From a6b782a6b8486689e47338c456b816c95cf67a92 Mon Sep 17 00:00:00 2001 From: =?utf8?q?Dejan=20Jovanovi=C4=87?= Date: Sun, 15 Aug 2010 21:25:21 +0000 Subject: [PATCH] --- src/prop/minisat/LICENSE | 1 + src/prop/minisat/Makefile.am | 32 +- src/prop/minisat/README | 19 +- src/prop/minisat/core/Dimacs.h | 89 +++ src/prop/minisat/core/Main.cc | 448 ++++------- src/prop/minisat/core/Makefile | 7 +- src/prop/minisat/core/Solver.cc | 785 ++++++++++++-------- src/prop/minisat/core/Solver.h | 353 +++++---- src/prop/minisat/core/SolverTypes.h | 371 ++++++--- src/prop/minisat/doc/ReleaseNotes-2.2.0.txt | 79 ++ src/prop/minisat/mtl/Alg.h | 67 +- src/prop/minisat/mtl/Alloc.h | 131 ++++ src/prop/minisat/mtl/BasicHeap.h | 109 --- src/prop/minisat/mtl/BoxedVec.h | 156 ---- src/prop/minisat/mtl/Heap.h | 129 ++-- src/prop/minisat/mtl/IntTypes.h | 42 ++ src/prop/minisat/mtl/Map.h | 117 ++- src/prop/minisat/mtl/Queue.h | 98 +-- src/prop/minisat/mtl/Sort.h | 24 +- src/prop/minisat/mtl/Vec.h | 118 ++- src/prop/minisat/mtl/XAlloc.h | 45 ++ src/prop/minisat/mtl/config.mk | 6 + src/prop/minisat/mtl/template.mk | 91 ++- src/prop/minisat/simp/Main.cc | 508 ++++--------- src/prop/minisat/simp/Makefile | 11 +- src/prop/minisat/simp/SimpSolver.cc | 671 ++++++++--------- src/prop/minisat/simp/SimpSolver.h | 178 +++-- src/prop/minisat/utils/Makefile | 4 + src/prop/minisat/utils/Options.cc | 91 +++ src/prop/minisat/utils/Options.h | 386 ++++++++++ src/prop/minisat/utils/ParseUtils.h | 122 +++ src/prop/minisat/utils/System.cc | 95 +++ src/prop/minisat/utils/System.h | 60 ++ 33 files changed, 3238 insertions(+), 2205 deletions(-) create mode 100644 src/prop/minisat/core/Dimacs.h create mode 100644 src/prop/minisat/doc/ReleaseNotes-2.2.0.txt create mode 100644 src/prop/minisat/mtl/Alloc.h delete mode 100644 src/prop/minisat/mtl/BasicHeap.h delete mode 100644 src/prop/minisat/mtl/BoxedVec.h create mode 100644 src/prop/minisat/mtl/IntTypes.h create mode 100644 src/prop/minisat/mtl/XAlloc.h create mode 100644 src/prop/minisat/mtl/config.mk create mode 100644 src/prop/minisat/utils/Makefile create mode 100644 src/prop/minisat/utils/Options.cc create mode 100644 src/prop/minisat/utils/Options.h create mode 100644 src/prop/minisat/utils/ParseUtils.h create mode 100644 src/prop/minisat/utils/System.cc create mode 100644 src/prop/minisat/utils/System.h diff --git a/src/prop/minisat/LICENSE b/src/prop/minisat/LICENSE index c87a32731..22816ff39 100644 --- a/src/prop/minisat/LICENSE +++ b/src/prop/minisat/LICENSE @@ -1,4 +1,5 @@ MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson + Copyright (c) 2007-2010 Niklas Sorensson Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the diff --git a/src/prop/minisat/Makefile.am b/src/prop/minisat/Makefile.am index 56f61adad..3d7bb08df 100644 --- a/src/prop/minisat/Makefile.am +++ b/src/prop/minisat/Makefile.am @@ -1,29 +1,41 @@ AM_CPPFLAGS = \ -D__BUILDING_CVC4LIB \ - -I@srcdir@/mtl -I@srcdir@/core -I@srcdir@/../.. -I@builddir@/../.. -I@srcdir@/../../include -AM_CXXFLAGS = -Wall -Wno-unknown-pragmas $(FLAG_VISIBILITY_HIDDEN) -DNDEBUG + -D __STDC_LIMIT_MACROS \ + -D __STDC_FORMAT_MACROS \ + -I@srcdir@/ -I@srcdir@/../.. -I@builddir@/../.. -I@srcdir@/../../include +AM_CXXFLAGS = -Wall -Wno-parentheses -Wno-unknown-pragmas $(FLAG_VISIBILITY_HIDDEN) -DNDEBUG noinst_LTLIBRARIES = libminisat.la libminisat_la_SOURCES = \ - core/Solver.C \ + core/Dimacs.h \ + core/Solver.cc \ core/Solver.h \ core/SolverTypes.h \ - simp/SimpSolver.C \ + simp/SimpSolver.cc \ simp/SimpSolver.h \ mtl/Alg.h \ - mtl/BasicHeap.h \ - mtl/BoxedVec.h \ + mtl/Alloc.h \ mtl/Heap.h \ + mtl/IntTypes.h \ mtl/Map.h \ mtl/Queue.h \ mtl/Sort.h \ - mtl/Vec.h + mtl/Vec.h \ + mtl/Xalloc.h \ + util/Options.h EXTRA_DIST = \ - core/Main.C \ + core/Main.cc \ core/Makefile \ - simp/Main.C \ + doc/ReleaseNotes-2.2.0.txt \ + simp/Main.cc \ simp/Makefile \ README \ LICENSE \ - mtl/template.mk + mtl/config.mk \ + mtl/template.mk \ + utils/ParseUtils.h \ + utils/System.h \ + utils/System.cc \ + Makefile + diff --git a/src/prop/minisat/README b/src/prop/minisat/README index e1b79329b..e5e5617d8 100644 --- a/src/prop/minisat/README +++ b/src/prop/minisat/README @@ -1,19 +1,24 @@ -Directory overview: -================== +================================================================================ +DIRECTORY OVERVIEW: mtl/ Mini Template Library +utils/ Generic helper code (I/O, Parsing, CPU-time, etc) core/ A core version of the solver simp/ An extended solver with simplification capabilities README LICENSE -To build (release version: without assertions, statically linked, etc): -====================================================================== +================================================================================ +BUILDING: (release version: without assertions, statically linked, etc) +export MROOT= (or setenv in cshell) cd { core | simp } gmake rs +cp minisat_static /minisat -Usage: -====== +================================================================================ +EXAMPLES: -TODO +Run minisat with same heuristics as version 2.0: + +> minisat -no-luby -rinc=1.5 -phase-saving=0 -rnd-freq=0.02 diff --git a/src/prop/minisat/core/Dimacs.h b/src/prop/minisat/core/Dimacs.h new file mode 100644 index 000000000..a05e900c1 --- /dev/null +++ b/src/prop/minisat/core/Dimacs.h @@ -0,0 +1,89 @@ +/****************************************************************************************[Dimacs.h] +Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2007-2010, Niklas Sorensson + +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. +**************************************************************************************************/ + +#ifndef Minisat_Dimacs_h +#define Minisat_Dimacs_h + +#include + +#include "utils/ParseUtils.h" +#include "core/SolverTypes.h" + +namespace Minisat { + +//================================================================================================= +// DIMACS Parser: + +template +static void readClause(B& in, Solver& S, vec& lits) { + int parsed_lit, var; + lits.clear(); + for (;;){ + parsed_lit = parseInt(in); + if (parsed_lit == 0) break; + var = abs(parsed_lit)-1; + while (var >= S.nVars()) S.newVar(); + lits.push( (parsed_lit > 0) ? mkLit(var) : ~mkLit(var) ); + } +} + +template +static void parse_DIMACS_main(B& in, Solver& S) { + vec lits; + int vars = 0; + int clauses = 0; + int cnt = 0; + for (;;){ + skipWhitespace(in); + if (*in == EOF) break; + else if (*in == 'p'){ + if (eagerMatch(in, "p cnf")){ + vars = parseInt(in); + clauses = parseInt(in); + // SATRACE'06 hack + // if (clauses > 4000000) + // S.eliminate(true); + }else{ + printf("PARSE ERROR! Unexpected char: %c\n", *in), exit(3); + } + } else if (*in == 'c' || *in == 'p') + skipLine(in); + else{ + cnt++; + readClause(in, S, lits); + S.addClause_(lits); } + } + if (vars != S.nVars()) + fprintf(stderr, "WARNING! DIMACS header mismatch: wrong number of variables.\n"); + if (cnt != clauses) + fprintf(stderr, "WARNING! DIMACS header mismatch: wrong number of clauses.\n"); +} + +// Inserts problem into solver. +// +template +static void parse_DIMACS(gzFile input_stream, Solver& S) { + StreamBuffer in(input_stream); + parse_DIMACS_main(in, S); } + +//================================================================================================= +} + +#endif diff --git a/src/prop/minisat/core/Main.cc b/src/prop/minisat/core/Main.cc index acef32cd5..4388c3e08 100644 --- a/src/prop/minisat/core/Main.cc +++ b/src/prop/minisat/core/Main.cc @@ -1,5 +1,6 @@ -/******************************************************************************************[Main.C] -MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +/*****************************************************************************************[Main.cc] +Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2007-2010, Niklas Sorensson 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, @@ -17,328 +18,175 @@ DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. **************************************************************************************************/ -#include -#include -#include #include #include #include -#include "Solver.h" - -/*************************************************************************************/ -#ifdef _MSC_VER -#include - -static inline double cpuTime(void) { - return (double)clock() / CLOCKS_PER_SEC; } -#else - -#include -#include -#include - -static inline double cpuTime(void) { - struct rusage ru; - getrusage(RUSAGE_SELF, &ru); - return (double)ru.ru_utime.tv_sec + (double)ru.ru_utime.tv_usec / 1000000; } -#endif - - -#if defined(__linux__) -static inline int memReadStat(int field) -{ - char name[256]; - pid_t pid = getpid(); - sprintf(name, "/proc/%d/statm", pid); - FILE* in = fopen(name, "rb"); - if (in == NULL) return 0; - int value; - for (; field >= 0; field--) - fscanf(in, "%d", &value); - fclose(in); - return value; -} -static inline uint64_t memUsed() { return (uint64_t)memReadStat(0) * (uint64_t)getpagesize(); } - - -#elif defined(__FreeBSD__) -static inline uint64_t memUsed(void) { - struct rusage ru; - getrusage(RUSAGE_SELF, &ru); - return ru.ru_maxrss*1024; } - - -#else -static inline uint64_t memUsed() { return 0; } -#endif - -#if defined(__linux__) -#include -#endif - -//================================================================================================= -// DIMACS Parser: - -#define CHUNK_LIMIT 1048576 - -class StreamBuffer { - gzFile in; - char buf[CHUNK_LIMIT]; - int pos; - int size; - - void assureLookahead() { - if (pos >= size) { - pos = 0; - size = gzread(in, buf, sizeof(buf)); } } - -public: - StreamBuffer(gzFile i) : in(i), pos(0), size(0) { - assureLookahead(); } - - int operator * () { return (pos >= size) ? EOF : buf[pos]; } - void operator ++ () { pos++; assureLookahead(); } -}; - -//- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -template -static void skipWhitespace(B& in) { - while ((*in >= 9 && *in <= 13) || *in == 32) - ++in; } - -template -static void skipLine(B& in) { - for (;;){ - if (*in == EOF || *in == '\0') return; - if (*in == '\n') { ++in; return; } - ++in; } } - -template -static int parseInt(B& in) { - int val = 0; - bool neg = false; - skipWhitespace(in); - if (*in == '-') neg = true, ++in; - else if (*in == '+') ++in; - if (*in < '0' || *in > '9') reportf("PARSE ERROR! Unexpected char: %c\n", *in), exit(3); - while (*in >= '0' && *in <= '9') - val = val*10 + (*in - '0'), - ++in; - return neg ? -val : val; } - -template -static void readClause(B& in, Solver& S, vec& lits) { - int parsed_lit, var; - lits.clear(); - for (;;){ - parsed_lit = parseInt(in); - if (parsed_lit == 0) break; - var = abs(parsed_lit)-1; - while (var >= S.nVars()) S.newVar(); - lits.push( (parsed_lit > 0) ? Lit(var) : ~Lit(var) ); - } -} - -template -static bool match(B& in, char* str) { - for (; *str != 0; ++str, ++in) - if (*str != *in) - return false; - return true; -} - - -template -static void parse_DIMACS_main(B& in, Solver& S) { - vec lits; - for (;;){ - skipWhitespace(in); - if (*in == EOF) - break; - else if (*in == 'p'){ - if (match(in, "p cnf")){ - int vars = parseInt(in); - int clauses = parseInt(in); - reportf("| Number of variables: %-12d |\n", vars); - reportf("| Number of clauses: %-12d |\n", clauses); - }else{ - reportf("PARSE ERROR! Unexpected char: %c\n", *in), exit(3); - } - } else if (*in == 'c' || *in == 'p') - skipLine(in); - else - readClause(in, S, lits), - S.addClause(lits); - } -} - -// Inserts problem into solver. -// -static void parse_DIMACS(gzFile input_stream, Solver& S) { - StreamBuffer in(input_stream); - parse_DIMACS_main(in, S); } +#include "utils/System.h" +#include "utils/ParseUtils.h" +#include "utils/Options.h" +#include "core/Dimacs.h" +#include "core/Solver.h" +using namespace Minisat; //================================================================================================= void printStats(Solver& solver) { - double cpu_time = cpuTime(); - uint64_t mem_used = memUsed(); - reportf("restarts : %lld\n", solver.starts); - reportf("conflicts : %-12lld (%.0f /sec)\n", solver.conflicts , solver.conflicts /cpu_time); - reportf("decisions : %-12lld (%4.2f %% random) (%.0f /sec)\n", solver.decisions, (float)solver.rnd_decisions*100 / (float)solver.decisions, solver.decisions /cpu_time); - reportf("propagations : %-12lld (%.0f /sec)\n", solver.propagations, solver.propagations/cpu_time); - reportf("conflict literals : %-12lld (%4.2f %% deleted)\n", solver.tot_literals, (solver.max_literals - solver.tot_literals)*100 / (double)solver.max_literals); - if (mem_used != 0) reportf("Memory used : %.2f MB\n", mem_used / 1048576.0); - reportf("CPU time : %g s\n", cpu_time); + double cpu_time = cpuTime(); + double mem_used = memUsedPeak(); + printf("restarts : %"PRIu64"\n", solver.starts); + printf("conflicts : %-12"PRIu64" (%.0f /sec)\n", solver.conflicts , solver.conflicts /cpu_time); + printf("decisions : %-12"PRIu64" (%4.2f %% random) (%.0f /sec)\n", solver.decisions, (float)solver.rnd_decisions*100 / (float)solver.decisions, solver.decisions /cpu_time); + printf("propagations : %-12"PRIu64" (%.0f /sec)\n", solver.propagations, solver.propagations/cpu_time); + printf("conflict literals : %-12"PRIu64" (%4.2f %% deleted)\n", solver.tot_literals, (solver.max_literals - solver.tot_literals)*100 / (double)solver.max_literals); + if (mem_used != 0) printf("Memory used : %.2f MB\n", mem_used); + printf("CPU time : %g s\n", cpu_time); } -Solver* solver; -static void SIGINT_handler(int signum) { - reportf("\n"); reportf("*** INTERRUPTED ***\n"); - printStats(*solver); - reportf("\n"); reportf("*** INTERRUPTED ***\n"); - exit(1); } - -//================================================================================================= -// Main: +static Solver* solver; +// Terminate by notifying the solver and back out gracefully. This is mainly to have a test-case +// for this feature of the Solver as it may take longer than an immediate call to '_exit()'. +static void SIGINT_interrupt(int signum) { solver->interrupt(); } -void printUsage(char** argv) -{ - reportf("USAGE: %s [options] \n\n where input may be either in plain or gzipped DIMACS.\n\n", argv[0]); - reportf("OPTIONS:\n\n"); - reportf(" -polarity-mode = {true,false,rnd}\n"); - reportf(" -decay = [ 0 - 1 ]\n"); - reportf(" -rnd-freq = [ 0 - 1 ]\n"); - reportf(" -verbosity = {0,1,2}\n"); - reportf("\n"); -} +// Note that '_exit()' rather than 'exit()' has to be used. The reason is that 'exit()' calls +// destructors and may cause deadlocks if a malloc/free function happens to be running (these +// functions are guarded by locks for multithreaded use). +static void SIGINT_exit(int signum) { + printf("\n"); printf("*** INTERRUPTED ***\n"); + if (solver->verbosity > 0){ + printStats(*solver); + printf("\n"); printf("*** INTERRUPTED ***\n"); } + _exit(1); } -const char* hasPrefix(const char* str, const char* prefix) -{ - int len = strlen(prefix); - if (strncmp(str, prefix, len) == 0) - return str + len; - else - return NULL; -} +//================================================================================================= +// Main: int main(int argc, char** argv) { - Solver S; - S.verbosity = 1; - - - int i, j; - const char* value; - for (i = j = 0; i < argc; i++){ - if ((value = hasPrefix(argv[i], "-polarity-mode="))){ - if (strcmp(value, "true") == 0) - S.polarity_mode = Solver::polarity_true; - else if (strcmp(value, "false") == 0) - S.polarity_mode = Solver::polarity_false; - else if (strcmp(value, "rnd") == 0) - S.polarity_mode = Solver::polarity_rnd; - else{ - reportf("ERROR! unknown polarity-mode %s\n", value); - exit(0); } - - }else if ((value = hasPrefix(argv[i], "-rnd-freq="))){ - double rnd; - if (sscanf(value, "%lf", &rnd) <= 0 || rnd < 0 || rnd > 1){ - reportf("ERROR! illegal rnd-freq constant %s\n", value); - exit(0); } - S.random_var_freq = rnd; - - }else if ((value = hasPrefix(argv[i], "-decay="))){ - double decay; - if (sscanf(value, "%lf", &decay) <= 0 || decay <= 0 || decay > 1){ - reportf("ERROR! illegal decay constant %s\n", value); - exit(0); } - S.var_decay = 1 / decay; - - }else if ((value = hasPrefix(argv[i], "-verbosity="))){ - int verbosity = (int)strtol(value, NULL, 10); - if (verbosity == 0 && errno == EINVAL){ - reportf("ERROR! illegal verbosity level %s\n", value); - exit(0); } - S.verbosity = verbosity; - - }else if (strcmp(argv[i], "-h") == 0 || strcmp(argv[i], "-help") == 0 || strcmp(argv[i], "--help") == 0){ - printUsage(argv); - exit(0); - - }else if (strncmp(argv[i], "-", 1) == 0){ - reportf("ERROR! unknown flag %s\n", argv[i]); - exit(0); - - }else - argv[j++] = argv[i]; - } - argc = j; - - - reportf("This is MiniSat 2.0 beta\n"); + try { + setUsageHelp("USAGE: %s [options] \n\n where input may be either in plain or gzipped DIMACS.\n"); + // printf("This is MiniSat 2.0 beta\n"); + #if defined(__linux__) - fpu_control_t oldcw, newcw; - _FPU_GETCW(oldcw); newcw = (oldcw & ~_FPU_EXTENDED) | _FPU_DOUBLE; _FPU_SETCW(newcw); - reportf("WARNING: for repeatability, setting FPU to use double precision\n"); + fpu_control_t oldcw, newcw; + _FPU_GETCW(oldcw); newcw = (oldcw & ~_FPU_EXTENDED) | _FPU_DOUBLE; _FPU_SETCW(newcw); + printf("WARNING: for repeatability, setting FPU to use double precision\n"); #endif - double cpu_time = cpuTime(); - - solver = &S; - signal(SIGINT,SIGINT_handler); - signal(SIGHUP,SIGINT_handler); - - if (argc == 1) - reportf("Reading from standard input... Use '-h' or '--help' for help.\n"); - - gzFile in = (argc == 1) ? gzdopen(0, "rb") : gzopen(argv[1], "rb"); - if (in == NULL) - reportf("ERROR! Could not open file: %s\n", argc == 1 ? "" : argv[1]), exit(1); - - reportf("============================[ Problem Statistics ]=============================\n"); - reportf("| |\n"); - - parse_DIMACS(in, S); - gzclose(in); - FILE* res = (argc >= 3) ? fopen(argv[2], "wb") : NULL; - - double parse_time = cpuTime() - cpu_time; - reportf("| Parsing time: %-12.2f s |\n", parse_time); - - if (!S.simplify()){ - reportf("Solved by unit propagation\n"); - if (res != NULL) fprintf(res, "UNSAT\n"), fclose(res); - printf("UNSATISFIABLE\n"); - exit(20); - } - - bool ret = S.solve(); - printStats(S); - reportf("\n"); - printf(ret ? "SATISFIABLE\n" : "UNSATISFIABLE\n"); - if (res != NULL){ - if (ret){ - fprintf(res, "SAT\n"); - for (int i = 0; i < S.nVars(); i++) - if (S.model[i] != l_Undef) - fprintf(res, "%s%s%d", (i==0)?"":" ", (S.model[i]==l_True)?"":"-", i+1); - fprintf(res, " 0\n"); - }else - fprintf(res, "UNSAT\n"); - fclose(res); - } - + // Extra options: + // + IntOption verb ("MAIN", "verb", "Verbosity level (0=silent, 1=some, 2=more).", 1, IntRange(0, 2)); + IntOption cpu_lim("MAIN", "cpu-lim","Limit on CPU time allowed in seconds.\n", INT32_MAX, IntRange(0, INT32_MAX)); + IntOption mem_lim("MAIN", "mem-lim","Limit on memory usage in megabytes.\n", INT32_MAX, IntRange(0, INT32_MAX)); + + parseOptions(argc, argv, true); + + Solver S; + double initial_time = cpuTime(); + + S.verbosity = verb; + + solver = &S; + // Use signal handlers that forcibly quit until the solver will be able to respond to + // interrupts: + signal(SIGINT, SIGINT_exit); + signal(SIGXCPU,SIGINT_exit); + + // Set limit on CPU-time: + if (cpu_lim != INT32_MAX){ + rlimit rl; + getrlimit(RLIMIT_CPU, &rl); + if (rl.rlim_max == RLIM_INFINITY || (rlim_t)cpu_lim < rl.rlim_max){ + rl.rlim_cur = cpu_lim; + if (setrlimit(RLIMIT_CPU, &rl) == -1) + printf("WARNING! Could not set resource limit: CPU-time.\n"); + } } + + // Set limit on virtual memory: + if (mem_lim != INT32_MAX){ + rlim_t new_mem_lim = (rlim_t)mem_lim * 1024*1024; + rlimit rl; + getrlimit(RLIMIT_AS, &rl); + if (rl.rlim_max == RLIM_INFINITY || new_mem_lim < rl.rlim_max){ + rl.rlim_cur = new_mem_lim; + if (setrlimit(RLIMIT_AS, &rl) == -1) + printf("WARNING! Could not set resource limit: Virtual memory.\n"); + } } + + if (argc == 1) + printf("Reading from standard input... Use '--help' for help.\n"); + + gzFile in = (argc == 1) ? gzdopen(0, "rb") : gzopen(argv[1], "rb"); + if (in == NULL) + printf("ERROR! Could not open file: %s\n", argc == 1 ? "" : argv[1]), exit(1); + + if (S.verbosity > 0){ + printf("============================[ Problem Statistics ]=============================\n"); + printf("| |\n"); } + + parse_DIMACS(in, S); + gzclose(in); + FILE* res = (argc >= 3) ? fopen(argv[2], "wb") : NULL; + + if (S.verbosity > 0){ + printf("| Number of variables: %12d |\n", S.nVars()); + printf("| Number of clauses: %12d |\n", S.nClauses()); } + + double parsed_time = cpuTime(); + if (S.verbosity > 0){ + printf("| Parse time: %12.2f s |\n", parsed_time - initial_time); + printf("| |\n"); } + + // Change to signal-handlers that will only notify the solver and allow it to terminate + // voluntarily: + signal(SIGINT, SIGINT_interrupt); + signal(SIGXCPU,SIGINT_interrupt); + + if (!S.simplify()){ + if (res != NULL) fprintf(res, "UNSAT\n"), fclose(res); + if (S.verbosity > 0){ + printf("===============================================================================\n"); + printf("Solved by unit propagation\n"); + printStats(S); + printf("\n"); } + printf("UNSATISFIABLE\n"); + exit(20); + } + + vec dummy; + lbool ret = S.solveLimited(dummy); + if (S.verbosity > 0){ + printStats(S); + printf("\n"); } + printf(ret == l_True ? "SATISFIABLE\n" : ret == l_False ? "UNSATISFIABLE\n" : "INDETERMINATE\n"); + if (res != NULL){ + if (ret == l_True){ + fprintf(res, "SAT\n"); + for (int i = 0; i < S.nVars(); i++) + if (S.model[i] != l_Undef) + fprintf(res, "%s%s%d", (i==0)?"":" ", (S.model[i]==l_True)?"":"-", i+1); + fprintf(res, " 0\n"); + }else if (ret == l_False) + fprintf(res, "UNSAT\n"); + else + fprintf(res, "INDET\n"); + fclose(res); + } + #ifdef NDEBUG - exit(ret ? 10 : 20); // (faster than "return", which will invoke the destructor for 'Solver') + exit(ret == l_True ? 10 : ret == l_False ? 20 : 0); // (faster than "return", which will invoke the destructor for 'Solver') +#else + return (ret == l_True ? 10 : ret == l_False ? 20 : 0); #endif + } catch (OutOfMemoryException&){ + printf("===============================================================================\n"); + printf("INDETERMINATE\n"); + exit(0); + } } diff --git a/src/prop/minisat/core/Makefile b/src/prop/minisat/core/Makefile index 42128c6d6..5de1f7295 100644 --- a/src/prop/minisat/core/Makefile +++ b/src/prop/minisat/core/Makefile @@ -1,7 +1,4 @@ -MTL = ../mtl -CHDRS = $(wildcard *.h) $(wildcard $(MTL)/*.h) EXEC = minisat -CFLAGS = -I$(MTL) -Wall -ffloat-store -LFLAGS = -lz +DEPDIR = mtl utils -include ../mtl/template.mk +include $(MROOT)/mtl/template.mk diff --git a/src/prop/minisat/core/Solver.cc b/src/prop/minisat/core/Solver.cc index 1667af20d..0da9fc249 100644 --- a/src/prop/minisat/core/Solver.cc +++ b/src/prop/minisat/core/Solver.cc @@ -1,5 +1,6 @@ -/****************************************************************************************[Solver.C] -MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +/***************************************************************************************[Solver.cc] +Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2007-2010, Niklas Sorensson 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, @@ -17,78 +18,92 @@ DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. **************************************************************************************************/ -#include "Solver.h" -#include "Sort.h" +#include + +#include "mtl/Sort.h" +#include "core/Solver.h" #include "prop/sat.h" -#include + +using namespace Minisat; +using namespace CVC4; +using namespace CVC4::prop; //================================================================================================= -// Constructor/Destructor: +// Options: -namespace CVC4 { -namespace prop { -namespace minisat { -Clause* Solver::lazy_reason = reinterpret_cast(1); +static const char* _cat = "CORE"; + +static DoubleOption opt_var_decay (_cat, "var-decay", "The variable activity decay factor", 0.95, DoubleRange(0, false, 1, false)); +static DoubleOption opt_clause_decay (_cat, "cla-decay", "The clause activity decay factor", 0.999, DoubleRange(0, false, 1, false)); +static DoubleOption opt_random_var_freq (_cat, "rnd-freq", "The frequency with which the decision heuristic tries to choose a random variable", 0, DoubleRange(0, true, 1, true)); +static DoubleOption opt_random_seed (_cat, "rnd-seed", "Used by the random variable selection", 91648253, DoubleRange(0, false, HUGE_VAL, false)); +static IntOption opt_ccmin_mode (_cat, "ccmin-mode", "Controls conflict clause minimization (0=none, 1=basic, 2=deep)", 2, IntRange(0, 2)); +static IntOption opt_phase_saving (_cat, "phase-saving", "Controls the level of phase saving (0=none, 1=limited, 2=full)", 2, IntRange(0, 2)); +static BoolOption opt_rnd_init_act (_cat, "rnd-init", "Randomize the initial activity", false); +static BoolOption opt_luby_restart (_cat, "luby", "Use the Luby restart sequence", true); +static IntOption opt_restart_first (_cat, "rfirst", "The base restart interval", 100, IntRange(1, INT32_MAX)); +static DoubleOption opt_restart_inc (_cat, "rinc", "Restart interval increase factor", 2, DoubleRange(1, false, HUGE_VAL, false)); +static DoubleOption opt_garbage_frac (_cat, "gc-frac", "The fraction of wasted memory allowed before a garbage collection is triggered", 0.20, DoubleRange(0, false, HUGE_VAL, false)); -Clause* Solver::getReason(Lit l) -{ - if (reason[var(l)] != lazy_reason) return reason[var(l)]; - // Get the explanation from the theory - SatClause explanation; - if (value(l) == l_True) { - proxy->explainPropagation(l, explanation); - assert(explanation[0] == l); - } else { - proxy->explainPropagation(~l, explanation); - assert(explanation[0] == ~l); - } - Clause* real_reason = Clause_new(explanation, true); - reason[var(l)] = real_reason; - // Add it to the database - learnts.push(real_reason); - attachClause(*real_reason); - return real_reason; -} -Solver::Solver(SatSolver* proxy, context::Context* context) : +//================================================================================================= +// Constructor/Destructor: - // SMT stuff +Solver::Solver(CVC4::prop::SatSolver* proxy, CVC4::context::Context* context) : proxy(proxy) , context(context) - - // Parameters: (formerly in 'SearchParams') - , var_decay(1 / 0.95), clause_decay(1 / 0.999), random_var_freq(0.02) - , restart_first(100), restart_inc(1.5), learntsize_factor((double)1/(double)3), learntsize_inc(1.1) - - // More parameters: + // Parameters (user settable): // - , expensive_ccmin (true) - , polarity_mode (polarity_false) , verbosity (0) + , var_decay (opt_var_decay) + , clause_decay (opt_clause_decay) + , random_var_freq (opt_random_var_freq) + , random_seed (opt_random_seed) + , luby_restart (opt_luby_restart) + , ccmin_mode (opt_ccmin_mode) + , phase_saving (opt_phase_saving) + , rnd_pol (false) + , rnd_init_act (opt_rnd_init_act) + , garbage_frac (opt_garbage_frac) + , restart_first (opt_restart_first) + , restart_inc (opt_restart_inc) + + // Parameters (the rest): + // + , learntsize_factor((double)1/(double)3), learntsize_inc(1.1) + + // Parameters (experimental): + // + , learntsize_adjust_start_confl (100) + , learntsize_adjust_inc (1.5) // Statistics: (formerly in 'SolverStats') // - , starts(0), decisions(0), rnd_decisions(0), propagations(0), conflicts(0) - , clauses_literals(0), learnts_literals(0), max_literals(0), tot_literals(0) - - , ok (true) - , cla_inc (1) - , var_inc (1) - , qhead (0) - , simpDB_assigns (-1) - , simpDB_props (0) - , order_heap (VarOrderLt(activity)) - , random_seed (91648253) - , progress_estimate(0) - , remove_satisfied (true) + , solves(0), starts(0), decisions(0), rnd_decisions(0), propagations(0), conflicts(0) + , dec_vars(0), clauses_literals(0), learnts_literals(0), max_literals(0), tot_literals(0) + + , ok (true) + , cla_inc (1) + , var_inc (1) + , watches (WatcherDeleted(ca)) + , qhead (0) + , simpDB_assigns (-1) + , simpDB_props (0) + , order_heap (VarOrderLt(activity)) + , progress_estimate (0) + , remove_satisfied (true) + + // Resource constraints: + // + , conflict_budget (-1) + , propagation_budget (-1) + , asynch_interrupt (false) {} Solver::~Solver() { - for (int i = 0; i < learnts.size(); i++) free(learnts[i]); - for (int i = 0; i < clauses.size(); i++) free(clauses[i]); } @@ -102,41 +117,59 @@ Solver::~Solver() Var Solver::newVar(bool sign, bool dvar, bool theoryAtom) { int v = nVars(); - watches .push(); // (list for positive literal) - watches .push(); // (list for negative literal) - reason .push(NULL); - assigns .push(toInt(l_Undef)); - level .push(-1); - activity .push(0); - seen .push(0); + watches .init(mkLit(v, false)); + watches .init(mkLit(v, true )); + assigns .push(l_Undef); + vardata .push(mkVarData(CRef_Undef, 0)); + //activity .push(0); + activity .push(rnd_init_act ? drand(random_seed) * 0.00001 : 0); + seen .push(0); + polarity .push(sign); + decision .push(); + trail .capacity(v+1); + setDecisionVar(v, dvar); + theory .push(theoryAtom); + return v; +} - theory .push(theoryAtom); - polarity .push((char)sign); - decision_var.push((char)dvar); +CRef Solver::reason(Var x) const { + // If we already have a reaspon, just return it + if (vardata[x].reason != CRef_Lazy) return vardata[x].reason; - insertVarOrder(v); - return v; -} + // What's the literal we are trying to explain + Lit l = mkLit(x, value(x) != l_True); + // Get the explanation from the theory + SatClause explanation; + proxy->explainPropagation(l, explanation); + assert(explanation[0] == l); -bool Solver::addClause(vec& ps, ClauseType type) + // We're actually changing the state, so we hack it into non-const + Solver* nonconst_this = const_cast(this); + + // Construct the reason + CRef real_reason = nonconst_this->ca.alloc(explanation, true); + nonconst_this->vardata[x] = mkVarData(real_reason, level(x)); + nonconst_this->learnts.push(real_reason); + nonconst_this->attachClause(real_reason); + return real_reason; +} + +bool Solver::addClause_(vec& ps, ClauseType type) { assert(decisionLevel() == 0); + if (!ok) return false; - if (!ok) - return false; - else{ - // Check if clause is satisfied and remove false/duplicate literals: - sort(ps); - Lit p; int i, j; - for (i = j = 0, p = lit_Undef; i < ps.size(); i++) - if (value(ps[i]) == l_True || ps[i] == ~p) - return true; - else if (value(ps[i]) != l_False && ps[i] != p) - ps[j++] = p = ps[i]; - ps.shrink(i - j); - } + // Check if clause is satisfied and remove false/duplicate literals: + sort(ps); + Lit p; int i, j; + for (i = j = 0, p = lit_Undef; i < ps.size(); i++) + if (value(ps[i]) == l_True || ps[i] == ~p) + return true; + else if (value(ps[i]) != l_False && ps[i] != p) + ps[j++] = p = ps[i]; + ps.shrink(i - j); if (ps.size() == 0) return ok = false; @@ -144,42 +177,53 @@ bool Solver::addClause(vec& ps, ClauseType type) assert(type != CLAUSE_LEMMA); assert(value(ps[0]) == l_Undef); uncheckedEnqueue(ps[0]); - return ok = (propagate(CHECK_WITHOUTH_PROPAGATION_QUICK) == NULL); + return ok = (propagate(CHECK_WITHOUTH_PROPAGATION_QUICK) == CRef_Undef); }else{ - Clause* c = Clause_new(ps, false); - clauses.push(c); - if (type == CLAUSE_LEMMA) lemmas.push(c); - attachClause(*c); + CRef cr = ca.alloc(ps, false); + clauses.push(cr); + if (type == CLAUSE_LEMMA) lemmas.push(cr); + attachClause(cr); } return true; - } -void Solver::attachClause(Clause& c) { +void Solver::attachClause(CRef cr) { + const Clause& c = ca[cr]; assert(c.size() > 1); - watches[toInt(~c[0])].push(&c); - watches[toInt(~c[1])].push(&c); + watches[~c[0]].push(Watcher(cr, c[1])); + watches[~c[1]].push(Watcher(cr, c[0])); if (c.learnt()) learnts_literals += c.size(); else clauses_literals += c.size(); } -void Solver::detachClause(Clause& c) { - Debug("minisat") << "Solver::detachClause(" << c << ")" << std::endl; +void Solver::detachClause(CRef cr, bool strict) { + const Clause& c = ca[cr]; + CVC4::Debug("minisat") << "Solver::detachClause(" << c << ")" << std::endl; assert(c.size() > 1); - assert(find(watches[toInt(~c[0])], &c)); - assert(find(watches[toInt(~c[1])], &c)); - remove(watches[toInt(~c[0])], &c); - remove(watches[toInt(~c[1])], &c); + + if (strict){ + remove(watches[~c[0]], Watcher(cr, c[1])); + remove(watches[~c[1]], Watcher(cr, c[0])); + }else{ + // Lazy detaching: (NOTE! Must clean all watcher lists before garbage collecting this clause) + watches.smudge(~c[0]); + watches.smudge(~c[1]); + } + if (c.learnt()) learnts_literals -= c.size(); else clauses_literals -= c.size(); } -void Solver::removeClause(Clause& c) { - Debug("minisat") << "Solver::removeClause(" << c << ")" << std::endl; - detachClause(c); - free(&c); +void Solver::removeClause(CRef cr) { + Clause& c = ca[cr]; + CVC4::Debug("minisat") << "Solver::removeClause(" << c << ")" << std::endl; + detachClause(cr); + // Don't leave pointers to free'd memory! + if (locked(c)) vardata[var(c[0])].reason = CRef_Undef; + c.mark(1); + ca.free(cr); } @@ -197,12 +241,12 @@ void Solver::cancelUntil(int level) { // Pop the SMT context for (int l = trail_lim.size() - level; l > 0; --l) context->pop(); - // Now the minisat stuff - for (int c = trail.size()-1; c >= trail_lim[level]; c--) { - Var x = var(trail[c]); - assigns[x] = toInt(l_Undef); - insertVarOrder(x); - } + for (int c = trail.size()-1; c >= trail_lim[level]; c--){ + Var x = var(trail[c]); + assigns [x] = l_Undef; + if (phase_saving > 1 || (phase_saving == 1) && c > trail_lim.last()) + polarity[x] = sign(trail[c]); + insertVarOrder(x); } qhead = trail_lim[level]; trail.shrink(trail.size() - trail_lim[level]); trail_lim.shrink(trail_lim.size() - level); @@ -220,33 +264,25 @@ void Solver::cancelUntil(int level) { // Major methods: -Lit Solver::pickBranchLit(int polarity_mode, double random_var_freq) +Lit Solver::pickBranchLit() { Var next = var_Undef; // Random decision: if (drand(random_seed) < random_var_freq && !order_heap.empty()){ next = order_heap[irand(random_seed,order_heap.size())]; - if (toLbool(assigns[next]) == l_Undef && decision_var[next]) + if (value(next) == l_Undef && decision[next]) rnd_decisions++; } // Activity based decision: - while (next == var_Undef || toLbool(assigns[next]) != l_Undef || !decision_var[next]) + while (next == var_Undef || value(next) != l_Undef || !decision[next]) if (order_heap.empty()){ next = var_Undef; break; }else next = order_heap.removeMin(); - bool sign = false; - switch (polarity_mode){ - case polarity_true: sign = false; break; - case polarity_false: sign = true; break; - case polarity_user: sign = polarity[next]; break; - case polarity_rnd: sign = irand(random_seed, 2); break; - default: assert(false); } - - return next == var_Undef ? lit_Undef : Lit(next, sign); + return next == var_Undef ? lit_Undef : mkLit(next, rnd_pol ? drand(random_seed) < 0.5 : polarity[next]); } @@ -263,11 +299,11 @@ Lit Solver::pickBranchLit(int polarity_mode, double random_var_freq) | | Post-conditions: | * 'out_learnt[0]' is the asserting literal at level 'out_btlevel'. +| * If out_learnt.size() > 1 then 'out_learnt[1]' has the greatest decision level of the +| rest of literals. There may be others from the same level though. | -| Effect: -| Will undo part of the trail, upto but not beyond the assumption of the current decision level. |________________________________________________________________________________________________@*/ -void Solver::analyze(Clause* confl, vec& out_learnt, int& out_btlevel) +void Solver::analyze(CRef confl, vec& out_learnt, int& out_btlevel) { int pathC = 0; Lit p = lit_Undef; @@ -276,11 +312,10 @@ void Solver::analyze(Clause* confl, vec& out_learnt, int& out_btlevel) // out_learnt.push(); // (leave room for the asserting literal) int index = trail.size() - 1; - out_btlevel = 0; do{ - assert(confl != NULL); // (otherwise should be UIP) - Clause& c = *confl; + assert(confl != CRef_Undef); // (otherwise should be UIP) + Clause& c = ca[confl]; if (c.learnt()) claBumpActivity(c); @@ -288,23 +323,20 @@ void Solver::analyze(Clause* confl, vec& out_learnt, int& out_btlevel) for (int j = (p == lit_Undef) ? 0 : 1; j < c.size(); j++){ Lit q = c[j]; - if (!seen[var(q)] && level[var(q)] > 0){ + if (!seen[var(q)] && level(var(q)) > 0){ varBumpActivity(var(q)); seen[var(q)] = 1; - if (level[var(q)] >= decisionLevel()) + if (level(var(q)) >= decisionLevel()) pathC++; - else{ + else out_learnt.push(q); - if (level[var(q)] > out_btlevel) - out_btlevel = level[var(q)]; - } } } - + // Select next clause to look at: while (!seen[var(trail[index--])]); p = trail[index+1]; - confl = getReason(p); + confl = reason(var(p)); seen[var(p)] = 0; pathC--; @@ -314,25 +346,33 @@ void Solver::analyze(Clause* confl, vec& out_learnt, int& out_btlevel) // Simplify conflict clause: // int i, j; - if (expensive_ccmin){ + out_learnt.copyTo(analyze_toclear); + if (ccmin_mode == 2){ uint32_t abstract_level = 0; for (i = 1; i < out_learnt.size(); i++) abstract_level |= abstractLevel(var(out_learnt[i])); // (maintain an abstraction of levels involved in conflict) - out_learnt.copyTo(analyze_toclear); for (i = j = 1; i < out_learnt.size(); i++) - if (getReason(out_learnt[i]) == NULL || !litRedundant(out_learnt[i], abstract_level)) + if (reason(var(out_learnt[i])) == CRef_Undef || !litRedundant(out_learnt[i], abstract_level)) out_learnt[j++] = out_learnt[i]; - }else{ - out_learnt.copyTo(analyze_toclear); + + }else if (ccmin_mode == 1){ for (i = j = 1; i < out_learnt.size(); i++){ - Clause& c = *getReason(out_learnt[i]); - for (int k = 1; k < c.size(); k++) - if (!seen[var(c[k])] && level[var(c[k])] > 0){ - out_learnt[j++] = out_learnt[i]; - break; } + Var x = var(out_learnt[i]); + + if (reason(x) == CRef_Undef) + out_learnt[j++] = out_learnt[i]; + else{ + Clause& c = ca[reason(var(out_learnt[i]))]; + for (int k = 1; k < c.size(); k++) + if (!seen[var(c[k])] && level(var(c[k])) > 0){ + out_learnt[j++] = out_learnt[i]; + break; } + } } - } + }else + i = j = out_learnt.size(); + max_literals += out_learnt.size(); out_learnt.shrink(i - j); tot_literals += out_learnt.size(); @@ -343,16 +383,17 @@ void Solver::analyze(Clause* confl, vec& out_learnt, int& out_btlevel) out_btlevel = 0; else{ int max_i = 1; + // Find the first literal assigned at the next-highest level: for (int i = 2; i < out_learnt.size(); i++) - if (level[var(out_learnt[i])] > level[var(out_learnt[max_i])]) + if (level(var(out_learnt[i])) > level(var(out_learnt[max_i]))) max_i = i; + // Swap-in this literal at index 1: Lit p = out_learnt[max_i]; out_learnt[max_i] = out_learnt[1]; out_learnt[1] = p; - out_btlevel = level[var(p)]; + out_btlevel = level(var(p)); } - for (int j = 0; j < analyze_toclear.size(); j++) seen[var(analyze_toclear[j])] = 0; // ('seen[]' is now cleared) } @@ -364,13 +405,13 @@ bool Solver::litRedundant(Lit p, uint32_t abstract_levels) analyze_stack.clear(); analyze_stack.push(p); int top = analyze_toclear.size(); while (analyze_stack.size() > 0){ - assert(getReason(analyze_stack.last()) != NULL); - Clause& c = *reason[var(analyze_stack.last())]; analyze_stack.pop(); + assert(reason(var(analyze_stack.last())) != CRef_Undef); + Clause& c = ca[reason(var(analyze_stack.last()))]; analyze_stack.pop(); for (int i = 1; i < c.size(); i++){ Lit p = c[i]; - if (!seen[var(p)] && level[var(p)] > 0){ - if (getReason(p) != NULL && (abstractLevel(var(p)) & abstract_levels) != 0){ + if (!seen[var(p)] && level(var(p)) > 0){ + if (reason(var(p)) != CRef_Undef && (abstractLevel(var(p)) & abstract_levels) != 0){ seen[var(p)] = 1; analyze_stack.push(p); analyze_toclear.push(p); @@ -410,13 +451,13 @@ void Solver::analyzeFinal(Lit p, vec& out_conflict) for (int i = trail.size()-1; i >= trail_lim[0]; i--){ Var x = var(trail[i]); if (seen[x]){ - if (reason[x] == NULL){ - assert(level[x] > 0); + if (reason(x) == CRef_Undef){ + assert(level(x) > 0); out_conflict.push(~trail[i]); }else{ - Clause& c = *reason[x]; + Clause& c = ca[reason(x)]; for (int j = 1; j < c.size(); j++) - if (level[var(c[j])] > 0) + if (level(var(c[j])) > 0) seen[var(c[j])] = 1; } seen[x] = 0; @@ -427,36 +468,32 @@ void Solver::analyzeFinal(Lit p, vec& out_conflict) } -void Solver::uncheckedEnqueue(Lit p, Clause* from) +void Solver::uncheckedEnqueue(Lit p, CRef from) { assert(value(p) == l_Undef); - assigns [var(p)] = toInt(lbool(!sign(p))); // <<== abstract but not uttermost efficient - level [var(p)] = decisionLevel(); - reason [var(p)] = from; - // Added for phase-caching - polarity [var(p)] = sign(p); - trail.push(p); - - if (theory[var(p)] && from != lazy_reason) { + assigns[var(p)] = lbool(!sign(p)); + vardata[var(p)] = mkVarData(from, decisionLevel()); + trail.push_(p); + if (theory[var(p)] && from != CRef_Lazy) { // Enqueue to the theory proxy->enqueueTheoryLiteral(p); } } -Clause* Solver::propagate(TheoryCheckType type) +CRef Solver::propagate(TheoryCheckType type) { - Clause* confl = NULL; + CRef confl = CRef_Undef; // If this is the final check, no need for Boolean propagation and // theory propagation if (type == CHECK_WITHOUTH_PROPAGATION_FINAL) { - return theoryCheck(theory::Theory::FULL_EFFORT); + return theoryCheck(CVC4::theory::Theory::FULL_EFFORT); } // The effort we will be using to theory check - theory::Theory::Effort effort = type == CHECK_WITHOUTH_PROPAGATION_QUICK ? - theory::Theory::QUICK_CHECK : theory::Theory::STANDARD; + CVC4::theory::Theory::Effort effort = type == CHECK_WITHOUTH_PROPAGATION_QUICK ? + CVC4::theory::Theory::QUICK_CHECK : CVC4::theory::Theory::STANDARD; // Keep running until we have checked everything, we // have no conflict and no new literals have been asserted @@ -465,12 +502,12 @@ Clause* Solver::propagate(TheoryCheckType type) new_assertions = false; while(qhead < trail.size()) { confl = propagateBool(); - if (confl != NULL) break; + if (confl != CRef_Undef) break; confl = theoryCheck(effort); - if (confl != NULL) break; + if (confl != CRef_Undef) break; } - if (confl == NULL && type == CHECK_WITH_PROPAGATION_STANDARD) { + if (confl == CRef_Undef && type == CHECK_WITH_PROPAGATION_STANDARD) { new_assertions = propagateTheory(); if (!new_assertions) break; } @@ -484,7 +521,7 @@ bool Solver::propagateTheory() { proxy->theoryPropagate(propagatedLiterals); const unsigned i_end = propagatedLiterals.size(); for (unsigned i = 0; i < i_end; ++ i) { - uncheckedEnqueue(propagatedLiterals[i], lazy_reason); + uncheckedEnqueue(propagatedLiterals[i], CRef_Lazy); } proxy->clearPropagatedLiterals(); return propagatedLiterals.size() > 0; @@ -500,9 +537,9 @@ bool Solver::propagateTheory() { | | Note: the propagation queue might be NOT empty |________________________________________________________________________________________________@*/ -Clause* Solver::theoryCheck(theory::Theory::Effort effort) +CRef Solver::theoryCheck(CVC4::theory::Theory::Effort effort) { - Clause* c = NULL; + CRef c = CRef_Undef; SatClause clause; proxy->theoryCheck(effort, clause); int clause_size = clause.size(); @@ -511,9 +548,9 @@ Clause* Solver::theoryCheck(theory::Theory::Effort effort) // Find the max level of the conflict int max_level = 0; for (int i = 0; i < clause_size; ++i) { - int current_level = level[var(clause[i])]; - Debug("minisat") << "Literal: " << clause[i] << " with reason " << reason[var(clause[i])] << " at level " << current_level << std::endl; - Assert(toLbool(assigns[var(clause[i])]) != l_Undef, "Got an unassigned literal in conflict!"); + int current_level = level(var(clause[i])); + Debug("minisat") << "Literal: " << clause[i] << " with reason " << reason(var(clause[i])) << " at level " << current_level << std::endl; + Assert(assigns[var(clause[i])] != l_Undef, "Got an unassigned literal in conflict!"); if (current_level > max_level) max_level = current_level; } // If smaller than the decision level then pop back so we can analyse @@ -524,9 +561,9 @@ Clause* Solver::theoryCheck(theory::Theory::Effort effort) cancelUntil(max_level); } // Create the new clause and attach all the information - c = Clause_new(clause, true); + c = ca.alloc(clause, true); learnts.push(c); - attachClause(*c); + attachClause(c); } return c; } @@ -537,56 +574,63 @@ Clause* Solver::theoryCheck(theory::Theory::Effort effort) | | Description: | Propagates all enqueued facts. If a conflict arises, the conflicting clause is returned, -| otherwise NULL. +| otherwise CRef_Undef. | | Post-conditions: | * the propagation queue is empty, even if there was a conflict. |________________________________________________________________________________________________@*/ -Clause* Solver::propagateBool() +CRef Solver::propagateBool() { - Clause* confl = NULL; + CRef confl = CRef_Undef; int num_props = 0; + watches.cleanAll(); while (qhead < trail.size()){ Lit p = trail[qhead++]; // 'p' is enqueued fact to propagate. - vec& ws = watches[toInt(p)]; - Clause **i, **j, **end; + vec& ws = watches[p]; + Watcher *i, *j, *end; num_props++; - for (i = j = (Clause**)ws, end = i + ws.size(); i != end;){ - Clause& c = **i++; + for (i = j = (Watcher*)ws, end = i + ws.size(); i != end;){ + // Try to avoid inspecting the clause: + Lit blocker = i->blocker; + if (value(blocker) == l_True){ + *j++ = *i++; continue; } // Make sure the false literal is data[1]: - Lit false_lit = ~p; + CRef cr = i->cref; + Clause& c = ca[cr]; + Lit false_lit = ~p; if (c[0] == false_lit) c[0] = c[1], c[1] = false_lit; - assert(c[1] == false_lit); + i++; // If 0th watch is true, then clause is already satisfied. - Lit first = c[0]; - if (value(first) == l_True){ - *j++ = &c; - }else{ - // Look for new watch: - for (int k = 2; k < c.size(); k++) - if (value(c[k]) != l_False){ - c[1] = c[k]; c[k] = false_lit; - watches[toInt(~c[1])].push(&c); - goto FoundWatch; } - - // Did not find watch -- clause is unit under assignment: - *j++ = &c; - if (value(first) == l_False){ - confl = &c; - qhead = trail.size(); - // Copy the remaining watches: - while (i < end) - *j++ = *i++; - }else - uncheckedEnqueue(first, &c); - } - FoundWatch:; + Lit first = c[0]; + Watcher w = Watcher(cr, first); + if (first != blocker && value(first) == l_True){ + *j++ = w; continue; } + + // Look for new watch: + for (int k = 2; k < c.size(); k++) + if (value(c[k]) != l_False){ + c[1] = c[k]; c[k] = false_lit; + watches[~c[1]].push(w); + goto NextClause; } + + // Did not find watch -- clause is unit under assignment: + *j++ = w; + if (value(first) == l_False){ + confl = cr; + qhead = trail.size(); + // Copy the remaining watches: + while (i < end) + *j++ = *i++; + }else + uncheckedEnqueue(first, cr); + + NextClause:; } ws.shrink(i - j); } @@ -596,6 +640,7 @@ Clause* Solver::propagateBool() return confl; } + /*_________________________________________________________________________________________________ | | reduceDB : () -> [void] @@ -604,35 +649,39 @@ Clause* Solver::propagateBool() | Remove half of the learnt clauses, minus the clauses locked by the current assignment. Locked | clauses are clauses that are reason to some assignment. Binary clauses are never removed. |________________________________________________________________________________________________@*/ -struct reduceDB_lt { bool operator () (Clause* x, Clause* y) { return x->size() > 2 && (y->size() == 2 || x->activity() < y->activity()); } }; +struct reduceDB_lt { + ClauseAllocator& ca; + reduceDB_lt(ClauseAllocator& ca_) : ca(ca_) {} + bool operator () (CRef x, CRef y) { + return ca[x].size() > 2 && (ca[y].size() == 2 || ca[x].activity() < ca[y].activity()); } +}; void Solver::reduceDB() { int i, j; double extra_lim = cla_inc / learnts.size(); // Remove any clause below this activity - sort(learnts, reduceDB_lt()); - for (i = j = 0; i < learnts.size() / 2; i++){ - if (learnts[i]->size() > 2 && !locked(*learnts[i])) - removeClause(*learnts[i]); - else - learnts[j++] = learnts[i]; - } - for (; i < learnts.size(); i++){ - if (learnts[i]->size() > 2 && !locked(*learnts[i]) && learnts[i]->activity() < extra_lim) - removeClause(*learnts[i]); + sort(learnts, reduceDB_lt(ca)); + // Don't delete binary or locked clauses. From the rest, delete clauses from the first half + // and clauses with activity smaller than 'extra_lim': + for (i = j = 0; i < learnts.size(); i++){ + Clause& c = ca[learnts[i]]; + if (c.size() > 2 && !locked(c) && (i < learnts.size() / 2 || c.activity() < extra_lim)) + removeClause(learnts[i]); else learnts[j++] = learnts[i]; } learnts.shrink(i - j); + checkGarbage(); } -void Solver::removeSatisfied(vec& cs) +void Solver::removeSatisfied(vec& cs) { - int i,j; + int i, j; for (i = j = 0; i < cs.size(); i++){ - if (satisfied(*cs[i])) - removeClause(*cs[i]); + Clause& c = ca[cs[i]]; + if (satisfied(c)) + removeClause(cs[i]); else cs[j++] = cs[i]; } @@ -640,6 +689,16 @@ void Solver::removeSatisfied(vec& cs) } +void Solver::rebuildOrderHeap() +{ + vec vs; + for (Var v = 0; v < nVars(); v++) + if (decision[v] && value(v) == l_Undef) + vs.push(v); + order_heap.build(vs); +} + + /*_________________________________________________________________________________________________ | | simplify : [void] -> [bool] @@ -652,7 +711,7 @@ bool Solver::simplify() { assert(decisionLevel() == 0); - if (!ok || propagate(CHECK_WITHOUTH_PROPAGATION_QUICK) != NULL) + if (!ok || propagate(CHECK_WITHOUTH_PROPAGATION_QUICK) != CRef_Undef) return ok = false; if (nAssigns() == simpDB_assigns || (simpDB_props > 0)) @@ -662,9 +721,8 @@ bool Solver::simplify() removeSatisfied(learnts); if (remove_satisfied) // Can be turned off. removeSatisfied(clauses); - - // Remove fixed variables from the variable heap: - order_heap.filter(VarFilter(*this)); + checkGarbage(); + rebuildOrderHeap(); simpDB_assigns = nAssigns(); simpDB_props = clauses_literals + learnts_literals; // (shouldn't depend on stats really, but it will do for now) @@ -675,67 +733,72 @@ bool Solver::simplify() /*_________________________________________________________________________________________________ | -| search : (nof_conflicts : int) (nof_learnts : int) (params : const SearchParams&) -> [lbool] +| search : (nof_conflicts : int) (params : const SearchParams&) -> [lbool] | | Description: -| Search for a model the specified number of conflicts, keeping the number of learnt clauses -| below the provided limit. NOTE! Use negative value for 'nof_conflicts' or 'nof_learnts' to -| indicate infinity. +| Search for a model the specified number of conflicts. +| NOTE! Use negative value for 'nof_conflicts' indicate infinity. | | Output: | 'l_True' if a partial assigment that is consistent with respect to the clauseset is found. If | all variables are decision variables, this means that the clause set is satisfiable. 'l_False' | if the clause set is unsatisfiable. 'l_Undef' if the bound on number of conflicts is reached. |________________________________________________________________________________________________@*/ -lbool Solver::search(int nof_conflicts, int nof_learnts) +lbool Solver::search(int nof_conflicts) { assert(ok); int backtrack_level; int conflictC = 0; vec learnt_clause; - starts++; - bool first = true; TheoryCheckType check_type = CHECK_WITH_PROPAGATION_STANDARD; for (;;){ - Clause* confl = propagate(check_type); - if (confl != NULL){ + CRef confl = propagate(check_type); + if (confl != CRef_Undef){ // CONFLICT conflicts++; conflictC++; if (decisionLevel() == 0) return l_False; - first = false; - learnt_clause.clear(); analyze(confl, learnt_clause, backtrack_level); cancelUntil(backtrack_level); - assert(value(learnt_clause[0]) == l_Undef); if (learnt_clause.size() == 1){ uncheckedEnqueue(learnt_clause[0]); }else{ - Clause* c = Clause_new(learnt_clause, true); - learnts.push(c); - attachClause(*c); - claBumpActivity(*c); - uncheckedEnqueue(learnt_clause[0], c); + CRef cr = ca.alloc(learnt_clause, true); + learnts.push(cr); + attachClause(cr); + claBumpActivity(ca[cr]); + uncheckedEnqueue(learnt_clause[0], cr); } varDecayActivity(); claDecayActivity(); - // We have a conflict so, we are going back to standard checks - check_type = CHECK_WITH_PROPAGATION_STANDARD; + if (--learntsize_adjust_cnt == 0){ + learntsize_adjust_confl *= learntsize_adjust_inc; + learntsize_adjust_cnt = (int)learntsize_adjust_confl; + max_learnts *= learntsize_inc; + + if (verbosity >= 1) + printf("| %9d | %7d %8d %8d | %8d %8d %6.0f | %6.3f %% |\n", + (int)conflicts, + (int)dec_vars - (trail_lim.size() == 0 ? trail.size() : trail_lim[0]), nClauses(), (int)clauses_literals, + (int)max_learnts, nLearnts(), (double)learnts_literals/nLearnts(), progressEstimate()*100); + } + // We have a conflict so, we are going back to standard checks + check_type = CHECK_WITH_PROPAGATION_STANDARD; }else{ // NO CONFLICT - // If this was a final check, we are satisfiable + // If this was a final check, we are satisfiable if (check_type == CHECK_WITHOUTH_PROPAGATION_FINAL) return l_True; - if (nof_conflicts >= 0 && conflictC >= nof_conflicts){ + if (nof_conflicts >= 0 && conflictC >= nof_conflicts || !withinBudget()){ // Reached bound on number of conflicts: progress_estimate = progressEstimate(); cancelUntil(0); @@ -745,7 +808,7 @@ lbool Solver::search(int nof_conflicts, int nof_learnts) if (decisionLevel() == 0 && !simplify()) return l_False; - if (nof_learnts >= 0 && learnts.size()-nAssigns() >= nof_learnts) + if (learnts.size()-nAssigns() >= max_learnts) // Reduce the set of learnt clauses: reduceDB(); @@ -768,7 +831,7 @@ lbool Solver::search(int nof_conflicts, int nof_learnts) if (next == lit_Undef){ // New variable decision: decisions++; - next = pickBranchLit(polarity_mode, random_var_freq); + next = pickBranchLit(); if (next == lit_Undef) { // We need to do a full theory check to confirm @@ -778,7 +841,6 @@ lbool Solver::search(int nof_conflicts, int nof_learnts) } // Increase decision level and enqueue 'next' - assert(value(next) == l_Undef); newDecisionLevel(); uncheckedEnqueue(next); } @@ -800,100 +862,205 @@ double Solver::progressEstimate() const return progress / nVars(); } +/* + Finite subsequences of the Luby-sequence: + + 0: 1 + 1: 1 1 2 + 2: 1 1 2 1 1 2 4 + 3: 1 1 2 1 1 2 4 1 1 2 1 1 2 4 8 + ... + + + */ + +static double luby(double y, int x){ + + // Find the finite subsequence that contains index 'x', and the + // size of that subsequence: + int size, seq; + for (size = 1, seq = 0; size < x+1; seq++, size = 2*size+1); + + while (size-1 != x){ + size = (size-1)>>1; + seq--; + x = x % size; + } -bool Solver::solve(const vec& assumps) + return pow(y, seq); +} + +// NOTE: assumptions passed in member-variable 'assumptions'. +lbool Solver::solve_() { model.clear(); conflict.clear(); + if (!ok) return l_False; - if (!ok) return false; - - assumps.copyTo(assumptions); + solves++; - double nof_conflicts = restart_first; - double nof_learnts = nClauses() * learntsize_factor; - lbool status = l_Undef; + max_learnts = nClauses() * learntsize_factor; + learntsize_adjust_confl = learntsize_adjust_start_confl; + learntsize_adjust_cnt = (int)learntsize_adjust_confl; + lbool status = l_Undef; if (verbosity >= 1){ - reportf("============================[ Search Statistics ]==============================\n"); - reportf("| Conflicts | ORIGINAL | LEARNT | Progress |\n"); - reportf("| | Vars Clauses Literals | Limit Clauses Lit/Cl | |\n"); - reportf("===============================================================================\n"); + printf("============================[ Search Statistics ]==============================\n"); + printf("| Conflicts | ORIGINAL | LEARNT | Progress |\n"); + printf("| | Vars Clauses Literals | Limit Clauses Lit/Cl | |\n"); + printf("===============================================================================\n"); } // Search: + int curr_restarts = 0; while (status == l_Undef){ - if (verbosity >= 1) - reportf("| %9d | %7d %8d %8d | %8d %8d %6.0f | %6.3f %% |\n", (int)conflicts, order_heap.size(), nClauses(), (int)clauses_literals, (int)nof_learnts, nLearnts(), (double)learnts_literals/nLearnts(), progress_estimate*100), fflush(stdout); - status = search((int)nof_conflicts, (int)nof_learnts); - nof_conflicts *= restart_inc; - nof_learnts *= learntsize_inc; + double rest_base = luby_restart ? luby(restart_inc, curr_restarts) : pow(restart_inc, curr_restarts); + status = search(rest_base * restart_first); + if (!withinBudget()) break; + curr_restarts++; } if (verbosity >= 1) - reportf("===============================================================================\n"); + printf("===============================================================================\n"); if (status == l_True){ // Extend & copy model: model.growTo(nVars()); for (int i = 0; i < nVars(); i++) model[i] = value(i); -#ifndef NDEBUG - verifyModel(); -#endif - }else{ - assert(status == l_False); - if (conflict.size() == 0) - ok = false; - } + }else if (status == l_False && conflict.size() == 0) + ok = false; cancelUntil(0); - return status == l_True; + return status; } //================================================================================================= -// Debug methods: - +// Writing CNF to DIMACS: +// +// FIXME: this needs to be rewritten completely. -void Solver::verifyModel() +static Var mapVar(Var x, vec& map, Var& max) { - bool failed = false; - for (int i = 0; i < clauses.size(); i++){ - assert(clauses[i]->mark() == 0); - Clause& c = *clauses[i]; - for (int j = 0; j < c.size(); j++) - if (modelValue(c[j]) == l_True) - goto next; - - reportf("unsatisfied clause: "); - printClause(*clauses[i]); - reportf("\n"); - failed = true; - next:; + if (map.size() <= x || map[x] == -1){ + map.growTo(x+1, -1); + map[x] = max++; } + return map[x]; +} + + +void Solver::toDimacs(FILE* f, Clause& c, vec& map, Var& max) +{ + if (satisfied(c)) return; + + for (int i = 0; i < c.size(); i++) + if (value(c[i]) != l_False) + fprintf(f, "%s%d ", sign(c[i]) ? "-" : "", mapVar(var(c[i]), map, max)+1); + fprintf(f, "0\n"); +} - assert(!failed); - if(verbosity >= 1) - reportf("Verified %d original clauses.\n", clauses.size()); +void Solver::toDimacs(const char *file, const vec& assumps) +{ + FILE* f = fopen(file, "wr"); + if (f == NULL) + fprintf(stderr, "could not open file %s\n", file), exit(1); + toDimacs(f, assumps); + fclose(f); } -void Solver::checkLiteralCount() +void Solver::toDimacs(FILE* f, const vec& assumps) { - // Check that sizes are calculated correctly: + // Handle case when solver is in contradictory state: + if (!ok){ + fprintf(f, "p cnf 1 2\n1 0\n-1 0\n"); + return; } + + vec map; Var max = 0; + + // Cannot use removeClauses here because it is not safe + // to deallocate them at this point. Could be improved. int cnt = 0; for (int i = 0; i < clauses.size(); i++) - if (clauses[i]->mark() == 0) - cnt += clauses[i]->size(); + if (!satisfied(ca[clauses[i]])) + cnt++; + + for (int i = 0; i < clauses.size(); i++) + if (!satisfied(ca[clauses[i]])){ + Clause& c = ca[clauses[i]]; + for (int j = 0; j < c.size(); j++) + if (value(c[j]) != l_False) + mapVar(var(c[j]), map, max); + } + + // Assumptions are added as unit clauses: + cnt += assumptions.size(); - if ((int)clauses_literals != cnt){ - fprintf(stderr, "literal count: %d, real value = %d\n", (int)clauses_literals, cnt); - assert((int)clauses_literals == cnt); + fprintf(f, "p cnf %d %d\n", max, cnt); + + for (int i = 0; i < assumptions.size(); i++){ + assert(value(assumptions[i]) != l_False); + fprintf(f, "%s%d 0\n", sign(assumptions[i]) ? "-" : "", mapVar(var(assumptions[i]), map, max)+1); } + + for (int i = 0; i < clauses.size(); i++) + toDimacs(f, ca[clauses[i]], map, max); + + if (verbosity > 0) + printf("Wrote %d clauses with %d variables.\n", cnt, max); } -}/* CVC4::prop::minisat namespace */ -}/* CVC4::prop namespace */ -}/* CVC4 namespace */ +//================================================================================================= +// Garbage Collection methods: + +void Solver::relocAll(ClauseAllocator& to) +{ + // All watchers: + // + // for (int i = 0; i < watches.size(); i++) + watches.cleanAll(); + for (int v = 0; v < nVars(); v++) + for (int s = 0; s < 2; s++){ + Lit p = mkLit(v, s); + // printf(" >>> RELOCING: %s%d\n", sign(p)?"-":"", var(p)+1); + vec& ws = watches[p]; + for (int j = 0; j < ws.size(); j++) + ca.reloc(ws[j].cref, to); + } + + // All reasons: + // + for (int i = 0; i < trail.size(); i++){ + Var v = var(trail[i]); + + if (reason(v) != CRef_Undef && (ca[reason(v)].reloced() || locked(ca[reason(v)]))) + ca.reloc(vardata[v].reason, to); + } + + // All learnt: + // + for (int i = 0; i < learnts.size(); i++) + ca.reloc(learnts[i], to); + + // All original: + // + for (int i = 0; i < clauses.size(); i++) + ca.reloc(clauses[i], to); +} + + +void Solver::garbageCollect() +{ + // Initialize the next region to a size corresponding to the estimated utilization degree. This + // is not precise but should avoid some unnecessary reallocations for the new region: + ClauseAllocator to(ca.size() - ca.wasted()); + + relocAll(to); + if (verbosity >= 2) + printf("| Garbage collection: %12d bytes => %12d bytes |\n", + ca.size()*ClauseAllocator::Unit_Size, to.size()*ClauseAllocator::Unit_Size); + to.moveTo(ca); +} diff --git a/src/prop/minisat/core/Solver.h b/src/prop/minisat/core/Solver.h index 2e44803e9..a47e865a1 100644 --- a/src/prop/minisat/core/Solver.h +++ b/src/prop/minisat/core/Solver.h @@ -1,5 +1,6 @@ /****************************************************************************************[Solver.h] -MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2007-2010, Niklas Sorensson 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, @@ -17,32 +18,30 @@ DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. **************************************************************************************************/ +#ifndef Minisat_Solver_h +#define Minisat_Solver_h + #include "cvc4_private.h" -#ifndef __CVC4__PROP__MINISAT__SOLVER_H -#define __CVC4__PROP__MINISAT__SOLVER_H +#include "mtl/Vec.h" +#include "mtl/Heap.h" +#include "mtl/Alg.h" +#include "utils/Options.h" +#include "core/SolverTypes.h" #include "context/context.h" #include "theory/theory.h" -#include -#include - -#include "../mtl/Vec.h" -#include "../mtl/Heap.h" -#include "../mtl/Alg.h" - -#include "SolverTypes.h" - -//================================================================================================= -// Solver -- the main class: - namespace CVC4 { namespace prop { + class SatSolver; +} +} -class SatSolver; +namespace Minisat { -namespace minisat { +//================================================================================================= +// Solver -- the main class: class Solver { @@ -52,23 +51,23 @@ class Solver { protected: /** The pointer to the proxy that provides interfaces to the SMT engine */ - SatSolver* proxy; + CVC4::prop::SatSolver* proxy; /** The context from the SMT solver */ - context::Context* context; + CVC4::context::Context* context; public: // Constructor/Destructor: // - Solver(SatSolver* proxy, context::Context* context); + Solver(CVC4::prop::SatSolver* proxy, CVC4::context::Context* context); CVC4_PUBLIC ~Solver(); // Problem specification: // Var newVar (bool polarity = true, bool dvar = true, bool theoryAtom = false); // Add a new variable with parameters specifying variable mode. - // Types of clauses + // Types of clauses enum ClauseType { // Clauses defined by the problem CLAUSE_PROBLEM, @@ -78,17 +77,37 @@ public: CLAUSE_CONFLICT }; - bool addClause (vec& ps, ClauseType type); // Add a clause to the solver. NOTE! 'ps' may be shrunk by this method! + bool addClause (const vec& ps, ClauseType type); // Add a clause to the solver. + bool addEmptyClause(ClauseType type); // Add the empty clause, making the solver contradictory. + bool addClause (Lit p, ClauseType type); // Add a unit clause to the solver. + bool addClause (Lit p, Lit q, ClauseType type); // Add a binary clause to the solver. + bool addClause (Lit p, Lit q, Lit r, ClauseType type); // Add a ternary clause to the solver. + bool addClause_( vec& ps, ClauseType type); // Add a clause to the solver without making superflous internal copy. Will + // change the passed vector 'ps'. // Solving: // bool simplify (); // Removes already satisfied clauses. bool solve (const vec& assumps); // Search for a model that respects a given set of assumptions. + lbool solveLimited (const vec& assumps); // Search for a model that respects a given set of assumptions (With resource constraints). bool solve (); // Search without assumptions. + bool solve (Lit p); // Search for a model that respects a single assumption. + bool solve (Lit p, Lit q); // Search for a model that respects two assumptions. + bool solve (Lit p, Lit q, Lit r); // Search for a model that respects three assumptions. bool okay () const; // FALSE means solver is in a conflicting state + void toDimacs (FILE* f, const vec& assumps); // Write CNF to file in DIMACS-format. + void toDimacs (const char *file, const vec& assumps); + void toDimacs (FILE* f, Clause& c, vec& map, Var& max); + + // Convenience versions of 'toDimacs()': + void toDimacs (const char* file); + void toDimacs (const char* file, Lit p); + void toDimacs (const char* file, Lit p, Lit q); + void toDimacs (const char* file, Lit p, Lit q, Lit r); + // Variable mode: - // + // void setPolarity (Var v, bool b); // Declare which polarity the decision heuristic should use for a variable. Requires mode 'polarity_user'. void setDecisionVar (Var v, bool b); // Declare if a variable should be eligible for selection in the decision heuristic. @@ -96,11 +115,27 @@ public: // lbool value (Var x) const; // The current value of a variable. lbool value (Lit p) const; // The current value of a literal. + lbool modelValue (Var x) const; // The value of a variable in the last model. The last call to solve must have been satisfiable. lbool modelValue (Lit p) const; // The value of a literal in the last model. The last call to solve must have been satisfiable. int nAssigns () const; // The current number of assigned literals. int nClauses () const; // The current number of original clauses. int nLearnts () const; // The current number of learnt clauses. int nVars () const; // The current number of variables. + int nFreeVars () const; + + // Resource contraints: + // + void setConfBudget(int64_t x); + void setPropBudget(int64_t x); + void budgetOff(); + void interrupt(); // Trigger a (potentially asynchronous) interruption of the solver. + void clearInterrupt(); // Clear interrupt indicator flag. + + // Memory managment: + // + virtual void garbageCollect(); + void checkGarbage(double gf); + void checkGarbage(); // Extra results: (read-only member variable) // @@ -110,81 +145,89 @@ public: // Mode of operation: // - double var_decay; // Inverse of the variable activity decay factor. (default 1 / 0.95) - double clause_decay; // Inverse of the clause activity decay factor. (1 / 0.999) - double random_var_freq; // The frequency with which the decision heuristic tries to choose a random variable. (default 0.02) + int verbosity; + double var_decay; + double clause_decay; + double random_var_freq; + double random_seed; + bool luby_restart; + int ccmin_mode; // Controls conflict clause minimization (0=none, 1=basic, 2=deep). + int phase_saving; // Controls the level of phase saving (0=none, 1=limited, 2=full). + bool rnd_pol; // Use random polarities for branching heuristics. + bool rnd_init_act; // Initialize variable activities with a small random value. + double garbage_frac; // The fraction of wasted memory allowed before a garbage collection is triggered. + int restart_first; // The initial restart limit. (default 100) double restart_inc; // The factor with which the restart limit is multiplied in each restart. (default 1.5) double learntsize_factor; // The intitial limit for learnt clauses is a factor of the original clauses. (default 1 / 3) double learntsize_inc; // The limit for learnt clauses is multiplied with this factor each restart. (default 1.1) - bool expensive_ccmin; // Controls conflict clause minimization. (default TRUE) - int polarity_mode; // Controls which polarity the decision heuristic chooses. See enum below for allowed modes. (default polarity_false) - int verbosity; // Verbosity level. 0=silent, 1=some progress report (default 0) - enum { polarity_true = 0, polarity_false = 1, polarity_user = 2, polarity_rnd = 3 }; + int learntsize_adjust_start_confl; + double learntsize_adjust_inc; // Statistics: (read-only member variable) // - uint64_t starts, decisions, rnd_decisions, propagations, conflicts; - uint64_t clauses_literals, learnts_literals, max_literals, tot_literals; + uint64_t solves, starts, decisions, rnd_decisions, propagations, conflicts; + uint64_t dec_vars, clauses_literals, learnts_literals, max_literals, tot_literals; protected: // Helper structures: // + struct VarData { CRef reason; int level; }; + static inline VarData mkVarData(CRef cr, int l){ VarData d = {cr, l}; return d; } + + struct Watcher { + CRef cref; + Lit blocker; + Watcher(CRef cr, Lit p) : cref(cr), blocker(p) {} + bool operator==(const Watcher& w) const { return cref == w.cref; } + bool operator!=(const Watcher& w) const { return cref != w.cref; } + }; + + struct WatcherDeleted + { + const ClauseAllocator& ca; + WatcherDeleted(const ClauseAllocator& _ca) : ca(_ca) {} + bool operator()(const Watcher& w) const { return ca[w.cref].mark() == 1; } + }; + struct VarOrderLt { const vec& activity; bool operator () (Var x, Var y) const { return activity[x] > activity[y]; } VarOrderLt(const vec& act) : activity(act) { } }; - friend class VarFilter; - struct VarFilter { - const Solver& s; - VarFilter(const Solver& _s) : s(_s) {} - bool operator()(Var v) const { return toLbool(s.assigns[v]) == l_Undef && s.decision_var[v]; } - }; - // Solver state: // bool ok; // If FALSE, the constraints are already unsatisfiable. No part of the solver state may be used! - vec clauses; // List of problem clauses. - vec learnts; // List of learnt clauses. + vec clauses; // List of problem clauses. + vec learnts; // List of learnt clauses. double cla_inc; // Amount to bump next clause with. vec activity; // A heuristic measurement of the activity of a variable. double var_inc; // Amount to bump next variable with. - vec > watches; // 'watches[lit]' is a list of constraints watching 'lit' (will go there if literal becomes true). - vec assigns; // The current assignments (lbool:s stored as char:s). + OccLists, WatcherDeleted> + watches; // 'watches[lit]' is a list of constraints watching 'lit' (will go there if literal becomes true). + vec assigns; // The current assignments. vec polarity; // The preferred polarity of each variable. - vec theory; // Is the variable representing a theory atom - vec decision_var; // Declares if a variable is eligible for selection in the decision heuristic. + vec decision; // Declares if a variable is eligible for selection in the decision heuristic. vec trail; // Assignment stack; stores all assigments made in the order they were made. vec trail_lim; // Separator indices for different decision levels in 'trail'. - vec lemmas; // List of lemmas we added (context dependent) - vec lemmas_lim; // Separator indices for different decision levels in 'lemmas'. - static Clause* lazy_reason; // The mark when we need to ask the theory engine for a reason - vec reason; // 'reason[var]' is the clause that implied the variables current value, lazy_reason if theory propagated, or 'NULL' if none. - - Clause* getReason(Lit l); // Returns the reason, or asks the theory for an explanation - - vec level; // 'level[var]' contains the level at which the assignment was made. + vec vardata; // Stores reason and level for each variable. int qhead; // Head of queue (as index into the trail -- no more explicit propagation queue in MiniSat). - int lhead; // Head of the lemma stack (for backtracking) int simpDB_assigns; // Number of top-level assignments since last execution of 'simplify()'. int64_t simpDB_props; // Remaining number of propagations that must be made before next execution of 'simplify()'. vec assumptions; // Current set of assumptions provided to solve by the user. Heap order_heap; // A priority queue of variables ordered with respect to the variable activity. - double random_seed; // Used by the random variable selection. double progress_estimate;// Set by 'search()'. bool remove_satisfied; // Indicates whether possibly inefficient linear scan for satisfied clauses should be performed in 'simplify'. - // Temporaries (to reduce allocation overhead). Each variable is prefixed by the method in which it is - // used, exept 'seen' wich is used in several places. - // - vec seen; - vec analyze_stack; - vec analyze_toclear; - vec add_tmp; + ClauseAllocator ca; + + // CVC4 Stuff + vec theory; // Is the variable representing a theory atom + vec lemmas; // List of lemmas we added (context dependent) + vec lemmas_lim; // Separator indices for different decision levels in 'lemmas'. enum TheoryCheckType { // Quick check, but don't perform theory propagation @@ -195,52 +238,71 @@ protected: CHECK_WITHOUTH_PROPAGATION_FINAL }; + // Temporaries (to reduce allocation overhead). Each variable is prefixed by the method in which it is + // used, exept 'seen' wich is used in several places. + // + vec seen; + vec analyze_stack; + vec analyze_toclear; + vec add_tmp; + + double max_learnts; + double learntsize_adjust_confl; + int learntsize_adjust_cnt; + + // Resource contraints: + // + int64_t conflict_budget; // -1 means no budget. + int64_t propagation_budget; // -1 means no budget. + bool asynch_interrupt; + // Main internal methods: // void insertVarOrder (Var x); // Insert a variable in the decision order priority queue. - Lit pickBranchLit (int polarity_mode, double random_var_freq); // Return the next decision variable. + Lit pickBranchLit (); // Return the next decision variable. void newDecisionLevel (); // Begins a new decision level. - void uncheckedEnqueue (Lit p, Clause* from = NULL); // Enqueue a literal. Assumes value of literal is undefined. - bool enqueue (Lit p, Clause* from = NULL); // Test if fact 'p' contradicts current state, enqueue otherwise. - Clause* propagate (TheoryCheckType type); // Perform Boolean and Theory. Returns possibly conflicting clause. - Clause* propagateBool (); // Perform Boolean propagation. Returns possibly conflicting clause. + void uncheckedEnqueue (Lit p, CRef from = CRef_Undef); // Enqueue a literal. Assumes value of literal is undefined. + bool enqueue (Lit p, CRef from = CRef_Undef); // Test if fact 'p' contradicts current state, enqueue otherwise. + CRef propagate (TheoryCheckType type); // Perform Boolean and Theory. Returns possibly conflicting clause. + CRef propagateBool (); // Perform Boolean propagation. Returns possibly conflicting clause. bool propagateTheory (); // Perform Theory propagation. Return true if any literals were asserted. - Clause* theoryCheck (theory::Theory::Effort effort); // Perform a theory satisfiability check. Returns possibly conflicting clause. + CRef theoryCheck (CVC4::theory::Theory::Effort effort); // Perform a theory satisfiability check. Returns possibly conflicting clause. void cancelUntil (int level); // Backtrack until a certain level. - void analyze (Clause* confl, vec& out_learnt, int& out_btlevel); // (bt = backtrack) + void analyze (CRef confl, vec& out_learnt, int& out_btlevel); // (bt = backtrack) void analyzeFinal (Lit p, vec& out_conflict); // COULD THIS BE IMPLEMENTED BY THE ORDINARIY "analyze" BY SOME REASONABLE GENERALIZATION? bool litRedundant (Lit p, uint32_t abstract_levels); // (helper method for 'analyze()') - lbool search (int nof_conflicts, int nof_learnts); // Search for a given number of conflicts. + lbool search (int nof_conflicts); // Search for a given number of conflicts. + lbool solve_ (); // Main solve method (assumptions given in 'assumptions'). void reduceDB (); // Reduce the set of learnt clauses. - void removeSatisfied (vec& cs); // Shrink 'cs' to contain only non-satisfied clauses. + void removeSatisfied (vec& cs); // Shrink 'cs' to contain only non-satisfied clauses. + void rebuildOrderHeap (); // Maintaining Variable/Clause activity: // void varDecayActivity (); // Decay all variables with the specified factor. Implemented by increasing the 'bump' value instead. + void varBumpActivity (Var v, double inc); // Increase a variable with the current 'bump' value. void varBumpActivity (Var v); // Increase a variable with the current 'bump' value. void claDecayActivity (); // Decay all clauses with the specified factor. Implemented by increasing the 'bump' value instead. void claBumpActivity (Clause& c); // Increase a clause with the current 'bump' value. // Operations on clauses: // - void attachClause (Clause& c); // Attach a clause to watcher lists. - void detachClause (Clause& c); // Detach a clause to watcher lists. - void removeClause (Clause& c); // Detach and free a clause. + void attachClause (CRef cr); // Attach a clause to watcher lists. + void detachClause (CRef cr, bool strict = false); // Detach a clause to watcher lists. + void removeClause (CRef cr); // Detach and free a clause. bool locked (const Clause& c) const; // Returns TRUE if a clause is a reason for some implication in the current state. bool satisfied (const Clause& c) const; // Returns TRUE if a clause is satisfied in the current state. + void relocAll (ClauseAllocator& to); + // Misc: // - int decisionLevel () const; // Gives the current decision level. + int decisionLevel () const; // Gives the current decisionlevel. uint32_t abstractLevel (Var x) const; // Used to represent an abstraction of sets of decision levels. + CRef reason (Var x) const; + int level (Var x) const; double progressEstimate () const; // DELETE THIS ?? IT'S NOT VERY USEFUL ... - - // Debug: - void printLit (Lit l); - template - void printClause (const C& c); - void verifyModel (); - void checkLiteralCount(); + bool withinBudget () const; // Static helpers: // @@ -257,15 +319,19 @@ protected: return (int)(drand(seed) * size); } }; + //================================================================================================= // Implementation of inline methods: +inline int Solver::level (Var x) const { return vardata[x].level; } + inline void Solver::insertVarOrder(Var x) { - if (!order_heap.inHeap(x) && decision_var[x]) order_heap.insert(x); } + if (!order_heap.inHeap(x) && decision[x]) order_heap.insert(x); } -inline void Solver::varDecayActivity() { var_inc *= var_decay; } -inline void Solver::varBumpActivity(Var v) { - if ( (activity[v] += var_inc) > 1e100 ) { +inline void Solver::varDecayActivity() { var_inc *= (1 / var_decay); } +inline void Solver::varBumpActivity(Var v) { varBumpActivity(v, var_inc); } +inline void Solver::varBumpActivity(Var v, double inc) { + if ( (activity[v] += inc) > 1e100 ) { // Rescale: for (int i = 0; i < nVars(); i++) activity[i] *= 1e-100; @@ -275,84 +341,81 @@ inline void Solver::varBumpActivity(Var v) { if (order_heap.inHeap(v)) order_heap.decrease(v); } -inline void Solver::claDecayActivity() { cla_inc *= clause_decay; } +inline void Solver::claDecayActivity() { cla_inc *= (1 / clause_decay); } inline void Solver::claBumpActivity (Clause& c) { if ( (c.activity() += cla_inc) > 1e20 ) { // Rescale: for (int i = 0; i < learnts.size(); i++) - learnts[i]->activity() *= 1e-20; + ca[learnts[i]].activity() *= 1e-20; cla_inc *= 1e-20; } } -inline bool Solver::enqueue (Lit p, Clause* from) { return value(p) != l_Undef ? value(p) != l_False : (uncheckedEnqueue(p, from), true); } -inline bool Solver::locked (const Clause& c) const { return reason[var(c[0])] == &c && value(c[0]) == l_True; } +inline void Solver::checkGarbage(void){ return checkGarbage(garbage_frac); } +inline void Solver::checkGarbage(double gf){ + if (ca.wasted() > ca.size() * gf) + garbageCollect(); } + +// NOTE: enqueue does not set the ok flag! (only public methods do) +inline bool Solver::enqueue (Lit p, CRef from) { return value(p) != l_Undef ? value(p) != l_False : (uncheckedEnqueue(p, from), true); } +inline bool Solver::addClause (const vec& ps, ClauseType type) { ps.copyTo(add_tmp); return addClause_(add_tmp, type); } +inline bool Solver::addEmptyClause (ClauseType type) { add_tmp.clear(); return addClause_(add_tmp, type); } +inline bool Solver::addClause (Lit p, ClauseType type) { add_tmp.clear(); add_tmp.push(p); return addClause_(add_tmp, type); } +inline bool Solver::addClause (Lit p, Lit q, ClauseType type) { add_tmp.clear(); add_tmp.push(p); add_tmp.push(q); return addClause_(add_tmp, type); } +inline bool Solver::addClause (Lit p, Lit q, Lit r, ClauseType type) { add_tmp.clear(); add_tmp.push(p); add_tmp.push(q); add_tmp.push(r); return addClause_(add_tmp, type); } +inline bool Solver::locked (const Clause& c) const { return value(c[0]) == l_True && reason(var(c[0])) != CRef_Undef && ca.lea(reason(var(c[0]))) == &c; } inline void Solver::newDecisionLevel() { trail_lim.push(trail.size()); lemmas_lim.push(lemmas.size()); context->push(); } inline int Solver::decisionLevel () const { return trail_lim.size(); } -inline uint32_t Solver::abstractLevel (Var x) const { return 1 << (level[x] & 31); } -inline lbool Solver::value (Var x) const { return toLbool(assigns[x]); } -inline lbool Solver::value (Lit p) const { return toLbool(assigns[var(p)]) ^ sign(p); } +inline uint32_t Solver::abstractLevel (Var x) const { return 1 << (level(x) & 31); } +inline lbool Solver::value (Var x) const { return assigns[x]; } +inline lbool Solver::value (Lit p) const { return assigns[var(p)] ^ sign(p); } +inline lbool Solver::modelValue (Var x) const { return model[x]; } inline lbool Solver::modelValue (Lit p) const { return model[var(p)] ^ sign(p); } inline int Solver::nAssigns () const { return trail.size(); } inline int Solver::nClauses () const { return clauses.size(); } inline int Solver::nLearnts () const { return learnts.size(); } -inline int Solver::nVars () const { return assigns.size(); } -inline void Solver::setPolarity (Var v, bool b) { polarity [v] = (char)b; } -inline void Solver::setDecisionVar(Var v, bool b) { decision_var[v] = (char)b; if (b) { insertVarOrder(v); } } -inline bool Solver::solve () { vec tmp; return solve(tmp); } +inline int Solver::nVars () const { return vardata.size(); } +inline int Solver::nFreeVars () const { return (int)dec_vars - (trail_lim.size() == 0 ? trail.size() : trail_lim[0]); } +inline void Solver::setPolarity (Var v, bool b) { polarity[v] = b; } +inline void Solver::setDecisionVar(Var v, bool b) +{ + if ( b && !decision[v]) dec_vars++; + else if (!b && decision[v]) dec_vars--; + + decision[v] = b; + insertVarOrder(v); +} +inline void Solver::setConfBudget(int64_t x){ conflict_budget = conflicts + x; } +inline void Solver::setPropBudget(int64_t x){ propagation_budget = propagations + x; } +inline void Solver::interrupt(){ asynch_interrupt = true; } +inline void Solver::clearInterrupt(){ asynch_interrupt = false; } +inline void Solver::budgetOff(){ conflict_budget = propagation_budget = -1; } +inline bool Solver::withinBudget() const { + return !asynch_interrupt && + (conflict_budget < 0 || conflicts < (uint64_t)conflict_budget) && + (propagation_budget < 0 || propagations < (uint64_t)propagation_budget); } + +// FIXME: after the introduction of asynchronous interrruptions the solve-versions that return a +// pure bool do not give a safe interface. Either interrupts must be possible to turn off here, or +// all calls to solve must return an 'lbool'. I'm not yet sure which I prefer. +inline bool Solver::solve () { budgetOff(); assumptions.clear(); return solve_() == l_True; } +inline bool Solver::solve (Lit p) { budgetOff(); assumptions.clear(); assumptions.push(p); return solve_() == l_True; } +inline bool Solver::solve (Lit p, Lit q) { budgetOff(); assumptions.clear(); assumptions.push(p); assumptions.push(q); return solve_() == l_True; } +inline bool Solver::solve (Lit p, Lit q, Lit r) { budgetOff(); assumptions.clear(); assumptions.push(p); assumptions.push(q); assumptions.push(r); return solve_() == l_True; } +inline bool Solver::solve (const vec& assumps){ budgetOff(); assumps.copyTo(assumptions); return solve_() == l_True; } +inline lbool Solver::solveLimited (const vec& assumps){ assumps.copyTo(assumptions); return solve_(); } inline bool Solver::okay () const { return ok; } +inline void Solver::toDimacs (const char* file){ vec as; toDimacs(file, as); } +inline void Solver::toDimacs (const char* file, Lit p){ vec as; as.push(p); toDimacs(file, as); } +inline void Solver::toDimacs (const char* file, Lit p, Lit q){ vec as; as.push(p); as.push(q); toDimacs(file, as); } +inline void Solver::toDimacs (const char* file, Lit p, Lit q, Lit r){ vec as; as.push(p); as.push(q); as.push(r); toDimacs(file, as); } //================================================================================================= -// Debug + etc: - - -#define reportf(format, args...) ( fflush(stdout), fprintf(stderr, format, ## args), fflush(stderr) ) -//#define reportf(format, args...) do {} while(0) - -static inline void logLit(FILE* f, Lit l) -{ - fprintf(f, "%sx%d", sign(l) ? "~" : "", var(l)+1); -} - -static inline void logLits(FILE* f, const vec& ls) -{ - fprintf(f, "[ "); - if (ls.size() > 0){ - logLit(f, ls[0]); - for (int i = 1; i < ls.size(); i++){ - fprintf(f, ", "); - logLit(f, ls[i]); - } - } - fprintf(f, "] "); -} - -static inline const char* showBool(bool b) { return b ? "true" : "false"; } +// Debug etc: -// Just like 'assert()' but expression will be evaluated in the release version as well. -static inline void check(bool expr) { assert(expr); } - - -inline void Solver::printLit(Lit l) -{ - reportf("%s%d:%c", sign(l) ? "-" : "", var(l)+1, value(l) == l_True ? '1' : (value(l) == l_False ? '0' : 'X')); -} - - -template -inline void Solver::printClause(const C& c) -{ - for (int i = 0; i < c.size(); i++){ - printLit(c[i]); - fprintf(stderr, " "); - } +//================================================================================================= } -}/* CVC4::prop::minisat namespace */ -}/* CVC4::prop namespace */ -}/* CVC4 namespace */ - -//================================================================================================= -#endif /* __CVC4__PROP__MINISAT__SOLVER_H */ +#endif diff --git a/src/prop/minisat/core/SolverTypes.h b/src/prop/minisat/core/SolverTypes.h index fd6a78ab0..12a0fdb6b 100644 --- a/src/prop/minisat/core/SolverTypes.h +++ b/src/prop/minisat/core/SolverTypes.h @@ -1,5 +1,6 @@ /***********************************************************************************[SolverTypes.h] -MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2007-2010, Niklas Sorensson 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, @@ -19,15 +20,18 @@ OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWA #include "cvc4_private.h" -#ifndef __CVC4__PROP__MINISAT__SOLVERTYPES_H -#define __CVC4__PROP__MINISAT__SOLVERTYPES_H +#ifndef Minisat_SolverTypes_h +#define Minisat_SolverTypes_h -#include -#include +#include -namespace CVC4 { -namespace prop { -namespace minisat { +#include "mtl/IntTypes.h" +#include "mtl/Alg.h" +#include "mtl/Vec.h" +#include "mtl/Map.h" +#include "mtl/Alloc.h" + +namespace Minisat { //================================================================================================= // Variables, literals, lifted booleans, clauses: @@ -40,118 +44,315 @@ typedef int Var; #define var_Undef (-1) -class Lit { +struct Lit { int x; - public: - Lit() : x(2*var_Undef) { } // (lit_Undef) - explicit Lit(Var var, bool sign = false) : x((var+var) + (int)sign) { } - - // Don't use these for constructing/deconstructing literals. Use the normal constructors instead. - friend int toInt (Lit p); // Guarantees small, positive integers suitable for array indexing. - friend Lit toLit (int i); // Inverse of 'toInt()' - friend Lit operator ~(Lit p); - friend bool sign (Lit p); - friend int var (Lit p); - friend Lit unsign (Lit p); - friend Lit id (Lit p, bool sgn); + + // Use this as a constructor: + friend Lit mkLit(Var var, bool sign = false); bool operator == (Lit p) const { return x == p.x; } bool operator != (Lit p) const { return x != p.x; } - bool operator < (Lit p) const { return x < p.x; } // '<' guarantees that p, ~p are adjacent in the ordering. + bool operator < (Lit p) const { return x < p.x; } // '<' makes p, ~p adjacent in the ordering. }; -inline int toInt (Lit p) { return p.x; } -inline Lit toLit (int i) { Lit p; p.x = i; return p; } -inline Lit operator ~(Lit p) { Lit q; q.x = p.x ^ 1; return q; } -inline bool sign (Lit p) { return p.x & 1; } -inline int var (Lit p) { return p.x >> 1; } -inline Lit unsign (Lit p) { Lit q; q.x = p.x & ~1; return q; } -inline Lit id (Lit p, bool sgn) { Lit q; q.x = p.x ^ (int)sgn; return q; } -const Lit lit_Undef(var_Undef, false); // }- Useful special constants. -const Lit lit_Error(var_Undef, true ); // } +inline Lit mkLit (Var var, bool sign) { Lit p; p.x = var + var + (int)sign; return p; } +inline Lit operator ~(Lit p) { Lit q; q.x = p.x ^ 1; return q; } +inline Lit operator ^(Lit p, bool b) { Lit q; q.x = p.x ^ (unsigned int)b; return q; } +inline bool sign (Lit p) { return p.x & 1; } +inline int var (Lit p) { return p.x >> 1; } + +// Mapping Literals to and from compact integers suitable for array indexing: +inline int toInt (Var v) { return v; } +inline int toInt (Lit p) { return p.x; } +inline Lit toLit (int i) { Lit p; p.x = i; return p; } + +//const Lit lit_Undef = mkLit(var_Undef, false); // }- Useful special constants. +//const Lit lit_Error = mkLit(var_Undef, true ); // } + +const Lit lit_Undef = { -2 }; // }- Useful special constants. +const Lit lit_Error = { -1 }; // } //================================================================================================= // Lifted booleans: +// +// NOTE: this implementation is optimized for the case when comparisons between values are mostly +// between one variable and one constant. Some care had to be taken to make sure that gcc +// does enough constant propagation to produce sensible code, and this appears to be somewhat +// fragile unfortunately. +#define l_True (Minisat::lbool((uint8_t)0)) // gcc does not do constant propagation if these are real constants. +#define l_False (Minisat::lbool((uint8_t)1)) +#define l_Undef (Minisat::lbool((uint8_t)2)) class lbool { - char value; - explicit lbool(int v) : value(v) { } + uint8_t value; public: + explicit lbool(uint8_t v) : value(v) { } + lbool() : value(0) { } - lbool(bool x) : value((int)x*2-1) { } - int toInt(void) const { return value; } + explicit lbool(bool x) : value(!x) { } + + bool operator == (lbool b) const { return ((b.value&2) & (value&2)) | (!(b.value&2)&(value == b.value)); } + bool operator != (lbool b) const { return !(*this == b); } + lbool operator ^ (bool b) const { return lbool((uint8_t)(value^(uint8_t)b)); } - bool operator == (lbool b) const { return value == b.value; } - bool operator != (lbool b) const { return value != b.value; } - lbool operator ^ (bool b) const { return b ? lbool(-value) : lbool(value); } + lbool operator && (lbool b) const { + uint8_t sel = (this->value << 1) | (b.value << 3); + uint8_t v = (0xF7F755F4 >> sel) & 3; + return lbool(v); } + + lbool operator || (lbool b) const { + uint8_t sel = (this->value << 1) | (b.value << 3); + uint8_t v = (0xFCFCF400 >> sel) & 3; + return lbool(v); } friend int toInt (lbool l); friend lbool toLbool(int v); }; -inline int toInt (lbool l) { return l.toInt(); } -inline lbool toLbool(int v) { return lbool(v); } - -const lbool l_True = toLbool( 1); -const lbool l_False = toLbool(-1); -const lbool l_Undef = toLbool( 0); +inline int toInt (lbool l) { return l.value; } +inline lbool toLbool(int v) { return lbool((uint8_t)v); } //================================================================================================= // Clause -- a simple class for representing a clause: +class Clause; +typedef RegionAllocator::Ref CRef; class Clause { - uint32_t size_etc; - union { float act; uint32_t abst; } extra; - Lit data[0]; + struct { + unsigned mark : 2; + unsigned learnt : 1; + unsigned has_extra : 1; + unsigned reloced : 1; + unsigned size : 27; } header; + union { Lit lit; float act; uint32_t abs; CRef rel; } data[0]; + + friend class ClauseAllocator; + + // NOTE: This constructor cannot be used directly (doesn't allocate enough memory). + template + Clause(const V& ps, bool use_extra, bool learnt) { + header.mark = 0; + header.learnt = learnt; + header.has_extra = use_extra; + header.reloced = 0; + header.size = ps.size(); + + for (int i = 0; i < ps.size(); i++) + data[i].lit = ps[i]; + + if (header.has_extra){ + if (header.learnt) + data[header.size].act = 0; + else + calcAbstraction(); } + } public: void calcAbstraction() { + assert(header.has_extra); uint32_t abstraction = 0; for (int i = 0; i < size(); i++) - abstraction |= 1 << (var(data[i]) & 31); - extra.abst = abstraction; } + abstraction |= 1 << (var(data[i].lit) & 31); + data[header.size].abs = abstraction; } - // NOTE: This constructor cannot be used directly (doesn't allocate enough memory). - template - Clause(const V& ps, bool learnt) { - size_etc = (ps.size() << 3) | (uint32_t)learnt; - for (int i = 0; i < ps.size(); i++) data[i] = ps[i]; - if (learnt) extra.act = 0; else calcAbstraction(); } - // -- use this function instead: - template - friend Clause* Clause_new(const V& ps, bool learnt = false) { - assert(sizeof(Lit) == sizeof(uint32_t)); - assert(sizeof(float) == sizeof(uint32_t)); - void* mem = malloc(sizeof(Clause) + sizeof(uint32_t)*(ps.size())); - return new (mem) Clause(ps, learnt); } - - int size () const { return size_etc >> 3; } - void shrink (int i) { assert(i <= size()); size_etc = (((size_etc >> 3) - i) << 3) | (size_etc & 7); } + int size () const { return header.size; } + void shrink (int i) { assert(i <= size()); if (header.has_extra) data[header.size-i] = data[header.size]; header.size -= i; } void pop () { shrink(1); } - bool learnt () const { return size_etc & 1; } - uint32_t mark () const { return (size_etc >> 1) & 3; } - void mark (uint32_t m) { size_etc = (size_etc & ~6) | ((m & 3) << 1); } - const Lit& last () const { return data[size()-1]; } + bool learnt () const { return header.learnt; } + bool has_extra () const { return header.has_extra; } + uint32_t mark () const { return header.mark; } + void mark (uint32_t m) { header.mark = m; } + const Lit& last () const { return data[header.size-1].lit; } + + bool reloced () const { return header.reloced; } + CRef relocation () const { return data[0].rel; } + void relocate (CRef c) { header.reloced = 1; data[0].rel = c; } // NOTE: somewhat unsafe to change the clause in-place! Must manually call 'calcAbstraction' afterwards for // subsumption operations to behave correctly. - Lit& operator [] (int i) { return data[i]; } - Lit operator [] (int i) const { return data[i]; } - operator const Lit* (void) const { return data; } + Lit& operator [] (int i) { return data[i].lit; } + Lit operator [] (int i) const { return data[i].lit; } + operator const Lit* (void) const { return (Lit*)data; } - float& activity () { return extra.act; } - uint32_t abstraction () const { return extra.abst; } + float& activity () { assert(header.has_extra); return data[header.size].act; } + uint32_t abstraction () const { assert(header.has_extra); return data[header.size].abs; } Lit subsumes (const Clause& other) const; void strengthen (Lit p); }; +//================================================================================================= +// ClauseAllocator -- a simple class for allocating memory for clauses: + + +const CRef CRef_Undef = RegionAllocator::Ref_Undef; +const CRef CRef_Lazy = RegionAllocator::Ref_Undef - 1; +class ClauseAllocator : public RegionAllocator +{ + static int clauseWord32Size(int size, bool has_extra){ + return (sizeof(Clause) + (sizeof(Lit) * (size + (int)has_extra))) / sizeof(uint32_t); } + public: + bool extra_clause_field; + + ClauseAllocator(uint32_t start_cap) : RegionAllocator(start_cap), extra_clause_field(false){} + ClauseAllocator() : extra_clause_field(false){} + + void moveTo(ClauseAllocator& to){ + to.extra_clause_field = extra_clause_field; + RegionAllocator::moveTo(to); } + + template + CRef alloc(const Lits& ps, bool learnt = false) + { + assert(sizeof(Lit) == sizeof(uint32_t)); + assert(sizeof(float) == sizeof(uint32_t)); + bool use_extra = learnt | extra_clause_field; + + CRef cid = RegionAllocator::alloc(clauseWord32Size(ps.size(), use_extra)); + new (lea(cid)) Clause(ps, use_extra, learnt); + + return cid; + } + + // Deref, Load Effective Address (LEA), Inverse of LEA (AEL): + Clause& operator[](Ref r) { return (Clause&)RegionAllocator::operator[](r); } + const Clause& operator[](Ref r) const { return (Clause&)RegionAllocator::operator[](r); } + Clause* lea (Ref r) { return (Clause*)RegionAllocator::lea(r); } + const Clause* lea (Ref r) const { return (Clause*)RegionAllocator::lea(r); } + Ref ael (const Clause* t){ return RegionAllocator::ael((uint32_t*)t); } + + void free(CRef cid) + { + Clause& c = operator[](cid); + RegionAllocator::free(clauseWord32Size(c.size(), c.has_extra())); + } + + void reloc(CRef& cr, ClauseAllocator& to) + { + Clause& c = operator[](cr); + + if (c.reloced()) { cr = c.relocation(); return; } + + cr = to.alloc(c, c.learnt()); + c.relocate(cr); + + // Copy extra data-fields: + // (This could be cleaned-up. Generalize Clause-constructor to be applicable here instead?) + to[cr].mark(c.mark()); + if (to[cr].learnt()) to[cr].activity() = c.activity(); + else if (to[cr].has_extra()) to[cr].calcAbstraction(); + } +}; + + +//================================================================================================= +// OccLists -- a class for maintaining occurence lists with lazy deletion: + +template +class OccLists +{ + vec occs; + vec dirty; + vec dirties; + Deleted deleted; + + public: + OccLists(const Deleted& d) : deleted(d) {} + + void init (const Idx& idx){ occs.growTo(toInt(idx)+1); dirty.growTo(toInt(idx)+1, 0); } + // Vec& operator[](const Idx& idx){ return occs[toInt(idx)]; } + Vec& operator[](const Idx& idx){ return occs[toInt(idx)]; } + Vec& lookup (const Idx& idx){ if (dirty[toInt(idx)]) clean(idx); return occs[toInt(idx)]; } + + void cleanAll (); + void clean (const Idx& idx); + void smudge (const Idx& idx){ + if (dirty[toInt(idx)] == 0){ + dirty[toInt(idx)] = 1; + dirties.push(idx); + } + } + + void clear(bool free = true){ + occs .clear(free); + dirty .clear(free); + dirties.clear(free); + } +}; + + +template +void OccLists::cleanAll() +{ + for (int i = 0; i < dirties.size(); i++) + // Dirties may contain duplicates so check here if a variable is already cleaned: + if (dirty[toInt(dirties[i])]) + clean(dirties[i]); + dirties.clear(); +} + + +template +void OccLists::clean(const Idx& idx) +{ + Vec& vec = occs[toInt(idx)]; + int i, j; + for (i = j = 0; i < vec.size(); i++) + if (!deleted(vec[i])) + vec[j++] = vec[i]; + vec.shrink(i - j); + dirty[toInt(idx)] = 0; +} + + +//================================================================================================= +// CMap -- a class for mapping clauses to values: + + +template +class CMap +{ + struct CRefHash { + uint32_t operator()(CRef cr) const { return (uint32_t)cr; } }; + + typedef Map HashTable; + HashTable map; + + public: + // Size-operations: + void clear () { map.clear(); } + int size () const { return map.elems(); } + + + // Insert/Remove/Test mapping: + void insert (CRef cr, const T& t){ map.insert(cr, t); } + void growTo (CRef cr, const T& t){ map.insert(cr, t); } // NOTE: for compatibility + void remove (CRef cr) { map.remove(cr); } + bool has (CRef cr, T& t) { return map.peek(cr, t); } + + // Vector interface (the clause 'c' must already exist): + const T& operator [] (CRef cr) const { return map[cr]; } + T& operator [] (CRef cr) { return map[cr]; } + + // Iteration (not transparent at all at the moment): + int bucket_count() const { return map.bucket_count(); } + const vec& bucket(int i) const { return map.bucket(i); } + + // Move contents to other map: + void moveTo(CMap& other){ map.moveTo(other.map); } + + // TMP debug: + void debug(){ + printf(" --- size = %d, bucket_count = %d\n", size(), map.bucket_count()); } +}; + + /*_________________________________________________________________________________________________ | | subsumes : (other : const Clause&) -> Lit @@ -167,16 +368,20 @@ public: |________________________________________________________________________________________________@*/ inline Lit Clause::subsumes(const Clause& other) const { - if (other.size() < size() || (extra.abst & ~other.extra.abst) != 0) + //if (other.size() < size() || (extra.abst & ~other.extra.abst) != 0) + //if (other.size() < size() || (!learnt() && !other.learnt() && (extra.abst & ~other.extra.abst) != 0)) + assert(!header.learnt); assert(!other.header.learnt); + assert(header.has_extra); assert(other.header.has_extra); + if (other.header.size < header.size || (data[header.size].abs & ~other.data[other.header.size].abs) != 0) return lit_Error; Lit ret = lit_Undef; - const Lit* c = (const Lit*)(*this); - const Lit* d = (const Lit*)other; + const Lit* c = (const Lit*)(*this); + const Lit* d = (const Lit*)other; - for (int i = 0; i < size(); i++) { + for (unsigned i = 0; i < header.size; i++) { // search for c[i] or ~c[i] - for (int j = 0; j < other.size(); j++) + for (unsigned j = 0; j < other.header.size; j++) if (c[i] == d[j]) goto ok; else if (ret == lit_Undef && c[i] == ~d[j]){ @@ -192,15 +397,13 @@ inline Lit Clause::subsumes(const Clause& other) const return ret; } - inline void Clause::strengthen(Lit p) { remove(*this, p); calcAbstraction(); } -}/* CVC4::prop::minisat namespace */ -}/* CVC4::prop namespace */ -}/* CVC4 namespace */ +//================================================================================================= +} -#endif /* __CVC4__PROP__MINISAT__SOLVERTYPES_H */ +#endif diff --git a/src/prop/minisat/doc/ReleaseNotes-2.2.0.txt b/src/prop/minisat/doc/ReleaseNotes-2.2.0.txt new file mode 100644 index 000000000..7f084de2b --- /dev/null +++ b/src/prop/minisat/doc/ReleaseNotes-2.2.0.txt @@ -0,0 +1,79 @@ +Release Notes for MiniSat 2.2.0 +=============================== + +Changes since version 2.0: + + * Started using a more standard release numbering. + + * Includes some now well-known heuristics: phase-saving and luby + restarts. The old heuristics are still present and can be activated + if needed. + + * Detection/Handling of out-of-memory and vector capacity + overflow. This is fairly new and relatively untested. + + * Simple resource controls: CPU-time, memory, number of + conflicts/decisions. + + * CPU-time limiting is implemented by a more general, but simple, + asynchronous interruption feature. This means that the solving + procedure can be interrupted from another thread or in a signal + handler. + + * Improved portability with respect to building on Solaris and with + Visual Studio. This is not regularly tested and chances are that + this have been broken since, but should be fairly easy to fix if + so. + + * Changed C++ file-extention to the less problematic ".cc". + + * Source code is now namespace-protected + + * Introducing a new Clause Memory Allocator that brings reduced + memory consumption on 64-bit architechtures and improved + performance (to some extent). The allocator uses a region-based + approach were all references to clauses are represented as a 32-bit + index into a global memory region that contains all clauses. To + free up and compact memory it uses a simple copying garbage + collector. + + * Improved unit-propagation by Blocking Literals. For each entry in + the watcher lists, pair the pointer to a clause with some + (arbitrary) literal from the clause. The idea is that if the + literal is currently true (i.e. the clause is satisfied) the + watchers of the clause does not need to be altered. This can thus + be detected without touching the clause's memory at all. As often + as can be done cheaply, the blocking literal for entries to the + watcher list of a literal 'p' is set to the other literal watched + in the corresponding clause. + + * Basic command-line/option handling system. Makes it easy to specify + options in the class that they affect, and whenever that class is + used in an executable, parsing of options and help messages are + brought in automatically. + + * General clean-up and various minor bug-fixes. + + * Changed implementation of variable-elimination/model-extension: + + - The interface is changed so that arbitrary remembering is no longer + possible. If you need to mention some variable again in the future, + this variable has to be frozen. + + - When eliminating a variable, only clauses that contain the variable + with one sign is necessary to store. Thereby making the other sign + a "default" value when extending models. + + - The memory consumption for eliminated clauses is further improved + by storing all eliminated clauses in a single contiguous vector. + + * Some common utility code (I/O, Parsing, CPU-time, etc) is ripped + out and placed in a separate "utils" directory. + + * The DIMACS parse is refactored so that it can be reused in other + applications (not very elegant, but at least possible). + + * Some simple improvements to scalability of preprocessing, using + more lazy clause removal from data-structures and a couple of + ad-hoc limits (the longest clause that can be produced in variable + elimination, and the longest clause used in backward subsumption). diff --git a/src/prop/minisat/mtl/Alg.h b/src/prop/minisat/mtl/Alg.h index e636f2b87..bb1ee5ad2 100644 --- a/src/prop/minisat/mtl/Alg.h +++ b/src/prop/minisat/mtl/Alg.h @@ -1,5 +1,6 @@ /*******************************************************************************************[Alg.h] -MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2007-2010, Niklas Sorensson 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, @@ -17,22 +18,20 @@ DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. **************************************************************************************************/ -#include "cvc4_private.h" +#ifndef Minisat_Alg_h +#define Minisat_Alg_h -#ifndef CVC4_MiniSat_Alg_h -#define CVC4_MiniSat_Alg_h +#include "mtl/Vec.h" -#include - -namespace CVC4 { -namespace prop { -namespace minisat { +namespace Minisat { //================================================================================================= -// Useful functions on vectors +// Useful functions on vector-like types: +//================================================================================================= +// Removing and searching for elements: +// -#if 1 template static inline void remove(V& ts, const T& t) { @@ -42,17 +41,7 @@ static inline void remove(V& ts, const T& t) for (; j < ts.size()-1; j++) ts[j] = ts[j+1]; ts.pop(); } -#else -template -static inline void remove(V& ts, const T& t) -{ - int j = 0; - for (; j < ts.size() && ts[j] != t; j++); - assert(j < ts.size()); - ts[j] = ts.last(); - ts.pop(); -} -#endif + template static inline bool find(V& ts, const T& t) @@ -62,8 +51,34 @@ static inline bool find(V& ts, const T& t) return j < ts.size(); } -}/* CVC4::prop::minisat namespace */ -}/* CVC4::prop namespace */ -}/* CVC4 namespace */ -#endif /* CVC4_MiniSat_Alg_h */ +//================================================================================================= +// Copying vectors with support for nested vector types: +// + +// Base case: +template +static inline void copy(const T& from, T& to) +{ + to = from; +} + +// Recursive case: +template +static inline void copy(const vec& from, vec& to, bool append = false) +{ + if (!append) + to.clear(); + for (int i = 0; i < from.size(); i++){ + to.push(); + copy(from[i], to.last()); + } +} + +template +static inline void append(const vec& from, vec& to){ copy(from, to, true); } + +//================================================================================================= +} + +#endif diff --git a/src/prop/minisat/mtl/Alloc.h b/src/prop/minisat/mtl/Alloc.h new file mode 100644 index 000000000..76322b8b6 --- /dev/null +++ b/src/prop/minisat/mtl/Alloc.h @@ -0,0 +1,131 @@ +/*****************************************************************************************[Alloc.h] +Copyright (c) 2008-2010, Niklas Sorensson + +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. +**************************************************************************************************/ + + +#ifndef Minisat_Alloc_h +#define Minisat_Alloc_h + +#include "mtl/XAlloc.h" +#include "mtl/Vec.h" + +namespace Minisat { + +//================================================================================================= +// Simple Region-based memory allocator: + +template +class RegionAllocator +{ + T* memory; + uint32_t sz; + uint32_t cap; + uint32_t wasted_; + + void capacity(uint32_t min_cap); + + public: + // TODO: make this a class for better type-checking? + typedef uint32_t Ref; + enum { Ref_Undef = UINT32_MAX }; + enum { Unit_Size = sizeof(uint32_t) }; + + explicit RegionAllocator(uint32_t start_cap = 1024*1024) : memory(NULL), sz(0), cap(0), wasted_(0){ capacity(start_cap); } + ~RegionAllocator() + { + if (memory != NULL) + ::free(memory); + } + + + uint32_t size () const { return sz; } + uint32_t wasted () const { return wasted_; } + + Ref alloc (int size); + void free (int size) { wasted_ += size; } + + // Deref, Load Effective Address (LEA), Inverse of LEA (AEL): + T& operator[](Ref r) { assert(r >= 0 && r < sz); return memory[r]; } + const T& operator[](Ref r) const { assert(r >= 0 && r < sz); return memory[r]; } + + T* lea (Ref r) { assert(r >= 0 && r < sz); return &memory[r]; } + const T* lea (Ref r) const { assert(r >= 0 && r < sz); return &memory[r]; } + Ref ael (const T* t) { assert((void*)t >= (void*)&memory[0] && (void*)t < (void*)&memory[sz-1]); + return (Ref)(t - &memory[0]); } + + void moveTo(RegionAllocator& to) { + if (to.memory != NULL) ::free(to.memory); + to.memory = memory; + to.sz = sz; + to.cap = cap; + to.wasted_ = wasted_; + + memory = NULL; + sz = cap = wasted_ = 0; + } + + +}; + +template +void RegionAllocator::capacity(uint32_t min_cap) +{ + if (cap >= min_cap) return; + + uint32_t prev_cap = cap; + while (cap < min_cap){ + // NOTE: Multiply by a factor (13/8) without causing overflow, then add 2 and make the + // result even by clearing the least significant bit. The resulting sequence of capacities + // is carefully chosen to hit a maximum capacity that is close to the '2^32-1' limit when + // using 'uint32_t' as indices so that as much as possible of this space can be used. + uint32_t delta = ((cap >> 1) + (cap >> 3) + 2) & ~1; + cap += delta; + + if (cap <= prev_cap) + throw OutOfMemoryException(); + } + // printf(" .. (%p) cap = %u\n", this, cap); + + assert(cap > 0); + memory = (T*)xrealloc(memory, sizeof(T)*cap); +} + + +template +typename RegionAllocator::Ref +RegionAllocator::alloc(int size) +{ + // printf("ALLOC called (this = %p, size = %d)\n", this, size); fflush(stdout); + assert(size > 0); + capacity(sz + size); + + uint32_t prev_sz = sz; + sz += size; + + // Handle overflow: + if (sz < prev_sz) + throw OutOfMemoryException(); + + return prev_sz; +} + + +//================================================================================================= +} + +#endif diff --git a/src/prop/minisat/mtl/BasicHeap.h b/src/prop/minisat/mtl/BasicHeap.h deleted file mode 100644 index cb6a7cbd8..000000000 --- a/src/prop/minisat/mtl/BasicHeap.h +++ /dev/null @@ -1,109 +0,0 @@ -/******************************************************************************************[Heap.h] -MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson - -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 "cvc4_private.h" - -#ifndef CVC4_MiniSat_BasicHeap_h -#define CVC4_MiniSat_BasicHeap_h - -#include "Vec.h" - -namespace CVC4 { -namespace prop { -namespace minisat { - -//================================================================================================= -// A heap implementation with support for decrease/increase key. - - -template -class BasicHeap { - Comp lt; - vec heap; // heap of ints - - // Index "traversal" functions - static inline int left (int i) { return i*2+1; } - static inline int right (int i) { return (i+1)*2; } - static inline int parent(int i) { return (i-1) >> 1; } - - inline void percolateUp(int i) - { - int x = heap[i]; - while (i != 0 && lt(x, heap[parent(i)])){ - heap[i] = heap[parent(i)]; - i = parent(i); - } - heap [i] = x; - } - - - inline void percolateDown(int i) - { - int x = heap[i]; - while (left(i) < heap.size()){ - int child = right(i) < heap.size() && lt(heap[right(i)], heap[left(i)]) ? right(i) : left(i); - if (!lt(heap[child], x)) break; - heap[i] = heap[child]; - i = child; - } - heap[i] = x; - } - - - bool heapProperty(int i) { - return i >= heap.size() - || ((i == 0 || !lt(heap[i], heap[parent(i)])) && heapProperty(left(i)) && heapProperty(right(i))); } - - - public: - BasicHeap(const C& c) : comp(c) { } - - int size () const { return heap.size(); } - bool empty () const { return heap.size() == 0; } - int operator[](int index) const { return heap[index+1]; } - void clear (bool dealloc = false) { heap.clear(dealloc); } - void insert (int n) { heap.push(n); percolateUp(heap.size()-1); } - - - int removeMin() { - int r = heap[0]; - heap[0] = heap.last(); - heap.pop(); - if (heap.size() > 1) percolateDown(0); - return r; - } - - - // DEBUG: consistency checking - bool heapProperty() { - return heapProperty(1); } - - - // COMPAT: should be removed - int getmin () { return removeMin(); } -}; - - -//================================================================================================= - -}/* CVC4::prop::minisat namespace */ -}/* CVC4::prop namespace */ -}/* CVC4 namespace */ - -#endif /* CVC4_MiniSat_BasicHeap_h */ diff --git a/src/prop/minisat/mtl/BoxedVec.h b/src/prop/minisat/mtl/BoxedVec.h deleted file mode 100644 index 7cf5ba14f..000000000 --- a/src/prop/minisat/mtl/BoxedVec.h +++ /dev/null @@ -1,156 +0,0 @@ -/*******************************************************************************************[Vec.h] -MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson - -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 "cvc4_private.h" - -#ifndef CVC4_MiniSat_BoxedVec_h -#define CVC4_MiniSat_BoxedVec_h - -#include -#include -#include - -namespace CVC4 { -namespace prop { -namespace minisat { - -//================================================================================================= -// Automatically resizable arrays -// -// NOTE! Don't use this vector on datatypes that cannot be re-located in memory (with realloc) - -template -class bvec { - - static inline int imin(int x, int y) { - int mask = (x-y) >> (sizeof(int)*8-1); - return (x&mask) + (y&(~mask)); } - - static inline int imax(int x, int y) { - int mask = (y-x) >> (sizeof(int)*8-1); - return (x&mask) + (y&(~mask)); } - - struct Vec_t { - int sz; - int cap; - T data[0]; - - static Vec_t* alloc(Vec_t* x, int size){ - x = (Vec_t*)realloc((void*)x, sizeof(Vec_t) + sizeof(T)*size); - x->cap = size; - return x; - } - - }; - - Vec_t* ref; - - static const int init_size = 2; - static int nextSize (int current) { return (current * 3 + 1) >> 1; } - static int fitSize (int needed) { int x; for (x = init_size; needed > x; x = nextSize(x)); return x; } - - void fill (int size) { - assert(ref != NULL); - for (T* i = ref->data; i < ref->data + size; i++) - new (i) T(); - } - - void fill (int size, const T& pad) { - assert(ref != NULL); - for (T* i = ref->data; i < ref->data + size; i++) - new (i) T(pad); - } - - // Don't allow copying (error prone): - altvec& operator = (altvec& other) { assert(0); } - altvec (altvec& other) { assert(0); } - -public: - void clear (bool dealloc = false) { - if (ref != NULL){ - for (int i = 0; i < ref->sz; i++) - (*ref).data[i].~T(); - - if (dealloc) { - free(ref); ref = NULL; - }else - ref->sz = 0; - } - } - - // Constructors: - altvec(void) : ref (NULL) { } - altvec(int size) : ref (Vec_t::alloc(NULL, fitSize(size))) { fill(size); ref->sz = size; } - altvec(int size, const T& pad) : ref (Vec_t::alloc(NULL, fitSize(size))) { fill(size, pad); ref->sz = size; } - ~altvec(void) { clear(true); } - - // Ownership of underlying array: - operator T* (void) { return ref->data; } // (unsafe but convenient) - operator const T* (void) const { return ref->data; } - - // Size operations: - int size (void) const { return ref != NULL ? ref->sz : 0; } - - void pop (void) { assert(ref != NULL && ref->sz > 0); int last = --ref->sz; ref->data[last].~T(); } - void push (const T& elem) { - int size = ref != NULL ? ref->sz : 0; - int cap = ref != NULL ? ref->cap : 0; - if (size == cap){ - cap = cap != 0 ? nextSize(cap) : init_size; - ref = Vec_t::alloc(ref, cap); - } - //new (&ref->data[size]) T(elem); - ref->data[size] = elem; - ref->sz = size+1; - } - - void push () { - int size = ref != NULL ? ref->sz : 0; - int cap = ref != NULL ? ref->cap : 0; - if (size == cap){ - cap = cap != 0 ? nextSize(cap) : init_size; - ref = Vec_t::alloc(ref, cap); - } - new (&ref->data[size]) T(); - ref->sz = size+1; - } - - void shrink (int nelems) { for (int i = 0; i < nelems; i++) pop(); } - void shrink_(int nelems) { for (int i = 0; i < nelems; i++) pop(); } - void growTo (int size) { while (this->size() < size) push(); } - void growTo (int size, const T& pad) { while (this->size() < size) push(pad); } - void capacity (int size) { growTo(size); } - - const T& last (void) const { return ref->data[ref->sz-1]; } - T& last (void) { return ref->data[ref->sz-1]; } - - // Vector interface: - const T& operator [] (int index) const { return ref->data[index]; } - T& operator [] (int index) { return ref->data[index]; } - - void copyTo(altvec& copy) const { copy.clear(); for (int i = 0; i < size(); i++) copy.push(ref->data[i]); } - void moveTo(altvec& dest) { dest.clear(true); dest.ref = ref; ref = NULL; } - -}; - -}/* CVC4::prop::minisat namespace */ -}/* CVC4::prop namespace */ -}/* CVC4 namespace */ - -#endif /* CVC4_MiniSat_BoxedVec_h */ diff --git a/src/prop/minisat/mtl/Heap.h b/src/prop/minisat/mtl/Heap.h index 20d379b1d..226407e77 100644 --- a/src/prop/minisat/mtl/Heap.h +++ b/src/prop/minisat/mtl/Heap.h @@ -1,5 +1,6 @@ /******************************************************************************************[Heap.h] -MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2007-2010, Niklas Sorensson 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, @@ -17,17 +18,12 @@ DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. **************************************************************************************************/ -#include "cvc4_private.h" +#ifndef Minisat_Heap_h +#define Minisat_Heap_h -#ifndef CVC4_MiniSat_Heap_h -#define CVC4_MiniSat_Heap_h +#include "mtl/Vec.h" -#include "Vec.h" -#include - -namespace CVC4 { -namespace prop { -namespace minisat { +namespace Minisat { //================================================================================================= // A heap implementation with support for decrease/increase key. @@ -35,9 +31,9 @@ namespace minisat { template class Heap { - Comp lt; - vec heap; // heap of ints - vec indices; // int -> index in heap + Comp lt; // The heap is a minimum-heap with respect to this comparator + vec heap; // Heap of integers + vec indices; // Each integers position (index) in the Heap // Index "traversal" functions static inline int left (int i) { return i*2+1; } @@ -45,20 +41,23 @@ class Heap { static inline int parent(int i) { return (i-1) >> 1; } - inline void percolateUp(int i) + void percolateUp(int i) { - int x = heap[i]; - while (i != 0 && lt(x, heap[parent(i)])){ - heap[i] = heap[parent(i)]; - indices[heap[i]] = i; - i = parent(i); + int x = heap[i]; + int p = parent(i); + + while (i != 0 && lt(x, heap[p])){ + heap[i] = heap[p]; + indices[heap[p]] = i; + i = p; + p = parent(p); } heap [i] = x; indices[x] = i; } - inline void percolateDown(int i) + void percolateDown(int i) { int x = heap[i]; while (left(i) < heap.size()){ @@ -73,11 +72,6 @@ class Heap { } - bool heapProperty (int i) const { - return i >= heap.size() - || ((i == 0 || !lt(heap[i], heap[parent(i)])) && heapProperty(left(i)) && heapProperty(right(i))); } - - public: Heap(const Comp& c) : lt(c) { } @@ -86,10 +80,20 @@ class Heap { bool inHeap (int n) const { return n < indices.size() && indices[n] >= 0; } int operator[](int index) const { assert(index < heap.size()); return heap[index]; } - void decrease (int n) { assert(inHeap(n)); percolateUp(indices[n]); } - // RENAME WHEN THE DEPRECATED INCREASE IS REMOVED. - void increase_ (int n) { assert(inHeap(n)); percolateDown(indices[n]); } + void decrease (int n) { assert(inHeap(n)); percolateUp (indices[n]); } + void increase (int n) { assert(inHeap(n)); percolateDown(indices[n]); } + + + // Safe variant of insert/decrease/increase: + void update(int n) + { + if (!inHeap(n)) + insert(n); + else { + percolateUp(indices[n]); + percolateDown(indices[n]); } + } void insert(int n) @@ -99,7 +103,7 @@ class Heap { indices[n] = heap.size(); heap.push(n); - percolateUp(indices[n]); + percolateUp(indices[n]); } @@ -111,69 +115,34 @@ class Heap { indices[x] = -1; heap.pop(); if (heap.size() > 1) percolateDown(0); - return x; + return x; } - void clear(bool dealloc = false) - { + // Rebuild the heap from scratch, using the elements in 'ns': + void build(vec& ns) { for (int i = 0; i < heap.size(); i++) indices[heap[i]] = -1; -#ifdef NDEBUG - for (int i = 0; i < indices.size(); i++) - assert(indices[i] == -1); -#endif - heap.clear(dealloc); - } - - - // Fool proof variant of insert/decrease/increase - void update (int n) - { - if (!inHeap(n)) - insert(n); - else { - percolateUp(indices[n]); - percolateDown(indices[n]); - } - } + heap.clear(); + for (int i = 0; i < ns.size(); i++){ + indices[ns[i]] = i; + heap.push(ns[i]); } - // Delete elements from the heap using a given filter function (-object). - // *** this could probaly be replaced with a more general "buildHeap(vec&)" method *** - template - void filter(const F& filt) { - int i,j; - for (i = j = 0; i < heap.size(); i++) - if (filt(heap[i])){ - heap[j] = heap[i]; - indices[heap[i]] = j++; - }else - indices[heap[i]] = -1; - - heap.shrink(i - j); for (int i = heap.size() / 2 - 1; i >= 0; i--) percolateDown(i); - - assert(heapProperty()); } - - // DEBUG: consistency checking - bool heapProperty() const { - return heapProperty(1); } - - - // COMPAT: should be removed - void setBounds (int n) { } - void increase (int n) { decrease(n); } - int getmin () { return removeMin(); } - + void clear(bool dealloc = false) + { + for (int i = 0; i < heap.size(); i++) + indices[heap[i]] = -1; + heap.clear(dealloc); + } }; -}/* CVC4::prop::minisat namespace */ -}/* CVC4::prop namespace */ -}/* CVC4 namespace */ //================================================================================================= -#endif /* CVC4_MiniSat_Heap_h */ +} + +#endif diff --git a/src/prop/minisat/mtl/IntTypes.h b/src/prop/minisat/mtl/IntTypes.h new file mode 100644 index 000000000..c48816284 --- /dev/null +++ b/src/prop/minisat/mtl/IntTypes.h @@ -0,0 +1,42 @@ +/**************************************************************************************[IntTypes.h] +Copyright (c) 2009-2010, Niklas Sorensson + +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. +**************************************************************************************************/ + +#ifndef Minisat_IntTypes_h +#define Minisat_IntTypes_h + +#ifdef __sun + // Not sure if there are newer versions that support C99 headers. The + // needed features are implemented in the headers below though: + +# include +# include +# include + +#else + +# include +# include + +#endif + +#include + +//================================================================================================= + +#endif diff --git a/src/prop/minisat/mtl/Map.h b/src/prop/minisat/mtl/Map.h index 715b84da4..8a82d0e28 100644 --- a/src/prop/minisat/mtl/Map.h +++ b/src/prop/minisat/mtl/Map.h @@ -1,5 +1,5 @@ /*******************************************************************************************[Map.h] -MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2006-2010, Niklas Sorensson 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, @@ -17,18 +17,13 @@ DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. **************************************************************************************************/ -#include "cvc4_private.h" +#ifndef Minisat_Map_h +#define Minisat_Map_h -#ifndef CVC4_MiniSat_Map_h -#define CVC4_MiniSat_Map_h +#include "mtl/IntTypes.h" +#include "mtl/Vec.h" -#include - -#include "Vec.h" - -namespace CVC4 { -namespace prop { -namespace minisat { +namespace Minisat { //================================================================================================= // Default hash/equals functions @@ -40,6 +35,12 @@ template struct Equal { bool operator()(const K& k1, const K& k2) c template struct DeepHash { uint32_t operator()(const K* k) const { return hash(*k); } }; template struct DeepEqual { bool operator()(const K* k1, const K* k2) const { return *k1 == *k2; } }; +static inline uint32_t hash(uint32_t x){ return x; } +static inline uint32_t hash(uint64_t x){ return (uint32_t)x; } +static inline uint32_t hash(int32_t x) { return (uint32_t)x; } +static inline uint32_t hash(int64_t x) { return (uint32_t)x; } + + //================================================================================================= // Some primes // @@ -53,8 +54,10 @@ static const int primes [nprimes] = { 31, 73, 151, 313, 643, 1291, 2593, 5233, 1 template, class E = Equal > class Map { + public: struct Pair { K key; D data; }; + private: H hash; E equals; @@ -66,45 +69,89 @@ class Map { Map& operator = (Map& other) { assert(0); } Map (Map& other) { assert(0); } + bool checkCap(int new_size) const { return new_size > cap; } + int32_t index (const K& k) const { return hash(k) % cap; } - void _insert (const K& k, const D& d) { table[index(k)].push(); table[index(k)].last().key = k; table[index(k)].last().data = d; } + void _insert (const K& k, const D& d) { + vec& ps = table[index(k)]; + ps.push(); ps.last().key = k; ps.last().data = d; } + void rehash () { const vec* old = table; + int old_cap = cap; int newsize = primes[0]; for (int i = 1; newsize <= cap && i < nprimes; i++) newsize = primes[i]; table = new vec[newsize]; + cap = newsize; - for (int i = 0; i < cap; i++){ + for (int i = 0; i < old_cap; i++){ for (int j = 0; j < old[i].size(); j++){ _insert(old[i][j].key, old[i][j].data); }} delete [] old; - cap = newsize; + // printf(" --- rehashing, old-cap=%d, new-cap=%d\n", cap, newsize); } + + public: - public: - - Map () : table(NULL), cap(0), size(0) {} - Map (const H& h, const E& e) : Map(), hash(h), equals(e) {} + Map () : table(NULL), cap(0), size(0) {} + Map (const H& h, const E& e) : hash(h), equals(e), table(NULL), cap(0), size(0){} ~Map () { delete [] table; } - void insert (const K& k, const D& d) { if (size+1 > cap / 2) rehash(); _insert(k, d); size++; } - bool peek (const K& k, D& d) { + // PRECONDITION: the key must already exist in the map. + const D& operator [] (const K& k) const + { + assert(size != 0); + const D* res = NULL; + const vec& ps = table[index(k)]; + for (int i = 0; i < ps.size(); i++) + if (equals(ps[i].key, k)) + res = &ps[i].data; + assert(res != NULL); + return *res; + } + + // PRECONDITION: the key must already exist in the map. + D& operator [] (const K& k) + { + assert(size != 0); + D* res = NULL; + vec& ps = table[index(k)]; + for (int i = 0; i < ps.size(); i++) + if (equals(ps[i].key, k)) + res = &ps[i].data; + assert(res != NULL); + return *res; + } + + // PRECONDITION: the key must *NOT* exist in the map. + void insert (const K& k, const D& d) { if (checkCap(size+1)) rehash(); _insert(k, d); size++; } + bool peek (const K& k, D& d) const { if (size == 0) return false; const vec& ps = table[index(k)]; for (int i = 0; i < ps.size(); i++) if (equals(ps[i].key, k)){ d = ps[i].data; - return true; } + return true; } return false; } - void remove (const K& k) { + bool has (const K& k) const { + if (size == 0) return false; + const vec& ps = table[index(k)]; + for (int i = 0; i < ps.size(); i++) + if (equals(ps[i].key, k)) + return true; + return false; + } + + // PRECONDITION: the key must exist in the map. + void remove(const K& k) { assert(table != NULL); vec& ps = table[index(k)]; int j = 0; @@ -112,6 +159,7 @@ class Map { assert(j < ps.size()); ps[j] = ps.last(); ps.pop(); + size--; } void clear () { @@ -119,10 +167,27 @@ class Map { delete [] table; table = NULL; } + + int elems() const { return size; } + int bucket_count() const { return cap; } + + // NOTE: the hash and equality objects are not moved by this method: + void moveTo(Map& other){ + delete [] other.table; + + other.table = table; + other.cap = cap; + other.size = size; + + table = NULL; + size = cap = 0; + } + + // NOTE: given a bit more time, I could make a more C++-style iterator out of this: + const vec& bucket(int i) const { return table[i]; } }; -}/* CVC4::prop::minisat namespace */ -}/* CVC4::prop namespace */ -}/* CVC4 namespace */ +//================================================================================================= +} -#endif /* CVC4_MiniSat_Map_h */ +#endif diff --git a/src/prop/minisat/mtl/Queue.h b/src/prop/minisat/mtl/Queue.h index 291a1f2e3..17567d694 100644 --- a/src/prop/minisat/mtl/Queue.h +++ b/src/prop/minisat/mtl/Queue.h @@ -1,5 +1,6 @@ /*****************************************************************************************[Queue.h] -MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2007-2010, Niklas Sorensson 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, @@ -17,77 +18,52 @@ DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. **************************************************************************************************/ -#include "cvc4_private.h" +#ifndef Minisat_Queue_h +#define Minisat_Queue_h -#ifndef CVC4_MiniSat_Queue_h -#define CVC4_MiniSat_Queue_h +#include "mtl/Vec.h" -#include "Vec.h" - -namespace CVC4 { -namespace prop { -namespace minisat { +namespace Minisat { //================================================================================================= - -template +template class Queue { - vec elems; + vec buf; int first; + int end; public: - Queue(void) : first(0) { } - - void insert(T x) { elems.push(x); } - T peek () const { return elems[first]; } - void pop () { first++; } - - void clear(bool dealloc = false) { elems.clear(dealloc); first = 0; } - int size(void) { return elems.size() - first; } - - //bool has(T x) { for (int i = first; i < elems.size(); i++) if (elems[i] == x) return true; return false; } - - const T& operator [] (int index) const { return elems[first + index]; } - + typedef T Key; + + Queue() : buf(1), first(0), end(0) {} + + void clear (bool dealloc = false) { buf.clear(dealloc); buf.growTo(1); first = end = 0; } + int size () const { return (end >= first) ? end - first : end - first + buf.size(); } + + const T& operator [] (int index) const { assert(index >= 0); assert(index < size()); return buf[(first + index) % buf.size()]; } + T& operator [] (int index) { assert(index >= 0); assert(index < size()); return buf[(first + index) % buf.size()]; } + + T peek () const { assert(first != end); return buf[first]; } + void pop () { assert(first != end); first++; if (first == buf.size()) first = 0; } + void insert(T elem) { // INVARIANT: buf[end] is always unused + buf[end++] = elem; + if (end == buf.size()) end = 0; + if (first == end){ // Resize: + vec tmp((buf.size()*3 + 1) >> 1); + //**/printf("queue alloc: %d elems (%.1f MB)\n", tmp.size(), tmp.size() * sizeof(T) / 1000000.0); + int i = 0; + for (int j = first; j < buf.size(); j++) tmp[i++] = buf[j]; + for (int j = 0 ; j < end ; j++) tmp[i++] = buf[j]; + first = 0; + end = buf.size(); + tmp.moveTo(buf); + } + } }; -//template -//class Queue { -// vec buf; -// int first; -// int end; -// -//public: -// typedef T Key; -// -// Queue() : buf(1), first(0), end(0) {} -// -// void clear () { buf.shrinkTo(1); first = end = 0; } -// int size () { return (end >= first) ? end - first : end - first + buf.size(); } -// -// T peek () { assert(first != end); return buf[first]; } -// void pop () { assert(first != end); first++; if (first == buf.size()) first = 0; } -// void insert(T elem) { // INVARIANT: buf[end] is always unused -// buf[end++] = elem; -// if (end == buf.size()) end = 0; -// if (first == end){ // Resize: -// vec tmp((buf.size()*3 + 1) >> 1); -// //**/printf("queue alloc: %d elems (%.1f MB)\n", tmp.size(), tmp.size() * sizeof(T) / 1000000.0); -// int i = 0; -// for (int j = first; j < buf.size(); j++) tmp[i++] = buf[j]; -// for (int j = 0 ; j < end ; j++) tmp[i++] = buf[j]; -// first = 0; -// end = buf.size(); -// tmp.moveTo(buf); -// } -// } -//}; //================================================================================================= +} -}/* CVC4::prop::minisat namespace */ -}/* CVC4::prop namespace */ -}/* CVC4 namespace */ - -#endif /* CVC4_MiniSat_Queue_h */ +#endif diff --git a/src/prop/minisat/mtl/Sort.h b/src/prop/minisat/mtl/Sort.h index 19e89803b..e9313ef86 100644 --- a/src/prop/minisat/mtl/Sort.h +++ b/src/prop/minisat/mtl/Sort.h @@ -1,5 +1,6 @@ /******************************************************************************************[Sort.h] -MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2003-2007, Niklas Een, Niklas Sorensson +Copyright (c) 2007-2010, Niklas Sorensson 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, @@ -17,21 +18,17 @@ DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. **************************************************************************************************/ -#include "cvc4_private.h" +#ifndef Minisat_Sort_h +#define Minisat_Sort_h -#ifndef CVC4_MiniSat_Sort_h -#define CVC4_MiniSat_Sort_h - -#include "Vec.h" - -namespace CVC4 { -namespace prop { -namespace minisat { +#include "mtl/Vec.h" //================================================================================================= // Some sorting algorithms for vec's +namespace Minisat { + template struct LessThan_default { bool operator () (T x, T y) { return x < y; } @@ -96,9 +93,6 @@ template void sort(vec& v) { //================================================================================================= +} -}/* CVC4::prop::minisat namespace */ -}/* CVC4::prop namespace */ -}/* CVC4 namespace */ - -#endif /* CVC4_MiniSat_Sort_h */ +#endif diff --git a/src/prop/minisat/mtl/Vec.h b/src/prop/minisat/mtl/Vec.h index 364991aa9..9e220852e 100644 --- a/src/prop/minisat/mtl/Vec.h +++ b/src/prop/minisat/mtl/Vec.h @@ -1,5 +1,6 @@ /*******************************************************************************************[Vec.h] -MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2003-2007, Niklas Een, Niklas Sorensson +Copyright (c) 2007-2010, Niklas Sorensson 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, @@ -17,18 +18,16 @@ DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. **************************************************************************************************/ -#include "cvc4_private.h" +#ifndef Minisat_Vec_h +#define Minisat_Vec_h -#ifndef CVC4_MiniSat_Vec_h -#define CVC4_MiniSat_Vec_h - -#include -#include +#include #include -namespace CVC4 { -namespace prop { -namespace minisat { +#include "mtl/IntTypes.h" +#include "mtl/XAlloc.h" + +namespace Minisat { //================================================================================================= // Automatically resizable arrays @@ -41,93 +40,83 @@ class vec { int sz; int cap; - void init(int size, const T& pad); - void grow(int min_cap); - // Don't allow copying (error prone): vec& operator = (vec& other) { assert(0); return *this; } vec (vec& other) { assert(0); } - - static inline int imin(int x, int y) { - int mask = (x-y) >> (sizeof(int)*8-1); - return (x&mask) + (y&(~mask)); } - - static inline int imax(int x, int y) { - int mask = (y-x) >> (sizeof(int)*8-1); - return (x&mask) + (y&(~mask)); } + + // Helpers for calculating next capacity: + static inline int imax (int x, int y) { int mask = (y-x) >> (sizeof(int)*8-1); return (x&mask) + (y&(~mask)); } + //static inline void nextCap(int& cap){ cap += ((cap >> 1) + 2) & ~1; } + static inline void nextCap(int& cap){ cap += ((cap >> 1) + 2) & ~1; } public: - // Types: - typedef int Key; - typedef T Datum; - // Constructors: - vec(void) : data(NULL) , sz(0) , cap(0) { } - vec(int size) : data(NULL) , sz(0) , cap(0) { growTo(size); } + vec() : data(NULL) , sz(0) , cap(0) { } + explicit vec(int size) : data(NULL) , sz(0) , cap(0) { growTo(size); } vec(int size, const T& pad) : data(NULL) , sz(0) , cap(0) { growTo(size, pad); } - vec(T* array, int size) : data(array), sz(size), cap(size) { } // (takes ownership of array -- will be deallocated with 'free()') - ~vec(void) { clear(true); } + ~vec() { clear(true); } - // Ownership of underlying array: - T* release (void) { T* ret = data; data = NULL; sz = 0; cap = 0; return ret; } - operator T* (void) { return data; } // (unsafe but convenient) - operator const T* (void) const { return data; } + // Pointer to first element: + operator T* (void) { return data; } // Size operations: - int size (void) const { return sz; } - void shrink (int nelems) { assert(nelems <= sz); for (int i = 0; i < nelems; i++) sz--, data[sz].~T(); } - void shrink_(int nelems) { assert(nelems <= sz); sz -= nelems; } - void pop (void) { sz--, data[sz].~T(); } - void growTo (int size); - void growTo (int size, const T& pad); - void clear (bool dealloc = false); - void capacity (int size) { grow(size); } + int size (void) const { return sz; } + void shrink (int nelems) { assert(nelems <= sz); for (int i = 0; i < nelems; i++) sz--, data[sz].~T(); } + void shrink_ (int nelems) { assert(nelems <= sz); sz -= nelems; } + int capacity (void) const { return cap; } + void capacity (int min_cap); + void growTo (int size); + void growTo (int size, const T& pad); + void clear (bool dealloc = false); // Stack interface: -#if 1 - void push (void) { if (sz == cap) { cap = imax(2, (cap*3+1)>>1); data = (T*)realloc(data, cap * sizeof(T)); } new (&data[sz]) T(); sz++; } - //void push (const T& elem) { if (sz == cap) { cap = imax(2, (cap*3+1)>>1); data = (T*)realloc(data, cap * sizeof(T)); } new (&data[sz]) T(elem); sz++; } - void push (const T& elem) { if (sz == cap) { cap = imax(2, (cap*3+1)>>1); data = (T*)realloc(data, cap * sizeof(T)); } data[sz++] = elem; } + void push (void) { if (sz == cap) capacity(sz+1); new (&data[sz]) T(); sz++; } + void push (const T& elem) { if (sz == cap) capacity(sz+1); data[sz++] = elem; } void push_ (const T& elem) { assert(sz < cap); data[sz++] = elem; } -#else - void push (void) { if (sz == cap) grow(sz+1); new (&data[sz]) T() ; sz++; } - void push (const T& elem) { if (sz == cap) grow(sz+1); new (&data[sz]) T(elem); sz++; } -#endif + void pop (void) { assert(sz > 0); sz--, data[sz].~T(); } + // NOTE: it seems possible that overflow can happen in the 'sz+1' expression of 'push()', but + // in fact it can not since it requires that 'cap' is equal to INT_MAX. This in turn can not + // happen given the way capacities are calculated (below). Essentially, all capacities are + // even, but INT_MAX is odd. const T& last (void) const { return data[sz-1]; } T& last (void) { return data[sz-1]; } // Vector interface: - const T& operator [] (int index) const { return data[index]; } - T& operator [] (int index) { return data[index]; } - + const T& operator [] (int index) const { return data[index]; } + T& operator [] (int index) { return data[index]; } // Duplicatation (preferred instead): - void copyTo(vec& copy) const { copy.clear(); copy.growTo(sz); for (int i = 0; i < sz; i++) new (©[i]) T(data[i]); } + void copyTo(vec& copy) const { copy.clear(); copy.growTo(sz); for (int i = 0; i < sz; i++) copy[i] = data[i]; } void moveTo(vec& dest) { dest.clear(true); dest.data = data; dest.sz = sz; dest.cap = cap; data = NULL; sz = 0; cap = 0; } }; + template -void vec::grow(int min_cap) { - if (min_cap <= cap) return; - if (cap == 0) cap = (min_cap >= 2) ? min_cap : 2; - else do cap = (cap*3+1) >> 1; while (cap < min_cap); - data = (T*)realloc(data, cap * sizeof(T)); } +void vec::capacity(int min_cap) { + if (cap >= min_cap) return; + int add = imax((min_cap - cap + 1) & ~1, ((cap >> 1) + 2) & ~1); // NOTE: grow by approximately 3/2 + if (add > INT_MAX - cap || ((data = (T*)::realloc(data, (cap += add) * sizeof(T))) == NULL) && errno == ENOMEM) + throw OutOfMemoryException(); + } + template void vec::growTo(int size, const T& pad) { if (sz >= size) return; - grow(size); - for (int i = sz; i < size; i++) new (&data[i]) T(pad); + capacity(size); + for (int i = sz; i < size; i++) data[i] = pad; sz = size; } + template void vec::growTo(int size) { if (sz >= size) return; - grow(size); + capacity(size); for (int i = sz; i < size; i++) new (&data[i]) T(); sz = size; } + template void vec::clear(bool dealloc) { if (data != NULL){ @@ -135,8 +124,7 @@ void vec::clear(bool dealloc) { sz = 0; if (dealloc) free(data), data = NULL, cap = 0; } } -}/* CVC4::prop::minisat namespace */ -}/* CVC4::prop namespace */ -}/* CVC4 namespace */ +//================================================================================================= +} -#endif /* CVC4_MiniSat_Vec_h */ +#endif diff --git a/src/prop/minisat/mtl/XAlloc.h b/src/prop/minisat/mtl/XAlloc.h new file mode 100644 index 000000000..1da176028 --- /dev/null +++ b/src/prop/minisat/mtl/XAlloc.h @@ -0,0 +1,45 @@ +/****************************************************************************************[XAlloc.h] +Copyright (c) 2009-2010, Niklas Sorensson + +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. +**************************************************************************************************/ + + +#ifndef Minisat_XAlloc_h +#define Minisat_XAlloc_h + +#include +#include + +namespace Minisat { + +//================================================================================================= +// Simple layer on top of malloc/realloc to catch out-of-memory situtaions and provide some typing: + +class OutOfMemoryException{}; +static inline void* xrealloc(void *ptr, size_t size) +{ + void* mem = realloc(ptr, size); + if (mem == NULL && errno == ENOMEM){ + throw OutOfMemoryException(); + }else + return mem; +} + +//================================================================================================= +} + +#endif diff --git a/src/prop/minisat/mtl/config.mk b/src/prop/minisat/mtl/config.mk new file mode 100644 index 000000000..b5c36fc6b --- /dev/null +++ b/src/prop/minisat/mtl/config.mk @@ -0,0 +1,6 @@ +## +## This file is for system specific configurations. For instance, on +## some systems the path to zlib needs to be added. Example: +## +## CFLAGS += -I/usr/local/include +## LFLAGS += -L/usr/local/lib diff --git a/src/prop/minisat/mtl/template.mk b/src/prop/minisat/mtl/template.mk index 15f023fb3..3f443fc38 100644 --- a/src/prop/minisat/mtl/template.mk +++ b/src/prop/minisat/mtl/template.mk @@ -5,45 +5,53 @@ ## "make d" for a debug version (no optimizations). ## "make" for the standard version (optimized, but with debug information and assertions active) -CSRCS ?= $(wildcard *.C) -CHDRS ?= $(wildcard *.h) -COBJS ?= $(addsuffix .o, $(basename $(CSRCS))) +PWD = $(shell pwd) +EXEC ?= $(notdir $(PWD)) + +CSRCS = $(wildcard $(PWD)/*.cc) +DSRCS = $(foreach dir, $(DEPDIR), $(filter-out $(MROOT)/$(dir)/Main.cc, $(wildcard $(MROOT)/$(dir)/*.cc))) +CHDRS = $(wildcard $(PWD)/*.h) +COBJS = $(CSRCS:.cc=.o) $(DSRCS:.cc=.o) PCOBJS = $(addsuffix p, $(COBJS)) DCOBJS = $(addsuffix d, $(COBJS)) RCOBJS = $(addsuffix r, $(COBJS)) -EXEC ?= $(notdir $(shell pwd)) -LIB ?= $(EXEC) CXX ?= g++ -CFLAGS ?= -Wall +CFLAGS ?= -Wall -Wno-parentheses LFLAGS ?= -Wall COPTIMIZE ?= -O3 -.PHONY : s p d r rs lib libd clean +CFLAGS += -I$(MROOT) -D __STDC_LIMIT_MACROS -D __STDC_FORMAT_MACROS +LFLAGS += -lz + +.PHONY : s p d r rs clean s: $(EXEC) p: $(EXEC)_profile d: $(EXEC)_debug r: $(EXEC)_release rs: $(EXEC)_static -lib: lib$(LIB).a -libd: lib$(LIB)d.a + +libs: lib$(LIB)_standard.a +libp: lib$(LIB)_profile.a +libd: lib$(LIB)_debug.a +libr: lib$(LIB)_release.a ## Compile options -%.o: CFLAGS +=$(COPTIMIZE) -ggdb -D DEBUG -%.op: CFLAGS +=$(COPTIMIZE) -pg -ggdb -D NDEBUG -%.od: CFLAGS +=-O0 -ggdb -D DEBUG # -D INVARIANTS -%.or: CFLAGS +=$(COPTIMIZE) -D NDEBUG +%.o: CFLAGS +=$(COPTIMIZE) -g -D DEBUG +%.op: CFLAGS +=$(COPTIMIZE) -pg -g -D NDEBUG +%.od: CFLAGS +=-O0 -g -D DEBUG +%.or: CFLAGS +=$(COPTIMIZE) -g -D NDEBUG ## Link options -$(EXEC): LFLAGS := -ggdb $(LFLAGS) -$(EXEC)_profile: LFLAGS := -ggdb -pg $(LFLAGS) -$(EXEC)_debug: LFLAGS := -ggdb $(LFLAGS) -$(EXEC)_release: LFLAGS := $(LFLAGS) -$(EXEC)_static: LFLAGS := --static $(LFLAGS) +$(EXEC): LFLAGS += -g +$(EXEC)_profile: LFLAGS += -g -pg +$(EXEC)_debug: LFLAGS += -g +#$(EXEC)_release: LFLAGS += ... +$(EXEC)_static: LFLAGS += --static ## Dependencies $(EXEC): $(COBJS) @@ -52,39 +60,48 @@ $(EXEC)_debug: $(DCOBJS) $(EXEC)_release: $(RCOBJS) $(EXEC)_static: $(RCOBJS) -lib$(LIB).a: $(filter-out Main.or, $(RCOBJS)) -lib$(LIB)d.a: $(filter-out Main.od, $(DCOBJS)) +lib$(LIB)_standard.a: $(filter-out */Main.o, $(COBJS)) +lib$(LIB)_profile.a: $(filter-out */Main.op, $(PCOBJS)) +lib$(LIB)_debug.a: $(filter-out */Main.od, $(DCOBJS)) +lib$(LIB)_release.a: $(filter-out */Main.or, $(RCOBJS)) ## Build rule -%.o %.op %.od %.or: %.C - @echo Compiling: "$@ ( $< )" +%.o %.op %.od %.or: %.cc + @echo Compiling: $(subst $(MROOT)/,,$@) @$(CXX) $(CFLAGS) -c -o $@ $< ## Linking rules (standard/profile/debug/release) $(EXEC) $(EXEC)_profile $(EXEC)_debug $(EXEC)_release $(EXEC)_static: - @echo Linking: "$@ ( $^ )" + @echo Linking: "$@ ( $(foreach f,$^,$(subst $(MROOT)/,,$f)) )" @$(CXX) $^ $(LFLAGS) -o $@ -## Library rule -lib$(LIB).a lib$(LIB)d.a: - @echo Library: "$@ ( $^ )" - @rm -f $@ - @ar cq $@ $^ +## Library rules (standard/profile/debug/release) +lib$(LIB)_standard.a lib$(LIB)_profile.a lib$(LIB)_release.a lib$(LIB)_debug.a: + @echo Making library: "$@ ( $(foreach f,$^,$(subst $(MROOT)/,,$f)) )" + @$(AR) -rcsv $@ $^ + +## Library Soft Link rule: +libs libp libd libr: + @echo "Making Soft Link: $^ -> lib$(LIB).a" + @ln -sf $^ lib$(LIB).a ## Clean rule clean: @rm -f $(EXEC) $(EXEC)_profile $(EXEC)_debug $(EXEC)_release $(EXEC)_static \ - $(COBJS) $(PCOBJS) $(DCOBJS) $(RCOBJS) *.core depend.mak lib$(LIB).a lib$(LIB)d.a + $(COBJS) $(PCOBJS) $(DCOBJS) $(RCOBJS) *.core depend.mk ## Make dependencies depend.mk: $(CSRCS) $(CHDRS) - @echo Making dependencies ... - @$(CXX) $(CFLAGS) -MM $(CSRCS) > depend.mk - @cp depend.mk /tmp/depend.mk.tmp - @sed "s/o:/op:/" /tmp/depend.mk.tmp >> depend.mk - @sed "s/o:/od:/" /tmp/depend.mk.tmp >> depend.mk - @sed "s/o:/or:/" /tmp/depend.mk.tmp >> depend.mk - @rm /tmp/depend.mk.tmp - + @echo Making dependencies + @$(CXX) $(CFLAGS) -I$(MROOT) \ + $(CSRCS) -MM | sed 's|\(.*\):|$(PWD)/\1 $(PWD)/\1r $(PWD)/\1d $(PWD)/\1p:|' > depend.mk + @for dir in $(DEPDIR); do \ + if [ -r $(MROOT)/$${dir}/depend.mk ]; then \ + echo Depends on: $${dir}; \ + cat $(MROOT)/$${dir}/depend.mk >> depend.mk; \ + fi; \ + done + +-include $(MROOT)/mtl/config.mk -include depend.mk diff --git a/src/prop/minisat/simp/Main.cc b/src/prop/minisat/simp/Main.cc index b6d194631..e59d73be0 100644 --- a/src/prop/minisat/simp/Main.cc +++ b/src/prop/minisat/simp/Main.cc @@ -1,5 +1,6 @@ -/******************************************************************************************[Main.C] -MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +/*****************************************************************************************[Main.cc] +Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2007, Niklas Sorensson 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, @@ -17,399 +18,194 @@ DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. **************************************************************************************************/ -#include -#include -#include #include #include #include - -#include "SimpSolver.h" - -/*************************************************************************************/ -#ifdef _MSC_VER -#include - -static inline double cpuTime(void) { - return (double)clock() / CLOCKS_PER_SEC; } -#else - -#include #include -#include -static inline double cpuTime(void) { - struct rusage ru; - getrusage(RUSAGE_SELF, &ru); - return (double)ru.ru_utime.tv_sec + (double)ru.ru_utime.tv_usec / 1000000; } -#endif - - -#if defined(__linux__) -static inline int memReadStat(int field) -{ - char name[256]; - pid_t pid = getpid(); - sprintf(name, "/proc/%d/statm", pid); - FILE* in = fopen(name, "rb"); - if (in == NULL) return 0; - int value; - for (; field >= 0; field--) - fscanf(in, "%d", &value); - fclose(in); - return value; -} -static inline uint64_t memUsed() { return (uint64_t)memReadStat(0) * (uint64_t)getpagesize(); } - - -#elif defined(__FreeBSD__) -static inline uint64_t memUsed(void) { - struct rusage ru; - getrusage(RUSAGE_SELF, &ru); - return ru.ru_maxrss*1024; } - - -#else -static inline uint64_t memUsed() { return 0; } -#endif - -#if defined(__linux__) -#include -#endif +#include "utils/System.h" +#include "utils/ParseUtils.h" +#include "utils/Options.h" +#include "core/Dimacs.h" +#include "simp/SimpSolver.h" +using namespace Minisat; //================================================================================================= -// DIMACS Parser: - -#define CHUNK_LIMIT 1048576 -class StreamBuffer { - gzFile in; - char buf[CHUNK_LIMIT]; - int pos; - int size; - void assureLookahead() { - if (pos >= size) { - pos = 0; - size = gzread(in, buf, sizeof(buf)); } } - -public: - StreamBuffer(gzFile i) : in(i), pos(0), size(0) { - assureLookahead(); } - - int operator * () { return (pos >= size) ? EOF : buf[pos]; } - void operator ++ () { pos++; assureLookahead(); } -}; - -//- - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -template -static void skipWhitespace(B& in) { - while ((*in >= 9 && *in <= 13) || *in == 32) - ++in; } - -template -static void skipLine(B& in) { - for (;;){ - if (*in == EOF || *in == '\0') return; - if (*in == '\n') { ++in; return; } - ++in; } } - -template -static int parseInt(B& in) { - int val = 0; - bool neg = false; - skipWhitespace(in); - if (*in == '-') neg = true, ++in; - else if (*in == '+') ++in; - if (*in < '0' || *in > '9') reportf("PARSE ERROR! Unexpected char: %c\n", *in), exit(3); - while (*in >= '0' && *in <= '9') - val = val*10 + (*in - '0'), - ++in; - return neg ? -val : val; } - -template -static void readClause(B& in, SimpSolver& S, vec& lits) { - int parsed_lit, var; - lits.clear(); - for (;;){ - parsed_lit = parseInt(in); - if (parsed_lit == 0) break; - var = abs(parsed_lit)-1; - while (var >= S.nVars()) S.newVar(); - lits.push( (parsed_lit > 0) ? Lit(var) : ~Lit(var) ); - } -} - -template -static bool match(B& in, char* str) { - for (; *str != 0; ++str, ++in) - if (*str != *in) - return false; - return true; +void printStats(Solver& solver) +{ + double cpu_time = cpuTime(); + double mem_used = memUsedPeak(); + printf("restarts : %"PRIu64"\n", solver.starts); + printf("conflicts : %-12"PRIu64" (%.0f /sec)\n", solver.conflicts , solver.conflicts /cpu_time); + printf("decisions : %-12"PRIu64" (%4.2f %% random) (%.0f /sec)\n", solver.decisions, (float)solver.rnd_decisions*100 / (float)solver.decisions, solver.decisions /cpu_time); + printf("propagations : %-12"PRIu64" (%.0f /sec)\n", solver.propagations, solver.propagations/cpu_time); + printf("conflict literals : %-12"PRIu64" (%4.2f %% deleted)\n", solver.tot_literals, (solver.max_literals - solver.tot_literals)*100 / (double)solver.max_literals); + if (mem_used != 0) printf("Memory used : %.2f MB\n", mem_used); + printf("CPU time : %g s\n", cpu_time); } -template -static void parse_DIMACS_main(B& in, SimpSolver& S) { - vec lits; - for (;;){ - skipWhitespace(in); - if (*in == EOF) break; - else if (*in == 'p'){ - if (match(in, "p cnf")){ - int vars = parseInt(in); - int clauses = parseInt(in); - reportf("| Number of variables: %-12d |\n", vars); - reportf("| Number of clauses: %-12d |\n", clauses); - - // SATRACE'06 hack - if (clauses > 4000000) - S.eliminate(true); - }else{ - reportf("PARSE ERROR! Unexpected char: %c\n", *in), exit(3); - } - } else if (*in == 'c' || *in == 'p') - skipLine(in); - else{ - readClause(in, S, lits); - S.addClause(lits); } - } -} +static Solver* solver; +// Terminate by notifying the solver and back out gracefully. This is mainly to have a test-case +// for this feature of the Solver as it may take longer than an immediate call to '_exit()'. +static void SIGINT_interrupt(int signum) { solver->interrupt(); } -// Inserts problem into solver. -// -static void parse_DIMACS(gzFile input_stream, SimpSolver& S) { - StreamBuffer in(input_stream); - parse_DIMACS_main(in, S); } - - -//================================================================================================= - - -void printStats(Solver& S) -{ - double cpu_time = cpuTime(); - uint64_t mem_used = memUsed(); - reportf("restarts : %lld\n", S.starts); - reportf("conflicts : %-12lld (%.0f /sec)\n", S.conflicts , S.conflicts /cpu_time); - reportf("decisions : %-12lld (%4.2f %% random) (%.0f /sec)\n", S.decisions, (float)S.rnd_decisions*100 / (float)S.decisions, S.decisions /cpu_time); - reportf("propagations : %-12lld (%.0f /sec)\n", S.propagations, S.propagations/cpu_time); - reportf("conflict literals : %-12lld (%4.2f %% deleted)\n", S.tot_literals, (S.max_literals - S.tot_literals)*100 / (double)S.max_literals); - if (mem_used != 0) reportf("Memory used : %.2f MB\n", mem_used / 1048576.0); - reportf("CPU time : %g s\n", cpu_time); -} - -SimpSolver* solver; -static void SIGINT_handler(int signum) { - reportf("\n"); reportf("*** INTERRUPTED ***\n"); - printStats(*solver); - reportf("\n"); reportf("*** INTERRUPTED ***\n"); - exit(1); } +// Note that '_exit()' rather than 'exit()' has to be used. The reason is that 'exit()' calls +// destructors and may cause deadlocks if a malloc/free function happens to be running (these +// functions are guarded by locks for multithreaded use). +static void SIGINT_exit(int signum) { + printf("\n"); printf("*** INTERRUPTED ***\n"); + if (solver->verbosity > 0){ + printStats(*solver); + printf("\n"); printf("*** INTERRUPTED ***\n"); } + _exit(1); } //================================================================================================= // Main: -void printUsage(char** argv) -{ - reportf("USAGE: %s [options] \n\n where input may be either in plain or gzipped DIMACS.\n\n", argv[0]); - reportf("OPTIONS:\n\n"); - reportf(" -pre = {none,once}\n"); - reportf(" -asymm\n"); - reportf(" -rcheck\n"); - reportf(" -grow = [ >0 ]\n"); - reportf(" -polarity-mode = {true,false,rnd}\n"); - reportf(" -decay = [ 0 - 1 ]\n"); - reportf(" -rnd-freq = [ 0 - 1 ]\n"); - reportf(" -dimacs = \n"); - reportf(" -verbosity = {0,1,2}\n"); - reportf("\n"); -} - -typedef enum { pre_none, pre_once, pre_repeat } preprocessMode; - -const char* hasPrefix(const char* str, const char* prefix) -{ - int len = strlen(prefix); - if (strncmp(str, prefix, len) == 0) - return str + len; - else - return NULL; -} - - int main(int argc, char** argv) { - reportf("This is MiniSat 2.0 beta\n"); + try { + setUsageHelp("USAGE: %s [options] \n\n where input may be either in plain or gzipped DIMACS.\n"); + // printf("This is MiniSat 2.0 beta\n"); + #if defined(__linux__) - fpu_control_t oldcw, newcw; - _FPU_GETCW(oldcw); newcw = (oldcw & ~_FPU_EXTENDED) | _FPU_DOUBLE; _FPU_SETCW(newcw); - reportf("WARNING: for repeatability, setting FPU to use double precision\n"); + fpu_control_t oldcw, newcw; + _FPU_GETCW(oldcw); newcw = (oldcw & ~_FPU_EXTENDED) | _FPU_DOUBLE; _FPU_SETCW(newcw); + printf("WARNING: for repeatability, setting FPU to use double precision\n"); #endif - preprocessMode pre = pre_once; - const char* dimacs = NULL; - const char* freeze = NULL; - SimpSolver S; - S.verbosity = 1; - - // This just grew and grew, and I didn't have time to do sensible argument parsing yet :) - // - int i, j; - const char* value; - for (i = j = 0; i < argc; i++){ - if ((value = hasPrefix(argv[i], "-polarity-mode="))){ - if (strcmp(value, "true") == 0) - S.polarity_mode = Solver::polarity_true; - else if (strcmp(value, "false") == 0) - S.polarity_mode = Solver::polarity_false; - else if (strcmp(value, "rnd") == 0) - S.polarity_mode = Solver::polarity_rnd; - else{ - reportf("ERROR! unknown polarity-mode %s\n", value); - exit(0); } - - }else if ((value = hasPrefix(argv[i], "-rnd-freq="))){ - double rnd; - if (sscanf(value, "%lf", &rnd) <= 0 || rnd < 0 || rnd > 1){ - reportf("ERROR! illegal rnd-freq constant %s\n", value); - exit(0); } - S.random_var_freq = rnd; - - }else if ((value = hasPrefix(argv[i], "-decay="))){ - double decay; - if (sscanf(value, "%lf", &decay) <= 0 || decay <= 0 || decay > 1){ - reportf("ERROR! illegal decay constant %s\n", value); - exit(0); } - S.var_decay = 1 / decay; - - }else if ((value = hasPrefix(argv[i], "-verbosity="))){ - int verbosity = (int)strtol(value, NULL, 10); - if (verbosity == 0 && errno == EINVAL){ - reportf("ERROR! illegal verbosity level %s\n", value); - exit(0); } - S.verbosity = verbosity; - - }else if ((value = hasPrefix(argv[i], "-pre="))){ - if (strcmp(value, "none") == 0) - pre = pre_none; - else if (strcmp(value, "once") == 0) - pre = pre_once; - else if (strcmp(value, "repeat") == 0){ - pre = pre_repeat; - reportf("ERROR! preprocessing mode \"repeat\" is not supported at the moment.\n"); - exit(0); - }else{ - reportf("ERROR! unknown preprocessing mode %s\n", value); - exit(0); } - }else if (strcmp(argv[i], "-asymm") == 0){ - S.asymm_mode = true; - }else if (strcmp(argv[i], "-rcheck") == 0){ - S.redundancy_check = true; - }else if ((value = hasPrefix(argv[i], "-grow="))){ - int grow = (int)strtol(value, NULL, 10); - if (grow == 0 && errno == EINVAL){ - reportf("ERROR! illegal grow constant %s\n", &argv[i][6]); - exit(0); } - S.grow = grow; - }else if ((value = hasPrefix(argv[i], "-dimacs="))){ - dimacs = value; - }else if ((value = hasPrefix(argv[i], "-freeze="))){ - freeze = value; - }else if (strcmp(argv[i], "-h") == 0 || strcmp(argv[i], "-help") == 0){ - printUsage(argv); - exit(0); - }else if (strncmp(argv[i], "-", 1) == 0){ - reportf("ERROR! unknown flag %s\n", argv[i]); - exit(0); - }else - argv[j++] = argv[i]; - } - argc = j; - - double cpu_time = cpuTime(); + // Extra options: + // + IntOption verb ("MAIN", "verb", "Verbosity level (0=silent, 1=some, 2=more).", 1, IntRange(0, 2)); + BoolOption pre ("MAIN", "pre", "Completely turn on/off any preprocessing.", true); + StringOption dimacs ("MAIN", "dimacs", "If given, stop after preprocessing and write the result to this file."); + IntOption cpu_lim("MAIN", "cpu-lim","Limit on CPU time allowed in seconds.\n", INT32_MAX, IntRange(0, INT32_MAX)); + IntOption mem_lim("MAIN", "mem-lim","Limit on memory usage in megabytes.\n", INT32_MAX, IntRange(0, INT32_MAX)); + + parseOptions(argc, argv, true); + + SimpSolver S; + double initial_time = cpuTime(); + + if (!pre) S.eliminate(true); + + S.verbosity = verb; + + solver = &S; + // Use signal handlers that forcibly quit until the solver will be able to respond to + // interrupts: + signal(SIGINT, SIGINT_exit); + signal(SIGXCPU,SIGINT_exit); + + // Set limit on CPU-time: + if (cpu_lim != INT32_MAX){ + rlimit rl; + getrlimit(RLIMIT_CPU, &rl); + if (rl.rlim_max == RLIM_INFINITY || (rlim_t)cpu_lim < rl.rlim_max){ + rl.rlim_cur = cpu_lim; + if (setrlimit(RLIMIT_CPU, &rl) == -1) + printf("WARNING! Could not set resource limit: CPU-time.\n"); + } } + + // Set limit on virtual memory: + if (mem_lim != INT32_MAX){ + rlim_t new_mem_lim = (rlim_t)mem_lim * 1024*1024; + rlimit rl; + getrlimit(RLIMIT_AS, &rl); + if (rl.rlim_max == RLIM_INFINITY || new_mem_lim < rl.rlim_max){ + rl.rlim_cur = new_mem_lim; + if (setrlimit(RLIMIT_AS, &rl) == -1) + printf("WARNING! Could not set resource limit: Virtual memory.\n"); + } } + + if (argc == 1) + printf("Reading from standard input... Use '--help' for help.\n"); + + gzFile in = (argc == 1) ? gzdopen(0, "rb") : gzopen(argv[1], "rb"); + if (in == NULL) + printf("ERROR! Could not open file: %s\n", argc == 1 ? "" : argv[1]), exit(1); + + if (S.verbosity > 0){ + printf("============================[ Problem Statistics ]=============================\n"); + printf("| |\n"); } + + parse_DIMACS(in, S); + gzclose(in); + FILE* res = (argc >= 3) ? fopen(argv[2], "wb") : NULL; + + if (S.verbosity > 0){ + printf("| Number of variables: %12d |\n", S.nVars()); + printf("| Number of clauses: %12d |\n", S.nClauses()); } + + double parsed_time = cpuTime(); + if (S.verbosity > 0) + printf("| Parse time: %12.2f s |\n", parsed_time - initial_time); + + // Change to signal-handlers that will only notify the solver and allow it to terminate + // voluntarily: + signal(SIGINT, SIGINT_interrupt); + signal(SIGXCPU,SIGINT_interrupt); - if (pre == pre_none) S.eliminate(true); - - solver = &S; - signal(SIGINT,SIGINT_handler); - signal(SIGHUP,SIGINT_handler); - - if (argc == 1) - reportf("Reading from standard input... Use '-h' or '--help' for help.\n"); - - gzFile in = (argc == 1) ? gzdopen(0, "rb") : gzopen(argv[1], "rb"); - if (in == NULL) - reportf("ERROR! Could not open file: %s\n", argc == 1 ? "" : argv[1]), exit(1); - - reportf("============================[ Problem Statistics ]=============================\n"); - reportf("| |\n"); - - parse_DIMACS(in, S); - gzclose(in); - FILE* res = (argc >= 3) ? fopen(argv[2], "wb") : NULL; - - - double parse_time = cpuTime() - cpu_time; - reportf("| Parsing time: %-12.2f s |\n", parse_time); - - /*HACK: Freeze variables*/ - if (freeze != NULL && pre != pre_none){ - int count = 0; - FILE* in = fopen(freeze, "rb"); - for(;;){ - Var x; - fscanf(in, "%d", &x); - if (x == 0) break; - x--; - - /**/assert(S.n_occ[toInt(Lit(x))] + S.n_occ[toInt(~Lit(x))] != 0); - /**/assert(S.value(x) == l_Undef); - S.setFrozen(x, true); - count++; + double simplified_time = cpuTime(); + if (S.verbosity > 0){ + printf("| Simplification time: %12.2f s |\n", simplified_time - parsed_time); + printf("| |\n"); } + + if (!S.okay()){ + if (res != NULL) fprintf(res, "UNSAT\n"), fclose(res); + if (S.verbosity > 0){ + printf("===============================================================================\n"); + printf("Solved by simplification\n"); + printStats(S); + printf("\n"); } + printf("UNSATISFIABLE\n"); + exit(20); } - fclose(in); - reportf("| Frozen vars : %-12.0f |\n", (double)count); - } - /*END*/ - - if (!S.simplify()){ - reportf("Solved by unit propagation\n"); - if (res != NULL) fprintf(res, "UNSAT\n"), fclose(res); - printf("UNSATISFIABLE\n"); - exit(20); - } - if (dimacs){ - if (pre != pre_none) - S.eliminate(true); - reportf("==============================[ Writing DIMACS ]===============================\n"); - S.toDimacs(dimacs); - printStats(S); - exit(0); - }else{ - bool ret = S.solve(true, true); - printStats(S); - reportf("\n"); + if (dimacs){ + if (S.verbosity > 0) + printf("==============================[ Writing DIMACS ]===============================\n"); + S.toDimacs((const char*)dimacs); + if (S.verbosity > 0) + printStats(S); + exit(0); + } - printf(ret ? "SATISFIABLE\n" : "UNSATISFIABLE\n"); + vec dummy; + lbool ret = S.solveLimited(dummy); + + if (S.verbosity > 0){ + printStats(S); + printf("\n"); } + printf(ret == l_True ? "SATISFIABLE\n" : ret == l_False ? "UNSATISFIABLE\n" : "INDETERMINATE\n"); if (res != NULL){ - if (ret){ + if (ret == l_True){ fprintf(res, "SAT\n"); for (int i = 0; i < S.nVars(); i++) if (S.model[i] != l_Undef) fprintf(res, "%s%s%d", (i==0)?"":" ", (S.model[i]==l_True)?"":"-", i+1); fprintf(res, " 0\n"); - }else + }else if (ret == l_False) fprintf(res, "UNSAT\n"); + else + fprintf(res, "INDET\n"); fclose(res); } + #ifdef NDEBUG - exit(ret ? 10 : 20); // (faster than "return", which will invoke the destructor for 'Solver') + exit(ret == l_True ? 10 : ret == l_False ? 20 : 0); // (faster than "return", which will invoke the destructor for 'Solver') +#else + return (ret == l_True ? 10 : ret == l_False ? 20 : 0); #endif + } catch (OutOfMemoryException&){ + printf("===============================================================================\n"); + printf("INDETERMINATE\n"); + exit(0); } - } diff --git a/src/prop/minisat/simp/Makefile b/src/prop/minisat/simp/Makefile index a1db4951b..27b45f493 100644 --- a/src/prop/minisat/simp/Makefile +++ b/src/prop/minisat/simp/Makefile @@ -1,11 +1,4 @@ -MTL = ../mtl -CORE = ../core -CHDRS = $(wildcard *.h) $(wildcard $(MTL)/*.h) EXEC = minisat -CFLAGS = -I$(MTL) -I$(CORE) -Wall -ffloat-store -LFLAGS = -lz +DEPDIR = mtl utils core -CSRCS = $(wildcard *.C) -COBJS = $(addsuffix .o, $(basename $(CSRCS))) $(CORE)/Solver.o - -include ../mtl/template.mk +include $(MROOT)/mtl/template.mk diff --git a/src/prop/minisat/simp/SimpSolver.cc b/src/prop/minisat/simp/SimpSolver.cc index 00f93402f..32ac223d6 100644 --- a/src/prop/minisat/simp/SimpSolver.cc +++ b/src/prop/minisat/simp/SimpSolver.cc @@ -1,5 +1,6 @@ -/************************************************************************************[SimpSolver.C] -MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +/***********************************************************************************[SimpSolver.cc] +Copyright (c) 2006, Niklas Een, Niklas Sorensson +Copyright (c) 2007-2010, Niklas Sorensson 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, @@ -17,77 +18,94 @@ DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. **************************************************************************************************/ -#include "Sort.h" -#include "SimpSolver.h" +#include "mtl/Sort.h" +#include "simp/SimpSolver.h" +#include "utils/System.h" + +using namespace Minisat; +using namespace CVC4; + +//================================================================================================= +// Options: + + +static const char* _cat = "SIMP"; + +static BoolOption opt_use_asymm (_cat, "asymm", "Shrink clauses by asymmetric branching.", false); +static BoolOption opt_use_rcheck (_cat, "rcheck", "Check if a clause is already implied. (costly)", false); +static BoolOption opt_use_elim (_cat, "elim", "Perform variable elimination.", true); +static IntOption opt_grow (_cat, "grow", "Allow a variable elimination step to grow by a number of clauses.", 0); +static IntOption opt_clause_lim (_cat, "cl-lim", "Variables are not eliminated if it produces a resolvent with a length above this limit. -1 means no limit", 20, IntRange(-1, INT32_MAX)); +static IntOption opt_subsumption_lim (_cat, "sub-lim", "Do not check if subsumption against a clause larger than this. -1 means no limit.", 1000, IntRange(-1, INT32_MAX)); +static DoubleOption opt_simp_garbage_frac(_cat, "simp-gc-frac", "The fraction of wasted memory allowed before a garbage collection is triggered during simplification.", 0.5, DoubleRange(0, false, HUGE_VAL, false)); //================================================================================================= // Constructor/Destructor: -namespace CVC4 { -namespace prop { -namespace minisat { -SimpSolver::SimpSolver(SatSolver* proxy, context::Context* context) : +SimpSolver::SimpSolver(CVC4::prop::SatSolver* proxy, CVC4::context::Context* context) : Solver(proxy, context) - , grow (0) - , asymm_mode (false) - , redundancy_check (false) + , grow (opt_grow) + , clause_lim (opt_clause_lim) + , subsumption_lim (opt_subsumption_lim) + , simp_garbage_frac (opt_simp_garbage_frac) + , use_asymm (opt_use_asymm) + , use_rcheck (opt_use_rcheck) + , use_elim (opt_use_elim) , merges (0) , asymm_lits (0) - , remembered_clauses (0) + , eliminated_vars (0) , elimorder (1) , use_simplification (true) + , occurs (ClauseDeleted(ca)) , elim_heap (ElimLt(n_occ)) , bwdsub_assigns (0) + , n_touched (0) { vec dummy(1,lit_Undef); - bwdsub_tmpunit = Clause_new(dummy); - remove_satisfied = false; + ca.extra_clause_field = true; // NOTE: must happen before allocating the dummy clause below. + bwdsub_tmpunit = ca.alloc(dummy); + remove_satisfied = false; } SimpSolver::~SimpSolver() { - free(bwdsub_tmpunit); - - // NOTE: elimtable.size() might be lower than nVars() at the moment - for (int i = 0; i < elimtable.size(); i++) - for (int j = 0; j < elimtable[i].eliminated.size(); j++) - free(elimtable[i].eliminated[j]); } Var SimpSolver::newVar(bool sign, bool dvar, bool theoryAtom) { Var v = Solver::newVar(sign, dvar,theoryAtom); + frozen .push((char)theoryAtom); + eliminated.push((char)false); + if (use_simplification){ - n_occ .push(0); - n_occ .push(0); - occurs .push(); - frozen .push((char)theoryAtom); - touched .push(0); - elim_heap.insert(v); - elimtable.push(); + n_occ .push(0); + n_occ .push(0); + occurs .init(v); + touched .push(0); + elim_heap .insert(v); } return v; } -bool SimpSolver::solve(const vec& assumps, bool do_simp, bool turn_off_simp) { +lbool SimpSolver::solve_(bool do_simp, bool turn_off_simp) +{ vec extra_frozen; - bool result = true; + lbool result = l_True; do_simp &= use_simplification; if (do_simp){ // Assumptions must be temporarily frozen to run variable elimination: - for (int i = 0; i < assumps.size(); i++){ - Var v = var(assumps[i]); + for (int i = 0; i < assumptions.size(); i++){ + Var v = var(assumptions[i]); // If an assumption has been eliminated, remember it. - if (isEliminated(v)) - remember(v); + assert(!isEliminated(v)); if (!frozen[v]){ // Freeze and store. @@ -95,18 +113,16 @@ bool SimpSolver::solve(const vec& assumps, bool do_simp, bool turn_off_simp extra_frozen.push(v); } } - result = eliminate(turn_off_simp); + result = lbool(eliminate(turn_off_simp)); } - if (result) - result = Solver::solve(assumps); + if (result == l_True) + result = Solver::solve_(); + else if (verbosity >= 1) + printf("===============================================================================\n"); - if (result) { + if (result == l_True) extendModel(); -#ifndef NDEBUG - verifyModel(); -#endif - } if (do_simp) // Unfreeze the assumptions that were frozen: @@ -118,35 +134,39 @@ bool SimpSolver::solve(const vec& assumps, bool do_simp, bool turn_off_simp -bool SimpSolver::addClause(vec& ps, ClauseType type) +bool SimpSolver::addClause_(vec& ps, ClauseType type) { +#ifndef NDEBUG for (int i = 0; i < ps.size(); i++) - if (isEliminated(var(ps[i]))) - remember(var(ps[i])); + assert(!isEliminated(var(ps[i]))); +#endif int nclauses = clauses.size(); - if (redundancy_check && implied(ps)) + if (use_rcheck && implied(ps)) return true; - if (!Solver::addClause(ps, type)) + if (!Solver::addClause_(ps, type)) return false; if (use_simplification && clauses.size() == nclauses + 1){ - Clause& c = *clauses.last(); - - subsumption_queue.insert(&c); - + CRef cr = clauses.last(); + const Clause& c = ca[cr]; + + // NOTE: the clause is added to the queue immediately and then + // again during 'gatherTouchedClauses()'. If nothing happens + // in between, it will only be checked once. Otherwise, it may + // be checked twice unnecessarily. This is an unfortunate + // consequence of how backward subsumption is used to mimic + // forward subsumption. + subsumption_queue.insert(cr); for (int i = 0; i < c.size(); i++){ - assert(occurs.size() > var(c[i])); - assert(!find(occurs[var(c[i])], &c)); - - occurs[var(c[i])].push(&c); + occurs[var(c[i])].push(cr); n_occ[toInt(c[i])]++; touched[var(c[i])] = 1; - assert(elimtable[var(c[i])].order == 0); + n_touched++; if (elim_heap.inHeap(var(c[i]))) - elim_heap.increase_(var(c[i])); + elim_heap.increase(var(c[i])); } } @@ -154,65 +174,45 @@ bool SimpSolver::addClause(vec& ps, ClauseType type) } -void SimpSolver::removeClause(Clause& c) +void SimpSolver::removeClause(CRef cr) { + const Clause& c = ca[cr]; Debug("minisat") << "SimpSolver::removeClause(" << c << ")" << std::endl; - assert(!c.learnt()); if (use_simplification) for (int i = 0; i < c.size(); i++){ n_occ[toInt(c[i])]--; updateElimHeap(var(c[i])); + occurs.smudge(var(c[i])); } - detachClause(c); - c.mark(1); + Solver::removeClause(cr); } -bool SimpSolver::strengthenClause(Clause& c, Lit l) +bool SimpSolver::strengthenClause(CRef cr, Lit l) { + Clause& c = ca[cr]; assert(decisionLevel() == 0); - assert(c.mark() == 0); - assert(!c.learnt()); - assert(find(watches[toInt(~c[0])], &c)); - assert(find(watches[toInt(~c[1])], &c)); + assert(use_simplification); // FIX: this is too inefficient but would be nice to have (properly implemented) // if (!find(subsumption_queue, &c)) - subsumption_queue.insert(&c); - - // If l is watched, delete it from watcher list and watch a new literal - if (c[0] == l || c[1] == l){ - Lit other = c[0] == l ? c[1] : c[0]; - if (c.size() == 2){ - removeClause(c); - c.strengthen(l); - }else{ - c.strengthen(l); - remove(watches[toInt(~l)], &c); - - // Add a watch for the correct literal - watches[toInt(~(c[1] == other ? c[0] : c[1]))].push(&c); - - // !! this version assumes that remove does not change the order !! - //watches[toInt(~c[1])].push(&c); - clauses_literals -= 1; - } - } - else{ - c.strengthen(l); - clauses_literals -= 1; - } + subsumption_queue.insert(cr); - // if subsumption-indexing is active perform the necessary updates - if (use_simplification){ - remove(occurs[var(l)], &c); + if (c.size() == 2){ + removeClause(cr); + c.strengthen(l); + }else{ + detachClause(cr, true); + c.strengthen(l); + attachClause(cr); + remove(occurs[var(l)], cr); n_occ[toInt(l)]--; updateElimHeap(var(l)); } - return c.size() == 1 ? enqueue(c[0]) && propagate(CHECK_WITHOUTH_PROPAGATION_QUICK) == NULL : true; + return c.size() == 1 ? enqueue(c[0]) && propagate(CHECK_WITHOUTH_PROPAGATION_QUICK) == CRef_Undef : true; } @@ -223,18 +223,17 @@ bool SimpSolver::merge(const Clause& _ps, const Clause& _qs, Var v, vec& ou out_clause.clear(); bool ps_smallest = _ps.size() < _qs.size(); - const Clause& ps = ps_smallest ? _qs : _ps; - const Clause& qs = ps_smallest ? _ps : _qs; + const Clause& ps = ps_smallest ? _qs : _ps; + const Clause& qs = ps_smallest ? _ps : _qs; for (int i = 0; i < qs.size(); i++){ if (var(qs[i]) != v){ for (int j = 0; j < ps.size(); j++) - if (var(ps[j]) == var(qs[i])) { + if (var(ps[j]) == var(qs[i])) if (ps[j] == ~qs[i]) return false; else goto next; - } out_clause.push(qs[i]); } next:; @@ -249,25 +248,27 @@ bool SimpSolver::merge(const Clause& _ps, const Clause& _qs, Var v, vec& ou // Returns FALSE if clause is always satisfied. -bool SimpSolver::merge(const Clause& _ps, const Clause& _qs, Var v) +bool SimpSolver::merge(const Clause& _ps, const Clause& _qs, Var v, int& size) { merges++; bool ps_smallest = _ps.size() < _qs.size(); - const Clause& ps = ps_smallest ? _qs : _ps; - const Clause& qs = ps_smallest ? _ps : _qs; - const Lit* __ps = (const Lit*)ps; - const Lit* __qs = (const Lit*)qs; + const Clause& ps = ps_smallest ? _qs : _ps; + const Clause& qs = ps_smallest ? _ps : _qs; + const Lit* __ps = (const Lit*)ps; + const Lit* __qs = (const Lit*)qs; + + size = ps.size()-1; for (int i = 0; i < qs.size(); i++){ if (var(__qs[i]) != v){ for (int j = 0; j < ps.size(); j++) - if (var(__ps[j]) == var(__qs[i])) { + if (var(__ps[j]) == var(__qs[i])) if (__ps[j] == ~__qs[i]) return false; else goto next; - } + size++; } next:; } @@ -278,23 +279,29 @@ bool SimpSolver::merge(const Clause& _ps, const Clause& _qs, Var v) void SimpSolver::gatherTouchedClauses() { - //fprintf(stderr, "Gathering clauses for backwards subsumption\n"); - int ntouched = 0; - for (int i = 0; i < touched.size(); i++) + if (n_touched == 0) return; + + int i,j; + for (i = j = 0; i < subsumption_queue.size(); i++) + if (ca[subsumption_queue[i]].mark() == 0) + ca[subsumption_queue[i]].mark(2); + + for (i = 0; i < touched.size(); i++) if (touched[i]){ - const vec& cs = getOccurs(i); - ntouched++; - for (int j = 0; j < cs.size(); j++) - if (cs[j]->mark() == 0){ + const vec& cs = occurs.lookup(i); + for (j = 0; j < cs.size(); j++) + if (ca[cs[j]].mark() == 0){ subsumption_queue.insert(cs[j]); - cs[j]->mark(2); + ca[cs[j]].mark(2); } touched[i] = 0; } - //fprintf(stderr, "Touched variables %d of %d yields %d clauses to check\n", ntouched, touched.size(), clauses.size()); - for (int i = 0; i < subsumption_queue.size(); i++) - subsumption_queue[i]->mark(0); + for (i = 0; i < subsumption_queue.size(); i++) + if (ca[subsumption_queue[i]].mark() == 2) + ca[subsumption_queue[i]].mark(0); + + n_touched = 0; } @@ -312,7 +319,7 @@ bool SimpSolver::implied(const vec& c) uncheckedEnqueue(~c[i]); } - bool result = propagate(CHECK_WITHOUTH_PROPAGATION_QUICK) != NULL; + bool result = propagate(CHECK_WITHOUTH_PROPAGATION_QUICK) != CRef_Undef; cancelUntil(0); return result; } @@ -328,20 +335,26 @@ bool SimpSolver::backwardSubsumptionCheck(bool verbose) while (subsumption_queue.size() > 0 || bwdsub_assigns < trail.size()){ + // Empty subsumption queue and return immediately on user-interrupt: + if (asynch_interrupt){ + subsumption_queue.clear(); + bwdsub_assigns = trail.size(); + break; } + // Check top-level assignments by creating a dummy clause and placing it in the queue: if (subsumption_queue.size() == 0 && bwdsub_assigns < trail.size()){ Lit l = trail[bwdsub_assigns++]; - (*bwdsub_tmpunit)[0] = l; - bwdsub_tmpunit->calcAbstraction(); - assert(bwdsub_tmpunit->mark() == 0); + ca[bwdsub_tmpunit][0] = l; + ca[bwdsub_tmpunit].calcAbstraction(); subsumption_queue.insert(bwdsub_tmpunit); } - Clause& c = *subsumption_queue.peek(); subsumption_queue.pop(); + CRef cr = subsumption_queue.peek(); subsumption_queue.pop(); + Clause& c = ca[cr]; if (c.mark()) continue; if (verbose && verbosity >= 2 && cnt++ % 1000 == 0) - reportf("subsumption left: %10d (%10d subsumed, %10d deleted literals)\r", subsumption_queue.size(), subsumed, deleted_literals); + printf("subsumption left: %10d (%10d subsumed, %10d deleted literals)\r", subsumption_queue.size(), subsumed, deleted_literals); assert(c.size() > 1 || value(c[0]) == l_True); // Unit-clauses should have been propagated before this point. @@ -352,21 +365,21 @@ bool SimpSolver::backwardSubsumptionCheck(bool verbose) best = var(c[i]); // Search all candidates: - vec& _cs = getOccurs(best); - Clause** cs = (Clause**)_cs; + vec& _cs = occurs.lookup(best); + CRef* cs = (CRef*)_cs; for (int j = 0; j < _cs.size(); j++) if (c.mark()) break; - else if (!cs[j]->mark() && cs[j] != &c){ - Lit l = c.subsumes(*cs[j]); + else if (!ca[cs[j]].mark() && cs[j] != cr && (subsumption_lim == -1 || ca[cs[j]].size() < subsumption_lim)){ + Lit l = c.subsumes(ca[cs[j]]); if (l == lit_Undef) - subsumed++, removeClause(*cs[j]); + subsumed++, removeClause(cs[j]); else if (l != lit_Error){ deleted_literals++; - if (!strengthenClause(*cs[j], ~l)) + if (!strengthenClause(cs[j], ~l)) return false; // Did current candidate get deleted from cs? Then check candidate at index j again: @@ -380,8 +393,9 @@ bool SimpSolver::backwardSubsumptionCheck(bool verbose) } -bool SimpSolver::asymm(Var v, Clause& c) +bool SimpSolver::asymm(Var v, CRef cr) { + Clause& c = ca[cr]; assert(decisionLevel() == 0); if (c.mark() || satisfied(c)) return true; @@ -394,10 +408,10 @@ bool SimpSolver::asymm(Var v, Clause& c) else l = c[i]; - if (propagate(CHECK_WITHOUTH_PROPAGATION_QUICK) != NULL){ + if (propagate(CHECK_WITHOUTH_PROPAGATION_QUICK) != CRef_Undef){ cancelUntil(0); asymm_lits++; - if (!strengthenClause(c, l)) + if (!strengthenClause(cr, l)) return false; }else cancelUntil(0); @@ -408,304 +422,299 @@ bool SimpSolver::asymm(Var v, Clause& c) bool SimpSolver::asymmVar(Var v) { - assert(!frozen[v]); assert(use_simplification); - vec pos, neg; - const vec& cls = getOccurs(v); + const vec& cls = occurs.lookup(v); if (value(v) != l_Undef || cls.size() == 0) return true; for (int i = 0; i < cls.size(); i++) - if (!asymm(v, *cls[i])) + if (!asymm(v, cls[i])) return false; return backwardSubsumptionCheck(); } -void SimpSolver::verifyModel() +static void mkElimClause(vec& elimclauses, Lit x) { - bool failed = false; - int cnt = 0; - // NOTE: elimtable.size() might be lower than nVars() at the moment - for (int i = 0; i < elimtable.size(); i++) - if (elimtable[i].order > 0) - for (int j = 0; j < elimtable[i].eliminated.size(); j++){ - cnt++; - Clause& c = *elimtable[i].eliminated[j]; - for (int k = 0; k < c.size(); k++) - if (modelValue(c[k]) == l_True) - goto next; - - reportf("unsatisfied clause: "); - printClause(*elimtable[i].eliminated[j]); - reportf("\n"); - failed = true; - next:; - } - - assert(!failed); - reportf("Verified %d eliminated clauses.\n", cnt); + elimclauses.push(toInt(x)); + elimclauses.push(1); } -bool SimpSolver::eliminateVar(Var v, bool fail) +static void mkElimClause(vec& elimclauses, Var v, Clause& c) { - if (!fail && asymm_mode && !asymmVar(v)) return false; + int first = elimclauses.size(); + int v_pos = -1; + + // Copy clause to elimclauses-vector. Remember position where the + // variable 'v' occurs: + for (int i = 0; i < c.size(); i++){ + elimclauses.push(toInt(c[i])); + if (var(c[i]) == v) + v_pos = i + first; + } + assert(v_pos != -1); + + // Swap the first literal with the 'v' literal, so that the literal + // containing 'v' will occur first in the clause: + uint32_t tmp = elimclauses[v_pos]; + elimclauses[v_pos] = elimclauses[first]; + elimclauses[first] = tmp; + + // Store the length of the clause last: + elimclauses.push(c.size()); +} + - const vec& cls = getOccurs(v); -// if (value(v) != l_Undef || cls.size() == 0) return true; - if (value(v) != l_Undef) return true; +bool SimpSolver::eliminateVar(Var v) +{ + assert(!frozen[v]); + assert(!isEliminated(v)); + assert(value(v) == l_Undef); // Split the occurrences into positive and negative: - vec pos, neg; + // + const vec& cls = occurs.lookup(v); + vec pos, neg; for (int i = 0; i < cls.size(); i++) - (find(*cls[i], Lit(v)) ? pos : neg).push(cls[i]); + (find(ca[cls[i]], mkLit(v)) ? pos : neg).push(cls[i]); + + // Check wether the increase in number of clauses stays within the allowed ('grow'). Moreover, no + // clause must exceed the limit on the maximal clause size (if it is set): + // + int cnt = 0; + int clause_size = 0; - // Check if number of clauses decreases: - int cnt = 0; for (int i = 0; i < pos.size(); i++) for (int j = 0; j < neg.size(); j++) - if (merge(*pos[i], *neg[j], v) && ++cnt > cls.size() + grow) + if (merge(ca[pos[i]], ca[neg[j]], v, clause_size) && + (++cnt > cls.size() + grow || (clause_lim != -1 && clause_size > clause_lim))) return true; // Delete and store old clauses: + eliminated[v] = true; setDecisionVar(v, false); - elimtable[v].order = elimorder++; - assert(elimtable[v].eliminated.size() == 0); - for (int i = 0; i < cls.size(); i++){ - elimtable[v].eliminated.push(Clause_new(*cls[i])); - removeClause(*cls[i]); } + eliminated_vars++; + + if (pos.size() > neg.size()){ + for (int i = 0; i < neg.size(); i++) + mkElimClause(elimclauses, v, ca[neg[i]]); + mkElimClause(elimclauses, mkLit(v)); + }else{ + for (int i = 0; i < pos.size(); i++) + mkElimClause(elimclauses, v, ca[pos[i]]); + mkElimClause(elimclauses, ~mkLit(v)); + } + + for (int i = 0; i < cls.size(); i++) + removeClause(cls[i]); // Produce clauses in cross product: - int top = clauses.size(); - vec resolvent; + vec& resolvent = add_tmp; for (int i = 0; i < pos.size(); i++) for (int j = 0; j < neg.size(); j++) - if (merge(*pos[i], *neg[j], v, resolvent) && !addClause(resolvent, CLAUSE_CONFLICT)) + if (merge(ca[pos[i]], ca[neg[j]], v, resolvent) && !addClause_(resolvent, CLAUSE_CONFLICT)) return false; - // DEBUG: For checking that a clause set is saturated with respect to variable elimination. - // If the clause set is expected to be saturated at this point, this constitutes an - // error. - if (fail){ - reportf("eliminated var %d, %d <= %d\n", v+1, cnt, cls.size()); - reportf("previous clauses:\n"); - for (int i = 0; i < cls.size(); i++){ - printClause(*cls[i]); reportf("\n"); } - reportf("new clauses:\n"); - for (int i = top; i < clauses.size(); i++){ - printClause(*clauses[i]); reportf("\n"); } - assert(0); } + // Free occurs list for this variable: + occurs[v].clear(true); + + // Free watchers lists for this variable, if possible: + if (watches[ mkLit(v)].size() == 0) watches[ mkLit(v)].clear(true); + if (watches[~mkLit(v)].size() == 0) watches[~mkLit(v)].clear(true); return backwardSubsumptionCheck(); } -void SimpSolver::remember(Var v) +bool SimpSolver::substitute(Var v, Lit x) { - assert(decisionLevel() == 0); - assert(isEliminated(v)); + assert(!frozen[v]); + assert(!isEliminated(v)); + assert(value(v) == l_Undef); - vec clause; + if (!ok) return false; - // Re-activate variable: - elimtable[v].order = 0; - setDecisionVar(v, true); // Not good if the variable wasn't a decision variable before. Not sure how to fix this right now. + eliminated[v] = true; + setDecisionVar(v, false); + const vec& cls = occurs.lookup(v); + + vec& subst_clause = add_tmp; + for (int i = 0; i < cls.size(); i++){ + Clause& c = ca[cls[i]]; - if (use_simplification) - updateElimHeap(v); - - // Reintroduce all old clauses which may implicitly remember other clauses: - for (int i = 0; i < elimtable[v].eliminated.size(); i++){ - Clause& c = *elimtable[v].eliminated[i]; - clause.clear(); - for (int j = 0; j < c.size(); j++) - clause.push(c[j]); - - remembered_clauses++; - check(addClause(clause, CLAUSE_PROBLEM)); - free(&c); + subst_clause.clear(); + for (int j = 0; j < c.size(); j++){ + Lit p = c[j]; + subst_clause.push(var(p) == v ? x ^ sign(p) : p); + } + + removeClause(cls[i]); + + if (!addClause_(subst_clause, CLAUSE_PROBLEM)) + return ok = false; } - elimtable[v].eliminated.clear(); + return true; } void SimpSolver::extendModel() { - vec vs; - - // NOTE: elimtable.size() might be lower than nVars() at the moment - for (int v = 0; v < elimtable.size(); v++) - if (elimtable[v].order > 0) - vs.push(v); - - sort(vs, ElimOrderLt(elimtable)); + int i, j; + Lit x; - for (int i = 0; i < vs.size(); i++){ - Var v = vs[i]; - Lit l = lit_Undef; + for (i = elimclauses.size()-1; i > 0; i -= j){ + for (j = elimclauses[i--]; j > 1; j--, i--) + if (modelValue(toLit(elimclauses[i])) != l_False) + goto next; - for (int j = 0; j < elimtable[v].eliminated.size(); j++){ - Clause& c = *elimtable[v].eliminated[j]; - - for (int k = 0; k < c.size(); k++) - if (var(c[k]) == v) - l = c[k]; - else if (modelValue(c[k]) != l_False) - goto next; - - assert(l != lit_Undef); - model[v] = lbool(!sign(l)); - break; - - next:; - } - - if (model[v] == l_Undef) - model[v] = l_True; + x = toLit(elimclauses[i]); + model[var(x)] = lbool(!sign(x)); + next:; } } bool SimpSolver::eliminate(bool turn_off_elim) { - if (!ok || !use_simplification) - return ok; + if (!simplify()) + return false; + else if (!use_simplification) + return true; // Main simplification loop: - //assert(subsumption_queue.size() == 0); - //gatherTouchedClauses(); - while (subsumption_queue.size() > 0 || elim_heap.size() > 0){ - - //fprintf(stderr, "subsumption phase: (%d)\n", subsumption_queue.size()); - if (!backwardSubsumptionCheck(true)) - return false; + // + while (n_touched > 0 || bwdsub_assigns < trail.size() || elim_heap.size() > 0){ - //fprintf(stderr, "elimination phase:\n (%d)", elim_heap.size()); + gatherTouchedClauses(); + // printf(" ## (time = %6.2f s) BWD-SUB: queue = %d, trail = %d\n", cpuTime(), subsumption_queue.size(), trail.size() - bwdsub_assigns); + if ((subsumption_queue.size() > 0 || bwdsub_assigns < trail.size()) && + !backwardSubsumptionCheck(true)){ + ok = false; goto cleanup; } + + // Empty elim_heap and return immediately on user-interrupt: + if (asynch_interrupt){ + assert(bwdsub_assigns == trail.size()); + assert(subsumption_queue.size() == 0); + assert(n_touched == 0); + elim_heap.clear(); + goto cleanup; } + + // printf(" ## (time = %6.2f s) ELIM: vars = %d\n", cpuTime(), elim_heap.size()); for (int cnt = 0; !elim_heap.empty(); cnt++){ Var elim = elim_heap.removeMin(); + + if (asynch_interrupt) break; - if (verbosity >= 2 && cnt % 100 == 0) - reportf("elimination left: %10d\r", elim_heap.size()); + if (isEliminated(elim) || value(elim) != l_Undef) continue; - if (!frozen[elim] && !eliminateVar(elim)) - return false; + if (verbosity >= 2 && cnt % 100 == 0) + printf("elimination left: %10d\r", elim_heap.size()); + + if (use_asymm){ + // Temporarily freeze variable. Otherwise, it would immediately end up on the queue again: + bool was_frozen = frozen[elim]; + frozen[elim] = true; + if (!asymmVar(elim)){ + ok = false; goto cleanup; } + frozen[elim] = was_frozen; } + + // At this point, the variable may have been set by assymetric branching, so check it + // again. Also, don't eliminate frozen variables: + if (use_elim && value(elim) == l_Undef && !frozen[elim] && !eliminateVar(elim)){ + ok = false; goto cleanup; } + + checkGarbage(simp_garbage_frac); } assert(subsumption_queue.size() == 0); - gatherTouchedClauses(); - } - - // Cleanup: - cleanUpClauses(); - order_heap.filter(VarFilter(*this)); - -#ifdef INVARIANTS - // Check that no more subsumption is possible: - reportf("Checking that no more subsumption is possible\n"); - for (int i = 0; i < clauses.size(); i++){ - if (i % 1000 == 0) - reportf("left %10d\r", clauses.size() - i); - - assert(clauses[i]->mark() == 0); - for (int j = 0; j < i; j++) - assert(clauses[i]->subsumes(*clauses[j]) == lit_Error); } - reportf("done.\n"); - - // Check that no more elimination is possible: - reportf("Checking that no more elimination is possible\n"); - for (int i = 0; i < nVars(); i++) - if (!frozen[i]) eliminateVar(i, true); - reportf("done.\n"); - checkLiteralCount(); -#endif + cleanup: // If no more simplification is needed, free all simplification-related data structures: if (turn_off_elim){ - use_simplification = false; - touched.clear(true); - occurs.clear(true); - n_occ.clear(true); - subsumption_queue.clear(true); + touched .clear(true); + occurs .clear(true); + n_occ .clear(true); elim_heap.clear(true); - remove_satisfied = true; + subsumption_queue.clear(true); + + use_simplification = false; + remove_satisfied = true; + ca.extra_clause_field = false; + + // Force full cleanup (this is safe and desirable since it only happens once): + rebuildOrderHeap(); + garbageCollect(); + }else{ + // Cheaper cleanup: + cleanUpClauses(); // TODO: can we make 'cleanUpClauses()' not be linear in the problem size somehow? + checkGarbage(); } + if (verbosity >= 1 && elimclauses.size() > 0) + printf("| Eliminated clauses: %10.2f Mb |\n", + double(elimclauses.size() * sizeof(uint32_t)) / (1024*1024)); - return true; + return ok; } void SimpSolver::cleanUpClauses() { - int i , j; - vec dirty; - for (i = 0; i < clauses.size(); i++) - if (clauses[i]->mark() == 1){ - Clause& c = *clauses[i]; - for (int k = 0; k < c.size(); k++) - if (!seen[var(c[k])]){ - seen[var(c[k])] = 1; - dirty.push(var(c[k])); - } } - - for (i = 0; i < dirty.size(); i++){ - cleanOcc(dirty[i]); - seen[dirty[i]] = 0; } - + occurs.cleanAll(); + int i,j; for (i = j = 0; i < clauses.size(); i++) - if (clauses[i]->mark() == 1) - free(clauses[i]); - else + if (ca[clauses[i]].mark() == 0) clauses[j++] = clauses[i]; clauses.shrink(i - j); } //================================================================================================= -// Convert to DIMACS: +// Garbage Collection methods: -void SimpSolver::toDimacs(FILE* f, Clause& c) +void SimpSolver::relocAll(ClauseAllocator& to) { - if (satisfied(c)) return; + if (!use_simplification) return; + + // All occurs lists: + // + for (int i = 0; i < nVars(); i++){ + vec& cs = occurs[i]; + for (int j = 0; j < cs.size(); j++) + ca.reloc(cs[j], to); + } - for (int i = 0; i < c.size(); i++) - if (value(c[i]) != l_False) - fprintf(f, "%s%d ", sign(c[i]) ? "-" : "", var(c[i])+1); - fprintf(f, "0\n"); + // Subsumption queue: + // + for (int i = 0; i < subsumption_queue.size(); i++) + ca.reloc(subsumption_queue[i], to); + + // Temporary clause: + // + ca.reloc(bwdsub_tmpunit, to); } -void SimpSolver::toDimacs(const char* file) +void SimpSolver::garbageCollect() { - assert(decisionLevel() == 0); - FILE* f = fopen(file, "wr"); - if (f != NULL){ + // Initialize the next region to a size corresponding to the estimated utilization degree. This + // is not precise but should avoid some unnecessary reallocations for the new region: + ClauseAllocator to(ca.size() - ca.wasted()); - // Cannot use removeClauses here because it is not safe - // to deallocate them at this point. Could be improved. - int cnt = 0; - for (int i = 0; i < clauses.size(); i++) - if (!satisfied(*clauses[i])) - cnt++; - - fprintf(f, "p cnf %d %d\n", nVars(), cnt); - - for (int i = 0; i < clauses.size(); i++) - toDimacs(f, *clauses[i]); - - fprintf(stderr, "Wrote %d clauses...\n", clauses.size()); - }else - fprintf(stderr, "could not open file %s\n", file); + cleanUpClauses(); + to.extra_clause_field = ca.extra_clause_field; // NOTE: this is important to keep (or lose) the extra fields. + relocAll(to); + Solver::relocAll(to); + if (verbosity >= 2) + printf("| Garbage collection: %12d bytes => %12d bytes |\n", + ca.size()*ClauseAllocator::Unit_Size, to.size()*ClauseAllocator::Unit_Size); + to.moveTo(ca); } - -}/* CVC4::prop::minisat namespace */ -}/* CVC4::prop namespace */ -}/* CVC4 namespace */ diff --git a/src/prop/minisat/simp/SimpSolver.h b/src/prop/minisat/simp/SimpSolver.h index 3da574f6c..977da46e5 100644 --- a/src/prop/minisat/simp/SimpSolver.h +++ b/src/prop/minisat/simp/SimpSolver.h @@ -1,5 +1,6 @@ /************************************************************************************[SimpSolver.h] -MiniSat -- Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2006, Niklas Een, Niklas Sorensson +Copyright (c) 2007-2010, Niklas Sorensson 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, @@ -17,158 +18,187 @@ DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. **************************************************************************************************/ -#include "cvc4_private.h" +#ifndef Minisat_SimpSolver_h +#define Minisat_SimpSolver_h -#ifndef __CVC4__PROP__MINISAT__SIMP_SOLVER_H -#define __CVC4__PROP__MINISAT__SIMP_SOLVER_H +#include "cvc4_private.h" -#include -#include +#include "mtl/Queue.h" +#include "core/Solver.h" -#include "../mtl/Queue.h" -#include "../core/Solver.h" namespace CVC4 { namespace prop { + class SatSolver; +} +} -class SatSolver; +namespace Minisat { -namespace minisat { +//================================================================================================= class SimpSolver : public Solver { public: // Constructor/Destructor: // - SimpSolver(SatSolver* proxy, context::Context* context); + SimpSolver(CVC4::prop::SatSolver* proxy, CVC4::context::Context* context); CVC4_PUBLIC ~SimpSolver(); // Problem specification: // Var newVar (bool polarity = true, bool dvar = true, bool theoryAtom = false); - bool addClause (vec& ps, ClauseType type); + bool addClause (const vec& ps, ClauseType type); + bool addEmptyClause(ClauseType type); // Add the empty clause to the solver. + bool addClause (Lit p, ClauseType type); // Add a unit clause to the solver. + bool addClause (Lit p, Lit q, ClauseType type); // Add a binary clause to the solver. + bool addClause (Lit p, Lit q, Lit r, ClauseType type); // Add a ternary clause to the solver. + bool addClause_( vec& ps, ClauseType type); + bool substitute(Var v, Lit x); // Replace all occurences of v with x (may cause a contradiction). // Variable mode: // void setFrozen (Var v, bool b); // If a variable is frozen it will not be eliminated. + bool isEliminated(Var v) const; // Solving: // - bool solve (const vec& assumps, bool do_simp = true, bool turn_off_simp = false); - bool solve (bool do_simp = true, bool turn_off_simp = false); - bool eliminate (bool turn_off_elim = false); // Perform variable elimination based simplification. + bool solve (const vec& assumps, bool do_simp = true, bool turn_off_simp = false); + lbool solveLimited(const vec& assumps, bool do_simp = true, bool turn_off_simp = false); + bool solve ( bool do_simp = true, bool turn_off_simp = false); + bool solve (Lit p , bool do_simp = true, bool turn_off_simp = false); + bool solve (Lit p, Lit q, bool do_simp = true, bool turn_off_simp = false); + bool solve (Lit p, Lit q, Lit r, bool do_simp = true, bool turn_off_simp = false); + bool eliminate (bool turn_off_elim = false); // Perform variable elimination based simplification. + + // Memory managment: + // + virtual void garbageCollect(); + // Generate a (possibly simplified) DIMACS file: // +#if 0 + void toDimacs (const char* file, const vec& assumps); void toDimacs (const char* file); + void toDimacs (const char* file, Lit p); + void toDimacs (const char* file, Lit p, Lit q); + void toDimacs (const char* file, Lit p, Lit q, Lit r); +#endif // Mode of operation: // - int grow; // Allow a variable elimination step to grow by a number of clauses (default to zero). - bool asymm_mode; // Shrink clauses by asymmetric branching. - bool redundancy_check; // Check if a clause is already implied. Prett costly, and subsumes subsumptions :) + int grow; // Allow a variable elimination step to grow by a number of clauses (default to zero). + int clause_lim; // Variables are not eliminated if it produces a resolvent with a length above this limit. + // -1 means no limit. + int subsumption_lim; // Do not check if subsumption against a clause larger than this. -1 means no limit. + double simp_garbage_frac; // A different limit for when to issue a GC during simplification (Also see 'garbage_frac'). + + bool use_asymm; // Shrink clauses by asymmetric branching. + bool use_rcheck; // Check if a clause is already implied. Prett costly, and subsumes subsumptions :) + bool use_elim; // Perform variable elimination. // Statistics: // int merges; int asymm_lits; - int remembered_clauses; + int eliminated_vars; -// protected: - public: + protected: // Helper structures: // - struct ElimData { - int order; // 0 means not eliminated, >0 gives an index in the elimination order - vec eliminated; - ElimData() : order(0) {} }; - - struct ElimOrderLt { - const vec& elimtable; - ElimOrderLt(const vec& et) : elimtable(et) {} - bool operator()(Var x, Var y) { return elimtable[x].order > elimtable[y].order; } }; - struct ElimLt { const vec& n_occ; - ElimLt(const vec& no) : n_occ(no) {} - int cost (Var x) const { return n_occ[toInt(Lit(x))] * n_occ[toInt(~Lit(x))]; } - bool operator()(Var x, Var y) const { return cost(x) < cost(y); } }; - + explicit ElimLt(const vec& no) : n_occ(no) {} + + // TODO: are 64-bit operations here noticably bad on 32-bit platforms? Could use a saturating + // 32-bit implementation instead then, but this will have to do for now. + uint64_t cost (Var x) const { return (uint64_t)n_occ[toInt(mkLit(x))] * (uint64_t)n_occ[toInt(~mkLit(x))]; } + bool operator()(Var x, Var y) const { return cost(x) < cost(y); } + + // TODO: investigate this order alternative more. + // bool operator()(Var x, Var y) const { + // int c_x = cost(x); + // int c_y = cost(y); + // return c_x < c_y || c_x == c_y && x < y; } + }; + + struct ClauseDeleted { + const ClauseAllocator& ca; + explicit ClauseDeleted(const ClauseAllocator& _ca) : ca(_ca) {} + bool operator()(const CRef& cr) const { return ca[cr].mark() == 1; } }; // Solver state: // int elimorder; bool use_simplification; - vec elimtable; + vec elimclauses; vec touched; - vec > occurs; + OccLists, ClauseDeleted> + occurs; vec n_occ; Heap elim_heap; - Queue subsumption_queue; + Queue subsumption_queue; vec frozen; + vec eliminated; int bwdsub_assigns; + int n_touched; // Temporaries: // - Clause* bwdsub_tmpunit; + CRef bwdsub_tmpunit; // Main internal methods: // - bool asymm (Var v, Clause& c); + lbool solve_ (bool do_simp = true, bool turn_off_simp = false); + bool asymm (Var v, CRef cr); bool asymmVar (Var v); void updateElimHeap (Var v); - void cleanOcc (Var v); - vec& getOccurs (Var x); void gatherTouchedClauses (); bool merge (const Clause& _ps, const Clause& _qs, Var v, vec& out_clause); - bool merge (const Clause& _ps, const Clause& _qs, Var v); + bool merge (const Clause& _ps, const Clause& _qs, Var v, int& size); bool backwardSubsumptionCheck (bool verbose = false); - bool eliminateVar (Var v, bool fail = false); - void remember (Var v); + bool eliminateVar (Var v); void extendModel (); - void verifyModel (); - void removeClause (Clause& c); - bool strengthenClause (Clause& c, Lit l); + void removeClause (CRef cr); + bool strengthenClause (CRef cr, Lit l); void cleanUpClauses (); bool implied (const vec& c); - void toDimacs (FILE* f, Clause& c); - bool isEliminated (Var v) const; - + void relocAll (ClauseAllocator& to); }; //================================================================================================= // Implementation of inline methods: + +inline bool SimpSolver::isEliminated (Var v) const { return eliminated[v]; } inline void SimpSolver::updateElimHeap(Var v) { - if (elimtable[v].order == 0) + assert(use_simplification); + // if (!frozen[v] && !isEliminated(v) && value(v) == l_Undef) + if (elim_heap.inHeap(v) || (!frozen[v] && !isEliminated(v) && value(v) == l_Undef)) elim_heap.update(v); } -inline void SimpSolver::cleanOcc(Var v) { - assert(use_simplification); - Clause **begin = (Clause**)occurs[v]; - Clause **end = begin + occurs[v].size(); - Clause **i, **j; - for (i = begin, j = end; i < j; i++) - if ((*i)->mark() == 1){ - *i = *(--j); - i--; - } - //occurs[v].shrink_(end - j); // This seems slower. Why?! - occurs[v].shrink(end - j); -} -inline vec& SimpSolver::getOccurs(Var x) { - cleanOcc(x); return occurs[x]; } +inline bool SimpSolver::addClause (const vec& ps, ClauseType type) { ps.copyTo(add_tmp); return addClause_(add_tmp, type); } +inline bool SimpSolver::addEmptyClause(ClauseType type) { add_tmp.clear(); return addClause_(add_tmp, type); } +inline bool SimpSolver::addClause (Lit p, ClauseType type) { add_tmp.clear(); add_tmp.push(p); return addClause_(add_tmp, type); } +inline bool SimpSolver::addClause (Lit p, Lit q, ClauseType type) { add_tmp.clear(); add_tmp.push(p); add_tmp.push(q); return addClause_(add_tmp, type); } +inline bool SimpSolver::addClause (Lit p, Lit q, Lit r, ClauseType type) { add_tmp.clear(); add_tmp.push(p); add_tmp.push(q); add_tmp.push(r); return addClause_(add_tmp, type); } +inline void SimpSolver::setFrozen (Var v, bool b) { frozen[v] = (char)b; if (use_simplification && !b) { updateElimHeap(v); } } -inline bool SimpSolver::isEliminated (Var v) const { return v < elimtable.size() && elimtable[v].order != 0; } -inline void SimpSolver::setFrozen (Var v, bool b) { frozen[v] = (char)b; if (b) { updateElimHeap(v); } } -inline bool SimpSolver::solve (bool do_simp, bool turn_off_simp) { vec tmp; return solve(tmp, do_simp, turn_off_simp); } +inline bool SimpSolver::solve ( bool do_simp, bool turn_off_simp) { budgetOff(); assumptions.clear(); return solve_(do_simp, turn_off_simp) == l_True; } +inline bool SimpSolver::solve (Lit p , bool do_simp, bool turn_off_simp) { budgetOff(); assumptions.clear(); assumptions.push(p); return solve_(do_simp, turn_off_simp) == l_True; } +inline bool SimpSolver::solve (Lit p, Lit q, bool do_simp, bool turn_off_simp) { budgetOff(); assumptions.clear(); assumptions.push(p); assumptions.push(q); return solve_(do_simp, turn_off_simp) == l_True; } +inline bool SimpSolver::solve (Lit p, Lit q, Lit r, bool do_simp, bool turn_off_simp) { budgetOff(); assumptions.clear(); assumptions.push(p); assumptions.push(q); assumptions.push(r); return solve_(do_simp, turn_off_simp) == l_True; } +inline bool SimpSolver::solve (const vec& assumps, bool do_simp, bool turn_off_simp){ + budgetOff(); assumps.copyTo(assumptions); return solve_(do_simp, turn_off_simp) == l_True; } -}/* CVC4::prop::minisat namespace */ -}/* CVC4::prop namespace */ -}/* CVC4 namespace */ +inline lbool SimpSolver::solveLimited (const vec& assumps, bool do_simp, bool turn_off_simp){ + assumps.copyTo(assumptions); return solve_(do_simp, turn_off_simp); } //================================================================================================= -#endif /* __CVC4__PROP__MINISAT__SIMP_SOLVER_H */ +} + +#endif diff --git a/src/prop/minisat/utils/Makefile b/src/prop/minisat/utils/Makefile new file mode 100644 index 000000000..204cea541 --- /dev/null +++ b/src/prop/minisat/utils/Makefile @@ -0,0 +1,4 @@ +EXEC = system_test +DEPDIR = mtl + +include $(MROOT)/mtl/template.mk diff --git a/src/prop/minisat/utils/Options.cc b/src/prop/minisat/utils/Options.cc new file mode 100644 index 000000000..ec5a6e930 --- /dev/null +++ b/src/prop/minisat/utils/Options.cc @@ -0,0 +1,91 @@ +/**************************************************************************************[Options.cc] +Copyright (c) 2008-2010, Niklas Sorensson + +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 "mtl/Sort.h" +#include "utils/Options.h" +#include "utils/ParseUtils.h" + +using namespace Minisat; + +void Minisat::parseOptions(int& argc, char** argv, bool strict) +{ + int i, j; + for (i = j = 1; i < argc; i++){ + const char* str = argv[i]; + if (match(str, "--") && match(str, Option::getHelpPrefixString()) && match(str, "help")){ + if (*str == '\0') + printUsageAndExit(argc, argv); + else if (match(str, "-verb")) + printUsageAndExit(argc, argv, true); + } else { + bool parsed_ok = false; + + for (int k = 0; !parsed_ok && k < Option::getOptionList().size(); k++){ + parsed_ok = Option::getOptionList()[k]->parse(argv[i]); + + // fprintf(stderr, "checking %d: %s against flag <%s> (%s)\n", i, argv[i], Option::getOptionList()[k]->name, parsed_ok ? "ok" : "skip"); + } + + if (!parsed_ok) + if (strict && match(argv[i], "-")) + fprintf(stderr, "ERROR! Unknown flag \"%s\". Use '--%shelp' for help.\n", argv[i], Option::getHelpPrefixString()), exit(1); + else + argv[j++] = argv[i]; + } + } + + argc -= (i - j); +} + + +void Minisat::setUsageHelp (const char* str){ Option::getUsageString() = str; } +void Minisat::setHelpPrefixStr (const char* str){ Option::getHelpPrefixString() = str; } +void Minisat::printUsageAndExit (int argc, char** argv, bool verbose) +{ + const char* usage = Option::getUsageString(); + if (usage != NULL) + fprintf(stderr, usage, argv[0]); + + sort(Option::getOptionList(), Option::OptionLt()); + + const char* prev_cat = NULL; + const char* prev_type = NULL; + + for (int i = 0; i < Option::getOptionList().size(); i++){ + const char* cat = Option::getOptionList()[i]->category; + const char* type = Option::getOptionList()[i]->type_name; + + if (cat != prev_cat) + fprintf(stderr, "\n%s OPTIONS:\n\n", cat); + else if (type != prev_type) + fprintf(stderr, "\n"); + + Option::getOptionList()[i]->help(verbose); + + prev_cat = Option::getOptionList()[i]->category; + prev_type = Option::getOptionList()[i]->type_name; + } + + fprintf(stderr, "\nHELP OPTIONS:\n\n"); + fprintf(stderr, " --%shelp Print help message.\n", Option::getHelpPrefixString()); + fprintf(stderr, " --%shelp-verb Print verbose help message.\n", Option::getHelpPrefixString()); + fprintf(stderr, "\n"); + exit(0); +} + diff --git a/src/prop/minisat/utils/Options.h b/src/prop/minisat/utils/Options.h new file mode 100644 index 000000000..9c1f40699 --- /dev/null +++ b/src/prop/minisat/utils/Options.h @@ -0,0 +1,386 @@ +/***************************************************************************************[Options.h] +Copyright (c) 2008-2010, Niklas Sorensson + +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. +**************************************************************************************************/ + +#ifndef Minisat_Options_h +#define Minisat_Options_h + +#include +#include +#include +#include + +#include "mtl/IntTypes.h" +#include "mtl/Vec.h" +#include "utils/ParseUtils.h" + +namespace Minisat { + +//================================================================================================== +// Top-level option parse/help functions: + + +extern void parseOptions (int& argc, char** argv, bool strict = false); +extern void printUsageAndExit(int argc, char** argv, bool verbose = false); +extern void setUsageHelp (const char* str); +extern void setHelpPrefixStr (const char* str); + + +//================================================================================================== +// Options is an abstract class that gives the interface for all types options: + + +class Option +{ + protected: + const char* name; + const char* description; + const char* category; + const char* type_name; + + static vec& getOptionList () { static vec options; return options; } + static const char*& getUsageString() { static const char* usage_str; return usage_str; } + static const char*& getHelpPrefixString() { static const char* help_prefix_str = ""; return help_prefix_str; } + + struct OptionLt { + bool operator()(const Option* x, const Option* y) { + int test1 = strcmp(x->category, y->category); + return test1 < 0 || test1 == 0 && strcmp(x->type_name, y->type_name) < 0; + } + }; + + Option(const char* name_, + const char* desc_, + const char* cate_, + const char* type_) : + name (name_) + , description(desc_) + , category (cate_) + , type_name (type_) + { + getOptionList().push(this); + } + + public: + virtual ~Option() {} + + virtual bool parse (const char* str) = 0; + virtual void help (bool verbose = false) = 0; + + friend void parseOptions (int& argc, char** argv, bool strict); + friend void printUsageAndExit (int argc, char** argv, bool verbose); + friend void setUsageHelp (const char* str); + friend void setHelpPrefixStr (const char* str); +}; + + +//================================================================================================== +// Range classes with specialization for floating types: + + +struct IntRange { + int begin; + int end; + IntRange(int b, int e) : begin(b), end(e) {} +}; + +struct Int64Range { + int64_t begin; + int64_t end; + Int64Range(int64_t b, int64_t e) : begin(b), end(e) {} +}; + +struct DoubleRange { + double begin; + double end; + bool begin_inclusive; + bool end_inclusive; + DoubleRange(double b, bool binc, double e, bool einc) : begin(b), end(e), begin_inclusive(binc), end_inclusive(einc) {} +}; + + +//================================================================================================== +// Double options: + + +class DoubleOption : public Option +{ + protected: + DoubleRange range; + double value; + + public: + DoubleOption(const char* c, const char* n, const char* d, double def = double(), DoubleRange r = DoubleRange(-HUGE_VAL, false, HUGE_VAL, false)) + : Option(n, d, c, ""), range(r), value(def) { + // FIXME: set LC_NUMERIC to "C" to make sure that strtof/strtod parses decimal point correctly. + } + + operator double (void) const { return value; } + operator double& (void) { return value; } + DoubleOption& operator=(double x) { value = x; return *this; } + + virtual bool parse(const char* str){ + const char* span = str; + + if (!match(span, "-") || !match(span, name) || !match(span, "=")) + return false; + + char* end; + double tmp = strtod(span, &end); + + if (end == NULL) + return false; + else if (tmp >= range.end && (!range.end_inclusive || tmp != range.end)){ + fprintf(stderr, "ERROR! value <%s> is too large for option \"%s\".\n", span, name); + exit(1); + }else if (tmp <= range.begin && (!range.begin_inclusive || tmp != range.begin)){ + fprintf(stderr, "ERROR! value <%s> is too small for option \"%s\".\n", span, name); + exit(1); } + + value = tmp; + // fprintf(stderr, "READ VALUE: %g\n", value); + + return true; + } + + virtual void help (bool verbose = false){ + fprintf(stderr, " -%-12s = %-8s %c%4.2g .. %4.2g%c (default: %g)\n", + name, type_name, + range.begin_inclusive ? '[' : '(', + range.begin, + range.end, + range.end_inclusive ? ']' : ')', + value); + if (verbose){ + fprintf(stderr, "\n %s\n", description); + fprintf(stderr, "\n"); + } + } +}; + + +//================================================================================================== +// Int options: + + +class IntOption : public Option +{ + protected: + IntRange range; + int32_t value; + + public: + IntOption(const char* c, const char* n, const char* d, int32_t def = int32_t(), IntRange r = IntRange(INT32_MIN, INT32_MAX)) + : Option(n, d, c, ""), range(r), value(def) {} + + operator int32_t (void) const { return value; } + operator int32_t& (void) { return value; } + IntOption& operator= (int32_t x) { value = x; return *this; } + + virtual bool parse(const char* str){ + const char* span = str; + + if (!match(span, "-") || !match(span, name) || !match(span, "=")) + return false; + + char* end; + int32_t tmp = strtol(span, &end, 10); + + if (end == NULL) + return false; + else if (tmp > range.end){ + fprintf(stderr, "ERROR! value <%s> is too large for option \"%s\".\n", span, name); + exit(1); + }else if (tmp < range.begin){ + fprintf(stderr, "ERROR! value <%s> is too small for option \"%s\".\n", span, name); + exit(1); } + + value = tmp; + + return true; + } + + virtual void help (bool verbose = false){ + fprintf(stderr, " -%-12s = %-8s [", name, type_name); + if (range.begin == INT32_MIN) + fprintf(stderr, "imin"); + else + fprintf(stderr, "%4d", range.begin); + + fprintf(stderr, " .. "); + if (range.end == INT32_MAX) + fprintf(stderr, "imax"); + else + fprintf(stderr, "%4d", range.end); + + fprintf(stderr, "] (default: %d)\n", value); + if (verbose){ + fprintf(stderr, "\n %s\n", description); + fprintf(stderr, "\n"); + } + } +}; + + +// Leave this out for visual C++ until Microsoft implements C99 and gets support for strtoll. +#ifndef _MSC_VER + +class Int64Option : public Option +{ + protected: + Int64Range range; + int64_t value; + + public: + Int64Option(const char* c, const char* n, const char* d, int64_t def = int64_t(), Int64Range r = Int64Range(INT64_MIN, INT64_MAX)) + : Option(n, d, c, ""), range(r), value(def) {} + + operator int64_t (void) const { return value; } + operator int64_t& (void) { return value; } + Int64Option& operator= (int64_t x) { value = x; return *this; } + + virtual bool parse(const char* str){ + const char* span = str; + + if (!match(span, "-") || !match(span, name) || !match(span, "=")) + return false; + + char* end; + int64_t tmp = strtoll(span, &end, 10); + + if (end == NULL) + return false; + else if (tmp > range.end){ + fprintf(stderr, "ERROR! value <%s> is too large for option \"%s\".\n", span, name); + exit(1); + }else if (tmp < range.begin){ + fprintf(stderr, "ERROR! value <%s> is too small for option \"%s\".\n", span, name); + exit(1); } + + value = tmp; + + return true; + } + + virtual void help (bool verbose = false){ + fprintf(stderr, " -%-12s = %-8s [", name, type_name); + if (range.begin == INT64_MIN) + fprintf(stderr, "imin"); + else + fprintf(stderr, "%4"PRIi64, range.begin); + + fprintf(stderr, " .. "); + if (range.end == INT64_MAX) + fprintf(stderr, "imax"); + else + fprintf(stderr, "%4"PRIi64, range.end); + + fprintf(stderr, "] (default: %"PRIi64")\n", value); + if (verbose){ + fprintf(stderr, "\n %s\n", description); + fprintf(stderr, "\n"); + } + } +}; +#endif + +//================================================================================================== +// String option: + + +class StringOption : public Option +{ + const char* value; + public: + StringOption(const char* c, const char* n, const char* d, const char* def = NULL) + : Option(n, d, c, ""), value(def) {} + + operator const char* (void) const { return value; } + operator const char*& (void) { return value; } + StringOption& operator= (const char* x) { value = x; return *this; } + + virtual bool parse(const char* str){ + const char* span = str; + + if (!match(span, "-") || !match(span, name) || !match(span, "=")) + return false; + + value = span; + return true; + } + + virtual void help (bool verbose = false){ + fprintf(stderr, " -%-10s = %8s\n", name, type_name); + if (verbose){ + fprintf(stderr, "\n %s\n", description); + fprintf(stderr, "\n"); + } + } +}; + + +//================================================================================================== +// Bool option: + + +class BoolOption : public Option +{ + bool value; + + public: + BoolOption(const char* c, const char* n, const char* d, bool v) + : Option(n, d, c, ""), value(v) {} + + operator bool (void) const { return value; } + operator bool& (void) { return value; } + BoolOption& operator=(bool b) { value = b; return *this; } + + virtual bool parse(const char* str){ + const char* span = str; + + if (match(span, "-")){ + bool b = !match(span, "no-"); + + if (strcmp(span, name) == 0){ + value = b; + return true; } + } + + return false; + } + + virtual void help (bool verbose = false){ + + fprintf(stderr, " -%s, -no-%s", name, name); + + for (uint32_t i = 0; i < 32 - strlen(name)*2; i++) + fprintf(stderr, " "); + + fprintf(stderr, " "); + fprintf(stderr, "(default: %s)\n", value ? "on" : "off"); + if (verbose){ + fprintf(stderr, "\n %s\n", description); + fprintf(stderr, "\n"); + } + } +}; + +//================================================================================================= +} + +#endif diff --git a/src/prop/minisat/utils/ParseUtils.h b/src/prop/minisat/utils/ParseUtils.h new file mode 100644 index 000000000..d3071649d --- /dev/null +++ b/src/prop/minisat/utils/ParseUtils.h @@ -0,0 +1,122 @@ +/************************************************************************************[ParseUtils.h] +Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2007-2010, Niklas Sorensson + +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. +**************************************************************************************************/ + +#ifndef Minisat_ParseUtils_h +#define Minisat_ParseUtils_h + +#include +#include + +#include + +namespace Minisat { + +//------------------------------------------------------------------------------------------------- +// A simple buffered character stream class: + +static const int buffer_size = 1048576; + + +class StreamBuffer { + gzFile in; + unsigned char buf[buffer_size]; + int pos; + int size; + + void assureLookahead() { + if (pos >= size) { + pos = 0; + size = gzread(in, buf, sizeof(buf)); } } + +public: + explicit StreamBuffer(gzFile i) : in(i), pos(0), size(0) { assureLookahead(); } + + int operator * () const { return (pos >= size) ? EOF : buf[pos]; } + void operator ++ () { pos++; assureLookahead(); } + int position () const { return pos; } +}; + + +//------------------------------------------------------------------------------------------------- +// End-of-file detection functions for StreamBuffer and char*: + + +static inline bool isEof(StreamBuffer& in) { return *in == EOF; } +static inline bool isEof(const char* in) { return *in == '\0'; } + +//------------------------------------------------------------------------------------------------- +// Generic parse functions parametrized over the input-stream type. + + +template +static void skipWhitespace(B& in) { + while ((*in >= 9 && *in <= 13) || *in == 32) + ++in; } + + +template +static void skipLine(B& in) { + for (;;){ + if (isEof(in)) return; + if (*in == '\n') { ++in; return; } + ++in; } } + + +template +static int parseInt(B& in) { + int val = 0; + bool neg = false; + skipWhitespace(in); + if (*in == '-') neg = true, ++in; + else if (*in == '+') ++in; + if (*in < '0' || *in > '9') fprintf(stderr, "PARSE ERROR! Unexpected char: %c\n", *in), exit(3); + while (*in >= '0' && *in <= '9') + val = val*10 + (*in - '0'), + ++in; + return neg ? -val : val; } + + +// String matching: in case of a match the input iterator will be advanced the corresponding +// number of characters. +template +static bool match(B& in, const char* str) { + int i; + for (i = 0; str[i] != '\0'; i++) + if (in[i] != str[i]) + return false; + + in += i; + + return true; +} + +// String matching: consumes characters eagerly, but does not require random access iterator. +template +static bool eagerMatch(B& in, const char* str) { + for (; *str != '\0'; ++str, ++in) + if (*str != *in) + return false; + return true; } + + +//================================================================================================= +} + +#endif diff --git a/src/prop/minisat/utils/System.cc b/src/prop/minisat/utils/System.cc new file mode 100644 index 000000000..a7cf53f55 --- /dev/null +++ b/src/prop/minisat/utils/System.cc @@ -0,0 +1,95 @@ +/***************************************************************************************[System.cc] +Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2007-2010, Niklas Sorensson + +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 "utils/System.h" + +#if defined(__linux__) + +#include +#include + +using namespace Minisat; + +// TODO: split the memory reading functions into two: one for reading high-watermark of RSS, and +// one for reading the current virtual memory size. + +static inline int memReadStat(int field) +{ + char name[256]; + pid_t pid = getpid(); + int value; + + sprintf(name, "/proc/%d/statm", pid); + FILE* in = fopen(name, "rb"); + if (in == NULL) return 0; + + for (; field >= 0; field--) + if (fscanf(in, "%d", &value) != 1) + printf("ERROR! Failed to parse memory statistics from \"/proc\".\n"), exit(1); + fclose(in); + return value; +} + + +static inline int memReadPeak(void) +{ + char name[256]; + pid_t pid = getpid(); + + sprintf(name, "/proc/%d/status", pid); + FILE* in = fopen(name, "rb"); + if (in == NULL) return 0; + + // Find the correct line, beginning with "VmPeak:": + int peak_kb = 0; + while (!feof(in) && fscanf(in, "VmPeak: %d kB", &peak_kb) != 1) + while (!feof(in) && fgetc(in) != '\n') + ; + fclose(in); + + return peak_kb; +} + +double Minisat::memUsed() { return (double)memReadStat(0) * (double)getpagesize() / (1024*1024); } +double Minisat::memUsedPeak() { + double peak = memReadPeak() / 1024; + return peak == 0 ? memUsed() : peak; } + +#elif defined(__FreeBSD__) + +double Minisat::memUsed(void) { + struct rusage ru; + getrusage(RUSAGE_SELF, &ru); + return (double)ru.ru_maxrss / 1024; } +double MiniSat::memUsedPeak(void) { return memUsed(); } + + +#elif defined(__APPLE__) +#include + +double Minisat::memUsed(void) { + malloc_statistics_t t; + malloc_zone_statistics(NULL, &t); + return (double)t.max_size_in_use / (1024*1024); } + +#else +double Minisat::memUsed() { + return 0; } +#endif diff --git a/src/prop/minisat/utils/System.h b/src/prop/minisat/utils/System.h new file mode 100644 index 000000000..17581927a --- /dev/null +++ b/src/prop/minisat/utils/System.h @@ -0,0 +1,60 @@ +/****************************************************************************************[System.h] +Copyright (c) 2003-2006, Niklas Een, Niklas Sorensson +Copyright (c) 2007-2010, Niklas Sorensson + +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. +**************************************************************************************************/ + +#ifndef Minisat_System_h +#define Minisat_System_h + +#if defined(__linux__) +#include +#endif + +#include "mtl/IntTypes.h" + +//------------------------------------------------------------------------------------------------- + +namespace Minisat { + +static inline double cpuTime(void); // CPU-time in seconds. +extern double memUsed(); // Memory in mega bytes (returns 0 for unsupported architectures). +extern double memUsedPeak(); // Peak-memory in mega bytes (returns 0 for unsupported architectures). + +} + +//------------------------------------------------------------------------------------------------- +// Implementation of inline functions: + +#if defined(_MSC_VER) || defined(__MINGW32__) +#include + +static inline double Minisat::cpuTime(void) { return (double)clock() / CLOCKS_PER_SEC; } + +#else +#include +#include +#include + +static inline double Minisat::cpuTime(void) { + struct rusage ru; + getrusage(RUSAGE_SELF, &ru); + return (double)ru.ru_utime.tv_sec + (double)ru.ru_utime.tv_usec / 1000000; } + +#endif + +#endif -- 2.30.2