + ps->reports = -1; + + for (rounds = (ps->reports < 0) ? 2 : 1; rounds; rounds--) + { + if (ps->reports >= 0) + fprintf (ps->out, "%s%c ", ps->prefix, type); + + relem (ps, "seconds", 1, ps->seconds); + relem (ps, "level", 1, avglevel (ps)); + assert (ps->fixed <= ps->max_var); + relem (ps, "variables", 0, ps->max_var - ps->fixed); + relem (ps, "used", 1, PERCENT (ps->vused, ps->max_var)); + relem (ps, "original", 0, ps->noclauses); + relem (ps, "conflicts", 0, ps->conflicts); + // relem (ps, "decisions", 0, ps->decisions); + // relem (ps, "conf/dec", 1, PERCENT(ps->conflicts,ps->decisions)); + // relem (ps, "limit", 0, reduce_limit_on_lclauses (ps)); + relem (ps, "learned", 0, ps->nlclauses); + // relem (ps, "limit", 1, PERCENT (ps->nlclauses, reduce_limit_on_lclauses (ps))); + relem (ps, "limit", 0, ps->lreduce); +#ifdef STATS + relem (ps, "learning", 1, PERCENT (ps->llused, ps->lladded)); +#endif + relem (ps, "agility", 1, dynamic_flips_per_assignment_per_mille (ps) / 10.0); + // relem (ps, "original", 0, ps->noclauses); + relem (ps, "MB", 1, mb (ps)); + // relem (ps, "lladded", 0, ps->lladded); + // relem (ps, "llused", 0, ps->llused); + + relem (ps, 0, 0, 0); + + ps->reports++; + } + + /* Adapt this to the number of rows in your terminal. + */ + #define ROWS 25 + + if (ps->reports % (ROWS - 3) == (ROWS - 4)) + rheader (ps); + + fflush (ps->out); +} + +static int +bcp_queue_is_empty (PS * ps) +{ + if (ps->ttail != ps->thead) + return 0; + + if (ps->ttail2 != ps->thead) + return 0; + +#ifndef NADC + if (ps->ttailado != ps->thead) + return 0; +#endif + + return 1; +} + +static int +satisfied (PS * ps) +{ + assert (!ps->mtcls); + assert (!ps->failed_assumption); + if (ps->alstail < ps->alshead) + return 0; + assert (!ps->conflict); + assert (bcp_queue_is_empty (ps)); + return ps->thead == ps->trail + ps->max_var; /* all assigned */ +} + +static void +vrescore (PS * ps) +{ + Rnk *p, *eor = ps->rnks + ps->max_var; + for (p = ps->rnks + 1; p <= eor; p++) + if (p->score != INFFLT) + p->score = mulflt (p->score, ps->ilvinc); + ps->vinc = mulflt (ps->vinc, ps->ilvinc);; +#ifdef VISCORES + ps->nvinc = mulflt (ps->nvinc, ps->lscore);; +#endif +} + +static void +inc_score (PS * ps, Var * v) +{ + Flt score; + Rnk *r; + +#ifndef NFL + if (ps->simplifying) + return; +#endif + + if (!v->level) + return; + + if (v->internal) + return; + + r = VAR2RNK (v); + score = r->score; + + assert (score != INFFLT); + + score = addflt (score, ps->vinc); + assert (score < INFFLT); + r->score = score; + if (r->pos > 0) + hup (ps, r); + + if (score > ps->lscore) + vrescore (ps); +} + +static void +inc_activity (PS * ps, Cls * c) +{ + Act *p; + + if (!c->learned) + return; + + if (c->size <= 2) + return; + + p = CLS2ACT (c); + *p = addflt (*p, ps->cinc); +} + +static unsigned +hashlevel (unsigned l) +{ + return 1u << (l & 31); +} + +static void +push (PS * ps, Var * v) +{ + if (ps->dhead == ps->eod) + ENLARGE (ps->dfs, ps->dhead, ps->eod); + + *ps->dhead++ = v; +} + +static Var * +pop (PS * ps) +{ + assert (ps->dfs < ps->dhead); + return *--ps->dhead; +} + +static void +analyze (PS * ps) +{ + unsigned open, minlevel, siglevels, l, old, i, orig; + Lit *this, *other, **p, **q, **eol; + Var *v, *u, **m, *start, *uip; + Cls *c; + + assert (ps->conflict); + + assert (ps->ahead == ps->added); + assert (ps->mhead == ps->marked); + assert (ps->rhead == ps->resolved); + + /* First, search for First UIP variable and mark all resolved variables. + * At the same time determine the minimum decision level involved. + * Increase activities of resolved variables. + */ + q = ps->thead; + open = 0; + minlevel = ps->LEVEL; + siglevels = 0; + uip = 0; + + c = ps->conflict; + + for (;;) + { + add_antecedent (ps, c); + inc_activity (ps, c); + eol = end_of_lits (c); + for (p = c->lits; p < eol; p++) + { + other = *p; + + if (other->val == TRUE) + continue; + + assert (other->val == FALSE); + + u = LIT2VAR (other); + if (u->mark) + continue; + + u->mark = 1; + inc_score (ps, u); + use_var (ps, u); + + if (u->level == ps->LEVEL) + { + open++; + } + else + { + push_var_as_marked (ps, u); + + if (u->level) + { + /* The statistics counter 'nonminimizedllits' sums up the + * number of literals that would be added if only the + * 'first UIP' scheme for learned clauses would be used + * and no clause minimization. + */ + ps->nonminimizedllits++; + + if (u->level < minlevel) + minlevel = u->level; + + siglevels |= hashlevel (u->level); + } + else + { + assert (!u->level); + assert (u->reason); + } + } + } + + do + { + if (q == ps->trail) + { + uip = 0; + goto DONE_FIRST_UIP; + } + + this = *--q; + uip = LIT2VAR (this); + } + while (!uip->mark); + + uip->mark = 0; + + c = var2reason (ps, uip); +#ifdef NO_BINARY_CLAUSES + if (c == &ps->impl) + resetimpl (ps); +#endif + open--; + if ((!open && ps->LEVEL) || !c) + break; + + assert (c); + } + +DONE_FIRST_UIP: + + if (uip) + { + assert (ps->LEVEL); + this = VAR2LIT (uip); + this += (this->val == TRUE); + ps->nonminimizedllits++; + ps->minimizedllits++; + add_lit (ps, this); +#ifdef STATS + if (uip->reason) + ps->uips++; +#endif + } + else + assert (!ps->LEVEL); + + /* Second, try to mark more intermediate variables, with the goal to + * minimize the conflict clause. This is a DFS from already marked + * variables backward through the implication graph. It tries to reach + * other marked variables. If the search reaches an unmarked decision + * variable or a variable assigned below the minimum level of variables in + * the first uip learned clause or a level on which no variable has been + * marked, then the variable from which the DFS is started is not + * redundant. Otherwise the start variable is redundant and will + * eventually be removed from the learned clause in step 4. We initially + * implemented BFS, but then profiling revelead that this step is a bottle + * neck for certain incremental applications. After switching to DFS this + * hot spot went away. + */ + orig = ps->mhead - ps->marked; + for (i = 0; i < orig; i++) + { + start = ps->marked[i]; + + assert (start->mark); + assert (start != uip); + assert (start->level < ps->LEVEL); + + if (!start->reason) + continue; + + old = ps->mhead - ps->marked; + assert (ps->dhead == ps->dfs); + push (ps, start); + + while (ps->dhead > ps->dfs) + { + u = pop (ps); + assert (u->mark); + + c = var2reason (ps, u); +#ifdef NO_BINARY_CLAUSES + if (c == &ps->impl) + resetimpl (ps); +#endif + if (!c || + ((l = u->level) && + (l < minlevel || ((hashlevel (l) & ~siglevels))))) + { + while (ps->mhead > ps->marked + old) /* reset all marked */ + (*--ps->mhead)->mark = 0; + + ps->dhead = ps->dfs; /* and DFS stack */ + break; + } + + eol = end_of_lits (c); + for (p = c->lits; p < eol; p++) + { + v = LIT2VAR (*p); + if (v->mark) + continue; + + mark_var (ps, v); + push (ps, v); + } + } + } + + for (m = ps->marked; m < ps->mhead; m++) + { + v = *m; + + assert (v->mark); + assert (!v->resolved); + + use_var (ps, v); + + c = var2reason (ps, v); + if (!c) + continue; + +#ifdef NO_BINARY_CLAUSES + if (c == &ps->impl) + resetimpl (ps); +#endif + eol = end_of_lits (c); + for (p = c->lits; p < eol; p++) + { + other = *p; + + u = LIT2VAR (other); + if (!u->level) + continue; + + if (!u->mark) /* 'MARKTEST' */ + break; + } + + if (p != eol) + continue; + + add_antecedent (ps, c); + v->resolved = 1; + } + + for (m = ps->marked; m < ps->mhead; m++) + { + v = *m; + + assert (v->mark); + v->mark = 0; + + if (v->resolved) + { + v->resolved = 0; + continue; + } + + this = VAR2LIT (v); + if (this->val == TRUE) + this++; /* actually NOTLIT */ + + add_lit (ps, this); + ps->minimizedllits++; + } + + assert (ps->ahead <= ps->eoa); + assert (ps->rhead <= ps->eor); + + ps->mhead = ps->marked; +} + +static void +fanalyze (PS * ps) +{ + Lit ** eol, ** p, * lit; + Cls * c, * reason; + Var * v, * u; + int next; + +#ifndef RCODE + double start = picosat_time_stamp (); +#endif + + assert (ps->failed_assumption); + assert (ps->failed_assumption->val == FALSE); + + v = LIT2VAR (ps->failed_assumption); + reason = var2reason (ps, v); + if (!reason) return; +#ifdef NO_BINARY_CLAUSES + if (reason == &ps->impl) + resetimpl (ps); +#endif + + eol = end_of_lits (reason); + for (p = reason->lits; p != eol; p++) + { + lit = *p; + u = LIT2VAR (lit); + if (u == v) continue; + if (u->reason) break; + } + if (p == eol) return; + + assert (ps->ahead == ps->added); + assert (ps->mhead == ps->marked); + assert (ps->rhead == ps->resolved); + + next = 0; + mark_var (ps, v); + add_lit (ps, NOTLIT (ps->failed_assumption)); + + do + { + v = ps->marked[next++]; + use_var (ps, v); + if (v->reason) + { + reason = var2reason (ps, v); +#ifdef NO_BINARY_CLAUSES + if (reason == &ps->impl) + resetimpl (ps); +#endif + add_antecedent (ps, reason); + eol = end_of_lits (reason); + for (p = reason->lits; p != eol; p++) + { + lit = *p; + u = LIT2VAR (lit); + if (u == v) continue; + if (u->mark) continue; + mark_var (ps, u); + } + } + else + { + lit = VAR2LIT (v); + if (lit->val == TRUE) lit = NOTLIT (lit); + add_lit (ps, lit); + } + } + while (ps->marked + next < ps->mhead); + + c = add_simplified_clause (ps, 1); + v = LIT2VAR (ps->failed_assumption); + reason = v->reason; +#ifdef NO_BINARY_CLAUSES + if (!ISLITREASON (reason)) +#endif + { + assert (reason->locked); + reason->locked = 0; + if (reason->learned && reason->size > 2) + { + assert (ps->llocked > 0); + ps->llocked--; + } + } + +#ifdef NO_BINARY_CLAUSES + if (c == &ps->impl) + { + c = impl2reason (ps, NOTLIT (ps->failed_assumption)); + } + else +#endif + { + assert (c->learned); + assert (!c->locked); + c->locked = 1; + if (c->size > 2) + { + ps->llocked++; + assert (ps->llocked > 0); + } + } + + v->reason = c; + + while (ps->mhead > ps->marked) + (*--ps->mhead)->mark = 0; + + if (ps->verbosity) + fprintf (ps->out, "%sfanalyze took %.1f seconds\n", + ps->prefix, picosat_time_stamp () - start); +} + +/* Propagate assignment of 'this' to 'FALSE' by visiting all binary clauses in + * which 'this' occurs. + */ +inline static void +prop2 (PS * ps, Lit * this) +{ +#ifdef NO_BINARY_CLAUSES + Lit ** l, ** start; + Ltk * lstk; +#else + Cls * c, ** p; + Cls * next; +#endif + Lit * other; + Val tmp; + + assert (this->val == FALSE); + +#ifdef NO_BINARY_CLAUSES + lstk = LIT2IMPLS (this); + start = lstk->start; + l = start + lstk->count; + while (l != start) + { + /* The counter 'visits' is the number of clauses that are + * visited during propagations of assignments. + */ + ps->visits++; +#ifdef STATS + ps->bvisits++; +#endif + other = *--l; + tmp = other->val; + + if (tmp == TRUE) + { +#ifdef STATS + ps->othertrue++; + ps->othertrue2++; + if (LIT2VAR (other)->level < ps->LEVEL) + ps->othertrue2u++; +#endif + continue; + } + + if (tmp != FALSE) + { + assign_forced (ps, other, LIT2REASON (NOTLIT(this))); + continue; + } + + if (ps->conflict == &ps->cimpl) + resetcimpl (ps); + ps->conflict = setcimpl (ps, this, other); + } +#else + /* Traverse all binary clauses with 'this'. Head/Tail pointers for binary + * clauses do not have to be modified here. + */ + p = LIT2IMPLS (this); + for (c = *p; c; c = next) + { + ps->visits++; +#ifdef STATS + ps->bvisits++; +#endif + assert (!c->collect); +#ifdef TRACE + assert (!c->collected); +#endif + assert (c->size == 2); + + other = c->lits[0]; + if (other == this) + { + next = c->next[0]; + other = c->lits[1]; + } + else + next = c->next[1]; + + tmp = other->val; + + if (tmp == TRUE) + { +#ifdef STATS + ps->othertrue++; + ps->othertrue2++; + if (LIT2VAR (other)->level < ps->LEVEL) + ps->othertrue2u++; +#endif + continue; + } + + if (tmp == FALSE) + ps->conflict = c; + else + assign_forced (ps, other, c); /* unit clause */ + } +#endif /* !defined(NO_BINARY_CLAUSES) */ +} + +#ifndef NDSC +static int +should_disconnect_head_tail (PS * ps, Lit * lit) +{ + unsigned litlevel; + Var * v; + + assert (lit->val == TRUE); + + v = LIT2VAR (lit); + litlevel = v->level; + + if (!litlevel) + return 1; + +#ifndef NFL + if (ps->simplifying) + return 0; +#endif + + return litlevel < ps->LEVEL; +} +#endif + +inline static void +propl (PS * ps, Lit * this) +{ + Lit **l, *other, *prev, *new_lit, **eol; + Cls *next, **htp_ptr, **new_htp_ptr; + Cls *c; +#ifdef STATS + unsigned size; +#endif + + htp_ptr = LIT2HTPS (this); + assert (this->val == FALSE); + + /* Traverse all non binary clauses with 'this'. Head/Tail pointers are + * updated as well. + */ + for (c = *htp_ptr; c; c = next) + { + ps->visits++; +#ifdef STATS + size = c->size; + assert (size >= 3); + ps->traversals++; /* other is dereferenced at least */ + + if (size == 3) + ps->tvisits++; + else if (size >= 4) + { + ps->lvisits++; + ps->ltraversals++; + } +#endif +#ifdef TRACE + assert (!c->collected); +#endif + assert (c->size > 0); + + other = c->lits[0]; + if (other != this) + { + assert (c->size != 1); + c->lits[0] = this; + c->lits[1] = other; + next = c->next[1]; + c->next[1] = c->next[0]; + c->next[0] = next; + } + else if (c->size == 1) /* With assumptions we need to + * traverse unit clauses as well. + */ + { + assert (!ps->conflict); + ps->conflict = c; + break; + } + else + { + assert (other == this && c->size > 1); + other = c->lits[1]; + next = c->next[0]; + } + assert (other == c->lits[1]); + assert (this == c->lits[0]); + assert (next == c->next[0]); + assert (!c->collect); + + if (other->val == TRUE) + { +#ifdef STATS + ps->othertrue++; + ps->othertruel++; +#endif +#ifndef NDSC + if (should_disconnect_head_tail (ps, other)) + { + new_htp_ptr = LIT2DHTPS (other); + c->next[0] = *new_htp_ptr; + *new_htp_ptr = c; +#ifdef STATS + ps->othertruelu++; +#endif + *htp_ptr = next; + continue; + } +#endif + htp_ptr = c->next; + continue; + } + + l = c->lits + 1; + eol = (Lit**) c->lits + c->size; + prev = this; + + while (++l != eol) + { +#ifdef STATS + if (size >= 3) + { + ps->traversals++; + if (size > 3) + ps->ltraversals++; + } +#endif + new_lit = *l; + *l = prev; + prev = new_lit; + if (new_lit->val != FALSE) break; + } + + if (l == eol) + { + while (l > c->lits + 2) + { + new_lit = *--l; + *l = prev; + prev = new_lit; + } + assert (c->lits[0] == this); + + assert (other == c->lits[1]); + if (other->val == FALSE) /* found conflict */ + { + assert (!ps->conflict); + ps->conflict = c; + return; + } + + assign_forced (ps, other, c); /* unit clause */ + htp_ptr = c->next; + } + else + { + assert (new_lit->val == TRUE || new_lit->val == UNDEF); + c->lits[0] = new_lit; + // *l = this; + new_htp_ptr = LIT2HTPS (new_lit); + c->next[0] = *new_htp_ptr; + *new_htp_ptr = c; + *htp_ptr = next; + } + } +} + +#ifndef NADC + +static unsigned primes[] = { 996293, 330643, 753947, 500873 }; + +#define PRIMES ((sizeof primes)/sizeof *primes) + +static unsigned +hash_ado (PS * ps, Lit ** ado, unsigned salt) +{ + unsigned i, res, tmp; + Lit ** p, * lit; + + assert (salt < PRIMES); + + i = salt; + res = 0; + + for (p = ado; (lit = *p); p++) + { + assert (lit->val); + + tmp = res >> 31; + res <<= 1; + + if (lit->val > 0) + res |= 1; + + assert (i < PRIMES); + res *= primes[i++]; + if (i == PRIMES) + i = 0; + + res += tmp; + } + + return res & (ps->szadotab - 1); +} + +static unsigned +cmp_ado (Lit ** a, Lit ** b) +{ + Lit ** p, ** q, * l, * k; + int res; + + for (p = a, q = b; (l = *p); p++, q++) + { + k = *q; + assert (k); + if ((res = (l->val - k->val))) + return res; + } + + assert (!*q); + + return 0; +} + +static Lit *** +find_ado (PS * ps, Lit ** ado) +{ + Lit *** res, ** other; + unsigned pos, delta; + + pos = hash_ado (ps, ado, 0); + assert (pos < ps->szadotab); + res = ps->adotab + pos; + + other = *res; + if (!other || !cmp_ado (other, ado)) + return res; + + delta = hash_ado (ps, ado, 1); + if (!(delta & 1)) + delta++; + + assert (delta & 1); + assert (delta < ps->szadotab); + + for (;;) + { + pos += delta; + if (pos >= ps->szadotab) + pos -= ps->szadotab; + + assert (pos < ps->szadotab); + res = ps->adotab + pos; + other = *res; + if (!other || !cmp_ado (other, ado)) + return res; + } +} + +static void +enlarge_adotab (PS * ps) +{ + /* TODO make this generic */ + + ABORTIF (ps->szadotab, + "internal: all different objects table needs larger initial size"); + assert (!ps->nadotab); + ps->szadotab = 10000; + NEWN (ps->adotab, ps->szadotab); + CLRN (ps->adotab, ps->szadotab); +} + +static int +propado (PS * ps, Var * v) +{ + Lit ** p, ** q, *** adotabpos, **ado, * lit; + Var * u; + + if (ps->LEVEL && ps->adodisabled) + return 1; + + assert (!ps->conflict); + assert (!ps->adoconflict); + assert (VAR2LIT (v)->val != UNDEF); + assert (!v->adotabpos); + + if (!v->ado) + return 1; + + assert (v->inado); + + for (p = v->ado; (lit = *p); p++) + if (lit->val == UNDEF) + { + u = LIT2VAR (lit); + assert (!u->ado); + u->ado = v->ado; + v->ado = 0; + + return 1; + } + + if (4 * ps->nadotab >= 3 * ps->szadotab) /* at least 75% filled */ + enlarge_adotab (ps); + + adotabpos = find_ado (ps, v->ado); + ado = *adotabpos; + + if (!ado) + { + ps->nadotab++; + v->adotabpos = adotabpos; + *adotabpos = v->ado; + return 1; + } + + assert (ado != v->ado); + + ps->adoconflict = new_clause (ps, 2 * llength (ado), 1); + q = ps->adoconflict->lits; + + for (p = ado; (lit = *p); p++) + *q++ = lit->val == FALSE ? lit : NOTLIT (lit); + + for (p = v->ado; (lit = *p); p++) + *q++ = lit->val == FALSE ? lit : NOTLIT (lit); + + assert (q == ENDOFCLS (ps->adoconflict)); + ps->conflict = ps->adoconflict; + ps->adoconflicts++; + return 0; +} + +#endif + +static void +bcp (PS * ps) +{ + int props = 0; + assert (!ps->conflict); + + if (ps->mtcls) + return; + + for (;;) + { + if (ps->ttail2 < ps->thead) /* prioritize implications */ + { + props++; + prop2 (ps, NOTLIT (*ps->ttail2++)); + } + else if (ps->ttail < ps->thead) /* unit clauses or clauses with length > 2 */ + { + if (ps->conflict) break; + propl (ps, NOTLIT (*ps->ttail++)); + if (ps->conflict) break; + } +#ifndef NADC + else if (ps->ttailado < ps->thead) + { + if (ps->conflict) break; + propado (ps, LIT2VAR (*ps->ttailado++)); + if (ps->conflict) break; + } +#endif + else + break; /* all assignments propagated, so break */ + } + + ps->propagations += props; +} + +static unsigned +drive (PS * ps) +{ + unsigned res, vlevel; + Lit **p; + Var *v; + + res = 0; + for (p = ps->added; p < ps->ahead; p++) + { + v = LIT2VAR (*p); + vlevel = v->level; + assert (vlevel <= ps->LEVEL); + if (vlevel < ps->LEVEL && vlevel > res) + res = vlevel; + } + + return res; +} + +#ifdef VISCORES + +static void +viscores (PS * ps) +{ + Rnk *p, *eor = ps->rnks + ps->max_var; + char name[100], cmd[200]; + FILE * data; + Flt s; + int i; + + for (p = ps->rnks + 1; p <= ps->eor; p++) + { + s = p->score; + if (s == INFFLT) + continue; + s = mulflt (s, ps->nvinc); + assert (flt2double (s) <= 1.0); + } + + sprintf (name, "/tmp/picosat-viscores/data/%08u", ps->conflicts); + sprintf (cmd, "sort -n|nl>%s", name); + + data = popen (cmd, "w"); + for (p = ps->rnks + 1; p <= ps->eor; p++) + { + s = p->score; + if (s == INFFLT) + continue; + s = mulflt (s, ps->nvinc); + fprintf (data, "%lf %d\n", 100.0 * flt2double (s), (int)(p - ps->rnks)); + } + fflush (data); + pclose (data); + + for (i = 0; i < 8; i++) + { + sprintf (cmd, "awk '$3%%8==%d' %s>%s.%d", i, name, name, i); + system (cmd); + } + + fprintf (ps->fviscores, "set title \"%u\"\n", ps->conflicts); + fprintf (ps->fviscores, "plot [0:%u] 0, 100 * (1 - 1/1.1), 100", ps->max_var); + + for (i = 0; i < 8; i++) + fprintf (ps->fviscores, + ", \"%s.%d\" using 1:2:3 with labels tc lt %d", + name, i, i + 1); + + fputc ('\n', ps->fviscores); + fflush (ps->fviscores); +#ifndef WRITEGIF + usleep (50000); /* refresh rate of 20 Hz */ +#endif +} + +#endif + +static void +crescore (PS * ps) +{ + Cls **p, *c; + Act *a; + Flt factor; + int l = log2flt (ps->cinc); + assert (l > 0); + factor = base2flt (1, -l); + + for (p = ps->lclauses; p != ps->lhead; p++) + { + c = *p; + + if (!c) + continue; + +#ifdef TRACE + if (c->collected) + continue; +#endif + assert (c->learned); + + if (c->size <= 2) + continue; + + a = CLS2ACT (c); + *a = mulflt (*a, factor); + } + + ps->cinc = mulflt (ps->cinc, factor); +} + +static void +inc_vinc (PS * ps) +{ +#ifdef VISCORES + ps->nvinc = mulflt (ps->nvinc, ps->fvinc); +#endif + ps->vinc = mulflt (ps->vinc, ps->ifvinc); +} + +inline static void +inc_max_var (PS * ps) +{ + Lit *lit; + Rnk *r; + Var *v; + + assert (ps->max_var < ps->size_vars); + + if (ps->max_var + 1 == ps->size_vars) + enlarge (ps, ps->size_vars + 2*(ps->size_vars + 3) / 4); /* +25% */ + + ps->max_var++; /* new index of variable */ + assert (ps->max_var); /* no unsigned overflow */ + + assert (ps->max_var < ps->size_vars); + + lit = ps->lits + 2 * ps->max_var; + lit[0].val = lit[1].val = UNDEF; + + memset (ps->htps + 2 * ps->max_var, 0, 2 * sizeof *ps->htps); +#ifndef NDSC + memset (ps->dhtps + 2 * ps->max_var, 0, 2 * sizeof *ps->dhtps); +#endif + memset (ps->impls + 2 * ps->max_var, 0, 2 * sizeof *ps->impls); + memset (ps->jwh + 2 * ps->max_var, 0, 2 * sizeof *ps->jwh); + + v = ps->vars + ps->max_var; /* initialize variable components */ + CLR (v); + + r = ps->rnks + ps->max_var; /* initialize rank */ + CLR (r); + + hpush (ps, r); +} + +static void +force (PS * ps, Cls * c) +{ + Lit ** p, ** eol, * lit, * forced; + Cls * reason; + + forced = 0; + reason = c; + + eol = end_of_lits (c); + for (p = c->lits; p < eol; p++) + { + lit = *p; + if (lit->val == UNDEF) + { + assert (!forced); + forced = lit; +#ifdef NO_BINARY_CLAUSES + if (c == &ps->impl) + reason = LIT2REASON (NOTLIT (p[p == c->lits ? 1 : -1])); +#endif + } + else + assert (lit->val == FALSE); + } + +#ifdef NO_BINARY_CLAUSES + if (c == &ps->impl) + resetimpl (ps); +#endif + if (!forced) + return; + + assign_forced (ps, forced, reason); +} + +static void +inc_lreduce (PS * ps) +{ +#ifdef STATS + ps->inclreduces++; +#endif + ps->lreduce *= FREDUCE; + ps->lreduce /= 100; + report (ps, 1, '+'); +} + +static void +backtrack (PS * ps) +{ + unsigned new_level; + Cls * c; + + ps->conflicts++; + LOG ( fprintf (ps->out, "%sconflict ", ps->prefix); dumpclsnl (ps, ps->conflict)); + + analyze (ps); + new_level = drive (ps); + // TODO: why not? assert (new_level != 1 || (ps->ahead - ps->added) == 2); + c = add_simplified_clause (ps, 1); + undo (ps, new_level); + force (ps, c); + + if ( +#ifndef NFL + !ps->simplifying && +#endif + !--ps->lreduceadjustcnt) + { + /* With FREDUCE==110 and FREDADJ=121 we stir 'lreduce' to be + * proportional to 'sqrt(conflicts)'. In earlier version we actually + * used 'FREDADJ=150', which results in 'lreduce' to approximate + * 'conflicts^(log(1.1)/log(1.5))' which is close to the fourth root + * of 'conflicts', since log(1.1)/log(1.5)=0.235 (as observed by + * Donald Knuth). The square root is the same we get by a Glucose + * style increase, which simply adds a constant at every reduction. + * This would be way simpler to implement but for now we keep the more + * complicated code using the adjust increments and counters. + */ + ps->lreduceadjustinc *= FREDADJ; ps->lreduceadjustinc /= 100; ps->lreduceadjustcnt + = ps->lreduceadjustinc; + inc_lreduce (ps); + } + + if (ps->verbosity >= 4 && !(ps->conflicts % 1000)) + report (ps, 4, 'C'); +} + +static void +inc_cinc (PS * ps) +{ + ps->cinc = mulflt (ps->cinc, ps->fcinc); + if (ps->lcinc < ps->cinc) + crescore (ps); +} + +static void +incincs (PS * ps) +{ + inc_vinc (ps); + inc_cinc (ps); +#ifdef VISCORES + viscores (ps); +#endif +} + +static void +disconnect_clause (PS * ps, Cls * c) +{ + assert (c->connected); + + if (c->size > 2) + { + if (c->learned) + { + assert (ps->nlclauses > 0); + ps->nlclauses--; + + assert (ps->llits >= c->size); + ps->llits -= c->size; + } + else + { + assert (ps->noclauses > 0); + ps->noclauses--; + + assert (ps->olits >= c->size); + ps->olits -= c->size; + } + } + +#ifndef NDEBUG + c->connected = 0; +#endif +} + +static int +clause_is_toplevel_satisfied (PS * ps, Cls * c) +{ + Lit *lit, **p, **eol = end_of_lits (c); + Var *v; + + for (p = c->lits; p < eol; p++) + { + lit = *p; + if (lit->val == TRUE) + { + v = LIT2VAR (lit); + if (!v->level) + return 1; + } + } + + return 0; +} + +static int +collect_clause (PS * ps, Cls * c) +{ + assert (c->collect); + c->collect = 0; + +#ifdef TRACE + assert (!c->collected); + c->collected = 1; +#endif + disconnect_clause (ps, c); + +#ifdef TRACE + if (ps->trace && (!c->learned || c->used)) + return 0; +#endif + delete_clause (ps, c); + + return 1; +} + +static size_t +collect_clauses (PS * ps) +{ + Cls *c, **p, **q, * next; + Lit * lit, * eol; + size_t res; + int i; + + res = ps->current_bytes; + + eol = ps->lits + 2 * ps->max_var + 1; + for (lit = ps->lits + 2; lit <= eol; lit++) + { + for (i = 0; i <= 1; i++) + { + if (i) + { +#ifdef NO_BINARY_CLAUSES + Ltk * lstk = LIT2IMPLS (lit); + Lit ** r, ** s; + r = lstk->start; + if (lit->val != TRUE || LIT2VAR (lit)->level) + for (s = r; s < lstk->start + lstk->count; s++) + { + Lit * other = *s; + Var *v = LIT2VAR (other); + if (v->level || + other->val != TRUE) + *r++ = other; + } + lstk->count = r - lstk->start; + continue; +#else + p = LIT2IMPLS (lit); +#endif + } + else + p = LIT2HTPS (lit); + + for (c = *p; c; c = next) + { + q = c->next; + if (c->lits[0] != lit) + q++; + + next = *q; + if (c->collect) + *p = next; + else + p = q; + } + } + } + +#ifndef NDSC + for (lit = ps->lits + 2; lit <= eol; lit++) + { + p = LIT2DHTPS (lit); + while ((c = *p)) + { + Lit * other = c->lits[0]; + if (other == lit) + { + q = c->next + 1; + } + else + { + assert (c->lits[1] == lit); + q = c->next; + } + + if (c->collect) + *p = *q; + else + p = q; + } + } +#endif + + for (p = SOC; p != EOC; p = NXC (p)) + { + c = *p; + + if (!c) + continue; + + if (!c->collect) + continue; + + if (collect_clause (ps, c)) + *p = 0; + } + +#ifdef TRACE + if (!ps->trace) +#endif + { + q = ps->oclauses; + for (p = q; p < ps->ohead; p++) + if ((c = *p)) + *q++ = c; + ps->ohead = q; + + q = ps->lclauses; + for (p = q; p < ps->lhead; p++) + if ((c = *p)) + *q++ = c; + ps->lhead = q; + } + + assert (ps->current_bytes <= res); + res -= ps->current_bytes; + ps->recycled += res; + + LOG ( fprintf (ps->out, "%scollected %ld bytes\n", ps->prefix, (long)res)); + + return res; +} + +static int +need_to_reduce (PS * ps) +{ + return ps->nlclauses >= reduce_limit_on_lclauses (ps); +} + +#ifdef NLUBY + +static void +inc_drestart (PS * ps) +{ + ps->drestart *= FRESTART; + ps->drestart /= 100; + + if (ps->drestart >= MAXRESTART) + ps->drestart = MAXRESTART; +} + +static void +inc_ddrestart (PS * ps) +{ + ps->ddrestart *= FRESTART; + ps->ddrestart /= 100; + + if (ps->ddrestart >= MAXRESTART) + ps->ddrestart = MAXRESTART; +} + +#else + +static unsigned +luby (unsigned i) +{ + unsigned k; + for (k = 1; k < 32; k++) + if (i == (1u << k) - 1) + return 1u << (k - 1); + + for (k = 1;; k++) + if ((1u << (k - 1)) <= i && i < (1u << k) - 1) + return luby (i - (1u << (k-1)) + 1); +} + +#endif + +#ifndef NLUBY +static void +inc_lrestart (PS * ps, int skip) +{ + unsigned delta; + + delta = 100 * luby (++ps->lubycnt); + ps->lrestart = ps->conflicts + delta; + + if (ps->waslubymaxdelta) + report (ps, 1, skip ? 'N' : 'R'); + else + report (ps, 2, skip ? 'n' : 'r'); + + if (delta > ps->lubymaxdelta) + { + ps->lubymaxdelta = delta; + ps->waslubymaxdelta = 1; + } + else + ps->waslubymaxdelta = 0; +} +#endif + +static void +init_restart (PS * ps) +{ +#ifdef NLUBY + /* TODO: why is it better in incremental usage to have smaller initial + * outer restart interval? + */ + ps->ddrestart = ps->calls > 1 ? MINRESTART : 1000; + ps->drestart = MINRESTART; + ps->lrestart = ps->conflicts + ps->drestart; +#else + ps->lubycnt = 0; + ps->lubymaxdelta = 0; + ps->waslubymaxdelta = 0; + inc_lrestart (ps, 0); +#endif +} + +static void +restart (PS * ps) +{ + int skip; +#ifdef NLUBY + char kind; + int outer; + + inc_drestart (ps); + outer = (ps->drestart >= ps->ddrestart); + + if (outer) + skip = very_high_agility (ps); + else + skip = high_agility (ps); +#else + skip = medium_agility (ps); +#endif + +#ifdef STATS + if (skip) + ps->skippedrestarts++; +#endif + + assert (ps->conflicts >= ps->lrestart); + + if (!skip) + { + ps->restarts++; + assert (ps->LEVEL > 1); + LOG ( fprintf (ps->out, "%srestart %u\n", ps->prefix, ps->restarts)); + undo (ps, 0); + } + +#ifdef NLUBY + if (outer) + { + kind = skip ? 'N' : 'R'; + inc_ddrestart (ps); + ps->drestart = MINRESTART; + } + else if (skip) + { + kind = 'n'; + } + else + { + kind = 'r'; + } + + assert (ps->drestart <= MAXRESTART); + ps->lrestart = ps->conflicts + ps->drestart; + assert (ps->lrestart > ps->conflicts); + + report (outer ? 1 : 2, kind); +#else + inc_lrestart (ps, skip); +#endif +} + +inline static void +assign_decision (PS * ps, Lit * lit) +{ + assert (!ps->conflict); + + ps->LEVEL++; + + LOG ( fprintf (ps->out, "%snew level %u\n", ps->prefix, ps->LEVEL)); + LOG ( fprintf (ps->out, + "%sassign %d at level %d <= DECISION\n", + ps->prefix, LIT2INT (lit), ps->LEVEL)); + + assign (ps, lit, 0); +} + +#ifndef NFL + +static int +lit_has_binary_clauses (PS * ps, Lit * lit) +{ +#ifdef NO_BINARY_CLAUSES + Ltk* lstk = LIT2IMPLS (lit); + return lstk->count != 0; +#else + return *LIT2IMPLS (lit) != 0; +#endif +} + +static void +flbcp (PS * ps) +{ +#ifdef STATS + unsigned long long propagaions_before_bcp = ps->propagations; +#endif + bcp (ps); +#ifdef STATS + ps->flprops += ps->propagations - propagaions_before_bcp; +#endif +} + +inline static int +cmp_inverse_rnk (PS * ps, Rnk * a, Rnk * b) +{ + (void) ps; + return -cmp_rnk (a, b); +} + +inline static Flt +rnk2jwh (PS * ps, Rnk * r) +{ + Flt res, sum, pjwh, njwh; + Lit * plit, * nlit; + + plit = RNK2LIT (r); + nlit = plit + 1; + + pjwh = *LIT2JWH (plit); + njwh = *LIT2JWH (nlit); + + res = mulflt (pjwh, njwh); + + sum = addflt (pjwh, njwh); + sum = mulflt (sum, base2flt (1, -10)); + res = addflt (res, sum); + + return res; +} + +static int +cmp_inverse_jwh_rnk (PS * ps, Rnk * r, Rnk * s) +{ + Flt a = rnk2jwh (ps, r); + Flt b = rnk2jwh (ps, s); + int res = cmpflt (a, b); + + if (res) + return -res; + + return cmp_inverse_rnk (ps, r, s); +} + +static void +faillits (PS * ps) +{ + unsigned i, j, old_trail_count, common, saved_count; + unsigned new_saved_size, oldladded = ps->ladded; + unsigned long long limit, delta; + Lit * lit, * other, * pivot; + Rnk * r, ** p, ** q; + int new_trail_count; + double started; + + if (ps->plain) + return; + + if (ps->heap + 1 >= ps->hhead) + return; + + if (ps->propagations < ps->fllimit) + return; + + sflush (ps); + started = ps->seconds; + + ps->flcalls++; +#ifdef STATSA + ps->flrounds++; +#endif + delta = ps->propagations/10; + if (delta >= 100*1000*1000) delta = 100*1000*1000; + else if (delta <= 100*1000) delta = 100*1000; + + limit = ps->propagations + delta; + ps->fllimit = ps->propagations; + + assert (!ps->LEVEL); + assert (ps->simplifying); + + if (ps->flcalls <= 1) + SORT (Rnk *, cmp_inverse_jwh_rnk, ps->heap + 1, ps->hhead - (ps->heap + 1)); + else + SORT (Rnk *, cmp_inverse_rnk, ps->heap + 1, ps->hhead - (ps->heap + 1)); + + i = 1; /* NOTE: heap starts at position '1' */ + + while (ps->propagations < limit) + { + if (ps->heap + i == ps->hhead) + { + if (ps->ladded == oldladded) + break; + + i = 1; +#ifdef STATS + ps->flrounds++; +#endif + oldladded = ps->ladded; + } + + assert (ps->heap + i < ps->hhead); + + r = ps->heap[i++]; + lit = RNK2LIT (r); + + if (lit->val) + continue; + + if (!lit_has_binary_clauses (ps, NOTLIT (lit))) + { +#ifdef STATS + ps->flskipped++; +#endif + continue; + } + +#ifdef STATS + ps->fltried++; +#endif + LOG ( fprintf (ps->out, "%strying %d as failed literal\n", + ps->prefix, LIT2INT (lit))); + + assign_decision (ps, lit); + old_trail_count = ps->thead - ps->trail; + flbcp (ps); + + if (ps->conflict) + { +EXPLICITLY_FAILED_LITERAL: + LOG ( fprintf (ps->out, "%sfound explicitly failed literal %d\n", + ps->prefix, LIT2INT (lit))); + + ps->failedlits++; + ps->efailedlits++; + + backtrack (ps); + flbcp (ps); + + if (!ps->conflict) + continue; + +CONTRADICTION: + assert (!ps->LEVEL); + backtrack (ps); + assert (ps->mtcls); + + goto RETURN; + } + + if (ps->propagations >= limit) + { + undo (ps, 0); + break; + } + + lit = NOTLIT (lit); + + if (!lit_has_binary_clauses (ps, NOTLIT (lit))) + { +#ifdef STATS + ps->flskipped++; +#endif + undo (ps, 0); + continue; + } + +#ifdef STATS + ps->fltried++; +#endif + LOG ( fprintf (ps->out, "%strying %d as failed literals\n", + ps->prefix, LIT2INT (lit))); + + new_trail_count = ps->thead - ps->trail; + saved_count = new_trail_count - old_trail_count; + + if (saved_count > ps->saved_size) + { + new_saved_size = ps->saved_size ? 2 * ps->saved_size : 1; + while (saved_count > new_saved_size) + new_saved_size *= 2; + + RESIZEN (ps->saved, ps->saved_size, new_saved_size); + ps->saved_size = new_saved_size; + } + + for (j = 0; j < saved_count; j++) + ps->saved[j] = ps->trail[old_trail_count + j]; + + undo (ps, 0); + + assign_decision (ps, lit); + flbcp (ps); + + if (ps->conflict) + goto EXPLICITLY_FAILED_LITERAL; + + pivot = (ps->thead - ps->trail <= new_trail_count) ? lit : NOTLIT (lit); + + common = 0; + for (j = 0; j < saved_count; j++) + if ((other = ps->saved[j])->val == TRUE) + ps->saved[common++] = other; + + undo (ps, 0); + + LOG (if (common) + fprintf (ps->out, + "%sfound %d literals implied by %d and %d\n", + ps->prefix, common, + LIT2INT (NOTLIT (lit)), LIT2INT (lit))); + +#if 1 // set to zero to disable 'lifting' + for (j = 0; + j < common + /* TODO: For some Velev benchmarks, extracting the common implicit + * failed literals took quite some time. This needs to be fixed by + * a dedicated analyzer. Up to then we bound the number of + * propagations in this loop as well. + */ + && ps->propagations < limit + delta + ; j++) + { + other = ps->saved[j]; + + if (other->val == TRUE) + continue; + + assert (!other->val); + + LOG ( fprintf (ps->out, + "%sforcing %d as forced implicitly failed literal\n", + ps->prefix, LIT2INT (other))); + + assert (pivot != NOTLIT (other)); + assert (pivot != other); + + assign_decision (ps, NOTLIT (other)); + flbcp (ps); + + assert (ps->LEVEL == 1); + + if (ps->conflict) + { + backtrack (ps); + assert (!ps->LEVEL); + } + else + { + assign_decision (ps, pivot); + flbcp (ps); + + backtrack (ps); + + if (ps->LEVEL) + { + assert (ps->LEVEL == 1); + + flbcp (ps); + + if (ps->conflict) + { + backtrack (ps); + assert (!ps->LEVEL); + } + else + { + assign_decision (ps, NOTLIT (pivot)); + flbcp (ps); + backtrack (ps); + + if (ps->LEVEL) + { + assert (ps->LEVEL == 1); + flbcp (ps); + + if (!ps->conflict) + { +#ifdef STATS + ps->floopsed++; +#endif + undo (ps, 0); + continue; + } + + backtrack (ps); + } + + assert (!ps->LEVEL); + } + + assert (!ps->LEVEL); + } + } + assert (!ps->LEVEL); + flbcp (ps); + + ps->failedlits++; + ps->ifailedlits++; + + if (ps->conflict) + goto CONTRADICTION; + } +#endif + } + + ps->fllimit += 9 * (ps->propagations - ps->fllimit); /* 10% for failed literals */ + +RETURN: + + /* First flush top level assigned literals. Those are prohibited from + * being pushed up the heap during 'faillits' since 'simplifying' is set. + */ + assert (ps->heap < ps->hhead); + for (p = q = ps->heap + 1; p < ps->hhead; p++) + { + r = *p; + lit = RNK2LIT (r); + if (lit->val) + r->pos = 0; + else + *q++ = r; + } + + /* Then resort with respect to EVSIDS score and fix positions. + */ + SORT (Rnk *, cmp_inverse_rnk, ps->heap + 1, ps->hhead - (ps->heap + 1)); + for (p = ps->heap + 1; p < ps->hhead; p++) + (*p)->pos = p - ps->heap; + + sflush (ps); + ps->flseconds += ps->seconds - started; +} + +#endif + +static void +simplify (PS * ps, int forced) +{ + Lit * lit, * notlit, ** t; + unsigned collect, delta; +#ifdef STATS + size_t bytes_collected; +#endif + int * q, ilit; + Cls **p, *c; + Var * v; + +#ifndef NDEDBUG + (void) forced; +#endif + + assert (!ps->mtcls); + assert (!satisfied (ps)); + assert (forced || ps->lsimplify <= ps->propagations); + assert (forced || ps->fsimplify <= ps->fixed); + + if (ps->LEVEL) + undo (ps, 0); +#ifndef NFL + ps->simplifying = 1; + faillits (ps); + ps->simplifying = 0; + + if (ps->mtcls) + return; +#endif + + if (ps->cils != ps->cilshead) + { + assert (ps->ttail == ps->thead); + assert (ps->ttail2 == ps->thead); + ps->ttail = ps->trail; + for (t = ps->trail; t < ps->thead; t++) + { + lit = *t; + v = LIT2VAR (lit); + if (v->internal) + { + assert (LIT2INT (lit) < 0); + assert (lit->val == TRUE); + unassign (ps, lit); + } + else + *ps->ttail++ = lit; + } + ps->ttail2 = ps->thead = ps->ttail; + + for (q = ps->cils; q != ps->cilshead; q++) + { + ilit = *q; + assert (0 < ilit && ilit <= (int) ps->max_var); + v = ps->vars + ilit; + assert (v->internal); + v->level = 0; + v->reason = 0; + lit = int2lit (ps, -ilit); + assert (lit->val == UNDEF); + lit->val = TRUE; + notlit = NOTLIT (lit); + assert (notlit->val == UNDEF); + notlit->val = FALSE; + } + } + + collect = 0; + for (p = SOC; p != EOC; p = NXC (p)) + { + c = *p; + if (!c) + continue; + +#ifdef TRACE + if (c->collected) + continue; +#endif + + if (c->locked) + continue; + + assert (!c->collect); + if (clause_is_toplevel_satisfied (ps, c)) + { + mark_clause_to_be_collected (c); + collect++; + } + } + + LOG ( fprintf (ps->out, "%scollecting %d clauses\n", ps->prefix, collect)); +#ifdef STATS + bytes_collected = +#endif + collect_clauses (ps); +#ifdef STATS + ps->srecycled += bytes_collected; +#endif + + if (ps->cils != ps->cilshead) + { + for (q = ps->cils; q != ps->cilshead; q++) + { + ilit = *q; + assert (0 < ilit && ilit <= (int) ps->max_var); + assert (ps->vars[ilit].internal); + if (ps->rilshead == ps->eorils) + ENLARGE (ps->rils, ps->rilshead, ps->eorils); + *ps->rilshead++ = ilit; + lit = int2lit (ps, -ilit); + assert (lit->val == TRUE); + lit->val = UNDEF; + notlit = NOTLIT (lit); + assert (notlit->val == FALSE); + notlit->val = UNDEF; + } + ps->cilshead = ps->cils; + } + + delta = 10 * (ps->olits + ps->llits) + 100000; + if (delta > 2000000) + delta = 2000000; + ps->lsimplify = ps->propagations + delta; + ps->fsimplify = ps->fixed; + ps->simps++; + + report (ps, 1, 's'); +} + +static void +iteration (PS * ps) +{ + assert (!ps->LEVEL); + assert (bcp_queue_is_empty (ps)); + assert (ps->isimplify < ps->fixed); + + ps->iterations++; + report (ps, 2, 'i'); +#ifdef NLUBY + ps->drestart = MINRESTART; + ps->lrestart = ps->conflicts + ps->drestart; +#else + init_restart (ps); +#endif + ps->isimplify = ps->fixed; +} + +static int +cmp_glue_activity_size (PS * ps, Cls * c, Cls * d) +{ + Act a, b, * p, * q; + + (void) ps; + + assert (c->learned); + assert (d->learned); + + if (c->glue < d->glue) // smaller glue preferred + return 1; + + if (c->glue > d->glue) + return -1; + + p = CLS2ACT (c); + q = CLS2ACT (d); + a = *p; + b = *q; + + if (a < b) // then higher activity + return -1; + + if (b < a) + return 1; + + if (c->size < d->size) // then smaller size + return 1; + + if (c->size > d->size) + return -1; + + return 0; +} + +static void +reduce (PS * ps, unsigned percentage) +{ + unsigned redcount, lcollect, collect, target; +#ifdef STATS + size_t bytes_collected; +#endif + Cls **p, *c; + + assert (ps->rhead == ps->resolved); + + ps->lastreduceconflicts = ps->conflicts; + + assert (percentage <= 100); + LOG ( fprintf (ps->out, + "%sreducing %u%% learned clauses\n", + ps->prefix, percentage)); + + while (ps->nlclauses - ps->llocked > (unsigned)(ps->eor - ps->resolved)) + ENLARGE (ps->resolved, ps->rhead, ps->eor); + + collect = 0; + lcollect = 0; + + for (p = ((ps->fsimplify < ps->fixed) ? SOC : ps->lclauses); p != EOC; p = NXC (p)) + { + c = *p; + if (!c) + continue; + +#ifdef TRACE + if (c->collected) + continue; +#endif + + if (c->locked) + continue; + + assert (!c->collect); + if (ps->fsimplify < ps->fixed && clause_is_toplevel_satisfied (ps, c)) + { + mark_clause_to_be_collected (c); + collect++; + + if (c->learned && c->size > 2) + lcollect++; + + continue; + } + + if (!c->learned) + continue; + + if (c->size <= 2) + continue; + + assert (ps->rhead < ps->eor); + *ps->rhead++ = c; + } + assert (ps->rhead <= ps->eor); + + ps->fsimplify = ps->fixed; + + redcount = ps->rhead - ps->resolved; + SORT (Cls *, cmp_glue_activity_size, ps->resolved, redcount); + + assert (ps->nlclauses >= lcollect); + target = ps->nlclauses - lcollect + 1; + + target = (percentage * target + 99) / 100; + + if (target >= redcount) + target = redcount; + + ps->rhead = ps->resolved + target; + while (ps->rhead > ps->resolved) + { + c = *--ps->rhead; + mark_clause_to_be_collected (c); + + collect++; + if (c->learned && c->size > 2) /* just for consistency */ + lcollect++; + } + + if (collect) + { + ps->reductions++; +#ifdef STATS + bytes_collected = +#endif + collect_clauses (ps); +#ifdef STATS + ps->rrecycled += bytes_collected; +#endif + report (ps, 2, '-'); + } + + if (!lcollect) + inc_lreduce (ps); /* avoid dead lock */ + + assert (ps->rhead == ps->resolved); +} + +static void +init_reduce (PS * ps) +{ + // lreduce = loadded / 2; + ps->lreduce = 1000; + + if (ps->lreduce < 100) + ps->lreduce = 100; + + if (ps->verbosity) + fprintf (ps->out, + "%s\n%sinitial reduction limit %u clauses\n%s\n", + ps->prefix, ps->prefix, ps->lreduce, ps->prefix); +} + +static unsigned +rng (PS * ps) +{ + unsigned res = ps->srng; + ps->srng *= 1664525u; + ps->srng += 1013904223u; + NOLOG ( fprintf (ps->out, "%srng () = %u\n", ps->prefix, res)); + return res; +} + +static unsigned +rrng (PS * ps, unsigned low, unsigned high) +{ + unsigned long long tmp; + unsigned res, elements; + assert (low <= high); + elements = high - low + 1; + tmp = rng (ps); + tmp *= elements; + tmp >>= 32; + tmp += low; + res = tmp; + NOLOG ( fprintf (ps->out, "%srrng (ps, %u, %u) = %u\n", ps->prefix, low, high, res)); + assert (low <= res); + assert (res <= high); + return res; +} + +static Lit * +decide_phase (PS * ps, Lit * lit) +{ + Lit * not_lit = NOTLIT (lit); + Var *v = LIT2VAR (lit); + + assert (LIT2SGN (lit) > 0); + if (v->usedefphase) + { + if (v->defphase) + { + /* assign to TRUE */ + } + else + { + /* assign to FALSE */ + lit = not_lit; + } + } + else if (!v->assigned) + { +#ifdef STATS + ps->staticphasedecisions++; +#endif + if (ps->defaultphase == POSPHASE) + { + /* assign to TRUE */ + } + else if (ps->defaultphase == NEGPHASE) + { + /* assign to FALSE */ + lit = not_lit; + } + else if (ps->defaultphase == RNDPHASE) + { + /* randomly assign default phase */ + if (rrng (ps, 1, 2) != 2) + lit = not_lit; + } + else if (*LIT2JWH(lit) <= *LIT2JWH (not_lit)) + { + /* assign to FALSE (Jeroslow-Wang says there are more short + * clauses with negative occurence of this variable, so satisfy + * those, to minimize BCP) + */ + lit = not_lit; + } + else + { + /* assign to TRUE (... but strictly more positive occurrences) */ + } + } + else + { + /* repeat last phase: phase saving heuristic */ + + if (v->phase) + { + /* assign to TRUE (last phase was TRUE as well) */ + } + else + { + /* assign to FALSE (last phase was FALSE as well) */ + lit = not_lit; + } + } + + return lit; +} + +static unsigned +gcd (unsigned a, unsigned b) +{ + unsigned tmp; + + assert (a); + assert (b); + + if (a < b) + { + tmp = a; + a = b; + b = tmp; + } + + while (b) + { + assert (a >= b); + tmp = b; + b = a % b; + a = tmp; + } + + return a; +} + +static Lit * +rdecide (PS * ps) +{ + unsigned idx, delta, spread; + Lit * res; + + spread = RDECIDE; + if (rrng (ps, 1, spread) != 2) + return 0; + + assert (1 <= ps->max_var); + idx = rrng (ps, 1, ps->max_var); + res = int2lit (ps, idx); + + if (res->val != UNDEF) + { + delta = rrng (ps, 1, ps->max_var); + while (gcd (delta, ps->max_var) != 1) + delta--; + + assert (1 <= delta); + assert (delta <= ps->max_var); + + do { + idx += delta; + if (idx > ps->max_var) + idx -= ps->max_var; + res = int2lit (ps, idx); + } while (res->val != UNDEF); + } + +#ifdef STATS + ps->rdecisions++; +#endif + res = decide_phase (ps, res); + LOG ( fprintf (ps->out, "%srdecide %d\n", ps->prefix, LIT2INT (res))); + + return res; +} + +static Lit * +sdecide (PS * ps) +{ + Lit *res; + Rnk *r; + + for (;;) + { + r = htop (ps); + res = RNK2LIT (r); + if (res->val == UNDEF) break; + (void) hpop (ps); + NOLOG ( fprintf (ps->out, + "%shpop %u %u %u\n", + ps->prefix, r - ps->rnks, + FLTMANTISSA(r->score), + FLTEXPONENT(r->score))); + } + +#ifdef STATS + ps->sdecisions++; +#endif + res = decide_phase (ps, res); + + LOG ( fprintf (ps->out, "%ssdecide %d\n", ps->prefix, LIT2INT (res))); + + return res; +} + +static Lit * +adecide (PS * ps) +{ + Lit *lit; + Var * v; + + assert (ps->als < ps->alshead); + assert (!ps->failed_assumption); + + while (ps->alstail < ps->alshead) + { + lit = *ps->alstail++; + + if (lit->val == FALSE) + { + ps->failed_assumption = lit; + v = LIT2VAR (lit); + + use_var (ps, v); + + LOG ( fprintf (ps->out, "%sfirst failed assumption %d\n", + ps->prefix, LIT2INT (ps->failed_assumption))); + fanalyze (ps); + return 0; + } + + if (lit->val == TRUE) + { + v = LIT2VAR (lit); + if (v->level > ps->adecidelevel) + ps->adecidelevel = v->level; + continue; + } + +#ifdef STATS + ps->assumptions++; +#endif + LOG ( fprintf (ps->out, "%sadecide %d\n", ps->prefix, LIT2INT (lit))); + ps->adecidelevel = ps->LEVEL + 1; + + return lit; + } + + return 0; +} + +static void +decide (PS * ps) +{ + Lit * lit; + + assert (!satisfied (ps)); + assert (!ps->conflict); + + if (ps->alstail < ps->alshead && (lit = adecide (ps))) + ; + else if (ps->failed_assumption) + return; + else if (satisfied (ps)) + return; + else if (!(lit = rdecide (ps))) + lit = sdecide (ps); + + assert (lit); + assign_decision (ps, lit); + + ps->levelsum += ps->LEVEL; + ps->decisions++; +} + +static int +sat (PS * ps, int l) +{ + int count = 0, backtracked; + + if (!ps->conflict) + bcp (ps); + + if (ps->conflict) + backtrack (ps); + + if (ps->mtcls) + return PICOSAT_UNSATISFIABLE; + + if (satisfied (ps)) + goto SATISFIED; + + if (ps->lsimplify <= ps->propagations) + simplify (ps, 0); + + if (ps->mtcls) + return PICOSAT_UNSATISFIABLE; + + if (satisfied (ps)) + goto SATISFIED; + + init_restart (ps); + + if (!ps->lreduce) + init_reduce (ps); + + ps->isimplify = ps->fixed; + backtracked = 0; + + for (;;) + { + if (!ps->conflict) + bcp (ps); + + if (ps->conflict) + { + incincs (ps); + backtrack (ps); + + if (ps->mtcls) + return PICOSAT_UNSATISFIABLE; + backtracked = 1; + continue; + } + + if (satisfied (ps)) + { +SATISFIED: +#ifndef NDEBUG + original_clauses_satisfied (ps); + assumptions_satisfied (ps); +#endif + return PICOSAT_SATISFIABLE; + } + + if (backtracked) + { + backtracked = 0; + if (!ps->LEVEL && ps->isimplify < ps->fixed) + iteration (ps); + } + + if (l >= 0 && count >= l) /* decision limit reached ? */ + return PICOSAT_UNKNOWN; + + if (ps->interrupt.function && /* external interrupt */ + count > 0 && !(count % INTERRUPTLIM) && + ps->interrupt.function (ps->interrupt.state)) + return PICOSAT_UNKNOWN; + + if (ps->propagations >= ps->lpropagations)/* propagation limit reached ? */ + return PICOSAT_UNKNOWN; + +#ifndef NADC + if (!ps->adodisabled && ps->adoconflicts >= ps->adoconflictlimit) + { + assert (bcp_queue_is_empty (ps)); + return PICOSAT_UNKNOWN; + } +#endif + + if (ps->fsimplify < ps->fixed && ps->lsimplify <= ps->propagations) + { + simplify (ps, 0); + if (!bcp_queue_is_empty (ps)) + continue; +#ifndef NFL + if (ps->mtcls) + return PICOSAT_UNSATISFIABLE; + + if (satisfied (ps)) + return PICOSAT_SATISFIABLE; + + assert (!ps->LEVEL); +#endif + } + + if (need_to_reduce (ps)) + reduce (ps, 50); + + if (ps->conflicts >= ps->lrestart && ps->LEVEL > 2) + restart (ps); + + decide (ps); + if (ps->failed_assumption) + return PICOSAT_UNSATISFIABLE; + count++; + } +} + +static void +rebias (PS * ps) +{ + Cls ** p, * c; + Var * v; + + for (v = ps->vars + 1; v <= ps->vars + ps->max_var; v++) + v->assigned = 0; + + memset (ps->jwh, 0, 2 * (ps->max_var + 1) * sizeof *ps->jwh); + + for (p = ps->oclauses; p < ps->ohead; p++) + { + c = *p; + + if (!c) + continue; + + if (c->learned) + continue; + + incjwh (ps, c); + } +} + +#ifdef TRACE + +static unsigned +core (PS * ps) +{ + unsigned idx, prev, this, delta, i, lcore, vcore; + unsigned *stack, *shead, *eos; + Lit **q, **eol, *lit; + Cls *c, *reason; + Znt *p, byte; + Zhn *zhain; + Var *v; + + assert (ps->trace); + + assert (ps->mtcls || ps->failed_assumption); + if (ps->ocore >= 0) + return ps->ocore; + + lcore = ps->ocore = vcore = 0; + + stack = shead = eos = 0; + ENLARGE (stack, shead, eos); + + if (ps->mtcls) + { + idx = CLS2IDX (ps->mtcls); + *shead++ = idx; + } + else + { + assert (ps->failed_assumption); + v = LIT2VAR (ps->failed_assumption); + reason = v->reason; + assert (reason); + idx = CLS2IDX (reason); + *shead++ = idx; + } + + while (shead > stack) + { + idx = *--shead; + zhain = IDX2ZHN (idx); + + if (zhain) + { + if (zhain->core) + continue; + + zhain->core = 1; + lcore++; + + c = IDX2CLS (idx); + if (c) + { + assert (!c->core); + c->core = 1; + } + + i = 0; + delta = 0; + prev = 0; + for (p = zhain->znt; (byte = *p); p++, i += 7) + { + delta |= (byte & 0x7f) << i; + if (byte & 0x80) + continue; + + this = prev + delta; + assert (prev < this); /* no overflow */ + + if (shead == eos) + ENLARGE (stack, shead, eos); + *shead++ = this; + + prev = this; + delta = 0; + i = -7; + } + } + else + { + c = IDX2CLS (idx); + + assert (c); + assert (!c->learned); + + if (c->core) + continue; + + c->core = 1; + ps->ocore++; + + eol = end_of_lits (c); + for (q = c->lits; q < eol; q++) + { + lit = *q; + v = LIT2VAR (lit); + if (v->core) + continue; + + v->core = 1; + vcore++; + + if (!ps->failed_assumption) continue; + if (lit != ps->failed_assumption) continue; + + reason = v->reason; + if (!reason) continue; + if (reason->core) continue; + + idx = CLS2IDX (reason); + if (shead == eos) + ENLARGE (stack, shead, eos); + *shead++ = idx; + } + } + } + + DELETEN (stack, eos - stack); + + if (ps->verbosity) + fprintf (ps->out, + "%s%u core variables out of %u (%.1f%%)\n" + "%s%u core original clauses out of %u (%.1f%%)\n" + "%s%u core learned clauses out of %u (%.1f%%)\n", + ps->prefix, vcore, ps->max_var, PERCENT (vcore, ps->max_var), + ps->prefix, ps->ocore, ps->oadded, PERCENT (ps->ocore, ps->oadded), + ps->prefix, lcore, ps->ladded, PERCENT (lcore, ps->ladded)); + + return ps->ocore; +} + +static void +trace_lits (PS * ps, Cls * c, FILE * file) +{ + Lit **p, **eol = end_of_lits (c); + + assert (c); + assert (c->core); + + for (p = c->lits; p < eol; p++) + fprintf (file, "%d ", LIT2INT (*p)); + + fputc ('0', file); +} + +static void +write_idx (PS * ps, unsigned idx, FILE * file) +{ + fprintf (file, "%ld", EXPORTIDX (idx)); +} + +static void +trace_clause (PS * ps, unsigned idx, Cls * c, FILE * file, int fmt) +{ + assert (c); + assert (c->core); + assert (fmt == RUP_TRACE_FMT || !c->learned); + assert (CLS2IDX (c) == idx); + + if (fmt != RUP_TRACE_FMT) + { + write_idx (ps, idx, file); + fputc (' ', file); + } + + trace_lits (ps, c, file); + + if (fmt != RUP_TRACE_FMT) + fputs (" 0", file); + + fputc ('\n', file); +} + +static void +trace_zhain (PS * ps, unsigned idx, Zhn * zhain, FILE * file, int fmt) +{ + unsigned prev, this, delta, i; + Znt *p, byte; + Cls * c; + + assert (zhain); + assert (zhain->core); + + write_idx (ps, idx, file); + fputc (' ', file); + + if (fmt == EXTENDED_TRACECHECK_TRACE_FMT) + { + c = IDX2CLS (idx); + assert (c); + trace_lits (ps, c, file); + } + else + { + assert (fmt == COMPACT_TRACECHECK_TRACE_FMT); + putc ('*', file); + } + + i = 0; + delta = 0; + prev = 0; + + for (p = zhain->znt; (byte = *p); p++, i += 7) + { + delta |= (byte & 0x7f) << i; + if (byte & 0x80) + continue; + + this = prev + delta; + + putc (' ', file); + write_idx (ps, this, file); + + prev = this; + delta = 0; + i = -7; + } + + fputs (" 0\n", file); +} + +static void +write_core (PS * ps, FILE * file) +{ + Lit **q, **eol; + Cls **p, *c; + + fprintf (file, "p cnf %u %u\n", ps->max_var, core (ps)); + + for (p = SOC; p != EOC; p = NXC (p)) + { + c = *p; + + if (!c || c->learned || !c->core) + continue; + + eol = end_of_lits (c); + for (q = c->lits; q < eol; q++) + fprintf (file, "%d ", LIT2INT (*q)); + + fputs ("0\n", file); + } +} + +#endif + +static void +write_trace (PS * ps, FILE * file, int fmt) +{ +#ifdef TRACE + Cls *c, ** p; + Zhn *zhain; + unsigned i; + + core (ps); + + if (fmt == RUP_TRACE_FMT) + { + ps->rupvariables = picosat_variables (ps), + ps->rupclauses = picosat_added_original_clauses (ps); + write_rup_header (ps, file); + } + + for (p = SOC; p != EOC; p = NXC (p)) + { + c = *p; + + if (ps->oclauses <= p && p < ps->eoo) + { + i = OIDX2IDX (p - ps->oclauses); + assert (!c || CLS2IDX (c) == i); + } + else + { + assert (ps->lclauses <= p && p < ps->EOL); + i = LIDX2IDX (p - ps->lclauses); + } + + zhain = IDX2ZHN (i); + + if (zhain) + { + if (zhain->core) + { + if (fmt == RUP_TRACE_FMT) + trace_clause (ps,i, c, file, fmt); + else + trace_zhain (ps, i, zhain, file, fmt); + } + } + else if (c) + { + if (fmt != RUP_TRACE_FMT && c) + { + if (c->core) + trace_clause (ps, i, c, file, fmt); + } + } + } +#else + (void) file; + (void) fmt; + (void) ps; +#endif +} + +static void +write_core_wrapper (PS * ps, FILE * file, int fmt) +{ + (void) fmt; +#ifdef TRACE + write_core (ps, file); +#else + (void) ps; + (void) file; +#endif +} + +static Lit * +import_lit (PS * ps, int lit, int nointernal) +{ + Lit * res; + Var * v; + + ABORTIF (lit == INT_MIN, "API usage: INT_MIN literal"); + ABORTIF (abs (lit) > (int) ps->max_var && ps->CLS != ps->clshead, + "API usage: new variable index after 'picosat_push'"); + + if (abs (lit) <= (int) ps->max_var) + { + res = int2lit (ps, lit); + v = LIT2VAR (res); + if (nointernal && v->internal) + ABORT ("API usage: trying to import invalid literal"); + else if (!nointernal && !v->internal) + ABORT ("API usage: trying to import invalid context"); + } + else + { + while (abs (lit) > (int) ps->max_var) + inc_max_var (ps); + res = int2lit (ps, lit); + } + + return res; +} + +#ifdef TRACE +static void +reset_core (PS * ps) +{ + Cls ** p, * c; + Zhn ** q, * z; + unsigned i; + + for (i = 1; i <= ps->max_var; i++) + ps->vars[i].core = 0; + + for (p = SOC; p != EOC; p = NXC (p)) + if ((c = *p)) + c->core = 0; + + for (q = ps->zhains; q != ps->zhead; q++) + if ((z = *q)) + z->core = 0; + + ps->ocore = -1; +} +#endif + +static void +reset_assumptions (PS * ps) +{ + Lit ** p; + + ps->failed_assumption = 0; + + if (ps->extracted_all_failed_assumptions) + { + for (p = ps->als; p < ps->alshead; p++) + LIT2VAR (*p)->failed = 0; + + ps->extracted_all_failed_assumptions = 0; + } + + ps->alstail = ps->alshead = ps->als; + ps->adecidelevel = 0; +} + +static void +check_ready (PS * ps) +{ + ABORTIF (!ps || ps->state == RESET, "API usage: uninitialized"); +} + +static void +check_sat_state (PS * ps) +{ + ABORTIF (ps->state != SAT, "API usage: expected to be in SAT state"); +} + +static void +check_unsat_state (PS * ps) +{ + ABORTIF (ps->state != UNSAT, "API usage: expected to be in UNSAT state"); +} + +static void +check_sat_or_unsat_or_unknown_state (PS * ps) +{ + ABORTIF (ps->state != SAT && ps->state != UNSAT && ps->state != UNKNOWN, + "API usage: expected to be in SAT, UNSAT, or UNKNOWN state"); +} + +static void +reset_partial (PS * ps) +{ + unsigned idx; + if (!ps->partial) + return; + for (idx = 1; idx <= ps->max_var; idx++) + ps->vars[idx].partial = 0; + ps->partial = 0; +} + +static void +reset_incremental_usage (PS * ps) +{ + unsigned num_non_false; + Lit * lit, ** q; + + check_sat_or_unsat_or_unknown_state (ps); + + LOG ( fprintf (ps->out, "%sRESET incremental usage\n", ps->prefix)); + + if (ps->LEVEL) + undo (ps, 0); + + reset_assumptions (ps); + + if (ps->conflict) + { + num_non_false = 0; + for (q = ps->conflict->lits; q < end_of_lits (ps->conflict); q++) + { + lit = *q; + if (lit->val != FALSE) + num_non_false++; + } + + // assert (num_non_false >= 2); // TODO: why this assertion? +#ifdef NO_BINARY_CLAUSES + if (ps->conflict == &ps->cimpl) + resetcimpl (ps); +#endif +#ifndef NADC + if (ps->conflict == ps->adoconflict) + resetadoconflict (ps); +#endif + ps->conflict = 0; + } + +#ifdef TRACE + reset_core (ps); +#endif + + reset_partial (ps); + + ps->saved_flips = ps->flips; + ps->min_flipped = UINT_MAX; + ps->saved_max_var = ps->max_var; + + ps->state = READY; +} + +static void +enter (PS * ps) +{ + if (ps->nentered++) + return; + + check_ready (ps); + ps->entered = picosat_time_stamp (); +} + +static void +leave (PS * ps) +{ + assert (ps->nentered); + if (--ps->nentered) + return; + + sflush (ps); +} + +static void +check_trace_support_and_execute (PS * ps, + FILE * file, + void (*f)(PS*,FILE*,int), int fmt) +{ + check_ready (ps); + check_unsat_state (ps); +#ifdef TRACE + ABORTIF (!ps->trace, "API usage: tracing disabled"); + enter (ps); + f (ps, file, fmt); + leave (ps); +#else + (void) file; + (void) fmt; + (void) f; + ABORT ("compiled without trace support"); +#endif +} + +static void +extract_all_failed_assumptions (PS * ps) +{ + Lit ** p, ** eol; + Var * v, * u; + int pos; + Cls * c; + + assert (!ps->extracted_all_failed_assumptions); + + assert (ps->failed_assumption); + assert (ps->mhead == ps->marked); + + if (ps->marked == ps->eom) + ENLARGE (ps->marked, ps->mhead, ps->eom); + + v = LIT2VAR (ps->failed_assumption); + mark_var (ps, v); + pos = 0; + + while (pos < ps->mhead - ps->marked) + { + v = ps->marked[pos++]; + assert (v->mark); + c = var2reason (ps, v); + if (!c) + continue; + eol = end_of_lits (c); + for (p = c->lits; p < eol; p++) + { + u = LIT2VAR (*p); + if (!u->mark) + mark_var (ps, u); + } +#ifdef NO_BINARY_CLAUSES + if (c == &ps->impl) + resetimpl (ps); +#endif + } + + for (p = ps->als; p < ps->alshead; p++) + { + u = LIT2VAR (*p); + if (!u->mark) continue; + u->failed = 1; + LOG ( fprintf (ps->out, + "%sfailed assumption %d\n", + ps->prefix, LIT2INT (*p))); + } + + while (ps->mhead > ps->marked) + (*--ps->mhead)->mark = 0; + + ps->extracted_all_failed_assumptions = 1; +} + +const char * +picosat_copyright (void) +{ + return "Copyright (c) 2006 - 2014 Armin Biere JKU Linz"; +} + +PicoSAT * +picosat_init (void) +{ + return init (0, 0, 0, 0); +} + +PicoSAT * +picosat_minit (void * pmgr, + picosat_malloc pnew, + picosat_realloc presize, + picosat_free pfree) +{ + ABORTIF (!pnew, "API usage: zero 'picosat_malloc' argument"); + ABORTIF (!presize, "API usage: zero 'picosat_realloc' argument"); + ABORTIF (!pfree, "API usage: zero 'picosat_free' argument"); + return init (pmgr, pnew, presize, pfree); +} + + +void +picosat_adjust (PS * ps, int new_max_var) +{ + unsigned new_size_vars; + + ABORTIF (abs (new_max_var) > (int) ps->max_var && ps->CLS != ps->clshead, + "API usage: adjusting variable index after 'picosat_push'"); + enter (ps); + + new_max_var = abs (new_max_var); + new_size_vars = new_max_var + 1; + + if (ps->size_vars < new_size_vars) + enlarge (ps, new_size_vars); + + while (ps->max_var < (unsigned) new_max_var) + inc_max_var (ps); + + leave (ps); +} + +int +picosat_inc_max_var (PS * ps) +{ + if (ps->measurealltimeinlib) + enter (ps); + else + check_ready (ps); + + inc_max_var (ps); + + if (ps->measurealltimeinlib) + leave (ps); + + return ps->max_var; +} + +int +picosat_context (PS * ps) +{ + return ps->clshead == ps->CLS ? 0 : LIT2INT (ps->clshead[-1]); +} + +int +picosat_push (PS * ps) +{ + int res; + Lit *lit; + Var * v; + + if (ps->measurealltimeinlib) + enter (ps); + else + check_ready (ps); + + if (ps->state != READY) + reset_incremental_usage (ps); + + if (ps->rils != ps->rilshead) + { + res = *--ps->rilshead; + assert (ps->vars[res].internal); + } + else + { + inc_max_var (ps); + res = ps->max_var; + v = ps->vars + res; + assert (!v->internal); + v->internal = 1; + ps->internals++; + LOG ( fprintf (ps->out, "%snew internal variable index %d\n", ps->prefix, res)); + } + + lit = int2lit (ps, res); + + if (ps->clshead == ps->eocls) + ENLARGE (ps->CLS, ps->clshead, ps->eocls); + *ps->clshead++ = lit; + + ps->contexts++; + + LOG ( fprintf (ps->out, "%snew context %d at depth %ld after push\n", + ps->prefix, res, (long)(ps->clshead - ps->CLS))); + + if (ps->measurealltimeinlib) + leave (ps); + + return res; +} + +int +picosat_pop (PS * ps) +{ + Lit * lit; + int res; + ABORTIF (ps->CLS == ps->clshead, "API usage: too many 'picosat_pop'"); + ABORTIF (ps->added != ps->ahead, "API usage: incomplete clause"); + + if (ps->measurealltimeinlib) + enter (ps); + else + check_ready (ps); + + if (ps->state != READY) + reset_incremental_usage (ps); + + assert (ps->CLS < ps->clshead); + lit = *--ps->clshead; + LOG ( fprintf (ps->out, "%sclosing context %d at depth %ld after pop\n", + ps->prefix, LIT2INT (lit), (long)(ps->clshead - ps->CLS) + 1)); + + if (ps->cilshead == ps->eocils) + ENLARGE (ps->cils, ps->cilshead, ps->eocils); + *ps->cilshead++ = LIT2INT (lit); + + if (ps->cilshead - ps->cils > MAXCILS) { + LOG ( fprintf (ps->out, + "%srecycling %ld interals with forced simplification\n", + ps->prefix, (long)(ps->cilshead - ps->cils))); + simplify (ps, 1); + } + + res = picosat_context (ps); + if (res) + LOG ( fprintf (ps->out, "%snew context %d at depth %ld after pop\n", + ps->prefix, res, (long)(ps->clshead - ps->CLS))); + else + LOG ( fprintf (ps->out, "%souter most context reached after pop\n", ps->prefix)); + + if (ps->measurealltimeinlib) + leave (ps); + + return res; +} + +void +picosat_set_verbosity (PS * ps, int new_verbosity_level) +{ + check_ready (ps); + ps->verbosity = new_verbosity_level; +} + +void +picosat_set_plain (PS * ps, int new_plain_value) +{ + check_ready (ps); + ps->plain = new_plain_value; +} + +int +picosat_enable_trace_generation (PS * ps) +{ + int res = 0; + check_ready (ps); +#ifdef TRACE + ABORTIF (ps->addedclauses, + "API usage: trace generation enabled after adding clauses"); + res = ps->trace = 1; +#endif + return res; +} + +void +picosat_set_incremental_rup_file (PS * ps, FILE * rup_file, int m, int n) +{ + check_ready (ps); + assert (!ps->rupstarted); + ps->rup = rup_file; + ps->rupvariables = m; + ps->rupclauses = n; +} + +void +picosat_set_output (PS * ps, FILE * output_file) +{ + check_ready (ps); + ps->out = output_file; +} + +void +picosat_measure_all_calls (PS * ps) +{ + check_ready (ps); + ps->measurealltimeinlib = 1; +} + +void +picosat_set_prefix (PS * ps, const char * str) +{ + check_ready (ps); + new_prefix (ps, str); +} + +void +picosat_set_seed (PS * ps, unsigned s) +{ + check_ready (ps); + ps->srng = s; +} + +void +picosat_reset (PS * ps) +{ + check_ready (ps); + reset (ps); +} + +int +picosat_add (PS * ps, int int_lit) +{ + int res = ps->oadded; + Lit *lit; + + if (ps->measurealltimeinlib) + enter (ps); + else + check_ready (ps); + + ABORTIF (ps->rup && ps->rupstarted && ps->oadded >= (unsigned)ps->rupclauses, + "API usage: adding too many clauses after RUP header written"); +#ifndef NADC + ABORTIF (ps->addingtoado, + "API usage: 'picosat_add' and 'picosat_add_ado_lit' mixed"); +#endif + if (ps->state != READY) + reset_incremental_usage (ps); + + if (ps->saveorig) + { + if (ps->sohead == ps->eoso) + ENLARGE (ps->soclauses, ps->sohead, ps->eoso); + + *ps->sohead++ = int_lit; + } + + if (int_lit) + { + lit = import_lit (ps, int_lit, 1); + add_lit (ps, lit); + } + else + simplify_and_add_original_clause (ps); + + if (ps->measurealltimeinlib) + leave (ps); + + return res; +} + +int +picosat_add_arg (PS * ps, ...) +{ + int lit; + va_list ap; + va_start (ap, ps); + while ((lit = va_arg (ap, int))) + (void) picosat_add (ps, lit); + va_end (ap); + return picosat_add (ps, 0); +} + +int +picosat_add_lits (PS * ps, int * lits) +{ + const int * p; + int lit; + for (p = lits; (lit = *p); p++) + (void) picosat_add (ps, lit); + return picosat_add (ps, 0); +} + +void +picosat_add_ado_lit (PS * ps, int external_lit) +{ +#ifndef NADC + Lit * internal_lit; + + if (ps->measurealltimeinlib) + enter (ps); + else + check_ready (ps); + + if (ps->state != READY) + reset_incremental_usage (ps); + + ABORTIF (!ps->addingtoado && ps->ahead > ps->added, + "API usage: 'picosat_add' and 'picosat_add_ado_lit' mixed"); + + if (external_lit) + { + ps->addingtoado = 1; + internal_lit = import_lit (ps, external_lit, 1); + add_lit (ps, internal_lit); + } + else + { + ps->addingtoado = 0; + add_ado (ps); + } + if (ps->measurealltimeinlib) + leave (ps); +#else + (void) ps; + (void) external_lit; + ABORT ("compiled without all different constraint support"); +#endif +} + +static void +assume (PS * ps, Lit * lit) +{ + if (ps->alshead == ps->eoals) + { + assert (ps->alstail == ps->als); + ENLARGE (ps->als, ps->alshead, ps->eoals); + ps->alstail = ps->als; + } + + *ps->alshead++ = lit; + LOG ( fprintf (ps->out, "%sassumption %d\n", ps->prefix, LIT2INT (lit))); +} + +static void +assume_contexts (PS * ps) +{ + Lit ** p; + if (ps->als != ps->alshead) + return; + for (p = ps->CLS; p != ps->clshead; p++) + assume (ps, *p); +} + +#ifndef RCODE +static const char * enumstr (int i) { + int last = i % 10; + if (last == 1) return "st"; + if (last == 2) return "nd"; + if (last == 3) return "rd"; + return "th"; +} +#endif + +static int +tderef (PS * ps, int int_lit) +{ + Lit * lit; + Var * v; + + assert (abs (int_lit) <= (int) ps->max_var); + + lit = int2lit (ps, int_lit); + + v = LIT2VAR (lit); + if (v->level > 0) + return 0; + + if (lit->val == TRUE) + return 1; + + if (lit->val == FALSE) + return -1; + + return 0; +} + +static int +pderef (PS * ps, int int_lit) +{ + Lit * lit; + Var * v; + + assert (abs (int_lit) <= (int) ps->max_var); + + v = ps->vars + abs (int_lit); + if (!v->partial) + return 0; + + lit = int2lit (ps, int_lit); + + if (lit->val == TRUE) + return 1; + + if (lit->val == FALSE) + return -1; + + return 0; +} + +static void +minautarky (PS * ps) +{ + unsigned * occs, maxoccs, tmpoccs, npartial; + int * p, * c, lit, best, val; +#ifdef LOGGING + int tl; +#endif + + assert (!ps->partial); + + npartial = 0; + + NEWN (occs, 2*ps->max_var + 1); + CLRN (occs, 2*ps->max_var + 1); + occs += ps->max_var; + for (p = ps->soclauses; p < ps->sohead; p++) + occs[*p]++; + assert (occs[0] == ps->oadded); + + for (c = ps->soclauses; c < ps->sohead; c = p + 1) + { +#ifdef LOGGING + tl = 0; +#endif + best = 0; + maxoccs = 0; + for (p = c; (lit = *p); p++) + { + val = tderef (ps, lit); + if (val < 0) + continue; + if (val > 0) + { +#ifdef LOGGING + tl = 1; +#endif + best = lit; + maxoccs = occs[lit]; + } + + val = pderef (ps, lit); + if (val > 0) + break; + if (val < 0) + continue; + val = int2lit (ps, lit)->val; + assert (val); + if (val < 0) + continue; + tmpoccs = occs[lit]; + if (best && tmpoccs <= maxoccs) + continue; + best = lit; + maxoccs = tmpoccs; + } + if (!lit) + { + assert (best); + LOG ( fprintf (ps->out, "%sautark %d with %d occs%s\n", + ps->prefix, best, maxoccs, tl ? " (top)" : "")); + ps->vars[abs (best)].partial = 1; + npartial++; + } + for (p = c; (lit = *p); p++) + { + assert (occs[lit] > 0); + occs[lit]--; + } + } + occs -= ps->max_var; + DELETEN (occs, 2*ps->max_var + 1); + ps->partial = 1; + + if (ps->verbosity) + fprintf (ps->out, + "%sautarky of size %u out of %u satisfying all clauses (%.1f%%)\n", + ps->prefix, npartial, ps->max_var, PERCENT (npartial, ps->max_var)); +} + +void +picosat_assume (PS * ps, int int_lit) +{ + Lit *lit; + + if (ps->measurealltimeinlib) + enter (ps); + else + check_ready (ps); + + if (ps->state != READY) + reset_incremental_usage (ps); + + assume_contexts (ps); + lit = import_lit (ps, int_lit, 1); + assume (ps, lit); + + if (ps->measurealltimeinlib) + leave (ps); +} + +int +picosat_sat (PS * ps, int l) +{ + int res; + char ch; + + enter (ps); + + ps->calls++; + LOG ( fprintf (ps->out, "%sSTART call %u\n", ps->prefix, ps->calls)); + + if (ps->added < ps->ahead) + { +#ifndef NADC + if (ps->addingtoado) + ABORT ("API usage: incomplete all different constraint"); + else +#endif + ABORT ("API usage: incomplete clause"); + } + + if (ps->state != READY) + reset_incremental_usage (ps); + + assume_contexts (ps); + + res = sat (ps, l); + + assert (ps->state == READY); + + switch (res) + { + case PICOSAT_UNSATISFIABLE: + ch = '0'; + ps->state = UNSAT; + break; + case PICOSAT_SATISFIABLE: + ch = '1'; + ps->state = SAT; + break; + default: + ch = '?'; + ps->state = UNKNOWN; + break; + } + + if (ps->verbosity) + { + report (ps, 1, ch); + rheader (ps); + } + + leave (ps); + LOG ( fprintf (ps->out, "%sEND call %u result %d\n", ps->prefix, ps->calls, res)); + + ps->last_sat_call_result = res; + + return res; +} + +int +picosat_res (PS * ps) +{ + return ps->last_sat_call_result; +} + +int +picosat_deref (PS * ps, int int_lit) +{ + Lit *lit; + + check_ready (ps); + check_sat_state (ps); + ABORTIF (!int_lit, "API usage: can not deref zero literal"); + ABORTIF (ps->mtcls, "API usage: deref after empty clause generated"); + +#ifdef STATS + ps->derefs++; +#endif + + if (abs (int_lit) > (int) ps->max_var) + return 0; + + lit = int2lit (ps, int_lit); + + if (lit->val == TRUE) + return 1; + + if (lit->val == FALSE) + return -1; + + return 0; +} + +int +picosat_deref_toplevel (PS * ps, int int_lit) +{ + check_ready (ps); + ABORTIF (!int_lit, "API usage: can not deref zero literal"); + +#ifdef STATS + ps->derefs++; +#endif + if (abs (int_lit) > (int) ps->max_var) + return 0; + + return tderef (ps, int_lit); +} + +int +picosat_inconsistent (PS * ps) +{ + check_ready (ps); + return ps->mtcls != 0; +} + +int +picosat_corelit (PS * ps, int int_lit) +{ + check_ready (ps); + check_unsat_state (ps); + ABORTIF (!int_lit, "API usage: zero literal can not be in core"); + + assert (ps->mtcls || ps->failed_assumption); + +#ifdef TRACE + { + int res = 0; + ABORTIF (!ps->trace, "tracing disabled"); + if (ps->measurealltimeinlib) + enter (ps); + core (ps); + if (abs (int_lit) <= (int) ps->max_var) + res = ps->vars[abs (int_lit)].core; + assert (!res || ps->failed_assumption || ps->vars[abs (int_lit)].used); + if (ps->measurealltimeinlib) + leave (ps); + return res; + } +#else + ABORT ("compiled without trace support"); + return 0; +#endif +} + +int +picosat_coreclause (PS * ps, int ocls) +{ + check_ready (ps); + check_unsat_state (ps); + + ABORTIF (ocls < 0, "API usage: negative original clause index"); + ABORTIF (ocls >= (int)ps->oadded, "API usage: original clause index exceeded"); + + assert (ps->mtcls || ps->failed_assumption); + +#ifdef TRACE + { + Cls ** clsptr, * c; + int res = 0; + + ABORTIF (!ps->trace, "tracing disabled"); + if (ps->measurealltimeinlib) + enter (ps); + core (ps); + clsptr = ps->oclauses + ocls; + assert (clsptr < ps->ohead); + c = *clsptr; + if (c) + res = c->core; + if (ps->measurealltimeinlib) + leave (ps); + + return res; + } +#else + ABORT ("compiled without trace support"); + return 0; +#endif +} + +int +picosat_failed_assumption (PS * ps, int int_lit) +{ + Lit * lit; + Var * v; + ABORTIF (!int_lit, "API usage: zero literal as assumption"); + check_ready (ps); + check_unsat_state (ps); + if (ps->mtcls) + return 0; + assert (ps->failed_assumption); + if (abs (int_lit) > (int) ps->max_var) + return 0; + if (!ps->extracted_all_failed_assumptions) + extract_all_failed_assumptions (ps); + lit = import_lit (ps, int_lit, 1); + v = LIT2VAR (lit); + return v->failed; +} + +int +picosat_failed_context (PS * ps, int int_lit) +{ + Lit * lit; + Var * v; + ABORTIF (!int_lit, "API usage: zero literal as context"); + ABORTIF (abs (int_lit) > (int) ps->max_var, "API usage: invalid context"); + check_ready (ps); + check_unsat_state (ps); + assert (ps->failed_assumption); + if (!ps->extracted_all_failed_assumptions) + extract_all_failed_assumptions (ps); + lit = import_lit (ps, int_lit, 0); + v = LIT2VAR (lit); + return v->failed; +} + +const int * +picosat_failed_assumptions (PS * ps) +{ + Lit ** p, * lit; + Var * v; + int ilit; + + ps->falshead = ps->fals; + check_ready (ps); + check_unsat_state (ps); + if (!ps->mtcls) + { + assert (ps->failed_assumption); + if (!ps->extracted_all_failed_assumptions) + extract_all_failed_assumptions (ps); + + for (p = ps->als; p < ps->alshead; p++) + { + lit = *p; + v = LIT2VAR (*p); + if (!v->failed) + continue; + ilit = LIT2INT (lit); + if (ps->falshead == ps->eofals) + ENLARGE (ps->fals, ps->falshead, ps->eofals); + *ps->falshead++ = ilit; + } + } + if (ps->falshead == ps->eofals) + ENLARGE (ps->fals, ps->falshead, ps->eofals); + *ps->falshead++ = 0; + return ps->fals; +} + +const int * +picosat_mus_assumptions (PS * ps, void * s, void (*cb)(void*,const int*), int fix) +{ + int i, j, ilit, len, nwork, * work, res; + signed char * redundant; + Lit ** p, * lit; + int failed; + Var * v; +#ifndef NDEBUG + int oldlen; +#endif +#ifndef RCODE + int norig = ps->alshead - ps->als; +#endif + + check_ready (ps); + check_unsat_state (ps); + len = 0; + if (!ps->mtcls) + { + assert (ps->failed_assumption); + if (!ps->extracted_all_failed_assumptions) + extract_all_failed_assumptions (ps); + + for (p = ps->als; p < ps->alshead; p++) + if (LIT2VAR (*p)->failed) + len++; + } + + if (ps->mass) + DELETEN (ps->mass, ps->szmass); + ps->szmass = len + 1; + NEWN (ps->mass, ps->szmass); + + i = 0; + for (p = ps->als; p < ps->alshead; p++) + { + lit = *p; + v = LIT2VAR (lit); + if (!v->failed) + continue; + ilit = LIT2INT (lit); + assert (i < len); + ps->mass[i++] = ilit; + } + assert (i == len); + ps->mass[i] = 0; + if (ps->verbosity) + fprintf (ps->out, + "%sinitial set of failed assumptions of size %d out of %d (%.0f%%)\n", + ps->prefix, len, norig, PERCENT (len, norig)); + if (cb) + cb (s, ps->mass); + + nwork = len; + NEWN (work, nwork); + for (i = 0; i < len; i++) + work[i] = ps->mass[i]; + + NEWN (redundant, nwork); + CLRN (redundant, nwork); + + for (i = 0; i < nwork; i++) + { + if (redundant[i]) + continue; + + if (ps->verbosity > 1) + fprintf (ps->out, + "%strying to drop %d%s assumption %d\n", + ps->prefix, i, enumstr (i), work[i]); + for (j = 0; j < nwork; j++) + { + if (i == j) continue; + if (j < i && fix) continue; + if (redundant[j]) continue; + picosat_assume (ps, work[j]); + } + + res = picosat_sat (ps, -1); + if (res == 10) + { + if (ps->verbosity > 1) + fprintf (ps->out, + "%sfailed to drop %d%s assumption %d\n", + ps->prefix, i, enumstr (i), work[i]); + + if (fix) + { + picosat_add (ps, work[i]); + picosat_add (ps, 0); + } + } + else + { + assert (res == 20); + if (ps->verbosity > 1) + fprintf (ps->out, + "%ssuceeded to drop %d%s assumption %d\n", + ps->prefix, i, enumstr (i), work[i]); + redundant[i] = 1; + for (j = 0; j < nwork; j++) + { + failed = picosat_failed_assumption (ps, work[j]); + if (j <= i) + { + assert ((j < i && fix) || redundant[j] == !failed); + continue; + } + + if (!failed) + { + redundant[j] = -1; + if (ps->verbosity > 1) + fprintf (ps->out, + "%salso suceeded to drop %d%s assumption %d\n", + ps->prefix, j, enumstr (j), work[j]); + } + } + +#ifndef NDEBUG + oldlen = len; +#endif + len = 0; + for (j = 0; j < nwork; j++) + if (!redundant[j]) + ps->mass[len++] = work[j]; + ps->mass[len] = 0; + assert (len < oldlen); + + if (fix) + { + picosat_add (ps, -work[i]); + picosat_add (ps, 0); + } + +#ifndef NDEBUG + for (j = 0; j <= i; j++) + assert (redundant[j] >= 0); +#endif + for (j = i + 1; j < nwork; j++) + { + if (redundant[j] >= 0) + continue; + + if (fix) + { + picosat_add (ps, -work[j]); + picosat_add (ps, 0); + } + + redundant[j] = 1; + } + + if (ps->verbosity) + fprintf (ps->out, + "%sreduced set of failed assumptions of size %d out of %d (%.0f%%)\n", + ps->prefix, len, norig, PERCENT (len, norig)); + if (cb) + cb (s, ps->mass); + } + } + + DELETEN (work, nwork); + DELETEN (redundant, nwork); + + if (ps->verbosity) + { + fprintf (ps->out, "%sreinitializing unsat state\n", ps->prefix); + fflush (ps->out); + } + + for (i = 0; i < len; i++) + picosat_assume (ps, ps->mass[i]); + +#ifndef NDEBUG + res = +#endif + picosat_sat (ps, -1); + assert (res == 20); + + if (!ps->mtcls) + { + assert (!ps->extracted_all_failed_assumptions); + extract_all_failed_assumptions (ps); + } + + return ps->mass; +} + +static const int * +mss (PS * ps, int * a, int size) +{ + int i, j, k, res; + + assert (!ps->mtcls); + + if (ps->szmssass) + DELETEN (ps->mssass, ps->szmssass); + + ps->szmssass = 0; + ps->mssass = 0; + + ps->szmssass = size + 1; + NEWN (ps->mssass, ps->szmssass); + + LOG ( fprintf (ps->out, "%ssearch MSS over %d assumptions\n", ps->prefix, size)); + + k = 0; + for (i = k; i < size; i++) + { + for (j = 0; j < k; j++) + picosat_assume (ps, ps->mssass[j]); + + LOG ( fprintf (ps->out, + "%strying to add assumption %d to MSS : %d\n", + ps->prefix, i, a[i])); + + picosat_assume (ps, a[i]); + + res = picosat_sat (ps, -1); + if (res == 10) + { + LOG ( fprintf (ps->out, + "%sadding assumption %d to MSS : %d\n", ps->prefix, i, a[i])); + + ps->mssass[k++] = a[i]; + + for (j = i + 1; j < size; j++) + { + if (picosat_deref (ps, a[j]) <= 0) + continue; + + LOG ( fprintf (ps->out, + "%salso adding assumption %d to MSS : %d\n", + ps->prefix, j, a[j])); + + ps->mssass[k++] = a[j]; + + if (++i != j) + { + int tmp = a[i]; + a[i] = a[j]; + a[j] = tmp; + } + } + } + else + { + assert (res == 20); + + LOG ( fprintf (ps->out, + "%signoring assumption %d in MSS : %d\n", ps->prefix, i, a[i])); + } + } + ps->mssass[k] = 0; + LOG ( fprintf (ps->out, "%sfound MSS of size %d\n", ps->prefix, k)); + + return ps->mssass; +} + +static void +reassume (PS * ps, const int * a, int size) +{ + int i; + LOG ( fprintf (ps->out, "%sreassuming all assumptions\n", ps->prefix)); + for (i = 0; i < size; i++) + picosat_assume (ps, a[i]); +} + +const int * +picosat_maximal_satisfiable_subset_of_assumptions (PS * ps) +{ + const int * res; + int i, *a, size; + + ABORTIF (ps->mtcls, + "API usage: CNF inconsistent (use 'picosat_inconsistent')"); + + enter (ps); + + size = ps->alshead - ps->als; + NEWN (a, size); + + for (i = 0; i < size; i++) + a[i] = LIT2INT (ps->als[i]); + + res = mss (ps, a, size); + reassume (ps, a, size); + + DELETEN (a, size); + + leave (ps); + + return res; +} + +static void +check_mss_flags_clean (PS * ps) +{ +#ifndef NDEBUG + unsigned i; + for (i = 1; i <= ps->max_var; i++) + { + assert (!ps->vars[i].msspos); + assert (!ps->vars[i].mssneg); + } +#else + (void) ps; +#endif +} + +static void +push_mcsass (PS * ps, int lit) +{ + if (ps->nmcsass == ps->szmcsass) + { + ps->szmcsass = ps->szmcsass ? 2*ps->szmcsass : 1; + RESIZEN (ps->mcsass, ps->nmcsass, ps->szmcsass); + } + + ps->mcsass[ps->nmcsass++] = lit; +} + +static const int * +next_mss (PS * ps, int mcs) +{ + int i, *a, size, mssize, mcsize, lit, inmss; + const int * res, * p; + Var * v; + + if (ps->mtcls) return 0; + + check_mss_flags_clean (ps); + + if (mcs && ps->mcsass) + { + DELETEN (ps->mcsass, ps->szmcsass); + ps->nmcsass = ps->szmcsass = 0; + ps->mcsass = 0; + } + + size = ps->alshead - ps->als; + NEWN (a, size); + + for (i = 0; i < size; i++) + a[i] = LIT2INT (ps->als[i]); + + (void) picosat_sat (ps, -1); + + //TODO short cut for 'picosat_res () == 10'? + + if (ps->mtcls) + { + assert (picosat_res (ps) == 20); + res = 0; + goto DONE; + } + + res = mss (ps, a, size); + + if (ps->mtcls) + { + res = 0; + goto DONE; + } + + for (p = res; (lit = *p); p++) + { + v = ps->vars + abs (lit); + if (lit < 0) + { + assert (!v->msspos); + v->mssneg = 1; + } + else + { + assert (!v->mssneg); + v->msspos = 1; + } + } + + mssize = p - res; + mcsize = INT_MIN; + + for (i = 0; i < size; i++) + { + lit = a[i]; + v = ps->vars + abs (lit); + if (lit > 0 && v->msspos) + inmss = 1; + else if (lit < 0 && v->mssneg) + inmss = 1; + else + inmss = 0; + + if (mssize < mcsize) + { + if (inmss) + picosat_add (ps, -lit); + } + else + { + if (!inmss) + picosat_add (ps, lit); + } + + if (!inmss && mcs) + push_mcsass (ps, lit); + } + picosat_add (ps, 0); + if (mcs) + push_mcsass (ps, 0); + + for (i = 0; i < size; i++) + { + lit = a[i]; + v = ps->vars + abs (lit); + v->msspos = 0; + v->mssneg = 0; + } + +DONE: + + reassume (ps, a, size); + DELETEN (a, size); + + return res; +} + +const int * +picosat_next_maximal_satisfiable_subset_of_assumptions (PS * ps) +{ + const int * res; + enter (ps); + res = next_mss (ps, 0); + leave (ps); + return res; +} + +const int * +picosat_next_minimal_correcting_subset_of_assumptions (PS * ps) +{ + const int * res, * tmp; + enter (ps); + tmp = next_mss (ps, 1); + res = tmp ? ps->mcsass : 0; + leave (ps); + return res; +} + +const int * +picosat_humus (PS * ps, + void (*callback)(void*state,int nmcs,int nhumus), + void * state) +{ + int lit, nmcs, j, nhumus; + const int * mcs, * p; + unsigned i; + Var * v; + enter (ps); +#ifndef NDEBUG + for (i = 1; i <= ps->max_var; i++) + { + v = ps->vars + i; + assert (!v->humuspos); + assert (!v->humusneg); + } +#endif + nhumus = nmcs = 0; + while ((mcs = picosat_next_minimal_correcting_subset_of_assumptions (ps))) + { + for (p = mcs; (lit = *p); p++) + { + v = ps->vars + abs (lit); + if (lit < 0) + { + if (!v->humusneg) + { + v->humusneg = 1; + nhumus++; + } + } + else + { + if (!v->humuspos) + { + v->humuspos = 1; + nhumus++; + } + } + } + nmcs++; + LOG ( fprintf (ps->out, + "%smcs %d of size %d humus %d\n", + ps->prefix, nmcs, (int)(p - mcs), nhumus)); + if (callback) + callback (state, nmcs, nhumus); + } + assert (!ps->szhumus); + ps->szhumus = 1; + for (i = 1; i <= ps->max_var; i++) + { + v = ps->vars + i; + if (v->humuspos) + ps->szhumus++; + if (v->humusneg) + ps->szhumus++; + } + assert (nhumus + 1 == ps->szhumus); + NEWN (ps->humus, ps->szhumus); + j = 0; + for (i = 1; i <= ps->max_var; i++) + { + v = ps->vars + i; + if (v->humuspos) + { + assert (j < nhumus); + ps->humus[j++] = (int) i; + } + if (v->humusneg) + { + assert (j < nhumus); + assert (i < INT_MAX); + ps->humus[j++] = - (int) i; + } + } + assert (j == nhumus); + assert (j < ps->szhumus); + ps->humus[j] = 0; + leave (ps); + return ps->humus; +} + +int +picosat_usedlit (PS * ps, int int_lit) +{ + int res; + check_ready (ps); + check_sat_or_unsat_or_unknown_state (ps); + ABORTIF (!int_lit, "API usage: zero literal can not be used"); + int_lit = abs (int_lit); + res = (int_lit <= (int) ps->max_var) ? ps->vars[int_lit].used : 0; + return res; +} + +void +picosat_write_clausal_core (PS * ps, FILE * file) +{ + check_trace_support_and_execute (ps, file, write_core_wrapper, 0); +} + +void +picosat_write_compact_trace (PS * ps, FILE * file) +{ + check_trace_support_and_execute (ps, file, write_trace, + COMPACT_TRACECHECK_TRACE_FMT); +} + +void +picosat_write_extended_trace (PS * ps, FILE * file) +{ + check_trace_support_and_execute (ps, file, write_trace, + EXTENDED_TRACECHECK_TRACE_FMT); +} + +void +picosat_write_rup_trace (PS * ps, FILE * file) +{ + check_trace_support_and_execute (ps, file, write_trace, RUP_TRACE_FMT); +} + +size_t +picosat_max_bytes_allocated (PS * ps) +{ + check_ready (ps); + return ps->max_bytes; +} + +void +picosat_set_propagation_limit (PS * ps, unsigned long long l) +{ + ps->lpropagations = l; +} + +unsigned long long +picosat_propagations (PS * ps) +{ + return ps->propagations; +} + +unsigned long long +picosat_visits (PS * ps) +{ + return ps->visits; +} + +unsigned long long +picosat_decisions (PS * ps) +{ + return ps->decisions; +} + +int +picosat_variables (PS * ps) +{ + check_ready (ps); + return (int) ps->max_var; +} + +int +picosat_added_original_clauses (PS * ps) +{ + check_ready (ps); + return (int) ps->oadded; +} + +void +picosat_stats (PS * ps) +{ +#ifndef RCODE + unsigned redlits; +#endif +#ifdef STATS + check_ready (ps); + assert (ps->sdecisions + ps->rdecisions + ps->assumptions == ps->decisions); +#endif + if (ps->calls > 1) + fprintf (ps->out, "%s%u calls\n", ps->prefix, ps->calls); + if (ps->contexts) + { + fprintf (ps->out, "%s%u contexts", ps->prefix, ps->contexts); +#ifdef STATS + fprintf (ps->out, " %u internal variables", ps->internals); +#endif + fprintf (ps->out, "\n"); + } + fprintf (ps->out, "%s%u iterations\n", ps->prefix, ps->iterations); + fprintf (ps->out, "%s%u restarts", ps->prefix, ps->restarts); +#ifdef STATS + fprintf (ps->out, " (%u skipped)", ps->skippedrestarts); +#endif + fputc ('\n', ps->out); +#ifndef NFL + fprintf (ps->out, "%s%u failed literals", ps->prefix, ps->failedlits); +#ifdef STATS + fprintf (ps->out, + ", %u calls, %u rounds, %llu propagations", + ps->flcalls, ps->flrounds, ps->flprops); +#endif + fputc ('\n', ps->out); +#ifdef STATS + fprintf (ps->out, + "%sfl: %u = %.1f%% implicit, %llu oopsed, %llu tried, %llu skipped\n", + ps->prefix, + ps->ifailedlits, PERCENT (ps->ifailedlits, ps->failedlits), + ps->floopsed, ps->fltried, ps->flskipped); +#endif +#endif + fprintf (ps->out, "%s%u conflicts", ps->prefix, ps->conflicts); +#ifdef STATS + fprintf (ps->out, " (%u uips = %.1f%%)\n", ps->uips, PERCENT(ps->uips,ps->conflicts)); +#else + fputc ('\n', ps->out); +#endif +#ifndef NADC + fprintf (ps->out, "%s%u adc conflicts\n", ps->prefix, ps->adoconflicts); +#endif +#ifdef STATS + fprintf (ps->out, "%s%llu dereferenced literals\n", ps->prefix, ps->derefs); +#endif + fprintf (ps->out, "%s%u decisions", ps->prefix, ps->decisions); +#ifdef STATS + fprintf (ps->out, " (%u random = %.2f%%", + ps->rdecisions, PERCENT (ps->rdecisions, ps->decisions)); + fprintf (ps->out, ", %u assumptions", ps->assumptions); + fputc (')', ps->out); +#endif + fputc ('\n', ps->out); +#ifdef STATS + fprintf (ps->out, + "%s%u static phase decisions (%.1f%% of all variables)\n", + ps->prefix, + ps->staticphasedecisions, PERCENT (ps->staticphasedecisions, ps->max_var)); +#endif + fprintf (ps->out, "%s%u fixed variables\n", ps->prefix, ps->fixed); + assert (ps->nonminimizedllits >= ps->minimizedllits); +#ifndef RCODE + redlits = ps->nonminimizedllits - ps->minimizedllits; +#endif + fprintf (ps->out, "%s%u learned literals\n", ps->prefix, ps->llitsadded); + fprintf (ps->out, "%s%.1f%% deleted literals\n", + ps->prefix, PERCENT (redlits, ps->nonminimizedllits)); + +#ifdef STATS +#ifdef TRACE + fprintf (ps->out, + "%s%llu antecedents (%.1f antecedents per clause", + ps->prefix, ps->antecedents, AVERAGE (ps->antecedents, ps->conflicts)); + if (ps->trace) + fprintf (ps->out, ", %.1f bytes/antecedent)", AVERAGE (ps->znts, ps->antecedents)); + fputs (")\n", ps->out); +#endif + + fprintf (ps->out, "%s%llu propagations (%.1f propagations per decision)\n", + ps->prefix, ps->propagations, AVERAGE (ps->propagations, ps->decisions)); + fprintf (ps->out, "%s%llu visits (%.1f per propagation)\n", + ps->prefix, ps->visits, AVERAGE (ps->visits, ps->propagations)); + fprintf (ps->out, + "%s%llu binary clauses visited (%.1f%% %.1f per propagation)\n", + ps->prefix, ps->bvisits, + PERCENT (ps->bvisits, ps->visits), + AVERAGE (ps->bvisits, ps->propagations)); + fprintf (ps->out, + "%s%llu ternary clauses visited (%.1f%% %.1f per propagation)\n", + ps->prefix, ps->tvisits, + PERCENT (ps->tvisits, ps->visits), + AVERAGE (ps->tvisits, ps->propagations)); + fprintf (ps->out, + "%s%llu large clauses visited (%.1f%% %.1f per propagation)\n", + ps->prefix, ps->lvisits, + PERCENT (ps->lvisits, ps->visits), + AVERAGE (ps->lvisits, ps->propagations)); + fprintf (ps->out, "%s%llu other true (%.1f%% of visited clauses)\n", + ps->prefix, ps->othertrue, PERCENT (ps->othertrue, ps->visits)); + fprintf (ps->out, + "%s%llu other true in binary clauses (%.1f%%)" + ", %llu upper (%.1f%%)\n", + ps->prefix, ps->othertrue2, PERCENT (ps->othertrue2, ps->othertrue), + ps->othertrue2u, PERCENT (ps->othertrue2u, ps->othertrue2)); + fprintf (ps->out, + "%s%llu other true in large clauses (%.1f%%)" + ", %llu upper (%.1f%%)\n", + ps->prefix, ps->othertruel, PERCENT (ps->othertruel, ps->othertrue), + ps->othertruelu, PERCENT (ps->othertruelu, ps->othertruel)); + fprintf (ps->out, "%s%llu ternary and large traversals (%.1f per visit)\n", + ps->prefix, ps->traversals, AVERAGE (ps->traversals, ps->visits)); + fprintf (ps->out, "%s%llu large traversals (%.1f per large visit)\n", + ps->prefix, ps->ltraversals, AVERAGE (ps->ltraversals, ps->lvisits)); + fprintf (ps->out, "%s%llu assignments\n", ps->prefix, ps->assignments); +#else + fprintf (ps->out, "%s%llu propagations\n", ps->prefix, picosat_propagations (ps)); + fprintf (ps->out, "%s%llu visits\n", ps->prefix, picosat_visits (ps)); +#endif + fprintf (ps->out, "%s%.1f%% variables used\n", ps->prefix, PERCENT (ps->vused, ps->max_var)); + + sflush (ps); + fprintf (ps->out, "%s%.1f seconds in library\n", ps->prefix, ps->seconds); + fprintf (ps->out, "%s%.1f megaprops/second\n", + ps->prefix, AVERAGE (ps->propagations / 1e6f, ps->seconds)); + fprintf (ps->out, "%s%.1f megavisits/second\n", + ps->prefix, AVERAGE (ps->visits / 1e6f, ps->seconds)); + fprintf (ps->out, "%sprobing %.1f seconds %.0f%%\n", + ps->prefix, ps->flseconds, PERCENT (ps->flseconds, ps->seconds)); +#ifdef STATS + fprintf (ps->out, + "%srecycled %.1f MB in %u reductions\n", + ps->prefix, ps->rrecycled / (double) (1 << 20), ps->reductions); + fprintf (ps->out, + "%srecycled %.1f MB in %u simplifications\n", + ps->prefix, ps->srecycled / (double) (1 << 20), ps->simps); +#else + fprintf (ps->out, "%s%u simplifications\n", ps->prefix, ps->simps); + fprintf (ps->out, "%s%u reductions\n", ps->prefix, ps->reductions); + fprintf (ps->out, "%s%.1f MB recycled\n", ps->prefix, ps->recycled / (double) (1 << 20)); +#endif + fprintf (ps->out, "%s%.1f MB maximally allocated\n", + ps->prefix, picosat_max_bytes_allocated (ps) / (double) (1 << 20)); +} + +#ifndef NGETRUSAGE +#include +#include +#include +#endif + +double +picosat_time_stamp (void) +{ + double res = -1; +#ifndef NGETRUSAGE + struct rusage u; + res = 0; + if (!getrusage (RUSAGE_SELF, &u)) + { + res += u.ru_utime.tv_sec + 1e-6 * u.ru_utime.tv_usec; + res += u.ru_stime.tv_sec + 1e-6 * u.ru_stime.tv_usec; + } +#endif + return res; +} + +double +picosat_seconds (PS * ps) +{ + check_ready (ps); + return ps->seconds; +} + +void +picosat_print (PS * ps, FILE * file) +{ +#ifdef NO_BINARY_CLAUSES + Lit * lit, *other, * last; + Ltk * stack; +#endif + Lit **q, **eol; + Cls **p, *c; + unsigned n; + + if (ps->measurealltimeinlib) + enter (ps); + else + check_ready (ps); + + n = 0; + n += ps->alshead - ps->als; + + for (p = SOC; p != EOC; p = NXC (p)) + { + c = *p; + + if (!c) + continue; + +#ifdef TRACE + if (c->collected) + continue; +#endif + n++; + } + +#ifdef NO_BINARY_CLAUSES + last = int2lit (ps, -ps->max_var); + for (lit = int2lit (ps, 1); lit <= last; lit++) + { + stack = LIT2IMPLS (lit); + eol = stack->start + stack->count; + for (q = stack->start; q < eol; q++) + if (*q >= lit) + n++; + } +#endif + + fprintf (file, "p cnf %d %u\n", ps->max_var, n); + + for (p = SOC; p != EOC; p = NXC (p)) + { + c = *p; + if (!c) + continue; + +#ifdef TRACE + if (c->collected) + continue; +#endif + + eol = end_of_lits (c); + for (q = c->lits; q < eol; q++) + fprintf (file, "%d ", LIT2INT (*q)); + + fputs ("0\n", file); + } + +#ifdef NO_BINARY_CLAUSES + last = int2lit (ps, -ps->max_var); + for (lit = int2lit (ps, 1); lit <= last; lit++) + { + stack = LIT2IMPLS (lit); + eol = stack->start + stack->count; + for (q = stack->start; q < eol; q++) + if ((other = *q) >= lit) + fprintf (file, "%d %d 0\n", LIT2INT (lit), LIT2INT (other)); + } +#endif + + { + Lit **r; + for (r = ps->als; r < ps->alshead; r++) + fprintf (file, "%d 0\n", LIT2INT (*r)); + } + + fflush (file); + + if (ps->measurealltimeinlib) + leave (ps); +} + +void +picosat_enter (PS * ps) +{ + enter (ps); +} + +void +picosat_leave (PS * ps) +{ + leave (ps); +} + +void +picosat_message (PS * ps, int vlevel, const char * fmt, ...) +{ + va_list ap; + + if (vlevel > ps->verbosity) + return; + + fputs (ps->prefix, ps->out); + va_start (ap, fmt); + vfprintf (ps->out, fmt, ap); + va_end (ap); + fputc ('\n', ps->out); +} + +int +picosat_changed (PS * ps) +{ + int res; + + check_ready (ps); + check_sat_state (ps); + + res = (ps->min_flipped <= ps->saved_max_var); + assert (!res || ps->saved_flips != ps->flips); + + return res; +} + +void +picosat_reset_phases (PS * ps) +{ + rebias (ps); +} + +void +picosat_reset_scores (PS * ps) +{ + Rnk * r; + ps->hhead = ps->heap + 1; + for (r = ps->rnks + 1; r <= ps->rnks + ps->max_var; r++) + { + CLR (r); + hpush (ps, r); + } +} + +void +picosat_remove_learned (PS * ps, unsigned percentage) +{ + enter (ps); + reset_incremental_usage (ps); + reduce (ps, percentage); + leave (ps); +} + +void +picosat_set_global_default_phase (PS * ps, int phase) +{ + check_ready (ps); + ABORTIF (phase < 0, "API usage: 'picosat_set_global_default_phase' " + "with negative argument"); + ABORTIF (phase > 3, "API usage: 'picosat_set_global_default_phase' " + "with argument > 3"); + ps->defaultphase = phase; +} + +void +picosat_set_default_phase_lit (PS * ps, int int_lit, int phase) +{ + unsigned newphase; + Lit * lit; + Var * v; + + check_ready (ps); + + lit = import_lit (ps, int_lit, 1); + v = LIT2VAR (lit); + + if (phase) + { + newphase = (int_lit < 0) == (phase < 0); + v->defphase = v->phase = newphase; + v->usedefphase = v->assigned = 1; + } + else + { + v->usedefphase = v->assigned = 0; + } +} + +void +picosat_set_more_important_lit (PS * ps, int int_lit) +{ + Lit * lit; + Var * v; + Rnk * r; + + check_ready (ps); + + lit = import_lit (ps, int_lit, 1); + v = LIT2VAR (lit); + r = VAR2RNK (v); + + ABORTIF (r->lessimportant, "can not mark variable more and less important"); + + if (r->moreimportant) + return; + + r->moreimportant = 1; + + if (r->pos) + hup (ps, r); +} + +void +picosat_set_less_important_lit (PS * ps, int int_lit) +{ + Lit * lit; + Var * v; + Rnk * r; + + check_ready (ps); + + lit = import_lit (ps, int_lit, 1); + v = LIT2VAR (lit); + r = VAR2RNK (v); + + ABORTIF (r->moreimportant, "can not mark variable more and less important"); + + if (r->lessimportant) + return; + + r->lessimportant = 1; + + if (r->pos) + hdown (ps, r); +} + +#ifndef NADC + +unsigned +picosat_ado_conflicts (PS * ps) +{ + check_ready (ps); + return ps->adoconflicts; +} + +void +picosat_disable_ado (PS * ps) +{ + check_ready (ps); + assert (!ps->adodisabled); + ps->adodisabled = 1; +} + +void +picosat_enable_ado (PS * ps) +{ + check_ready (ps); + assert (ps->adodisabled); + ps->adodisabled = 0; +} + +void +picosat_set_ado_conflict_limit (PS * ps, unsigned newadoconflictlimit) +{ + check_ready (ps); + ps->adoconflictlimit = newadoconflictlimit; +} + +#endif + +void +picosat_simplify (PS * ps) +{ + enter (ps); + reset_incremental_usage (ps); + simplify (ps, 1); + leave (ps); +} + +int +picosat_haveados (void) +{ +#ifndef NADC + return 1; +#else + return 0; +#endif +} + +void +picosat_save_original_clauses (PS * ps) +{ + if (ps->saveorig) return; + ABORTIF (ps->oadded, "API usage: 'picosat_save_original_clauses' too late"); + ps->saveorig = 1; +} + +void picosat_set_interrupt (PicoSAT * ps, + void * external_state, + int (*interrupted)(void * external_state)) +{ + ps->interrupt.state = external_state; + ps->interrupt.function = interrupted; +} + +int +picosat_deref_partial (PS * ps, int int_lit) +{ + check_ready (ps); + check_sat_state (ps); + ABORTIF (!int_lit, "API usage: can not partial deref zero literal"); + ABORTIF (ps->mtcls, "API usage: deref partial after empty clause generated"); + ABORTIF (!ps->saveorig, "API usage: 'picosat_save_original_clauses' missing"); + +#ifdef STATS + ps->derefs++; +#endif + + if (!ps->partial) + minautarky (ps); + + return pderef (ps, int_lit); +} diff --git a/picosat/picosat.h b/picosat/picosat.h new file mode 100644 index 000000000..6591f0a21 --- /dev/null +++ b/picosat/picosat.h @@ -0,0 +1,665 @@ +/**************************************************************************** +Copyright (c) 2006 - 2015, Armin Biere, Johannes Kepler University. + +Permission is hereby granted, free of charge, to any person obtaining a copy +of this software and associated documentation files (the "Software"), to +deal in the Software without restriction, including without limitation the +rights to use, copy, modify, merge, publish, distribute, sublicense, and/or +sell copies of the Software, and to permit persons to whom the Software is +furnished to do so, subject to the following conditions: + +The above copyright notice and this permission notice shall be included in +all copies or substantial portions of the Software. + +THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR +IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, +FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE +AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER +LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING +FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS +IN THE SOFTWARE. +****************************************************************************/ + +#ifdef __cplusplus +extern "C" { +#endif + +#ifndef picosat_h_INCLUDED +#define picosat_h_INCLUDED +/*------------------------------------------------------------------------*/ + +#include +#include +#include + +/*------------------------------------------------------------------------*/ +/* The following macros allows for users to distiguish between different + * versions of the API. The first 'PICOSAT_REENTRANT_API' is defined for + * the new reentrant API which allows to generate multiple instances of + * PicoSAT in one process. The second 'PICOSAT_API_VERSION' defines the + * (smallest) version of PicoSAT to which this API conforms. + */ +#define PICOSAT_REENTRANT_API +#define PICOSAT_API_VERSION 953 /* API version */ + +/*------------------------------------------------------------------------*/ +/* These are the return values for 'picosat_sat' as for instance + * standardized by the output format of the SAT competition. + */ +#define PICOSAT_UNKNOWN 0 +#define PICOSAT_SATISFIABLE 10 +#define PICOSAT_UNSATISFIABLE 20 + +/*------------------------------------------------------------------------*/ +struct PicoSAT; //forward declaration +typedef struct PicoSAT PicoSAT; + +/*------------------------------------------------------------------------*/ + +const char *picosat_version (void); +const char *picosat_config (void); +const char *picosat_copyright (void); + +/*------------------------------------------------------------------------*/ +/* You can make PicoSAT use an external memory manager instead of the one + * provided by LIBC. But then you need to call these three function before + * 'picosat_init'. The memory manager functions here all have an additional + * first argument which is a pointer to the memory manager, but otherwise + * are supposed to work as their LIBC counter parts 'malloc', 'realloc' and + * 'free'. As exception the 'resize' and 'delete' function have as third + * argument the number of bytes of the block given as second argument. + */ + +typedef void * (*picosat_malloc)(void *, size_t); +typedef void * (*picosat_realloc)(void*, void *, size_t, size_t); +typedef void (*picosat_free)(void*, void*, size_t); + +/*------------------------------------------------------------------------*/ + +PicoSAT * picosat_init (void); /* constructor */ + +PicoSAT * picosat_minit (void * state, + picosat_malloc, + picosat_realloc, + picosat_free); + +void picosat_reset (PicoSAT *); /* destructor */ + +/*------------------------------------------------------------------------*/ +/* The following five functions are essentially parameters to 'init', and + * thus should be called right after 'picosat_init' before doing anything + * else. You should not call any of them after adding a literal. + */ + +/* Set output file, default is 'stdout'. + */ +void picosat_set_output (PicoSAT *, FILE *); + +/* Measure all time spent in all calls in the solver. By default only the + * time spent in 'picosat_sat' is measured. Enabling this function might + * for instance triple the time needed to add large CNFs, since every call + * to 'picosat_add' will trigger a call to 'getrusage'. + */ +void picosat_measure_all_calls (PicoSAT *); + +/* Set the prefix used for printing verbose messages and statistics. + * Default is "c ". + */ +void picosat_set_prefix (PicoSAT *, const char *); + +/* Set verbosity level. A verbosity level of 1 and above prints more and + * more detailed progress reports on the output file, set by + * 'picosat_set_output'. Verbose messages are prefixed with the string set + * by 'picosat_set_prefix'. + */ +void picosat_set_verbosity (PicoSAT *, int new_verbosity_level); + +/* Disable/Enable all pre-processing, currently only failed literal probing. + * + * new_plain_value != 0 only 'plain' solving, so no preprocessing + * new_plain_value == 0 allow preprocessing + */ +void picosat_set_plain (PicoSAT *, int new_plain_value); + +/* Set default initial phase: + * + * 0 = false + * 1 = true + * 2 = Jeroslow-Wang (default) + * 3 = random initial phase + * + * After a variable has been assigned the first time, it will always + * be assigned the previous value if it is picked as decision variable. + * The initial assignment can be chosen with this function. + */ +void picosat_set_global_default_phase (PicoSAT *, int); + +/* Set next/initial phase of a particular variable if picked as decision + * variable. Second argument 'phase' has the following meaning: + * + * negative = next value if picked as decision variable is false + * + * positive = next value if picked as decision variable is true + * + * 0 = use global default phase as next value and + * assume 'lit' was never assigned + * + * Again if 'lit' is assigned afterwards through a forced assignment, + * then this forced assignment is the next phase if this variable is + * used as decision variable. + */ +void picosat_set_default_phase_lit (PicoSAT *, int lit, int phase); + +/* You can reset all phases by the following function. + */ +void picosat_reset_phases (PicoSAT *); + +/* Scores can be erased as well. Note, however, that even after erasing + * scores and phases, learned clauses are kept. In addition head tail + * pointers for literals are not moved either. So expect a difference + * between calling the solver in incremental mode or with a fresh copy of + * the CNF. + */ +void picosat_reset_scores (PicoSAT *); + +/* Reset assignment if in SAT state and then remove the given percentage of + * less active (large) learned clauses. If you specify 100% all large + * learned clauses are removed. + */ +void picosat_remove_learned (PicoSAT *, unsigned percentage); + +/* Set some variables to be more important than others. These variables are + * always used as decisions before other variables are used. Dually there + * is a set of variables that is used last. The default is + * to mark all variables as being indifferent only. + */ +void picosat_set_more_important_lit (PicoSAT *, int lit); +void picosat_set_less_important_lit (PicoSAT *, int lit); + +/* Allows to print to internal 'out' file from client. + */ +void picosat_message (PicoSAT *, int verbosity_level, const char * fmt, ...); + +/* Set a seed for the random number generator. The random number generator + * is currently just used for generating random decisions. In our + * experiments having random decisions did not really help on industrial + * examples, but was rather helpful to randomize the solver in order to + * do proper benchmarking of different internal parameter sets. + */ +void picosat_set_seed (PicoSAT *, unsigned random_number_generator_seed); + +/* If you ever want to extract cores or proof traces with the current + * instance of PicoSAT initialized with 'picosat_init', then make sure to + * call 'picosat_enable_trace_generation' right after 'picosat_init'. This + * is not necessary if you only use 'picosat_set_incremental_rup_file'. + * + * NOTE, trace generation code is not necessarily included, e.g. if you + * configure PicoSAT with full optimzation as './configure.sh -O' or with + + * you do not get any results by trying to generate traces. + * + * The return value is non-zero if code for generating traces is included + * and it is zero if traces can not be generated. + */ +int picosat_enable_trace_generation (PicoSAT *); + +/* You can dump proof traces in RUP format incrementally even without + * keeping the proof trace in memory. The advantage is a reduction of + * memory usage, but the dumped clauses do not necessarily belong to the + * clausal core. Beside the file the additional parameters denotes the + * maximal number of variables and the number of original clauses. + */ +void picosat_set_incremental_rup_file (PicoSAT *, FILE * file, int m, int n); + +/* Save original clauses for 'picosat_deref_partial'. See comments to that + * function further down. + */ +void picosat_save_original_clauses (PicoSAT *); + +/* Add a call back which is checked regularly to notify the SAT solver + * to terminate earlier. This is useful for setting external time limits + * or terminate early in say a portfolio style parallel SAT solver. + */ +void picosat_set_interrupt (PicoSAT *, + void * external_state, + int (*interrupted)(void * external_state)); + +/*------------------------------------------------------------------------*/ +/* This function returns the next available unused variable index and + * allocates a variable for it even though this variable does not occur as + * assumption, nor in a clause or any other constraints. In future calls to + * 'picosat_sat', 'picosat_deref' and particularly for 'picosat_changed', + * this variable is treated as if it had been used. + */ +int picosat_inc_max_var (PicoSAT *); + +/*------------------------------------------------------------------------*/ +/* Push and pop semantics for PicoSAT. 'picosat_push' opens up a new + * context. All clauses added in this context are attached to it and + * discarded when the context is closed with 'picosat_pop'. It is also + * possible to nest contexts. + * + * The current implementation uses a new internal variable for each context. + * However, the indices for these internal variables are shared with + * ordinary external variables. This means that after any call to + * 'picosat_push', new variable indices should be obtained with + * 'picosat_inc_max_var' and not just by incrementing the largest variable + * index used so far. + * + * The return value is the index of the literal that assumes this context. + * This literal can only be used for 'picosat_failed_context' otherwise + * it will lead to an API usage error. + */ +int picosat_push (PicoSAT *); + +/* This is as 'picosat_failed_assumption', but only for internal variables + * generated by 'picosat_push'. + */ +int picosat_failed_context (PicoSAT *, int lit); + +/* Returns the literal that assumes the current context or zero if the + * outer context has been reached. + */ +int picosat_context (PicoSAT *); + +/* Closes the current context and recycles the literal generated for + * assuming this context. The return value is the literal for the new + * outer context or zero if the outer most context has been reached. + */ +int picosat_pop (PicoSAT *); + +/* Force immmediate removal of all satisfied clauses and clauses that are + * added or generated in closed contexts. This function is called + * internally if enough units are learned or after a certain number of + * contexts have been closed. This number is fixed at compile time + * and defined as MAXCILS in 'picosat.c'. + * + * Note that learned clauses which only involve outer contexts are kept. + */ +void picosat_simplify (PicoSAT *); + +/*------------------------------------------------------------------------*/ +/* If you know a good estimate on how many variables you are going to use + * then calling this function before adding literals will result in less + * resizing of the variable table. But this is just a minor optimization. + * Beside exactly allocating enough variables it has the same effect as + * calling 'picosat_inc_max_var'. + */ +void picosat_adjust (PicoSAT *, int max_idx); + +/*------------------------------------------------------------------------*/ +/* Statistics. + */ +int picosat_variables (PicoSAT *); /* p cnf n */ +int picosat_added_original_clauses (PicoSAT *); /* p cnf m */ +size_t picosat_max_bytes_allocated (PicoSAT *); +double picosat_time_stamp (void); /* ... in process */ +void picosat_stats (PicoSAT *); /* > output file */ +unsigned long long picosat_propagations (PicoSAT *); /* #propagations */ +unsigned long long picosat_decisions (PicoSAT *); /* #decisions */ +unsigned long long picosat_visits (PicoSAT *); /* #visits */ + +/* The time spent in calls to the library or in 'picosat_sat' respectively. + * The former is returned if, right after initialization + * 'picosat_measure_all_calls' is called. + */ +double picosat_seconds (PicoSAT *); + +/*------------------------------------------------------------------------*/ +/* Add a literal of the next clause. A zero terminates the clause. The + * solver is incremental. Adding a new literal will reset the previous + * assignment. The return value is the original clause index to which + * this literal respectively the trailing zero belong starting at 0. + */ +int picosat_add (PicoSAT *, int lit); + +/* As the previous function, but allows to add a full clause at once with an + * at compiled time known size. The list of argument literals has to be + * terminated with a zero literal. Literals beyond the first zero literal + * are discarded. + */ +int picosat_add_arg (PicoSAT *, ...); + +/* As the previous function but with an at compile time unknown size. + */ +int picosat_add_lits (PicoSAT *, int * lits); + +/* Print the CNF to the given file in DIMACS format. + */ +void picosat_print (PicoSAT *, FILE *); + +/* You can add arbitrary many assumptions before the next 'picosat_sat' + * call. This is similar to the using assumptions in MiniSAT, except that + * for PicoSAT you do not have to collect all your assumptions in a vector + * yourself. In PicoSAT you can add one after the other, to be used in the + * next call to 'picosat_sat'. + * + * These assumptions can be interpreted as adding unit clauses with those + * assumptions as literals. However these assumption clauses are only valid + * for exactly the next call to 'picosat_sat', and will be removed + * afterwards, e.g. in following future calls to 'picosat_sat' after the + * next 'picosat_sat' call, unless they are assumed again trough + * 'picosat_assume'. + * + * More precisely, assumptions actually remain valid even after the next + * call to 'picosat_sat' has returned. Valid means they remain 'assumed' + * internally until a call to 'picosat_add', 'picosat_assume', or a second + * 'picosat_sat', following the first 'picosat_sat'. The reason for keeping + * them valid is to allow 'picosat_failed_assumption' to return correct + * values. + * + * Example: + * + * picosat_assume (1); // assume unit clause '1 0' + * picosat_assume (-2); // additionally assume clause '-2 0' + * res = picosat_sat (1000); // assumes 1 and -2 to hold + * // 1000 decisions max. + * + * if (res == PICOSAT_UNSATISFIABLE) + * { + * if (picosat_failed_assumption (1)) + * // unit clause '1 0' was necessary to derive UNSAT + * + * if (picosat_failed_assumption (-2)) + * // unit clause '-2 0' was necessary to derive UNSAT + * + * // at least one but also both could be necessary + * + * picosat_assume (17); // previous assumptions are removed + * // now assume unit clause '17 0' for + * // the next call to 'picosat_sat' + * + * // adding a new clause, actually the first literal of + * // a clause would also make the assumptions used in the previous + * // call to 'picosat_sat' invalid. + * + * // The first two assumptions above are not assumed anymore. Only + * // the assumptions, since the last call to 'picosat_sat' returned + * // are assumed, e.g. the unit clause '17 0'. + * + * res = picosat_sat (-1); + * } + * else if (res == PICOSAT_SATISFIABLE) + * { + * // now the assignment is valid and we can call 'picosat_deref' + * + * assert (picosat_deref (1) == 1)); + * assert (picosat_deref (-2) == 1)); + * + * val = picosat_deref (15); + * + * // previous two assumptions are still valid + * + * // would become invalid if 'picosat_add' or 'picosat_assume' is + * // called here, but we immediately call 'picosat_sat'. Now when + * // entering 'picosat_sat' the solver knows that the previous call + * // returned SAT and it can safely reset the previous assumptions + * + * res = picosat_sat (-1); + * } + * else + * { + * assert (res == PICOSAT_UNKNOWN); + * + * // assumptions valid, but assignment invalid + * // except for top level assigned literals which + * // necessarily need to have this value if the formula is SAT + * + * // as above the solver nows that the previous call returned UNKWOWN + * // and will before doing anything else reset assumptions + * + * picosat_sat (-1); + * } + */ +void picosat_assume (PicoSAT *, int lit); + +/*------------------------------------------------------------------------*/ +/* This is an experimental feature for handling 'all different constraints' + * (ADC). Currently only one global ADC can be handled. The bit-width of + * all the bit-vectors entered in this ADC (stored in 'all different + * objects' or ADOs) has to be identical. + * + * TODO: also handle top level assigned literals here. + */ +void picosat_add_ado_lit (PicoSAT *, int); + +/*------------------------------------------------------------------------*/ +/* Call the main SAT routine. A negative decision limit sets no limit on + * the number of decisions. The return values are as above, e.g. + * 'PICOSAT_UNSATISFIABLE', 'PICOSAT_SATISFIABLE', or 'PICOSAT_UNKNOWN'. + */ +int picosat_sat (PicoSAT *, int decision_limit); + +/* As alternative to a decision limit you can use the number of propagations + * as limit. This is more linearly related to execution time. This has to + * be called after 'picosat_init' and before 'picosat_sat'. + */ +void picosat_set_propagation_limit (PicoSAT *, unsigned long long limit); + +/* Return last result of calling 'picosat_sat' or '0' if not called. + */ +int picosat_res (PicoSAT *); + +/* After 'picosat_sat' was called and returned 'PICOSAT_SATISFIABLE', then + * the satisfying assignment can be obtained by 'dereferencing' literals. + * The value of the literal is return as '1' for 'true', '-1' for 'false' + * and '0' for an unknown value. + */ +int picosat_deref (PicoSAT *, int lit); + +/* Same as before but just returns true resp. false if the literals is + * forced to this assignment at the top level. This function does not + * require that 'picosat_sat' was called and also does not internally reset + * incremental usage. + */ +int picosat_deref_toplevel (PicoSAT *, int lit); + +/* After 'picosat_sat' was called and returned 'PICOSAT_SATISFIABLE' a + * partial satisfying assignment can be obtained as well. It satisfies all + * original clauses. The value of the literal is return as '1' for 'true', + * '-1' for 'false' and '0' for an unknown value. In order to make this + * work all original clauses have to be saved internally, which has to be + * enabled by 'picosat_save_original_clauses' right after initialization. + */ +int picosat_deref_partial (PicoSAT *, int lit); + +/* Returns non zero if the CNF is unsatisfiable because an empty clause was + * added or derived. + */ +int picosat_inconsistent (PicoSAT *); + +/* Returns non zero if the literal is a failed assumption, which is defined + * as an assumption used to derive unsatisfiability. This is as accurate as + * generating core literals, but still of course is an overapproximation of + * the set of assumptions really necessary. The technique does not need + * clausal core generation nor tracing to be enabled and thus can be much + * more effective. The function can only be called as long the current + * assumptions are valid. See 'picosat_assume' for more details. + */ +int picosat_failed_assumption (PicoSAT *, int lit); + +/* Returns a zero terminated list of failed assumption in the last call to + * 'picosat_sat'. The pointer is valid until the next call to + * 'picosat_sat' or 'picosat_failed_assumptions'. It only makes sense if the + * last call to 'picosat_sat' returned 'PICOSAT_UNSATISFIABLE'. + */ +const int * picosat_failed_assumptions (PicoSAT *); + +/* Returns a zero terminated minimized list of failed assumption for the last + * call to 'picosat_sat'. The pointer is valid until the next call to this + * function or 'picosat_sat' or 'picosat_mus_assumptions'. It only makes sense + * if the last call to 'picosat_sat' returned 'PICOSAT_UNSATISFIABLE'. + * + * The call back function is called for all successful simplification + * attempts. The first argument of the call back function is the state + * given as first argument to 'picosat_mus_assumptions'. The second + * argument to the call back function is the new reduced list of failed + * assumptions. + * + * This function will call 'picosat_assume' and 'picosat_sat' internally but + * before returning reestablish a proper UNSAT state, e.g. + * 'picosat_failed_assumption' will work afterwards as expected. + * + * The last argument if non zero fixes assumptions. In particular, if an + * assumption can not be removed it is permanently assigned true, otherwise + * if it turns out to be redundant it is permanently assumed to be false. + */ +const int * picosat_mus_assumptions (PicoSAT *, void *, + void(*)(void*,const int*),int); + +/* Compute one maximal subset of satisfiable assumptions. You need to set + * the assumptions, call 'picosat_sat' and check for 'picosat_inconsistent', + * before calling this function. The result is a zero terminated array of + * assumptions that consistently can be asserted at the same time. Before + * returing the library 'reassumes' all assumptions. + * + * It could be beneficial to set the default phase of assumptions + * to true (positive). This can speed up the computation. + */ +const int * picosat_maximal_satisfiable_subset_of_assumptions (PicoSAT *); + +/* This function assumes that you have set up all assumptions with + * 'picosat_assume'. Then it calls 'picosat_sat' internally unless the + * formula is already inconsistent without assumptions, i.e. it contains + * the empty clause. After that it extracts a maximal satisfiable subset of + * assumptions. + * + * The result is a zero terminated maximal subset of consistent assumptions + * or a zero pointer if the formula contains the empty clause and thus no + * more maximal consistent subsets of assumptions can be extracted. In the + * first case, before returning, a blocking clause is added, that rules out + * the result for the next call. + * + * NOTE: adding the blocking clause changes the CNF. + * + * So the following idiom + * + * const int * mss; + * picosat_assume (a1); + * picosat_assume (a2); + * picosat_assume (a3); + * picosat_assume (a4); + * while ((mss = picosat_next_maximal_satisfiable_subset_of_assumptions ())) + * process_mss (mss); + * + * can be used to iterate over all maximal consistent subsets of + * the set of assumptions {a1,a2,a3,a4}. + * + * It could be beneficial to set the default phase of assumptions + * to true (positive). This might speed up the computation. + */ +const int * +picosat_next_maximal_satisfiable_subset_of_assumptions (PicoSAT *); + +/* Similarly we can iterate over all minimal correcting assumption sets. + * See the CAMUS literature [M. Liffiton, K. Sakallah JAR 2008]. + * + * The result contains each assumed literal only once, even if it + * was assumed multiple times (in contrast to the maximal consistent + * subset functions above). + * + * It could be beneficial to set the default phase of assumptions + * to true (positive). This might speed up the computation. + */ +const int * +picosat_next_minimal_correcting_subset_of_assumptions (PicoSAT *); + +/* Compute the union of all minmal correcting sets, which is called + * the 'high level union of all minimal unsatisfiable subset sets' + * or 'HUMUS' in our papers. + * + * It uses 'picosat_next_minimal_correcting_subset_of_assumptions' and + * the same notes and advices apply. In particular, this implies that + * after calling the function once, the current CNF becomes inconsistent, + * and PicoSAT has to be reset. So even this function internally uses + * PicoSAT incrementally, it can not be used incrementally itself at this + * point. + * + * The 'callback' can be used for progress logging and is called after + * each extracted minimal correcting set if non zero. The 'nhumus' + * parameter of 'callback' denotes the number of assumptions found to be + * part of the HUMUS sofar. + */ +const int * +picosat_humus (PicoSAT *, + void (*callback)(void * state, int nmcs, int nhumus), + void * state); + +/*------------------------------------------------------------------------*/ +/* Assume that a previous call to 'picosat_sat' in incremental usage, + * returned 'SATISFIABLE'. Then a couple of clauses and optionally new + * variables were added (a new variable is a variable that has an index + * larger then the maximum variable added so far). The next call to + * 'picosat_sat' also returns 'SATISFIABLE'. If this function + * 'picosat_changed' returns '0', then the assignment to the old variables + * is guaranteed to not have changed. Otherwise it might have changed. + * + * The return value to this function is only valid until new clauses are + * added through 'picosat_add', an assumption is made through + * 'picosat_assume', or again 'picosat_sat' is called. This is the same + * assumption as for 'picosat_deref'. + * + * TODO currently this function might also return a non zero value even if + * the old assignment did not change, because it only checks whether the + * assignment of at least one old variable was flipped at least once during + * the search. In principle it should be possible to be exact in the other + * direction as well by using a counter of variables that have an odd number + * of flips. But this is not implemented yet. + */ +int picosat_changed (PicoSAT *); + +/*------------------------------------------------------------------------*/ +/* The following six functions internally extract the variable and clausal + * core and thus require trace generation to be enabled with + * 'picosat_enable_trace_generation' right after calling 'picosat_init'. + * + * TODO: using these functions in incremental mode with failed assumptions + * has only been tested for 'picosat_corelit' thoroughly. The others + * probably only work in non-incremental mode or without using + * 'picosat_assume'. + */ + +/* This function determines whether the i'th added original clause is in the + * core. The 'i' is the return value of 'picosat_add', which starts at zero + * and is incremented by one after a original clause is added (that is after + * 'picosat_add (0)'). For the index 'i' the following has to hold: + * + * 0 <= i < picosat_added_original_clauses () + */ +int picosat_coreclause (PicoSAT *, int i); + +/* This function gives access to the variable core, which is made up of the + * variables that were resolved in deriving the empty clause. + */ +int picosat_corelit (PicoSAT *, int lit); + +/* Write the clauses that were used in deriving the empty clause to a file + * in DIMACS format. + */ +void picosat_write_clausal_core (PicoSAT *, FILE * core_file); + +/* Write a proof trace in TraceCheck format to a file. + */ +void picosat_write_compact_trace (PicoSAT *, FILE * trace_file); +void picosat_write_extended_trace (PicoSAT *, FILE * trace_file); + +/* Write a RUP trace to a file. This trace file contains only the learned + * core clauses while this is not necessarily the case for the RUP file + * obtained with 'picosat_set_incremental_rup_file'. + */ +void picosat_write_rup_trace (PicoSAT *, FILE * trace_file); + +/*------------------------------------------------------------------------*/ +/* Keeping the proof trace around is not necessary if an over-approximation + * of the core is enough. A literal is 'used' if it was involved in a + * resolution to derive a learned clause. The core literals are necessarily + * a subset of the 'used' literals. + */ + +int picosat_usedlit (PicoSAT *, int lit); +/*------------------------------------------------------------------------*/ +#endif + +#ifdef __cplusplus +} +#endif diff --git a/spot/Makefile.am b/spot/Makefile.am index 6d48c44e0..dc1cd9228 100644 --- a/spot/Makefile.am +++ b/spot/Makefile.am @@ -42,7 +42,8 @@ libspot_la_LIBADD = \ tl/libtl.la \ twaalgos/libtwaalgos.la \ twa/libtwa.la \ - ../lib/libgnu.la + ../lib/libgnu.la \ + ../picosat/libpico.la # Dummy C++ source to cause C++ linking. nodist_EXTRA_libspot_la_SOURCES = _.cc diff --git a/spot/misc/satsolver.cc b/spot/misc/satsolver.cc index 6ab312992..d0af1a7e5 100644 --- a/spot/misc/satsolver.cc +++ b/spot/misc/satsolver.cc @@ -23,66 +23,13 @@ #include #include #include +#include #include #include #include namespace spot { - namespace - { - struct satsolver_command: formater - { - const char* satsolver; - - satsolver_command() - { - satsolver = getenv("SPOT_SATSOLVER"); - if (!satsolver) - { - satsolver = "glucose -verb=0 -model %I >%O"; - return; - } - prime(satsolver); - if (!has('I')) - throw std::runtime_error("SPOT_SATSOLVER should contain %I to " - "indicate how to use the input filename."); - if (!has('O')) - throw std::runtime_error("SPOT_SATSOLVER should contain %O to " - "indicate how to use the output filename."); - } - - int - run(printable* in, printable* out) - { - declare('I', in); - declare('O', out); - std::ostringstream s; - format(s, satsolver); - int res = system(s.str().c_str()); - if (res < 0 || (WIFEXITED(res) && WEXITSTATUS(res) == 127)) - { - s << ": failed to execute"; - throw std::runtime_error(s.str()); - } - // For POSIX shells, "The exit status of a command that - // terminated because it received a signal shall be reported - // as greater than 128." - if (WIFEXITED(res) && WEXITSTATUS(res) >= 128) - { - s << ": terminated by signal"; - throw std::runtime_error(s.str()); - } - if (WIFSIGNALED(res)) - { - s << ": terminated by signal " << WTERMSIG(res); - throw std::runtime_error(s.str()); - } - return res; - } - }; - } - satsolver::solution satsolver_get_solution(const char* filename) { @@ -122,17 +69,35 @@ namespace spot return sol; } + // In other functions, command_given() won't be called anymore as it is more + // easy to check if psat_ was initialized or not. satsolver::satsolver() - : cnf_tmp_(nullptr), cnf_stream_(nullptr) + : cnf_tmp_(nullptr), cnf_stream_(nullptr), nclauses_(0), nvars_(0), + psat_(nullptr) { - start(); + if (cmd_.command_given()) + { + start(); + } + else + { + psat_ = picosat_init(); + picosat_set_seed(psat_, 0); + } } satsolver::~satsolver() { - delete cnf_tmp_; - delete cnf_stream_; - delete nclauses_; + if (psat_) + { + picosat_reset(psat_); + psat_ = nullptr; + } + else + { + delete cnf_tmp_; + delete cnf_stream_; + } } void satsolver::start() @@ -140,70 +105,192 @@ namespace spot cnf_tmp_ = create_tmpfile("sat-", ".cnf"); cnf_stream_ = new std::ofstream(cnf_tmp_->name(), std::ios_base::trunc); cnf_stream_->exceptions(std::ofstream::failbit | std::ofstream::badbit); - nclauses_ = new clause_counter(); // Add empty line for the header *cnf_stream_ << " \n"; } + // Must be called only when SPOT_SATSOLVER is given void satsolver::end_clause() { *cnf_stream_ << '\n'; - *nclauses_ += 1; + nclauses_ += 1; + if (nclauses_ < 0) + throw std::runtime_error("too many SAT clauses (more than INT_MAX)"); + } + + void satsolver::adjust_nvars(int nvars) + { + if (nvars < 0) + throw std::runtime_error("variable number must be at least 0"); + + if (psat_) + { + picosat_adjust(psat_, nvars); + } + else + { + if (nvars < nvars_) + { + throw std::runtime_error( + "wrong number of variables, a bigger one was already added"); + } + nvars_ = nvars; + } } void satsolver::add(std::initializer_list values) { for (auto& v : values) { - *cnf_stream_ << v << ' '; - if (!v) // ..., 0) - end_clause(); + if (psat_) + { + picosat_add(psat_, v); + } + else + { + *cnf_stream_ << v << ' '; + if (!v) // ..., 0) + end_clause(); + + if (nvars_ < v) + nvars_ = v; + } } } void satsolver::add(int v) { - *cnf_stream_ << v << ' '; - if (!v) // 0 - end_clause(); + if (psat_) + { + picosat_add(psat_, v); + } + else + { + *cnf_stream_ << v << ' '; + if (!v) // 0 + end_clause(); + + if (v && nvars_ < v) + nvars_ = v; + } } int satsolver::get_nb_clauses() const { - return nclauses_->nb_clauses(); + if (psat_) + return picosat_added_original_clauses(psat_); + return nclauses_; } - std::pair satsolver::stats(int nvars) + int satsolver::get_nb_vars() const { - int nclaus = nclauses_->nb_clauses(); - cnf_stream_->seekp(0); - *cnf_stream_ << "p cnf " << nvars << ' ' << nclaus; - return std::make_pair(nvars, nclaus); + if (psat_) + return picosat_variables(psat_); + return nvars_; } std::pair satsolver::stats() { - *cnf_stream_ << "p cnf 1 2\n-1 0\n1 0\n"; - return std::make_pair(1, 2); + return std::make_pair(get_nb_vars(), get_nb_clauses()); + } + + satsolver::solution + satsolver::picosat_get_solution(int res) + { + satsolver::solution sol; + if (res == PICOSAT_SATISFIABLE) + { + int nvars = get_nb_vars(); + for (int lit = 1; lit <= nvars; ++lit) + { + if (picosat_deref(psat_, lit) > 0) + sol.push_back(lit); + else + sol.push_back(-lit); + } + } + return sol; } satsolver::solution_pair satsolver::get_solution() { - delete cnf_stream_; // Close the file. - cnf_stream_ = nullptr; - - temporary_file* output = create_tmpfile("sat-", ".out"); solution_pair p; + if (psat_) + { + p.first = 0; // A subprocess was not executed so nothing failed. + int res = picosat_sat(psat_, -1); // -1: no limit (number of decisions). + p.second = picosat_get_solution(res); + } + else + { + // Update header + cnf_stream_->seekp(0); + *cnf_stream_ << "p cnf " << get_nb_vars() << ' ' << get_nb_clauses(); + cnf_stream_->seekp(0, std::ios_base::end); + if (!*cnf_stream_) + throw std::runtime_error("Failed to update cnf header"); - // Make this static, so the SPOT_SATSOLVER lookup is done only on - // the first call to run_sat(). - static satsolver_command cmd; - - p.first = cmd.run(cnf_tmp_, output); - p.second = satsolver_get_solution(output->name()); - delete output; + temporary_file* output = create_tmpfile("sat-", ".out"); + p.first = cmd_.run(cnf_tmp_, output); + p.second = satsolver_get_solution(output->name()); + delete output; + } return p; } + + satsolver_command::satsolver_command() : satsolver(nullptr) + { + satsolver = getenv("SPOT_SATSOLVER"); + if (!satsolver) + return; + + prime(satsolver); + if (!has('I')) + throw std::runtime_error("SPOT_SATSOLVER should contain %I to " + "indicate how to use the input filename."); + if (!has('O')) + throw std::runtime_error("SPOT_SATSOLVER should contain %O to " + "indicate how to use the output filename."); + } + + bool + satsolver_command::command_given() + { + return satsolver != nullptr; + } + + int + satsolver_command::run(printable* in, printable* out) + { + declare('I', in); + declare('O', out); + std::ostringstream s; + format(s, satsolver); + + int res = system(s.str().c_str()); + if (res < 0 || (WIFEXITED(res) && WEXITSTATUS(res) == 127)) + { + s << ": failed to execute"; + throw std::runtime_error(s.str()); + } + + // For POSIX shells, "The exit status of a command that + // terminated because it received a signal shall be reported + // as greater than 128." + if (WIFEXITED(res) && WEXITSTATUS(res) >= 128) + { + s << ": terminated by signal"; + throw std::runtime_error(s.str()); + } + + if (WIFSIGNALED(res)) + { + s << ": terminated by signal " << WTERMSIG(res); + throw std::runtime_error(s.str()); + } + + return res; + } } diff --git a/spot/misc/satsolver.hh b/spot/misc/satsolver.hh index 6a28b565a..1d3070811 100644 --- a/spot/misc/satsolver.hh +++ b/spot/misc/satsolver.hh @@ -26,68 +26,58 @@ #include #include +struct PicoSAT; // forward + namespace spot { class printable; - class clause_counter + /// \brief Interface with a given sat solver. + /// + /// When created, it checks if SPOT_SATSOLVER env var is set. If so, + /// its value is parsed and saved internally. The env variable musb be set + /// like this: " [its_options] %I > %O" + /// where %I and %O are replaced by input and output files. + /// + /// The run method permits of course to run the given sat solver. + class satsolver_command: formater { private: - int count_; + const char* satsolver; public: - clause_counter() - : count_(0) - { - } + satsolver_command(); - void check() const - { - if (count_ < 0) - throw std::runtime_error("too many SAT clauses (more than INT_MAX)"); - } + /// \brief Return true if a satsolver is given, false otherwise. + bool command_given(); - clause_counter& operator++() - { - ++count_; - check(); - return *this; - } + /// \brief Run the given satsolver. + int run(printable* in, printable* out); - clause_counter& operator+=(int n) - { - count_ += n; - check(); - return *this; - } - - int nb_clauses() const - { - return count_; - } }; /// \brief Interface with a SAT solver. /// - /// Call start() to initialize the cnf file. This class provides the - /// necessary functions to handle the cnf file, add clauses, count them, - /// update the header, add some comments... - /// It is not possible to write in the file without having to call these - /// functions. - /// - /// The satsolver called can be configured via the - /// SPOT_SATSOLVER environment variable. It must be this set - /// following this: "satsolver -verb=0 %I >%O". + /// This class provides the necessary functions to add clauses, comments. + /// Depending on SPOT_SATSOLVER, it will use either picosat solver (default) + /// or the given satsolver. /// + /// Now that spot is distributed with a satsolver (PicoSAT), it is used by + /// default. But another satsolver can be configured via the + /// SPOT_SATSOLVER environment variable. It must be set following + /// this: "satsolver [options] %I > %O" /// where %I and %O are replaced by input and output files. class SPOT_API satsolver { public: + /// \brief Construct the sat solver and itinialize variables. + /// If no satsolver is provided through SPOT_SATSOLVER env var, a + /// distributed version of PicoSAT will be used. satsolver(); ~satsolver(); - /// \brief Initialize private attributes - void start(); + /// \brief Adjust the number of variables used in the cnf formula. + void adjust_nvars(int nvars); /// \brief Add a list of lit. to the current clause. void add(std::initializer_list values); @@ -98,58 +88,109 @@ namespace spot /// \breif Get the current number of clauses. int get_nb_clauses() const; - /// \breif Update cnf_file's header with the correct stats. - std::pair stats(int nvars); + /// \brief Get the current number of variables. + int get_nb_vars() const; - /// \breif Create an unsatisfiable cnf_file, return stats about it. + /// \brief Returns std::pair; std::pair stats(); - /// \breif Add a comment in cnf file. + /// \brief Add a comment. + /// It should be used only in debug mode after providing a satsolver. template - void comment_rec(T single) - { - *cnf_stream_ << single << ' '; - } + void comment_rec(T single); - /// \breif Add a comment in cnf_file. + /// \brief Add comments. + /// It should be used only in debug mode after providing a satsolver. template - void comment_rec(T first, Args... args) - { - *cnf_stream_ << first << ' '; - comment_rec(args...); - } + void comment_rec(T first, Args... args); - /// \breif Add a comment in the cnf_file, starting with 'c'. + /// \brief Add a comment. It will start with "c ". + /// It should be used only in debug mode after providing a satsolver. template - void comment(T single) - { - *cnf_stream_ << "c " << single << ' '; - } + void comment(T single); - /// \breif Add comment in the cnf_file, starting with 'c'. + /// \brief Add comments. It will start with "c ". + /// It should be used only in debug mode after providing a satsolver. template - void comment(T first, Args... args) - { - *cnf_stream_ << "c " << first << ' '; - comment_rec(args...); - } + void comment(T first, Args... args); typedef std::vector solution; typedef std::pair solution_pair; + + /// \brief Return std::vector. solution_pair get_solution(); - private: - /// \breif End the current clause and increment the counter. + private: // methods + /// \brief Initialize cnf streams attributes. + void start(); + + /// \brief End the current clause and increment the counter. void end_clause(); - private: + /// \brief Extract the solution of Picosat output. + /// Must be called only if SPOT_SATSOLVER env variable is not set. + satsolver::solution + picosat_get_solution(int res); + + private: // variables + /// \brief A satsolver_command. Check if SPOT_SATSOLVER is given. + satsolver_command cmd_; + + // cnf streams and associated clause counter. + // The next 2 pointers will be != nullptr if SPOT_SATSOLVER is given. temporary_file* cnf_tmp_; std::ostream* cnf_stream_; - clause_counter* nclauses_; + int nclauses_; + int nvars_; + /// \brief Picosat satsolver instance. + PicoSAT* psat_; }; /// \brief Extract the solution of a SAT solver output. SPOT_API satsolver::solution satsolver_get_solution(const char* filename); + +} + +namespace spot +{ + template + void + satsolver::comment_rec(T single) + { + if (!psat_) + *cnf_stream_ << ' ' << single; + } + + template + void + satsolver::comment_rec(T first, Args... args) + { + if (!psat_) + { + *cnf_stream_ << ' ' << first; + comment_rec(args...); + } + } + + template + void + satsolver::comment(T single) + { + if (!psat_) + *cnf_stream_ << "c " << single; + } + + template + void + satsolver::comment(T first, Args... args) + { + if (!psat_) + { + *cnf_stream_ << "c " << first; + comment_rec(args...); + } + } + } diff --git a/spot/twaalgos/dtbasat.cc b/spot/twaalgos/dtbasat.cc index a54c3a67d..bac09e79b 100644 --- a/spot/twaalgos/dtbasat.cc +++ b/spot/twaalgos/dtbasat.cc @@ -296,7 +296,7 @@ namespace spot typedef std::pair sat_stats; static - sat_stats dtba_to_sat(satsolver solver, + sat_stats dtba_to_sat(satsolver& solver, const const_twa_graph_ptr& ref, dict& d, bool state_based) { @@ -322,9 +322,11 @@ namespace spot // Number all the SAT variables we may need. unsigned ref_size = declare_vars(ref, d, ap, state_based, sm); + // Tell the satsolver the number of variables + solver.adjust_nvars(d.nvars); + // empty automaton is impossible - if (d.cand_size == 0) - return solver.stats(); + assert(d.cand_size > 0); #if DEBUG debug_dict = ref->get_dict(); @@ -602,7 +604,7 @@ namespace spot } } } - return solver.stats(d.nvars); + return solver.stats(); } static twa_graph_ptr diff --git a/spot/twaalgos/dtwasat.cc b/spot/twaalgos/dtwasat.cc index 51bff5b47..6c745458a 100644 --- a/spot/twaalgos/dtwasat.cc +++ b/spot/twaalgos/dtwasat.cc @@ -598,7 +598,7 @@ namespace spot typedef std::pair sat_stats; static - sat_stats dtwa_to_sat(satsolver solver, const_twa_graph_ptr ref, + sat_stats dtwa_to_sat(satsolver& solver, const_twa_graph_ptr ref, dict& d, bool state_based, bool colored) { #if DEBUG @@ -628,9 +628,11 @@ namespace spot // Number all the SAT variables we may need. unsigned ref_size = declare_vars(ref, d, ap, state_based, sm); + // Tell the satsolver the number of variables + solver.adjust_nvars(d.nvars); + // empty automaton is impossible - if (d.cand_size == 0) - return solver.stats(); + assert(d.cand_size > 0); #if DEBUG debug_ref_acc = &ref->acc(); @@ -995,7 +997,7 @@ namespace spot } } } - return solver.stats(d.nvars); + return solver.stats(); } static twa_graph_ptr