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fix(library/norm_num): include 'constants.h' instead of 'constants.cpp'

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By including 'constants.cpp' we get compilation errors in some
platforms (e.g., 'g_one has been defined in multiple files...')

The module constants(.h/cpp) does not expose global variables such as g_one.
We have to use the procedures get_one_name() instead.
This commit is contained in:
Leonardo de Moura 2015-10-19 18:36:10 -07:00
parent ce1cbcc205
commit bda0b038b0
1 changed files with 59 additions and 59 deletions
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118
src/library/norm_num.cpp
View file

@ -5,7 +5,7 @@ Author: Robert Y. Lewis
*/
#include "library/norm_num.h"
#include "library/constants.cpp"
#include "library/constants.h"
namespace lean {
static name * g_add = nullptr,
* g_add1 = nullptr,
@ -43,7 +43,7 @@ namespace lean {
* g_mul_zero_class= nullptr,
* g_distrib = nullptr,
* g_semiring = nullptr;
static bool is_numeral_aux(expr const & e, bool is_first) {
buffer<expr> args;
@ -51,11 +51,11 @@ static bool is_numeral_aux(expr const & e, bool is_first) {
if (!is_constant(f)) {
return false;
}
if (const_name(f) == *g_one) {
if (const_name(f) == get_one_name()) {
return args.size() == 2;
} else if (const_name(f) == *g_zero) {
} else if (const_name(f) == get_zero_name()) {
return is_first && args.size() == 2;
} else if (const_name(f) == *g_bit1 || const_name(f) == *g_bit0) {
} else if (const_name(f) == get_bit1_name() || const_name(f) == get_bit0_name()) {
return args.size() == 3 && is_numeral_aux(args[2], false);
}
return false;
@ -71,7 +71,7 @@ Takes e : instance A, and tries to synthesize has_add A.
expr norm_num_context::mk_has_add(expr const & e) {
buffer<expr> args;
expr f = get_app_args(e, args);
expr t = mk_app(mk_constant(*g_has_add, const_levels(f)), args[0]);
expr t = mk_app(mk_constant(get_has_add_name(), const_levels(f)), args[0]);
optional<expr> inst = mk_class_instance(m_env, m_ctx, t);
if (inst) {
return *inst;
@ -95,7 +95,7 @@ expr norm_num_context::mk_has_mul(expr const & e) {
expr norm_num_context::mk_has_one(expr const & e) {
buffer<expr> args;
expr f = get_app_args(e, args);
expr t = mk_app(mk_constant(*g_has_one, const_levels(f)), args[0]);
expr t = mk_app(mk_constant(get_has_one_name(), const_levels(f)), args[0]);
optional<expr> inst = mk_class_instance(m_env, m_ctx, t);
if (inst) {
return *inst;
@ -131,7 +131,7 @@ expr norm_num_context::mk_monoid(expr const & e) {
expr norm_num_context::mk_add_comm(expr const & e) {
buffer<expr> args;
expr f = get_app_args(e, args);
expr t = mk_app(mk_constant(*g_add_comm, const_levels(f)), args[0]);
expr t = mk_app(mk_constant(*g_add_comm, const_levels(f)), args[0]);
optional<expr> inst = mk_class_instance(m_env, m_ctx, t);
if (inst) {
return *inst;
@ -193,29 +193,29 @@ pair<expr, expr> norm_num_context::mk_norm(expr const & e) {
m_lvls = const_levels(f);
if (const_name(f) == *g_add && args.size() == 4) {
auto lhs_p = mk_norm(args[2]);
auto rhs_p = mk_norm(args[3]);
auto rhs_p = mk_norm(args[3]);
auto add_p = mk_norm_add(lhs_p.first, rhs_p.first);
expr prf = mk_app({mk_const(*g_subst_sum), args[0], mk_has_add(args[1]), args[2], args[3],
lhs_p.first, rhs_p.first, add_p.first, lhs_p.second, rhs_p.second, add_p.second});
return pair<expr, expr>(add_p.first, prf);
expr prf = mk_app({mk_const(*g_subst_sum), args[0], mk_has_add(args[1]), args[2], args[3],
lhs_p.first, rhs_p.first, add_p.first, lhs_p.second, rhs_p.second, add_p.second});
return pair<expr, expr>(add_p.first, prf);
} else if (const_name(f) == *g_mul && args.size() == 4) {
auto lhs_p = mk_norm(args[2]);
auto rhs_p = mk_norm(args[3]);
auto rhs_p = mk_norm(args[3]);
auto mul_p = mk_norm_mul(lhs_p.first, rhs_p.first);
expr prf = mk_app({mk_const(*g_subst_prod), args[0], mk_has_mul(args[1]), args[2], args[3],
lhs_p.first, rhs_p.first, mul_p.first, lhs_p.second, rhs_p.second, mul_p.second});
return pair<expr, expr>(mul_p.first, prf);
} else if (const_name(f) == *g_bit0 && args.size() == 3) {
expr prf = mk_app({mk_const(*g_subst_prod), args[0], mk_has_mul(args[1]), args[2], args[3],
lhs_p.first, rhs_p.first, mul_p.first, lhs_p.second, rhs_p.second, mul_p.second});
return pair<expr, expr>(mul_p.first, prf);
} else if (const_name(f) == get_bit0_name() && args.size() == 3) {
auto arg = mk_norm(args[2]);
expr rv = mk_app({f, args[0], args[1], arg.first});
expr prf = mk_cong(mk_app({f, args[0], args[1]}), args[0], args[2], arg.first, arg.second);
return pair<expr, expr>(rv, prf);
} else if (const_name(f) == *g_bit1 && args.size() == 4) {
expr rv = mk_app({f, args[0], args[1], arg.first});
expr prf = mk_cong(mk_app({f, args[0], args[1]}), args[0], args[2], arg.first, arg.second);
return pair<expr, expr>(rv, prf);
} else if (const_name(f) == get_bit1_name() && args.size() == 4) {
auto arg = mk_norm(args[3]);
expr rv = mk_app({f, args[0], args[1], args[2], arg.first});
expr prf = mk_cong(mk_app({f, args[0], args[1], args[2]}), args[0], args[3], arg.first, arg.second);
return pair<expr, expr>(rv, prf);
} else if ((const_name(f) == *g_zero || const_name(f) == *g_one) && args.size() == 2) {
expr rv = mk_app({f, args[0], args[1], args[2], arg.first});
expr prf = mk_cong(mk_app({f, args[0], args[1], args[2]}), args[0], args[3], arg.first, arg.second);
return pair<expr, expr>(rv, prf);
} else if ((const_name(f) == get_zero_name() || const_name(f) == get_one_name()) && args.size() == 2) {
return pair<expr, expr>(e, mk_app({mk_const(*g_mk_eq), args[0], e}));
} else {
std::cout << "error with name " << const_name(f) << " and size " << args.size() << ".\n";
@ -239,41 +239,41 @@ pair<expr, expr> norm_num_context::mk_norm_add(expr const & lhs, expr const & rh
expr prf;
if (is_bit0(lhs) && is_bit0(rhs)) { // typec is has_add
auto p = mk_norm_add(args_lhs[2], args_rhs[2]);
rv = mk_app(lhs_head, type, typec, p.first);
prf = mk_app({mk_const(*g_bit0_add_bit0), type, mk_add_comm(typec), args_lhs[2], args_rhs[2], p.first, p.second});
rv = mk_app(lhs_head, type, typec, p.first);
prf = mk_app({mk_const(*g_bit0_add_bit0), type, mk_add_comm(typec), args_lhs[2], args_rhs[2], p.first, p.second});
} else if (is_bit0(lhs) && is_bit1(rhs)) {
auto p = mk_norm_add(args_lhs[2], args_rhs[3]);
rv = mk_app({rhs_head, type, args_rhs[1], args_rhs[2], p.first});
prf = mk_app({mk_const(*g_bit0_add_bit1), type, mk_add_comm(typec), args_rhs[1], args_lhs[2], args_rhs[3], p.first, p.second});
rv = mk_app({rhs_head, type, args_rhs[1], args_rhs[2], p.first});
prf = mk_app({mk_const(*g_bit0_add_bit1), type, mk_add_comm(typec), args_rhs[1], args_lhs[2], args_rhs[3], p.first, p.second});
} else if (is_bit0(lhs) && is_one(rhs)) {
rv = mk_app({mk_const(*g_bit1), type, args_rhs[1], args_lhs[1], args_lhs[2]});
rv = mk_app({mk_const(get_bit1_name()), type, args_rhs[1], args_lhs[1], args_lhs[2]});
prf = mk_app({mk_const(*g_bit0_add_1), type, typec, args_rhs[1], args_lhs[2]});
} else if (is_bit1(lhs) && is_bit0(rhs)) { // typec is has_one
auto p = mk_norm_add(args_lhs[3], args_rhs[2]);
rv = mk_app(lhs_head, type, typec, args_lhs[2], p.first);
prf = mk_app({mk_const(*g_bit1_add_bit0), type, mk_add_comm(typec), typec, args_lhs[3], args_rhs[2], p.first, p.second});
rv = mk_app(lhs_head, type, typec, args_lhs[2], p.first);
prf = mk_app({mk_const(*g_bit1_add_bit0), type, mk_add_comm(typec), typec, args_lhs[3], args_rhs[2], p.first, p.second});
} else if (is_bit1(lhs) && is_bit1(rhs)) { // typec is has_one
auto add_ts = mk_norm_add(args_lhs[3], args_rhs[3]);
auto add_ts = mk_norm_add(args_lhs[3], args_rhs[3]);
expr add1 = mk_app({mk_const(*g_add1), type, args_lhs[2], typec, add_ts.first});
auto p = mk_norm_add1(add1);
rv = mk_app({mk_const(*g_bit0), type, args_lhs[2], p.first});
prf = mk_app({mk_const(*g_bit1_add_bit1), type, mk_add_comm(typec), typec, args_lhs[3], args_rhs[3], add_ts.first, p.first, add_ts.second, p.second});
auto p = mk_norm_add1(add1);
rv = mk_app({mk_const(get_bit0_name()), type, args_lhs[2], p.first});
prf = mk_app({mk_const(*g_bit1_add_bit1), type, mk_add_comm(typec), typec, args_lhs[3], args_rhs[3], add_ts.first, p.first, add_ts.second, p.second});
} else if (is_bit1(lhs) && is_one(rhs)) { // typec is has_one
expr add1 = mk_app({mk_const(*g_add1), type, args_lhs[2], typec, lhs});
auto p = mk_norm_add1(add1);
rv = p.first;
prf = mk_app({mk_const(*g_bit1_add_1), type, args_lhs[2], typec, args_lhs[3], p.first, p.second});
auto p = mk_norm_add1(add1);
rv = p.first;
prf = mk_app({mk_const(*g_bit1_add_1), type, args_lhs[2], typec, args_lhs[3], p.first, p.second});
} else if (is_one(lhs) && is_bit0(rhs)) { // typec is has_one
rv = mk_app({mk_const(*g_bit1), type, typec, args_rhs[1], args_rhs[2]});
rv = mk_app({mk_const(get_bit1_name()), type, typec, args_rhs[1], args_rhs[2]});
prf = mk_app({mk_const(*g_1_add_bit0), type, mk_add_comm(typec), typec, args_rhs[2]});
} else if (is_one(lhs) && is_bit1(rhs)) { // typec is has_one
expr add1 = mk_app({mk_const(*g_add1), type, args_rhs[2], args_rhs[1], rhs});
auto p = mk_norm_add1(add1);
rv = p.first;
prf = mk_app({mk_const(*g_1_add_bit1), type, mk_add_comm(typec), typec, args_rhs[3], p.first, p.second});
auto p = mk_norm_add1(add1);
rv = p.first;
prf = mk_app({mk_const(*g_1_add_bit1), type, mk_add_comm(typec), typec, args_rhs[3], p.first, p.second});
} else if (is_one(lhs) && is_one(rhs)) {
rv = mk_app({mk_const(*g_bit0), type, mk_has_add(typec), lhs});
prf = mk_app({mk_const(*g_one_add_one), type, mk_has_add(typec), typec});
rv = mk_app({mk_const(get_bit0_name()), type, mk_has_add(typec), lhs});
prf = mk_app({mk_const(*g_one_add_one), type, mk_has_add(typec), typec});
} else if (is_zero(lhs)) {
rv = rhs;
prf = mk_app({mk_const(*g_bin_0_add), type, mk_add_monoid(typec), rhs});
@ -299,18 +299,18 @@ pair<expr, expr> norm_num_context::mk_norm_add1(expr const & e) {
// args[1] = has_add, args[2] = has_one
if (is_bit0(p)) {
auto has_one = args[2];
rv = mk_app({mk_const(*g_bit1), args[0], args[2], args[1], ne_args[2]});
prf = mk_app({mk_const(*g_add1_bit0), args[0], args[1], args[2], ne_args[2]});
rv = mk_app({mk_const(get_bit1_name()), args[0], args[2], args[1], ne_args[2]});
prf = mk_app({mk_const(*g_add1_bit0), args[0], args[1], args[2], ne_args[2]});
} else if (is_bit1(p)) { // ne_args : has_one, has_add
auto np = mk_norm_add1(mk_app({mk_const(*g_add1), args[0], args[1], args[2], ne_args[3]}));
rv = mk_app({mk_const(*g_bit0), args[0], args[1], np.first});
prf = mk_app({mk_const(*g_add1_bit1), args[0], mk_add_comm(args[1]), args[2], ne_args[3], np.first, np.second});
rv = mk_app({mk_const(get_bit0_name()), args[0], args[1], np.first});
prf = mk_app({mk_const(*g_add1_bit1), args[0], mk_add_comm(args[1]), args[2], ne_args[3], np.first, np.second});
} else if (is_zero(p)) {
rv = mk_app({mk_const(*g_one), args[0], args[2]});
prf = mk_app({mk_const(*g_add1_zero), args[0], mk_add_monoid(args[1]), args[2]});
rv = mk_app({mk_const(get_one_name()), args[0], args[2]});
prf = mk_app({mk_const(*g_add1_zero), args[0], mk_add_monoid(args[1]), args[2]});
} else if (is_one(p)) {
rv = mk_app({mk_const(*g_bit0), args[0], args[1], mk_app({mk_const(*g_one), args[0], args[2]})});
prf = mk_app({mk_const(*g_add1_one), args[0], args[1], args[2]});
rv = mk_app({mk_const(get_bit0_name()), args[0], args[1], mk_app({mk_const(get_one_name()), args[0], args[2]})});
prf = mk_app({mk_const(*g_add1_one), args[0], args[1], args[2]});
} else {
std::cout << "malformed add1: " << ne << "\n";
throw exception("malformed add1");
@ -335,7 +335,7 @@ pair<expr, expr> norm_num_context::mk_norm_mul(expr const & lhs, expr const & rh
prf = mk_app({mk_const(*g_mul_zero), type, mk_mul_zero_class(typec), lhs});
} else if (is_zero(lhs)) {
rv = lhs;
prf = mk_app({mk_const(*g_zero_mul), type, mk_mul_zero_class(typec), rhs});
prf = mk_app({mk_const(*g_zero_mul), type, mk_mul_zero_class(typec), rhs});
} else if (is_one(rhs)) {
rv = lhs;
prf = mk_app({mk_const(*g_mul_one), type, mk_monoid(typec), lhs});
@ -345,10 +345,10 @@ pair<expr, expr> norm_num_context::mk_norm_mul(expr const & lhs, expr const & rh
prf = mk_app({mk_const(*g_mul_bit0), type, mk_has_distrib(typec), lhs, args_rhs[2], mtp.first, mtp.second});
} else if (is_bit1(rhs)) {
auto mtp = mk_norm_mul(lhs, args_rhs[3]);
auto atp = mk_norm_add(mk_app({mk_const(*g_bit0), type, args_rhs[2], mtp.first}), lhs);
rv = atp.first;
prf = mk_app({mk_const(*g_mul_bit1), type, mk_semiring(typec), lhs, args_rhs[3],
mtp.first, atp.first, mtp.second, atp.second});
auto atp = mk_norm_add(mk_app({mk_const(get_bit0_name()), type, args_rhs[2], mtp.first}), lhs);
rv = atp.first;
prf = mk_app({mk_const(*g_mul_bit1), type, mk_semiring(typec), lhs, args_rhs[3],
mtp.first, atp.first, mtp.second, atp.second});
} else {
std::cout << "bad args to mk_norm_mul: " << rhs << "\n";
throw exception("mk_norm_mul got malformed args");
@ -367,7 +367,7 @@ pair<expr, expr> norm_num_context::mk_norm_sub(expr const &, expr const &) {
}
void initialize_norm_num() {
g_add = new name("add");
g_add = new name("add");
g_add1 = new name("add1");
g_mul = new name("mul");
g_sub = new name("sub");