mirrors/z3
3
0
Fork 0
mirror of https://github.com/Z3Prover/z3 synced 2025-07-19 10:52:02 +00:00
Code Activity

Bug and performance fixes for FP UFs.

Browse source
This commit is contained in:
Christoph M. Wintersteiger 2016-05-17 16:35:45 +01:00
parent ec565ae7a0
commit df81ab72f5
5 changed files with 122 additions and 42 deletions
Download patch file Download diff file Expand all files Collapse all files

48
src/ast/rewriter/fpa_rewriter.cpp
View file

@ -100,18 +100,17 @@ br_status fpa_rewriter::mk_app_core(func_decl * f, unsigned num_args, expr * con
SASSERT(num_args == 2); st = BR_FAILED; break; SASSERT(num_args == 2); st = BR_FAILED; break;
case OP_FPA_INTERNAL_RM: case OP_FPA_INTERNAL_RM:
SASSERT(num_args == 1); st = mk_rm(args[0], result); break; SASSERT(num_args == 1); SASSERT(num_args == 1); st = mk_rm(args[0], result); break;
case OP_FPA_INTERNAL_TO_UBV_UNSPECIFIED: case OP_FPA_INTERNAL_TO_UBV_UNSPECIFIED:
case OP_FPA_INTERNAL_TO_SBV_UNSPECIFIED: case OP_FPA_INTERNAL_TO_SBV_UNSPECIFIED:
case OP_FPA_INTERNAL_TO_REAL_UNSPECIFIED: case OP_FPA_INTERNAL_TO_REAL_UNSPECIFIED:
case OP_FPA_INTERNAL_TO_IEEE_BV_UNSPECIFIED: case OP_FPA_INTERNAL_TO_IEEE_BV_UNSPECIFIED:
st = BR_FAILED; st = BR_FAILED;
case OP_FPA_INTERNAL_BVWRAP:
case OP_FPA_INTERNAL_BVUNWRAP:
st = BR_FAILED;
break; break;
case OP_FPA_INTERNAL_BVWRAP: SASSERT(num_args == 1); st = mk_bvwrap(args[0], result); break;
case OP_FPA_INTERNAL_BVUNWRAP: SASSERT(num_args == 1); st = mk_bvunwrap(args[0], result); break;
default: default:
NOT_IMPLEMENTED_YET(); NOT_IMPLEMENTED_YET();
} }
@ -892,3 +891,42 @@ br_status fpa_rewriter::mk_to_real(expr * arg, expr_ref & result) {
return BR_FAILED; return BR_FAILED;
} }
br_status fpa_rewriter::mk_bvwrap(expr * arg, expr_ref & result) {
if (is_app_of(arg, m_util.get_family_id(), OP_FPA_FP)) {
bv_util bu(m());
SASSERT(to_app(arg)->get_num_args() == 3);
sort_ref fpsrt(m());
fpsrt = to_app(arg)->get_decl()->get_range();
expr_ref a0(m()), a1(m()), a2(m());
a0 = to_app(arg)->get_arg(0);
a1 = to_app(arg)->get_arg(1);
a2 = to_app(arg)->get_arg(2);
if (bu.is_extract(a0) && bu.is_extract(a1) && bu.is_extract(a2)) {
unsigned w0 = bu.get_extract_high(a0) - bu.get_extract_low(a0) + 1;
unsigned w1 = bu.get_extract_high(a1) - bu.get_extract_low(a1) + 1;
unsigned w2 = bu.get_extract_high(a2) - bu.get_extract_low(a2) + 1;
unsigned cw = w0 + w1 + w2;
if (cw == m_util.get_ebits(fpsrt) + m_util.get_sbits(fpsrt)) {
expr_ref aa0(m()), aa1(m()), aa2(m());
aa0 = to_app(a0)->get_arg(0);
aa1 = to_app(a1)->get_arg(0);
aa2 = to_app(a2)->get_arg(0);
if (aa0 == aa1 && aa1 == aa2 && bu.get_bv_size(aa0) == cw) {
result = aa0;
return BR_DONE;
}
}
}
}
return BR_FAILED;
}
br_status fpa_rewriter::mk_bvunwrap(expr * arg, expr_ref & result) {
if (is_app_of(arg, m_util.get_family_id(), OP_FPA_INTERNAL_BVWRAP))
result = to_app(arg)->get_arg(0);
return BR_FAILED;
}

3
src/ast/rewriter/fpa_rewriter.h
View file

@ -89,6 +89,9 @@ public:
br_status mk_to_ubv_unspecified(unsigned ebits, unsigned sbits, unsigned with, expr_ref & result); br_status mk_to_ubv_unspecified(unsigned ebits, unsigned sbits, unsigned with, expr_ref & result);
br_status mk_to_sbv_unspecified(unsigned ebits, unsigned sbits, unsigned with, expr_ref & result); br_status mk_to_sbv_unspecified(unsigned ebits, unsigned sbits, unsigned with, expr_ref & result);
br_status mk_to_real_unspecified(unsigned ebits, unsigned sbits, expr_ref & result); br_status mk_to_real_unspecified(unsigned ebits, unsigned sbits, expr_ref & result);
br_status mk_bvwrap(expr * arg, expr_ref & result);
br_status mk_bvunwrap(expr * arg, expr_ref & result);
}; };
#endif #endif

35
src/smt/theory_fpa.cpp
View file

@ -84,6 +84,28 @@ namespace smt {
} }
} }
void theory_fpa::fpa2bv_converter_wrapped::mk_uninterpreted_output(sort * rng, func_decl * fbv, expr_ref_buffer & new_args, expr_ref & result) {
if (m_util.is_float(rng)) {
unsigned ebits = m_util.get_ebits(rng);
unsigned sbits = m_util.get_sbits(rng);
unsigned bv_sz = ebits + sbits;
app_ref na(m);
na = m.mk_app(fbv, new_args.size(), new_args.c_ptr());
mk_fp(m_bv_util.mk_extract(bv_sz - 1, bv_sz - 1, na),
m_bv_util.mk_extract(bv_sz - 2, sbits - 1, na),
m_bv_util.mk_extract(sbits - 2, 0, na),
result);
}
else if (m_util.is_rm(rng)) {
app_ref na(m);
na = m.mk_app(fbv, new_args.size(), new_args.c_ptr());
mk_rm(na, result);
}
else
result = m.mk_app(fbv, new_args.size(), new_args.c_ptr());
}
void theory_fpa::fpa2bv_converter_wrapped::mk_uninterpreted_function(func_decl * f, unsigned num, expr * const * args, expr_ref & result) { void theory_fpa::fpa2bv_converter_wrapped::mk_uninterpreted_function(func_decl * f, unsigned num, expr * const * args, expr_ref & result) {
// TODO: This introduces temporary func_decls that should be filtered in the end. // TODO: This introduces temporary func_decls that should be filtered in the end.
@ -93,11 +115,13 @@ namespace smt {
expr_ref_buffer new_args(m); expr_ref_buffer new_args(m);
for (unsigned i = 0; i < num; i++) { for (unsigned i = 0; i < num; i++) {
TRACE("t_fpa", tout << "UF arg[" << i << "]: " << mk_ismt2_pp(args[i], m) << std::endl; );
if (is_float(args[i]) || is_rm(args[i])) { if (is_float(args[i]) || is_rm(args[i])) {
expr_ref ai(m), wrapped(m); expr_ref ai(m), wrapped(m);
ai = args[i]; ai = args[i];
wrapped = m_th.wrap(ai); wrapped = m_th.wrap(ai);
new_args.push_back(wrapped); new_args.push_back(wrapped);
TRACE("t_fpa", tout << "UF wrap ai: " << mk_ismt2_pp(ai, m) << " --> " << mk_ismt2_pp(wrapped, m) << std::endl; );
m_extra_assertions.push_back(m.mk_eq(m_th.unwrap(wrapped, m.get_sort(ai)), ai)); m_extra_assertions.push_back(m.mk_eq(m_th.unwrap(wrapped, m.get_sort(ai)), ai));
} }
else else
@ -105,8 +129,10 @@ namespace smt {
} }
func_decl * fd; func_decl * fd;
if (m_uf2bvuf.find(f, fd)) if (m_uf2bvuf.find(f, fd)) {
TRACE("t_fpa", tout << "UF reused: " << mk_ismt2_pp(fd, m) << std::endl; );
mk_uninterpreted_output(f->get_range(), fd, new_args, result); mk_uninterpreted_output(f->get_range(), fd, new_args, result);
}
else { else {
sort_ref_buffer new_domain(m); sort_ref_buffer new_domain(m);
@ -373,6 +399,10 @@ namespace smt {
res = m.mk_app(w, e); res = m.mk_app(w, e);
} }
TRACE("t_fpa", tout << "e: " << mk_ismt2_pp(e, m) << "\n";
tout << "r: " << mk_ismt2_pp(res, m) << "\n";);
return res; return res;
} }
@ -415,6 +445,9 @@ namespace smt {
proof_ref pr(m); proof_ref pr(m);
m_rw(e, e_conv); m_rw(e, e_conv);
TRACE("t_fpa_detail", tout << "term: " << mk_ismt2_pp(e, get_manager()) << "\n";
tout << "converted term: " << mk_ismt2_pp(e_conv, get_manager()) << "\n";);
if (is_app(e_conv) && to_app(e_conv)->get_family_id() != get_family_id()) { if (is_app(e_conv) && to_app(e_conv)->get_family_id() != get_family_id()) {
if (!m_fpa_util.is_float(e_conv)) if (!m_fpa_util.is_float(e_conv))
m_th_rw(e_conv, res); m_th_rw(e_conv, res);

1
src/smt/theory_fpa.h
View file

@ -83,6 +83,7 @@ namespace smt {
virtual ~fpa2bv_converter_wrapped() {} virtual ~fpa2bv_converter_wrapped() {}
virtual void mk_const(func_decl * f, expr_ref & result); virtual void mk_const(func_decl * f, expr_ref & result);
virtual void mk_rm_const(func_decl * f, expr_ref & result); virtual void mk_rm_const(func_decl * f, expr_ref & result);
void mk_uninterpreted_output(sort * rng, func_decl * fbv, expr_ref_buffer & new_args, expr_ref & result);
virtual void mk_uninterpreted_function(func_decl * f, unsigned num, expr * const * args, expr_ref & result); virtual void mk_uninterpreted_function(func_decl * f, unsigned num, expr * const * args, expr_ref & result);
virtual expr_ref mk_min_unspecified(func_decl * f, expr * x, expr * y); virtual expr_ref mk_min_unspecified(func_decl * f, expr * x, expr * y);

17
src/tactic/fpa/fpa2bv_model_converter.cpp
View file

@ -322,10 +322,10 @@ void fpa2bv_model_converter::convert(model * bv_mdl, model * float_mdl) {
sort * rng = f->get_range(); sort * rng = f->get_range();
if (arity > 0) { if (arity > 0) {
func_interp * flt_fi = alloc(func_interp, m, f->get_arity());
func_interp * bv_fi = bv_mdl->get_func_interp(it->m_value); func_interp * bv_fi = bv_mdl->get_func_interp(it->m_value);
SASSERT(bv_fi->args_are_values());
if (bv_fi != 0) {
func_interp * flt_fi = alloc(func_interp, m, f->get_arity());
for (unsigned i = 0; i < bv_fi->num_entries(); i++) { for (unsigned i = 0; i < bv_fi->num_entries(); i++) {
func_entry const * bv_fe = bv_fi->get_entry(i); func_entry const * bv_fe = bv_fi->get_entry(i);
@ -335,19 +335,23 @@ void fpa2bv_model_converter::convert(model * bv_mdl, model * float_mdl) {
for (unsigned j = 0; j < arity; j++) { for (unsigned j = 0; j < arity; j++) {
sort * dj = f->get_domain(j); sort * dj = f->get_domain(j);
expr * aj = bv_args[j]; expr * aj = bv_args[j];
expr_ref saj(m);
bv_mdl->eval(aj, saj, true);
if (fu.is_float(dj)) if (fu.is_float(dj))
new_args.push_back(convert_bv2fp(bv_mdl, dj, aj)); new_args.push_back(convert_bv2fp(bv_mdl, dj, saj));
else if (fu.is_rm(dj)) { else if (fu.is_rm(dj)) {
expr_ref fv(m); expr_ref fv(m);
fv = convert_bv2rm(aj); fv = convert_bv2rm(saj);
new_args.push_back(fv); new_args.push_back(fv);
} }
else else
new_args.push_back(aj); new_args.push_back(saj);
} }
expr_ref ret(m); expr_ref ret(m);
ret = bv_fe->get_result(); ret = bv_fe->get_result();
bv_mdl->eval(ret, ret);
if (fu.is_float(rng)) if (fu.is_float(rng))
ret = convert_bv2fp(bv_mdl, rng, ret); ret = convert_bv2fp(bv_mdl, rng, ret);
else if (fu.is_rm(rng)) else if (fu.is_rm(rng))
@ -367,6 +371,7 @@ void fpa2bv_model_converter::convert(model * bv_mdl, model * float_mdl) {
float_mdl->register_decl(f, flt_fi); float_mdl->register_decl(f, flt_fi);
} }
}
else { else {
func_decl * bvf = it->m_value; func_decl * bvf = it->m_value;
expr_ref c(m), e(m); expr_ref c(m), e(m);