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z3/lib/params.cpp
Leonardo de Moura e9eab22e5c Z3 sources 
Signed-off-by: Leonardo de Moura <leonardo@microsoft.com>
2012-10-02 11:35:25 -07:00

864 lines
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/*++
Copyright (c) 2011 Microsoft Corporation
Module Name:
params.cpp
Abstract:
Parameters
Author:
Leonardo (leonardo) 2011-05-09
Notes:
--*/
#include"params.h"
#include"ast.h"
#include"rational.h"
#include"symbol.h"
#include"dictionary.h"
struct param_descrs::imp {
typedef std::pair<param_kind, char const *> info;
dictionary<info> m_info;
svector<symbol> m_names;
void insert(symbol const & name, param_kind k, char const * descr) {
SASSERT(!name.is_numerical());
info i;
if (m_info.find(name, i)) {
SASSERT(i.first == k);
return;
}
m_info.insert(name, info(k, descr));
m_names.push_back(name);
}
void erase(symbol const & name) {
m_info.erase(name);
}
param_kind get_kind(symbol const & name) const {
info i;
if (m_info.find(name, i))
return i.first;
return CPK_INVALID;
}
unsigned size() const {
return m_names.size();
}
symbol get_param_name(unsigned idx) const {
return m_names[idx];
}
struct lt {
bool operator()(symbol const & s1, symbol const & s2) const { return strcmp(s1.bare_str(), s2.bare_str()) < 0; }
};
void display(std::ostream & out, unsigned indent) const {
svector<symbol> names;
dictionary<info>::iterator it = m_info.begin();
dictionary<info>::iterator end = m_info.end();
for (; it != end; ++it) {
names.push_back(it->m_key);
}
std::sort(names.begin(), names.end(), lt());
svector<symbol>::iterator it2 = names.begin();
svector<symbol>::iterator end2 = names.end();
for (; it2 != end2; ++it2) {
for (unsigned i = 0; i < indent; i++) out << " ";
out << *it2;
info d;
d.second = 0;
m_info.find(*it2, d);
SASSERT(d.second);
out << " (" << d.first << ") " << d.second << "\n";
}
}
};
param_descrs::param_descrs() {
m_imp = alloc(imp);
}
param_descrs::~param_descrs() {
dealloc(m_imp);
}
void param_descrs::insert(symbol const & name, param_kind k, char const * descr) {
m_imp->insert(name, k, descr);
}
void param_descrs::insert(char const * name, param_kind k, char const * descr) {
insert(symbol(name), k, descr);
}
void param_descrs::erase(symbol const & name) {
m_imp->erase(name);
}
void param_descrs::erase(char const * name) {
erase(symbol(name));
}
param_kind param_descrs::get_kind(symbol const & name) const {
return m_imp->get_kind(name);
}
param_kind param_descrs::get_kind(char const * name) const {
return get_kind(symbol(name));
}
unsigned param_descrs::size() const {
return m_imp->size();
}
symbol param_descrs::get_param_name(unsigned i) const {
return m_imp->get_param_name(i);
}
void param_descrs::display(std::ostream & out, unsigned indent) const {
return m_imp->display(out, indent);
}
void insert_max_memory(param_descrs & r) {
r.insert(":max-memory", CPK_UINT, "(default: infty) maximum amount of memory in megabytes.");
}
void insert_max_steps(param_descrs & r) {
r.insert(":max-steps", CPK_UINT, "(default: infty) maximum number of steps.");
}
void insert_produce_models(param_descrs & r) {
r.insert(":produce-models", CPK_BOOL, "(default: false) model generation.");
}
void insert_produce_proofs(param_descrs & r) {
r.insert(":produce-proofs", CPK_BOOL, "(default: false) proof generation.");
}
void insert_timeout(param_descrs & r) {
r.insert(":timeout", CPK_UINT, "(default: infty) timeout in milliseconds.");
}
class params {
friend class params_ref;
struct value {
param_kind m_kind;
union {
bool m_bool_value;
unsigned m_uint_value;
double m_double_value;
char const * m_str_value;
char const * m_sym_value;
rational * m_rat_value;
ast * m_ast_value;
};
};
typedef std::pair<symbol, value> entry;
ast_manager * m_manager;
svector<entry> m_entries;
unsigned m_ref_count;
void del_value(entry & e);
void del_values();
public:
params():m_manager(0), m_ref_count(0) {}
~params() {
reset();
}
void inc_ref() { m_ref_count++; }
void dec_ref() { SASSERT(m_ref_count > 0); m_ref_count--; if (m_ref_count == 0) dealloc(this); }
void set_manager(ast_manager & m);
bool empty() const { return m_entries.empty(); }
bool contains(symbol const & k) const;
bool contains(char const * k) const;
void reset();
void reset(symbol const & k);
void reset(char const * k);
void validate(param_descrs const & p) const {
svector<params::entry>::const_iterator it = m_entries.begin();
svector<params::entry>::const_iterator end = m_entries.end();
for (; it != end; ++it) {
param_kind expected = p.get_kind(it->first);
if (expected == CPK_INVALID)
throw default_exception("unknown parameter '%s'", it->first.str().c_str());
if (it->second.m_kind != expected)
throw default_exception("parameter kind mismatch '%s'", it->first.str().c_str());
}
}
// getters
bool get_bool(symbol const & k, bool _default) const;
bool get_bool(char const * k, bool _default) const;
unsigned get_uint(symbol const & k, unsigned _default) const;
unsigned get_uint(char const * k, unsigned _default) const;
double get_double(symbol const & k, double _default) const;
double get_double(char const * k, double _default) const;
char const * get_str(symbol const & k, char const * _default) const;
char const * get_str(char const * k, char const * _default) const;
rational get_rat(symbol const & k, rational const & _default) const;
rational get_rat(char const * k, rational const & _default) const;
symbol get_sym(symbol const & k, symbol const & _default) const;
symbol get_sym(char const * k, symbol const & _default) const;
expr * get_expr(symbol const & k, expr * _default) const;
expr * get_expr(char const * k, expr * _default) const;
func_decl * get_func_decl(symbol const & k, func_decl * _default) const;
func_decl * get_func_decl(char const * k, func_decl * _default) const;
sort * get_sort(symbol const & k, sort * _default) const;
sort * get_sort(char const * k, sort * _default) const;
// setters
void set_bool(symbol const & k, bool v);
void set_bool(char const * k, bool v);
void set_uint(symbol const & k, unsigned v);
void set_uint(char const * k, unsigned v);
void set_double(symbol const & k, double v);
void set_double(char const * k, double v);
void set_str(symbol const & k, char const * v);
void set_str(char const * k, char const * v);
void set_rat(symbol const & k, rational const & v);
void set_rat(char const * k, rational const & v);
void set_sym(symbol const & k, symbol const & v);
void set_sym(char const * k, symbol const & v);
void set_expr(symbol const & k, expr * v);
void set_expr(char const * k, expr * v);
void set_func_decl(symbol const & k, func_decl * v);
void set_func_decl(char const * k, func_decl * v);
void set_sort(symbol const & k, sort * v);
void set_sort(char const * k, sort * v);
void display(std::ostream & out) const {
out << "(params";
svector<params::entry>::const_iterator it = m_entries.begin();
svector<params::entry>::const_iterator end = m_entries.end();
for (; it != end; ++it) {
out << " " << it->first;
switch (it->second.m_kind) {
case CPK_BOOL:
out << " " << it->second.m_bool_value;
break;
case CPK_UINT:
out << " " <<it->second.m_uint_value;
break;
case CPK_DOUBLE:
out << " " << it->second.m_double_value;
break;
case CPK_NUMERAL:
out << " " << *(it->second.m_rat_value);
break;
case CPK_SYMBOL:
out << " " << symbol::mk_symbol_from_c_ptr(it->second.m_sym_value);
break;
case CPK_STRING:
out << " " << it->second.m_str_value;
break;
case CPK_EXPR:
case CPK_FUNC_DECL:
case CPK_SORT:
out << " #" << it->second.m_ast_value->get_id();
break;
default:
UNREACHABLE();
break;
}
}
out << ")";
}
};
params_ref::~params_ref() {
if (m_params)
m_params->dec_ref();
}
params_ref::params_ref(params_ref const & p):
m_params(0) {
operator=(p);
}
void params_ref::display(std::ostream & out) const {
if (m_params)
m_params->display(out);
else
out << "(params)";
}
void params_ref::validate(param_descrs const & p) const {
if (m_params)
m_params->validate(p);
}
params_ref & params_ref::operator=(params_ref const & p) {
if (p.m_params)
p.m_params->inc_ref();
if (m_params)
m_params->dec_ref();
m_params = p.m_params;
return *this;
}
void params_ref::copy(params_ref const & src) {
if (m_params == 0)
operator=(src);
else {
init();
copy_core(src.m_params);
}
}
void params_ref::copy_core(params const * src) {
if (src == 0)
return;
svector<params::entry>::const_iterator it = src->m_entries.begin();
svector<params::entry>::const_iterator end = src->m_entries.end();
for (; it != end; ++it) {
switch (it->second.m_kind) {
case CPK_BOOL:
m_params->set_bool(it->first, it->second.m_bool_value);
break;
case CPK_UINT:
m_params->set_uint(it->first, it->second.m_uint_value);
break;
case CPK_DOUBLE:
m_params->set_double(it->first, it->second.m_double_value);
break;
case CPK_NUMERAL:
m_params->set_rat(it->first, *(it->second.m_rat_value));
break;
case CPK_SYMBOL:
m_params->set_sym(it->first, symbol::mk_symbol_from_c_ptr(it->second.m_sym_value));
break;
case CPK_STRING:
m_params->set_str(it->first, it->second.m_str_value);
break;
case CPK_EXPR:
m_params->set_expr(it->first, static_cast<expr*>(it->second.m_ast_value));
break;
case CPK_FUNC_DECL:
m_params->set_func_decl(it->first, static_cast<func_decl*>(it->second.m_ast_value));
break;
case CPK_SORT:
m_params->set_sort(it->first, static_cast<sort*>(it->second.m_ast_value));
break;
default:
UNREACHABLE();
break;
}
}
}
void params_ref::init() {
if (!m_params) {
m_params = alloc(params);
m_params->inc_ref();
}
else if (m_params->m_ref_count > 1) {
params * old = m_params;
m_params = alloc(params);
m_params->inc_ref();
m_params->m_manager = old->m_manager;
copy_core(old);
old->dec_ref();
}
SASSERT(m_params->m_ref_count == 1);
}
bool params_ref::get_bool(symbol const & k, bool _default) const { return m_params ? m_params->get_bool(k, _default) : _default; }
bool params_ref::get_bool(char const * k, bool _default) const { return m_params ? m_params->get_bool(k, _default) : _default; }
unsigned params_ref::get_uint(symbol const & k, unsigned _default) const { return m_params ? m_params->get_uint(k, _default) : _default; }
unsigned params_ref::get_uint(char const * k, unsigned _default) const { return m_params ? m_params->get_uint(k, _default) : _default; }
double params_ref::get_double(symbol const & k, double _default) const { return m_params ? m_params->get_double(k, _default) : _default; }
double params_ref::get_double(char const * k, double _default) const { return m_params ? m_params->get_double(k, _default) : _default; }
char const * params_ref::get_str(symbol const & k, char const * _default) const { return m_params ? m_params->get_str(k, _default) : _default; }
char const * params_ref::get_str(char const * k, char const * _default) const { return m_params ? m_params->get_str(k, _default) : _default; }
expr * params_ref::get_expr(symbol const & k, expr * _default) const { return m_params ? m_params->get_expr(k, _default) : _default; }
expr * params_ref::get_expr(char const * k, expr * _default) const { return m_params ? m_params->get_expr(k, _default) : _default; }
func_decl * params_ref::get_func_decl(symbol const & k, func_decl * _default) const { return m_params ? m_params->get_func_decl(k, _default) : _default; }
func_decl * params_ref::get_func_decl(char const * k, func_decl * _default) const { return m_params ? m_params->get_func_decl(k, _default) : _default; }
sort * params_ref::get_sort(symbol const & k, sort * _default) const { return m_params ? m_params->get_sort(k, _default) : _default; }
sort * params_ref::get_sort(char const * k, sort * _default) const { return m_params ? m_params->get_sort(k, _default) : _default; }
rational params_ref::get_rat(symbol const & k, rational const & _default) const {
return m_params ? m_params->get_rat(k, _default) : _default;
}
rational params_ref::get_rat(char const * k, rational const & _default) const {
return m_params ? m_params->get_rat(k, _default) : _default;
}
symbol params_ref::get_sym(symbol const & k, symbol const & _default) const {
return m_params ? m_params->get_sym(k, _default) : _default;
}
symbol params_ref::get_sym(char const * k, symbol const & _default) const {
return m_params ? m_params->get_sym(k, _default) : _default;
}
void params_ref::set_manager(ast_manager & m) {
init();
m_params->set_manager(m);
}
bool params_ref::empty() const {
if (!m_params)
return true;
return m_params->empty();
}
bool params_ref::contains(symbol const & k) const {
if (!m_params)
return false;
return m_params->contains(k);
}
bool params_ref::contains(char const * k) const {
if (!m_params)
return false;
return m_params->contains(k);
}
void params_ref::reset() {
if (m_params)
m_params->reset();
}
void params_ref::reset(symbol const & k) {
if (m_params)
m_params->reset(k);
}
void params_ref::reset(char const * k) {
if (m_params)
m_params->reset(k);
}
void params_ref::set_bool(symbol const & k, bool v) {
init();
m_params->set_bool(k, v);
}
void params_ref::set_bool(char const * k, bool v) {
init();
m_params->set_bool(k, v);
}
void params_ref::set_uint(symbol const & k, unsigned v) {
init();
m_params->set_uint(k, v);
}
void params_ref::set_uint(char const * k, unsigned v) {
init();
m_params->set_uint(k, v);
}
void params_ref::set_double(symbol const & k, double v) {
init();
m_params->set_double(k, v);
}
void params_ref::set_double(char const * k, double v) {
init();
m_params->set_double(k, v);
}
void params_ref::set_str(symbol const & k, char const * v) {
init();
m_params->set_str(k, v);
}
void params_ref::set_str(char const * k, char const * v) {
init();
m_params->set_str(k, v);
}
void params_ref::set_rat(symbol const & k, rational const & v) {
init();
m_params->set_rat(k, v);
}
void params_ref::set_rat(char const * k, rational const & v) {
init();
m_params->set_rat(k, v);
}
void params_ref::set_sym(symbol const & k, symbol const & v) {
init();
m_params->set_sym(k, v);
}
void params_ref::set_sym(char const * k, symbol const & v) {
init();
m_params->set_sym(k, v);
}
void params_ref::set_expr(symbol const & k, expr * v) {
init();
m_params->set_expr(k, v);
}
void params_ref::set_expr(char const * k, expr * v) {
init();
m_params->set_expr(k, v);
}
void params_ref::set_func_decl(symbol const & k, func_decl * v) {
init();
m_params->set_func_decl(k, v);
}
void params_ref::set_func_decl(char const * k, func_decl * v) {
init();
m_params->set_func_decl(k, v);
}
void params_ref::set_sort(symbol const & k, sort * v) {
init();
m_params->set_sort(k, v);
}
void params_ref::set_sort(char const * k, sort * v) {
init();
m_params->set_sort(k, v);
}
void params::del_value(entry & e) {
switch (e.second.m_kind) {
case CPK_NUMERAL:
if (e.second.m_kind == CPK_NUMERAL)
dealloc(e.second.m_rat_value);
break;
case CPK_EXPR:
case CPK_SORT:
case CPK_FUNC_DECL:
SASSERT(m_manager);
m_manager->dec_ref(e.second.m_ast_value);
return;
default:
return;
}
}
void params::set_manager(ast_manager & m) {
m_manager = &m;
}
#define TRAVERSE_ENTRIES(CODE) { \
svector<entry>::iterator it = m_entries.begin(); \
svector<entry>::iterator end = m_entries.end(); \
for (; it != end; ++it) { \
CODE \
} \
}
#define TRAVERSE_CONST_ENTRIES(CODE) { \
svector<entry>::const_iterator it = m_entries.begin(); \
svector<entry>::const_iterator end = m_entries.end(); \
for (; it != end; ++it) { \
CODE \
} \
}
void params::del_values() {
TRAVERSE_ENTRIES(del_value(*it););
}
#define CONTAINS(k) { \
if (empty()) \
return false; \
TRAVERSE_CONST_ENTRIES(if (it->first == k) return true;); \
return false; \
}
bool params::contains(symbol const & k) const {
CONTAINS(k);
}
bool params::contains(char const * k) const {
CONTAINS(k);
}
void params::reset() {
del_values();
m_entries.finalize();
SASSERT(empty());
}
#define RESET(k) { \
if (empty()) return; \
TRAVERSE_ENTRIES(if (it->first == k) { \
svector<entry>::iterator it2 = it; \
del_value(*it2); \
++it; \
for (; it != end; ++it, ++it2) { \
*it2 = *it; \
} \
m_entries.pop_back(); \
return; \
}); \
}
void params::reset(symbol const & k) {
RESET(k);
}
void params::reset(char const * k) {
RESET(k);
}
#define GET_VALUE(MATCH_CODE, KIND) { \
if (empty()) return _default; \
TRAVERSE_CONST_ENTRIES(if (it->first == k && it->second.m_kind == KIND) { \
MATCH_CODE \
}); \
return _default; \
}
#define GET_SIMPLE_VALUE(FIELD_NAME, KIND) GET_VALUE(return it->second.FIELD_NAME;, KIND)
bool params::get_bool(symbol const & k, bool _default) const {
GET_SIMPLE_VALUE(m_bool_value, CPK_BOOL);
}
bool params::get_bool(char const * k, bool _default) const {
GET_SIMPLE_VALUE(m_bool_value, CPK_BOOL);
}
unsigned params::get_uint(symbol const & k, unsigned _default) const {
GET_SIMPLE_VALUE(m_uint_value, CPK_UINT);
}
unsigned params::get_uint(char const * k, unsigned _default) const {
GET_SIMPLE_VALUE(m_uint_value, CPK_UINT);
}
double params::get_double(symbol const & k, double _default) const {
GET_SIMPLE_VALUE(m_double_value, CPK_DOUBLE);
}
double params::get_double(char const * k, double _default) const {
GET_SIMPLE_VALUE(m_double_value, CPK_DOUBLE);
}
char const * params::get_str(symbol const & k, char const * _default) const {
GET_SIMPLE_VALUE(m_str_value, CPK_STRING);
}
char const * params::get_str(char const * k, char const * _default) const {
GET_SIMPLE_VALUE(m_str_value, CPK_STRING);
}
rational params::get_rat(symbol const & k, rational const & _default) const {
if (empty()) return _default;
TRAVERSE_CONST_ENTRIES(if (it->first == k) {
if (it->second.m_kind == CPK_NUMERAL) {
return *(it->second.m_rat_value);
}
if (it->second.m_kind == CPK_UINT) {
return rational(static_cast<int>(it->second.m_uint_value));
}
});
return _default;
}
rational params::get_rat(char const * k, rational const & _default) const {
if (empty()) return _default;
TRAVERSE_CONST_ENTRIES(if (it->first == k) {
if (it->second.m_kind == CPK_NUMERAL) {
return *(it->second.m_rat_value);
}
if (it->second.m_kind == CPK_UINT) {
return rational(static_cast<int>(it->second.m_uint_value));
}
});
return _default;
}
symbol params::get_sym(symbol const & k, symbol const & _default) const {
GET_VALUE(return symbol::mk_symbol_from_c_ptr(it->second.m_sym_value);, CPK_SYMBOL);
}
symbol params::get_sym(char const * k, symbol const & _default) const {
GET_VALUE(return symbol::mk_symbol_from_c_ptr(it->second.m_sym_value);, CPK_SYMBOL);
}
expr * params::get_expr(symbol const & k, expr * _default) const {
GET_VALUE(return static_cast<expr*>(it->second.m_ast_value);, CPK_EXPR);
}
expr * params::get_expr(char const * k, expr * _default) const {
GET_VALUE(return static_cast<expr*>(it->second.m_ast_value);, CPK_EXPR);
}
func_decl * params::get_func_decl(symbol const & k, func_decl * _default) const {
GET_VALUE(return static_cast<func_decl*>(it->second.m_ast_value);, CPK_FUNC_DECL);
}
func_decl * params::get_func_decl(char const * k, func_decl * _default) const {
GET_VALUE(return static_cast<func_decl*>(it->second.m_ast_value);, CPK_FUNC_DECL);
}
sort * params::get_sort(symbol const & k, sort * _default) const {
GET_VALUE(return static_cast<sort*>(it->second.m_ast_value);, CPK_SORT);
}
sort * params::get_sort(char const * k, sort * _default) const {
GET_VALUE(return static_cast<sort*>(it->second.m_ast_value);, CPK_SORT);
}
#define SET_VALUE(MATCH_CODE, ADD_CODE) { \
TRAVERSE_ENTRIES(if (it->first == k) { \
MATCH_CODE \
return; \
}); \
ADD_CODE \
}
#define SET_SIMPLE_VALUE(FIELD_NAME, KIND) SET_VALUE({ \
del_value(*it); \
it->second.m_kind = KIND; \
it->second.FIELD_NAME = v; \
}, \
{ \
entry new_entry; \
new_entry.first = symbol(k); \
new_entry.second.m_kind = KIND; \
new_entry.second.FIELD_NAME = v; \
m_entries.push_back(new_entry); \
})
// setters
void params::set_bool(symbol const & k, bool v) {
SET_SIMPLE_VALUE(m_bool_value, CPK_BOOL);
}
void params::set_bool(char const * k, bool v) {
SET_SIMPLE_VALUE(m_bool_value, CPK_BOOL);
}
void params::set_uint(symbol const & k, unsigned v) {
SET_SIMPLE_VALUE(m_uint_value, CPK_UINT);
}
void params::set_uint(char const * k, unsigned v) {
SET_SIMPLE_VALUE(m_uint_value, CPK_UINT);
}
void params::set_double(symbol const & k, double v) {
SET_SIMPLE_VALUE(m_double_value, CPK_DOUBLE);
}
void params::set_double(char const * k, double v) {
SET_SIMPLE_VALUE(m_double_value, CPK_DOUBLE);
}
void params::set_str(symbol const & k, char const * v) {
SET_SIMPLE_VALUE(m_str_value, CPK_STRING);
}
void params::set_str(char const * k, char const * v) {
SET_SIMPLE_VALUE(m_str_value, CPK_STRING);
}
#define SET_RAT_VALUE() SET_VALUE({ \
if (it->second.m_kind != CPK_NUMERAL) { \
del_value(*it); \
it->second.m_kind = CPK_NUMERAL; \
it->second.m_rat_value = alloc(rational); \
} \
*(it->second.m_rat_value) = v; \
}, \
{ \
entry new_entry; \
new_entry.first = symbol(k); \
new_entry.second.m_kind = CPK_NUMERAL; \
new_entry.second.m_rat_value = alloc(rational); \
*(new_entry.second.m_rat_value) = v; \
m_entries.push_back(new_entry); \
})
void params::set_rat(symbol const & k, rational const & v) {
SET_RAT_VALUE();
}
void params::set_rat(char const * k, rational const & v) {
SET_RAT_VALUE();
}
#define SET_SYM_VALUE() SET_VALUE({ \
del_value(*it); \
it->second.m_kind = CPK_SYMBOL; \
it->second.m_sym_value = v.bare_str(); \
}, \
{ \
entry new_entry; \
new_entry.first = symbol(k); \
new_entry.second.m_kind = CPK_SYMBOL; \
new_entry.second.m_sym_value = v.bare_str(); \
m_entries.push_back(new_entry); \
})
void params::set_sym(symbol const & k, symbol const & v) {
SET_SYM_VALUE();
}
void params::set_sym(char const * k, symbol const & v) {
SET_SYM_VALUE();
}
#define SET_AST_VALUE(KIND) { \
SASSERT(m_manager); \
m_manager->inc_ref(v); \
SET_VALUE({ \
del_value(*it); \
it->second.m_kind = KIND; \
it->second.m_ast_value = v; \
}, \
{ \
entry new_entry; \
new_entry.first = symbol(k); \
new_entry.second.m_kind = KIND; \
new_entry.second.m_ast_value = v; \
m_entries.push_back(new_entry); \
})}
void params::set_expr(symbol const & k, expr * v) {
SET_AST_VALUE(CPK_EXPR);
}
void params::set_expr(char const * k, expr * v) {
SET_AST_VALUE(CPK_EXPR);
}
void params::set_func_decl(symbol const & k, func_decl * v) {
SET_AST_VALUE(CPK_FUNC_DECL);
}
void params::set_func_decl(char const * k, func_decl * v) {
SET_AST_VALUE(CPK_FUNC_DECL);
}
void params::set_sort(symbol const & k, sort * v) {
SET_AST_VALUE(CPK_SORT);
}
void params::set_sort(char const * k, sort * v) {
SET_AST_VALUE(CPK_SORT);
}
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