ref: 0ed8a3bd7b1bbe2a3857f2abcaabdc4edd2d8b05
dir: /sys/src/libsat/debug.c/
#include <u.h> #include <libc.h> #include <sat.h> #include "impl.h" static SATSolve *globsat; static int satclausefmt(Fmt *f) { SATClause *c; char *s; int i, fl; fl = f->flags; c = va_arg(f->args, SATClause *); if(c == nil) return fmtstrcpy(f, "Λ"); if(c->n == 0) return fmtstrcpy(f, "ε"); s = "%s%d"; for(i = 0; i < c->n; i++){ if((fl & FmtSign) != 0) switch(globsat->lit[c->l[i]].val){ case 1: s = "%s[%d]"; break; case 0: s = "%s(%d)"; break; case -1: s = "%s%d"; break; default: abort(); } fmtprint(f, s, i != 0 ? " ∨ " : "", signf(c->l[i])); } return 0; } void satprintstate(SATSolve *s) { int i; Fmt f; char buf[512]; SATVar *v; fmtfdinit(&f, 1, buf, sizeof(buf)); fmtprint(&f, "trail:\n"); for(i = 0; i < s->ntrail; i++){ v = &s->var[VAR(s->trail[i])]; fmtprint(&f, "%c%-8d %- 8d %-8d ", i == s->forptr ? '*' : ' ', i, signf(s->trail[i]), v->lvl); if(v->isbinreason) fmtprint(&f, "%d ∨ %d\n", signf(s->trail[i]), signf(v->binreason)); else fmtprint(&f, "%+Γ\n", v->reason); } fmtrune(&f, '\n'); fmtfdflush(&f); } void satsanity(SATSolve *s) { int i, j, k, m, tl, s0, s1; SATVar *v; SATLit *l; SATClause *c; for(c = s->cl; c != nil; c = c->next){ assert(c->n >= 2); assert((uint)((uchar*)c->next - (uchar*)c) >= sizeof(SATClause) + (c->n - 1) * sizeof(int)); for(j = 0; j < c->n; j++) assert((uint)c->l[j] < 2*s->nvar); for(i = 0; i < 2; i++) c->watch[i] = (void*)((uintptr)c->watch[i] | 1); } for(i = 0; i < s->nvar; i++){ tl = -1; for(j = 0; j < s->ntrail; j++) if(VAR(s->trail[j]) == i){ assert(tl == -1); tl = j; } v = &s->var[i]; l = &s->lit[2*i]; if(l->val >= 0){ assert(l->val <= 1); assert(l[0].val + l[1].val == 1); assert((uint)v->lvl <= s->lvl); assert(tl != -1); assert(s->trail[tl] == 2*i+l[1].val); assert(tl >= s->decbd[v->lvl]); assert(v->lvl == s->lvl || tl < s->decbd[v->lvl+1]); }else{ assert(l[0].val == -1 && l[1].val == -1); assert(v->lvl == -1); assert(v->heaploc >= 0); assert(tl == -1); } assert(v->heaploc == -1 || (uint)v->heaploc <= s->nheap && s->heap[v->heaploc] == v); for(j = 0; j < 2; j++){ m = 2 * i + j; for(c = l[j].watch; c != nil; c = c->watch[k]){ k = c->l[1] == m; assert(k || c->l[0] == m); assert((uintptr)c->watch[k] & 1); c->watch[k] = (void*)((uintptr)c->watch[k] & ~1); } } } for(c = s->cl; c != nil; c = c->next) for(i = 0; i < 2; i++) assert(((uintptr)c->watch[i] & 1) == 0); if(s->forptr == s->ntrail) for(c = s->cl; c != nil; c = c->next){ s0 = s->lit[c->l[0]].val; s1 = s->lit[c->l[1]].val; if(s0 != 0 && s1 != 0 || s0 == 1 || s1 == 1) continue; for(i = 2; i < c->n; i++) if(s->lit[c->l[i]].val != 0){ satprintstate(s); print("watchlist error: %+Γ\n", c); assert(0); } } } void satdebuginit(SATSolve *s) { globsat = s; fmtinstall(L'Γ', satclausefmt); }