ref: c3ba64f6935322f09b6de5c2285544fd471c605d
dir: /sys/src/cmd/forp/cvt.c/
#include <u.h> #include <libc.h> #include <mp.h> #include <sat.h> #include "dat.h" #include "fns.h" SATSolve *sat; int satvar = 3; /* 1 = false, 2 = true */ #define SVAR(n, i) ((n)->vars[(i) < (n)->size ? (i) : (n)->size - 1]) int nassertvar; int *assertvar; static int max(int a, int b) { return a < b ? b : a; } static int min(int a, int b) { return a > b ? b : a; } static void symsat(Node *n) { Symbol *s; int i; s = n->sym; assert(s->type == SYMBITS); n->size = s->size + ((s->flags & SYMFSIGNED) == 0); n->vars = emalloc(sizeof(int) * n->size); for(i = 0; i < s->size; i++){ if(s->vars[i] == 0) s->vars[i] = satvar++; n->vars[i] = s->vars[i]; } if((s->flags & SYMFSIGNED) == 0) n->vars[i] = 1; } static void numsat(Node *n) { mpint *m; int i, sz, j; m = n->num; assert(m != nil); assert(m->sign > 0); sz = mpsignif(m) + 1; n->size = sz; n->vars = emalloc(sizeof(int) * sz); for(i = 0; i < m->top; i++){ for(j = 0; j < Dbits; j++) if(i * Dbits + j < sz-1) n->vars[i * Dbits + j] = 1 + ((m->p[i] >> j & 1) != 0); } n->vars[sz - 1] = 1; } static void nodevars(Node *n, int nv) { int i; n->size = nv; n->vars = emalloc(sizeof(int) * nv); for(i = 0; i < nv; i++) n->vars[i] = 1; } static void assign(Node *t, Node *n) { Symbol *s; int i; s = t->sym; for(i = 0; i < s->size; i++){ if(i < n->size) s->vars[i] = n->vars[i]; else s->vars[i] = n->vars[n->size - 1]; } } static void opeq(Node *r, Node *n1, Node *n2, int neq) { int i, m, a, b, *t; nodevars(r, 2); m = max(n1->size, n2->size); t = malloc(m * sizeof(int)); for(i = 0; i < m; i++){ a = SVAR(n1, i); b = SVAR(n2, i); t[i] = satlogicv(sat, neq ? 6 : 9, a, b, 0); } if(neq) r->vars[0] = sator1(sat, t, m); else r->vars[0] = satand1(sat, t, m); free(t); } static void oplogic(Node *r, Node *n1, Node *n2, int op) { int m, i, a, b, *t; m = max(n1->size, n2->size); nodevars(r, m); t = r->vars; for(i = 0; i < m; i++){ a = SVAR(n1, i); b = SVAR(n2, i); switch(op){ case OPOR: t[i] = satorv(sat, a, b, 0); break; case OPAND: t[i] = satandv(sat, a, b, 0); break; case OPXOR: t[i] = satlogicv(sat, 6, a, b, 0); break; default: abort(); } } } static int tologic(Node *n) { int i; for(i = 1; i < n->size; i++) if(n->vars[i] != 1) break; if(i == n->size) return n->vars[0]; return sator1(sat, n->vars, n->size); } static void opllogic(Node *rn, Node *n1, Node *n2, int op) { int a, b; a = tologic(n1); b = tologic(n2); nodevars(rn, 2); switch(op){ case OPLAND: rn->vars[0] = satandv(sat, a, b, 0); break; case OPLOR: rn->vars[0] = satorv(sat, a, b, 0); break; case OPIMP: rn->vars[0] = satorv(sat, -a, b, 0); break; case OPEQV: rn->vars[0] = satlogicv(sat, 9, a, b, 0); break; default: abort(); } } static void opcom(Node *r, Node *n1) { int i; nodevars(r, n1->size); for(i = 0; i < n1->size; i++) r->vars[i] = -n1->vars[i]; } static void opneg(Node *r, Node *n1) { int i, c; nodevars(r, n1->size); c = 2; for(i = 0; i < n1->size; i++){ r->vars[i] = satlogicv(sat, 9, n1->vars[i], c, 0); if(i < n1->size - 1) c = satandv(sat, -n1->vars[i], c, 0); } } static void opnot(Node *r, Node *n1) { nodevars(r, 2); r->vars[0] = -tologic(n1); } static void opadd(Node *rn, Node *n1, Node *n2, int sub) { int i, m, c, a, b; m = max(n1->size, n2->size) + 1; nodevars(rn, m); c = 1 + sub; sub = 1 - 2 * sub; for(i = 0; i < m; i++){ a = SVAR(n1, i); b = SVAR(n2, i) * sub; rn->vars[i] = satlogicv(sat, 0x96, c, a, b, 0); c = satlogicv(sat, 0xe8, c, a, b, 0); } } static void oplt(Node *rn, Node *n1, Node *n2, int le) { int i, m, a, b, t, *r; nodevars(rn, 2); m = max(n1->size, n2->size); r = emalloc(sizeof(int) * (m + le)); t = 2; for(i = m; --i >= 0; ){ if(i == m - 1){ a = SVAR(n2, i); b = SVAR(n1, i); }else{ a = SVAR(n1, i); b = SVAR(n2, i); } r[i] = satandv(sat, -a, b, t, 0); t = satlogicv(sat, 0x90, a, b, t, 0); } if(le) r[m] = t; rn->vars[0] = sator1(sat, r, m + le); } static void opidx(Node *rn, Node *n1, Node *n2, Node *n3) { int i, j, k, s; k = mptoi(n2->num); if(n3 == nil) j = k; else j = mptoi(n3->num); if(j > k){ nodevars(rn, 1); return; } s = k - j + 1; nodevars(rn, s + 1); for(i = 0; i < s; i++) rn->vars[i] = SVAR(n1, j + i); } static void oprsh(Node *rn, Node *n1, Node *n2) { int i, j, a, b, q; nodevars(rn, n1->size); memcpy(rn->vars, n1->vars, sizeof(int) * n1->size); for(i = 0; i < n2->size; i++){ if(n2->vars[i] == 1) continue; if(n2->vars[i] == 2){ for(j = 0; j < n1->size; j++) rn->vars[j] = SVAR(rn, j + (1<<i)); continue; } for(j = 0; j < n1->size; j++){ a = rn->vars[j]; b = SVAR(rn, j + (1<<i)); q = n2->vars[i]; rn->vars[j] = satlogicv(sat, 0xca, a, b, q, 0); } } } static void oplsh(Node *rn, Node *n1, Node *n2, uint sz) { int i, j, a, b, q; u32int m; m = 0; for(i = n2->size; --i >= 0; ) m = m << 1 | n2->vars[i] != m; m += n1->size; if(m > sz) m = sz; nodevars(rn, m); for(i = 0; i < m; i++) rn->vars[i] = SVAR(n1, i); for(i = 0; i < n2->size; i++){ if(n2->vars[i] == 1) continue; if(n2->vars[i] == 2){ for(j = m; --j >= 0; ) rn->vars[j] = j >= 1<<i ? rn->vars[j - (1<<i)] : 1; continue; } for(j = m; --j >= 0; ){ a = rn->vars[j]; b = j >= 1<<i ? rn->vars[j - (1<<i)] : 1; q = n2->vars[i]; rn->vars[j] = satlogicv(sat, 0xca, a, b, q, 0); } } } static void optern(Node *rn, Node *n1, Node *n2, Node *n3, uint sz) { uint m; int i, a, b, q; m = n2->size; if(n3->size > m) m = n3->size; if(m > sz) m = sz; nodevars(rn, m); q = tologic(n1); for(i = 0; i < m; i++){ a = SVAR(n3, i); b = SVAR(n2, i); rn->vars[i] = satlogicv(sat, 0xca, a, b, q, 0); } } static int * opmul(int *n1v, int s1, int *n2v, int s2) { int i, k, t, s; int *r, *q0, *q1, *z, nq0, nq1, nq; s1--; s2--; r = emalloc(sizeof(int) * (s1 + s2 + 2)); nq = 2 * (min(s1, s2) + 2); q0 = emalloc(nq * sizeof(int)); q1 = emalloc(nq * sizeof(int)); nq0 = nq1 = 0; for(k = 0; k <= s1 + s2 + 1; k++){ if(k == s1 || k == s1 + s2 + 1){ assert(nq0 < nq); q0[nq0++] = 2; } if(k == s2){ assert(nq0 < nq); q0[nq0++] = 2; } for(i = max(0, k - s2); i <= k && i <= s1; i++){ assert(nq0 < nq); t = satandv(sat, n1v[i], n2v[k - i], 0); q0[nq0++] = i == s1 ^ k-i == s2 ? -t : t; } assert(nq0 > 0); while(nq0 > 1){ if(nq0 == 2){ t = satlogicv(sat, 0x6, q0[0], q0[1], 0); s = satandv(sat, q0[0], q0[1], 0); q0[0] = t; assert(nq1 < nq); q1[nq1++] = s; break; } t = satlogicv(sat, 0x96, q0[nq0-3], q0[nq0-2], q0[nq0-1], 0); s = satlogicv(sat, 0xe8, q0[nq0-3], q0[nq0-2], q0[nq0-1], 0); q0[nq0-3] = t; nq0 -= 2; assert(nq1 < nq); q1[nq1++] = s; } r[k] = q0[0]; z=q0, q0=q1, q1=z; nq0 = nq1; nq1 = 0; } free(q0); free(q1); return r; } static void opabs(Node *q, Node *n) { int i; int s, c; nodevars(q, n->size + 1); s = n->vars[n->size - 1]; c = s; for(i = 0; i < n->size; i++){ q->vars[i] = satlogicv(sat, 0x96, n->vars[i], s, c, 0); c = satandv(sat, -n->vars[i], c, 0); } } static void opdiv(Node *q, Node *r, Node *n1, Node *n2) { Node *s; int i, s1, sr,zr; if(q == nil) q = node(ASTTEMP); if(r == nil) r = node(ASTTEMP); nodevars(q, n1->size); nodevars(r, n2->size); for(i = 0; i < n1->size; i++) q->vars[i] = satvar++; for(i = 0; i < n2->size; i++) r->vars[i] = satvar++; s = node(ASTBIN, OPEQ, node(ASTBIN, OPADD, node(ASTBIN, OPMUL, q, n2), r), n1); convert(s, -1); assume(s); s = node(ASTBIN, OPLT, node(ASTUN, OPABS, r), node(ASTUN, OPABS, n2)); convert(s, -1); assume(s); s1 = n1->vars[n1->size - 1]; sr = r->vars[r->size - 1]; zr = -sator1(sat, r->vars, r->size); sataddv(sat, zr, sr, -s1, 0); sataddv(sat, zr, -sr, s1, 0); } void convert(Node *n, uint sz) { if(n->size > 0) return; switch(n->type){ case ASTTEMP: assert(n->size > 0); break; case ASTSYM: symsat(n); break; case ASTNUM: numsat(n); break; case ASTBIN: if(n->op == OPASS){ if(n->n1 == nil || n->n1->type != ASTSYM) error(n, "convert: '%ε' invalid lval", n->n1); convert(n->n2, n->n1->sym->size); assert(n->n2->size > 0); assign(n->n1, n->n2); break; } switch(n->op){ case OPAND: case OPOR: case OPXOR: case OPADD: case OPSUB: case OPLSH: case OPCOMMA: convert(n->n1, sz); convert(n->n2, sz); break; default: convert(n->n1, -1); convert(n->n2, -1); } assert(n->n1->size > 0); assert(n->n2->size > 0); switch(n->op){ case OPCOMMA: n->size = n->n2->size; n->vars = n->n2->vars; break; case OPEQ: opeq(n, n->n1, n->n2, 0); break; case OPNEQ: opeq(n, n->n1, n->n2, 1); break; case OPLT: oplt(n, n->n1, n->n2, 0); break; case OPLE: oplt(n, n->n1, n->n2, 1); break; case OPGT: oplt(n, n->n2, n->n1, 0); break; case OPGE: oplt(n, n->n2, n->n1, 1); break; case OPXOR: case OPAND: case OPOR: oplogic(n, n->n1, n->n2, n->op); break; case OPLAND: case OPLOR: case OPIMP: case OPEQV: opllogic(n, n->n1, n->n2, n->op); break; case OPADD: opadd(n, n->n1, n->n2, 0); break; case OPSUB: opadd(n, n->n1, n->n2, 1); break; case OPLSH: oplsh(n, n->n1, n->n2, sz); break; case OPRSH: oprsh(n, n->n1, n->n2); break; case OPMUL: n->vars = opmul(n->n1->vars, n->n1->size, n->n2->vars, n->n2->size); n->size = n->n1->size + n->n2->size; break; case OPDIV: opdiv(n, nil, n->n1, n->n2); break; case OPMOD: opdiv(nil, n, n->n1, n->n2); break; default: error(n, "convert: unimplemented op %O", n->op); } break; case ASTUN: convert(n->n1, sz); switch(n->op){ case OPCOM: opcom(n, n->n1); break; case OPNEG: opneg(n, n->n1); break; case OPNOT: opnot(n, n->n1); break; case OPABS: opabs(n, n->n1); break; default: error(n, "convert: unimplemented op %O", n->op); } break; case ASTIDX: if(n->n2->type != ASTNUM || n->n3 != nil && n->n3->type != ASTNUM) error(n, "non-constant in indexing expression"); convert(n->n1, n->n3 != nil ? mptoi(n->n3->num) - mptoi(n->n2->num) + 1 : 1); opidx(n, n->n1, n->n2, n->n3); break; case ASTTERN: convert(n->n1, -1); convert(n->n2, sz); convert(n->n3, sz); optern(n, n->n1, n->n2, n->n3, sz); break; default: error(n, "convert: unimplemented %α", n->type); } } void assume(Node *n) { assert(n->size > 0); satadd1(sat, n->vars, n->size); } void obviously(Node *n) { assertvar = realloc(assertvar, sizeof(int) * (nassertvar + 1)); assert(assertvar != nil); assertvar[nassertvar++] = -tologic(n); } void cvtinit(void) { sat = sataddv(nil, -1, 0); sataddv(sat, 2, 0); }