%{
/*****************************************************************************/
/*!
* \file smtlib.y
*
* Author: Clark Barrett
*
* Created: Apr 30 2005
*
*
*
* License to use, copy, modify, sell and/or distribute this software
* and its documentation for any purpose is hereby granted without
* royalty, subject to the terms and conditions defined in the \ref
* LICENSE file provided with this distribution.
*
*
*
*/
/*****************************************************************************/
/*
This file contains the bison code for the parser that reads in CVC
commands in SMT-LIB language.
*/
#include "parser_temp.h"
#include "SMTParser.h"
#include "klee/Expr.h"
using namespace klee;
using namespace klee::expr;
// Exported shared data
namespace CVC3 {
extern ParserTemp* parserTemp;
}
// Define shortcuts for various things
#define TMP CVC3::parserTemp
#define EXPR CVC3::parserTemp->expr
//#define VC (CVC3::parserTemp->vc)
#define ARRAYSENABLED (CVC3::parserTemp->arrFlag)
#define BVENABLED (CVC3::parserTemp->bvFlag)
#define BVSIZE (CVC3::parserTemp->bvSize)
#define QUERYPARSED CVC3::parserTemp->queryParsed
// Suppress the bogus warning suppression in bison (it generates
// compile error)
#undef __GNUC_MINOR__
/* stuff that lives in smtlib.lex */
extern int smtliblex(void);
int smtliberror(const char *s)
{
std::ostringstream ss;
ss << CVC3::parserTemp->fileName << ":" << CVC3::parserTemp->lineNum
<< ": " << s;
return CVC3::parserTemp->error(ss.str());
}
#define YYLTYPE_IS_TRIVIAL 1
#define YYMAXDEPTH 10485760
%}
/*
%union {
std::string *str;
std::vector *strvec;
CVC3::Expr *node;
std::vector *vec;
std::pair, std::vector > *pat_ann;
};
*/
%union {
std::string *str;
klee::expr::ExprHandle node;
};
%start cmd
/* strings are for better error messages.
"_TOK" is so macros don't conflict with kind names */
/*
%type bench_attributes sort_symbs fun_symb_decls pred_symb_decls
%type an_formulas quant_vars an_terms fun_symb patterns
%type pattern
%type benchmark bench_name bench_attribute
%type status fun_symb_decl fun_sig pred_symb_decl pred_sig
%type an_formula quant_var an_atom prop_atom
%type an_term basic_term sort_symb pred_symb
%type var fvar
%type logic_name quant_symb connective user_value attribute annotation
%type annotations
%type patterns_annotations
*/
%type benchmark bench_name bench_attribute bench_attributes
%type an_formula an_atom prop_atom
%token NUMERAL_TOK
%token SYM_TOK
%token STRING_TOK
%token AR_SYMB
%token USER_VAL_TOK
%token TRUE_TOK
%token FALSE_TOK
%token ITE_TOK
%token NOT_TOK
%token IMPLIES_TOK
%token IF_THEN_ELSE_TOK
%token AND_TOK
%token OR_TOK
%token XOR_TOK
%token IFF_TOK
%token EXISTS_TOK
%token FORALL_TOK
%token LET_TOK
%token FLET_TOK
%token NOTES_TOK
%token CVC_COMMAND_TOK
%token SORTS_TOK
%token FUNS_TOK
%token PREDS_TOK
%token EXTENSIONS_TOK
%token DEFINITION_TOK
%token AXIOMS_TOK
%token LOGIC_TOK
%token COLON_TOK
%token LBRACKET_TOK
%token RBRACKET_TOK
%token LCURBRACK_TOK
%token RCURBRACK_TOK
%token LPAREN_TOK
%token RPAREN_TOK
%token SAT_TOK
%token UNSAT_TOK
%token UNKNOWN_TOK
%token ASSUMPTION_TOK
%token FORMULA_TOK
%token STATUS_TOK
%token BENCHMARK_TOK
%token EXTRASORTS_TOK
%token EXTRAFUNS_TOK
%token EXTRAPREDS_TOK
%token LANGUAGE_TOK
%token DOLLAR_TOK
%token QUESTION_TOK
%token DISTINCT_TOK
%token SEMICOLON_TOK
%token EOF_TOK
%token PAT_TOK
%%
cmd:
benchmark
{
EXPR = $1;
YYACCEPT;
}
;
benchmark:
LPAREN_TOK BENCHMARK_TOK bench_name bench_attributes RPAREN_TOK
{
/*
if (!QUERYPARSED)
$4->push_back(CVC3::Expr(VC->listExpr("_CHECKSAT", CVC3::Expr(VC->idExpr("_TRUE_EXPR")))));
$$ = new CVC3::Expr(VC->listExpr("_SEQ",*$4));
delete $4;
*/
$$ = $4;
}
| EOF_TOK
{
TMP->done = true;
//$$ = new CVC3::Expr();
//$$ = ConstantExpr::create(1, 1);
$$ = ExprHandle();
}
;
bench_name:
SYM_TOK
{
$$ = NULL;
delete $1;
}
;
bench_attributes:
bench_attribute
{
$$ = $1;
}
/*
{
$$ = new std::vector;
if ($1) {
$$->push_back(*$1);
delete $1;
}
}
| bench_attributes bench_attribute
{
$$ = $1;
if ($2) {
$$->push_back(*$2);
delete $2;
}
}
*/
;
bench_attribute:
COLON_TOK ASSUMPTION_TOK an_formula
{
/*
$$ = new CVC3::Expr(VC->listExpr("_ASSERT", *$3));
delete $3;
*/
$$ = $3;
}
| COLON_TOK FORMULA_TOK an_formula
{
/*
$$ = new CVC3::Expr(VC->listExpr("_CHECKSAT", *$3));
QUERYPARSED = true;
delete $3;
*/
$$ = $3;
}
/*
| COLON_TOK STATUS_TOK status
{
$$ = NULL;
}
| COLON_TOK LOGIC_TOK logic_name
{
ARRAYSENABLED = false;
BVENABLED = false;
if (*$3 == "QF_UF") {
$$ = new CVC3::Expr(VC->listExpr("_TYPE", VC->idExpr("U")));
}
else if (*$3 == "QF_A" ||
*$3 == "QF_AX") {
ARRAYSENABLED = true;
std::vector tmp;
tmp.push_back(VC->listExpr("_TYPE", VC->idExpr("Index")));
tmp.push_back(VC->listExpr("_TYPE", VC->idExpr("Element")));
tmp.push_back(VC->listExpr("_TYPEDEF", VC->idExpr("Array"),
VC->listExpr("_ARRAY",
VC->idExpr("Index"),
VC->idExpr("Element"))));
$$ = new CVC3::Expr(VC->listExpr("_SEQ", tmp));
$$ = NULL;
}
else if (*$3 == "QF_AUFLIA" ||
*$3 == "AUFLIA") {
ARRAYSENABLED = true;
std::vector tmp;
tmp.push_back(VC->listExpr("_TYPEDEF", VC->idExpr("Array"),
VC->listExpr("_ARRAY",
VC->idExpr("_INT"),
VC->idExpr("_INT"))));
$$ = new CVC3::Expr(VC->listExpr("_SEQ", tmp));
}
else if (*$3 == "QF_AUFLIRA" ||
*$3 == "AUFLIRA" ||
*$3 == "QF_AUFNIRA" ||
*$3 == "AUFNIRA") {
ARRAYSENABLED = true;
std::vector tmp;
tmp.push_back(VC->listExpr("_TYPEDEF", VC->idExpr("Array1"),
VC->listExpr("_ARRAY",
VC->idExpr("_INT"),
VC->idExpr("_REAL"))));
tmp.push_back(VC->listExpr("_TYPEDEF", VC->idExpr("Array2"),
VC->listExpr("_ARRAY",
VC->idExpr("_INT"),
VC->idExpr("Array1"))));
$$ = new CVC3::Expr(VC->listExpr("_SEQ", tmp));
}
else if (*$3 == "QF_AUFBV" ||
*$3 == "QF_ABV") {
ARRAYSENABLED = true;
BVENABLED = true;
$$ = NULL;
// $$ = new CVC3::Expr(VC->listExpr("_TYPEDEF", VC->idExpr("Array"),
// VC->listExpr("_ARRAY",
// VC->listExpr("_BITVECTOR", VC->ratExpr(32)),
// VC->listExpr("_BITVECTOR", VC->ratExpr(8)))));
}
else if (*$3 == "QF_BV" ||
*$3 == "QF_UFBV") {
BVENABLED = true;
$$ = NULL;
}
// This enables the new arith for QF_LRA, but this results in assertion failures in DEBUG mode
else if (*$3 == "QF_LRA") {
$$ = new CVC3::Expr(VC->listExpr("_OPTION", VC->stringExpr("arith-new"), VC->ratExpr(1)));
}
else {
$$ = NULL;
}
delete $3;
}
| COLON_TOK EXTRASORTS_TOK LPAREN_TOK sort_symbs RPAREN_TOK
{
$$ = new CVC3::Expr(VC->listExpr("_TYPE", *$4));
delete $4;
}
| COLON_TOK EXTRAFUNS_TOK LPAREN_TOK fun_symb_decls RPAREN_TOK
{
$$ = new CVC3::Expr(VC->listExpr("_SEQ", *$4));
delete $4;
}
| COLON_TOK EXTRAPREDS_TOK LPAREN_TOK pred_symb_decls RPAREN_TOK
{
$$ = new CVC3::Expr(VC->listExpr("_SEQ", *$4));
delete $4;
}
| COLON_TOK NOTES_TOK STRING_TOK
{
$$ = NULL;
delete $3;
}
| COLON_TOK CVC_COMMAND_TOK STRING_TOK
{
$$ = new CVC3::Expr(VC->listExpr(VC->idExpr("_"+*$3)));
delete $3;
}
| annotation
{
$$ = NULL;
delete $1;
}
*/
;
/*
logic_name:
SYM_TOK LBRACKET_TOK NUMERAL_TOK RBRACKET_TOK
{
BVSIZE = atoi($3->c_str());
delete $3;
$$ = $1;
}
| SYM_TOK
{
$$ = $1;
}
;
status:
SAT_TOK { $$ = NULL; }
| UNSAT_TOK { $$ = NULL; }
| UNKNOWN_TOK { $$ = NULL; }
;
sort_symbs:
sort_symb
{
$$ = new std::vector;
$$->push_back(*$1);
delete $1;
}
| sort_symbs sort_symb
{
$1->push_back(*$2);
$$ = $1;
delete $2;
}
;
fun_symb_decls:
fun_symb_decl
{
$$ = new std::vector;
$$->push_back(*$1);
delete $1;
}
|
fun_symb_decls fun_symb_decl
{
$1->push_back(*$2);
$$ = $1;
delete $2;
}
;
fun_symb_decl:
LPAREN_TOK fun_sig annotations RPAREN_TOK
{
$$ = $2;
delete $3;
}
| LPAREN_TOK fun_sig RPAREN_TOK
{
$$ = $2;
}
;
fun_sig:
fun_symb sort_symbs
{
if ($2->size() == 1) {
$$ = new CVC3::Expr(VC->listExpr("_CONST", VC->listExpr(*$1), (*$2)[0]));
}
else {
CVC3::Expr tmp(VC->listExpr("_ARROW", *$2));
$$ = new CVC3::Expr(VC->listExpr("_CONST", VC->listExpr(*$1), tmp));
}
delete $1;
delete $2;
}
;
pred_symb_decls:
pred_symb_decl
{
$$ = new std::vector;
$$->push_back(*$1);
delete $1;
}
|
pred_symb_decls pred_symb_decl
{
$1->push_back(*$2);
$$ = $1;
delete $2;
}
;
pred_symb_decl:
LPAREN_TOK pred_sig annotations RPAREN_TOK
{
$$ = $2;
delete $3;
}
| LPAREN_TOK pred_sig RPAREN_TOK
{
$$ = $2;
}
;
pred_sig:
pred_symb sort_symbs
{
std::vector tmp(*$2);
tmp.push_back(VC->idExpr("_BOOLEAN"));
CVC3::Expr tmp2(VC->listExpr("_ARROW", tmp));
$$ = new CVC3::Expr(VC->listExpr("_CONST", VC->listExpr(*$1), tmp2));
delete $1;
delete $2;
}
| pred_symb
{
$$ = new CVC3::Expr(VC->listExpr("_CONST", VC->listExpr(*$1),
VC->idExpr("_BOOLEAN")));
delete $1;
}
;
an_formulas:
an_formula
{
$$ = new std::vector;
$$->push_back(*$1);
delete $1;
}
|
an_formulas an_formula
{
$1->push_back(*$2);
$$ = $1;
delete $2;
}
;
*/
an_formula:
an_atom
{
$$ = $1;
}
/*
| LPAREN_TOK connective an_formulas annotations RPAREN_TOK
{
$$ = new CVC3::Expr(VC->listExpr(*$2, *$3));
delete $2;
delete $3;
delete $4;
}
| LPAREN_TOK connective an_formulas RPAREN_TOK
{
$$ = new CVC3::Expr(VC->listExpr(*$2, *$3));
delete $2;
delete $3;
}
| LPAREN_TOK quant_symb quant_vars an_formula annotations RPAREN_TOK
{
$$ = new CVC3::Expr(VC->listExpr(*$2, VC->listExpr(*$3), *$4));
delete $2;
delete $3;
delete $4;
delete $5;
}
| LPAREN_TOK quant_symb quant_vars an_formula RPAREN_TOK
{
$$ = new CVC3::Expr(VC->listExpr(*$2, VC->listExpr(*$3), *$4));
delete $2;
delete $3;
delete $4;
}
| LPAREN_TOK quant_symb quant_vars an_formula patterns_annotations RPAREN_TOK
{
$$ = new CVC3::Expr(VC->listExpr(*$2, VC->listExpr(*$3), *$4, VC->listExpr((*$5).first)));
delete $2;
delete $3;
delete $4;
delete $5;
}
| LPAREN_TOK LET_TOK LPAREN_TOK var an_term RPAREN_TOK an_formula annotations RPAREN_TOK
{
CVC3::Expr e(VC->listExpr(VC->listExpr(*$4, *$5)));
$$ = new CVC3::Expr(VC->listExpr("_LET", e, *$7));
delete $4;
delete $5;
delete $7;
delete $8;
}
| LPAREN_TOK LET_TOK LPAREN_TOK var an_term RPAREN_TOK an_formula RPAREN_TOK
{
CVC3::Expr e(VC->listExpr(VC->listExpr(*$4, *$5)));
$$ = new CVC3::Expr(VC->listExpr("_LET", e, *$7));
delete $4;
delete $5;
delete $7;
}
| LPAREN_TOK FLET_TOK LPAREN_TOK fvar an_formula RPAREN_TOK an_formula annotations RPAREN_TOK
{
CVC3::Expr e(VC->listExpr(VC->listExpr(*$4, *$5)));
$$ = new CVC3::Expr(VC->listExpr("_LET", e, *$7));
delete $4;
delete $5;
delete $7;
delete $8;
}
| LPAREN_TOK FLET_TOK LPAREN_TOK fvar an_formula RPAREN_TOK an_formula RPAREN_TOK
{
CVC3::Expr e(VC->listExpr(VC->listExpr(*$4, *$5)));
$$ = new CVC3::Expr(VC->listExpr("_LET", e, *$7));
delete $4;
delete $5;
delete $7;
}
*/
;
/*
patterns_annotations:
patterns
{
$$ = new std::pair, std::vector >;
$$->first = *$1;
delete $1;
}
| annotation
{
$$ = new std::pair, std::vector >;
$$->second.push_back(*$1);
delete $1;
}
| patterns_annotations patterns
{
$1->first.insert($1->first.end(), $2->begin(), $2->end());
$$ = $1;
delete $2;
}
| patterns_annotations annotation
{
$1->second.push_back(*$2);
$$ = $1;
delete $2;
}
patterns:
pattern
{
$$ = new std::vector;
$$->push_back(*$1);
delete $1;
}
| patterns pattern
{
$1->push_back(*$2);
$$ = $1;
delete $2;
}
pattern:
PAT_TOK LCURBRACK_TOK an_terms RCURBRACK_TOK
{
$$ = new CVC3::Expr(VC->listExpr(*$3));
delete $3;
}
| PAT_TOK LCURBRACK_TOK an_formulas RCURBRACK_TOK
{
$$ = new CVC3::Expr(VC->listExpr(*$3));
delete $3;
}
quant_vars:
quant_var
{
$$ = new std::vector;
$$->push_back(*$1);
delete $1;
}
| quant_vars quant_var
{
$1->push_back(*$2);
$$ = $1;
delete $2;
}
;
quant_var:
LPAREN_TOK var sort_symb RPAREN_TOK
{
$$ = new CVC3::Expr(VC->listExpr(*$2, *$3));
delete $2;
delete $3;
}
;
quant_symb:
EXISTS_TOK
{
$$ = new std::string("_EXISTS");
}
| FORALL_TOK
{
$$ = new std::string("_FORALL");
}
;
connective:
NOT_TOK
{
$$ = new std::string("_NOT");
}
| IMPLIES_TOK
{
$$ = new std::string("_IMPLIES");
}
| IF_THEN_ELSE_TOK
{
$$ = new std::string("_IF");
}
| AND_TOK
{
$$ = new std::string("_AND");
}
| OR_TOK
{
$$ = new std::string("_OR");
}
| XOR_TOK
{
$$ = new std::string("_XOR");
}
| IFF_TOK
{
$$ = new std::string("_IFF");
}
;
*/
an_atom:
prop_atom
{
$$ = $1;
}
/*
| LPAREN_TOK prop_atom annotations RPAREN_TOK
{
$$ = $2;
delete $3;
}
| LPAREN_TOK pred_symb an_terms annotations RPAREN_TOK
{
if ($4->size() == 1 && (*$4)[0] == "transclose" &&
$3->size() == 2) {
$$ = new CVC3::Expr(VC->listExpr("_TRANS_CLOSURE",
*$2, (*$3)[0], (*$3)[1]));
}
else {
std::vector tmp;
tmp.push_back(*$2);
tmp.insert(tmp.end(), $3->begin(), $3->end());
$$ = new CVC3::Expr(VC->listExpr(tmp));
}
delete $2;
delete $3;
delete $4;
}
| LPAREN_TOK pred_symb an_terms RPAREN_TOK
{
std::vector tmp;
tmp.push_back(*$2);
tmp.insert(tmp.end(), $3->begin(), $3->end());
$$ = new CVC3::Expr(VC->listExpr(tmp));
delete $2;
delete $3;
}
| LPAREN_TOK DISTINCT_TOK an_terms annotations RPAREN_TOK
{
$$ = new CVC3::Expr(VC->listExpr("_DISTINCT", *$3));
// std::vector tmp;
// tmp.push_back(*$2);
// tmp.insert(tmp.end(), $3->begin(), $3->end());
// $$ = new CVC3::Expr(VC->listExpr(tmp));
// for (unsigned i = 0; i < (*$3).size(); ++i) {
// tmp.push_back(($3)[i])
// for (unsigned j = i+1; j < (*$3).size(); ++j) {
// tmp.push_back(VC->listExpr("_NEQ", (*$3)[i], (*$3)[j]));
// }
// }
// $$ = new CVC3::Expr(VC->listExpr("_AND", tmp));
delete $3;
delete $4;
}
| LPAREN_TOK DISTINCT_TOK an_terms RPAREN_TOK
{
$$ = new CVC3::Expr(VC->listExpr("_DISTINCT", *$3));
// std::vector tmp;
// for (unsigned i = 0; i < (*$3).size(); ++i) {
// for (unsigned j = i+1; j < (*$3).size(); ++j) {
// tmp.push_back(VC->listExpr("_NEQ", (*$3)[i], (*$3)[j]));
// }
// }
// $$ = new CVC3::Expr(VC->listExpr("_AND", tmp));
delete $3;
}
*/
;
prop_atom:
TRUE_TOK
{
//$$ = new CVC3::Expr(VC->idExpr("_TRUE_EXPR"));
$$ = ConstantExpr::create(1, 1);
}
| FALSE_TOK
{
//$$ = new CVC3::Expr(VC->idExpr("_FALSE_EXPR"));
$$ = ConstantExpr::create(0, 1);;
}
/*
| fvar
{
$$ = $1;
}
| pred_symb
{
$$ = $1;
}
*/
;
/*
an_terms:
an_term
{
$$ = new std::vector;
$$->push_back(*$1);
delete $1;
}
| an_terms an_term
{
$1->push_back(*$2);
$$ = $1;
delete $2;
}
;
an_term:
basic_term
{
$$ = $1;
}
| LPAREN_TOK basic_term annotations RPAREN_TOK
{
$$ = $2;
delete $3;
}
| LPAREN_TOK fun_symb an_terms annotations RPAREN_TOK
{
$2->insert($2->end(), $3->begin(), $3->end());
$$ = new CVC3::Expr(VC->listExpr(*$2));
delete $2;
delete $3;
delete $4;
}
| LPAREN_TOK fun_symb an_terms RPAREN_TOK
{
$2->insert($2->end(), $3->begin(), $3->end());
$$ = new CVC3::Expr(VC->listExpr(*$2));
delete $2;
delete $3;
}
| LPAREN_TOK ITE_TOK an_formula an_term an_term annotations RPAREN_TOK
{
$$ = new CVC3::Expr(VC->listExpr("_IF", *$3, *$4, *$5));
delete $3;
delete $4;
delete $5;
delete $6;
}
| LPAREN_TOK ITE_TOK an_formula an_term an_term RPAREN_TOK
{
$$ = new CVC3::Expr(VC->listExpr("_IF", *$3, *$4, *$5));
delete $3;
delete $4;
delete $5;
}
;
basic_term:
| TRUE_TOK
{
$$ = new CVC3::Expr(VC->idExpr("_TRUE_EXPR"));
}
| FALSE_TOK
{
$$ = new CVC3::Expr(VC->idExpr("_FALSE_EXPR"));
}
| fvar
{
$$ = $1;
}
| var
{
$$ = $1;
}
| fun_symb
{
if ($1->size() == 1) {
$$ = new CVC3::Expr(((*$1)[0]));
}
else {
$$ = new CVC3::Expr(VC->listExpr(*$1));
}
delete $1;
}
;
annotations:
annotation
{
$$ = new std::vector;
$$->push_back(*$1);
delete $1;
}
| annotations annotation
{
$1->push_back(*$2);
$$ = $1;
delete $2;
}
;
annotation:
attribute
{ $$ = $1; }
| attribute user_value
{ $$ = $1; }
;
user_value:
USER_VAL_TOK
{
$$ = NULL;
delete $1;
}
;
sort_symb:
SYM_TOK LBRACKET_TOK NUMERAL_TOK RBRACKET_TOK
{
if (BVENABLED && *$1 == "BitVec") {
$$ = new CVC3::Expr(VC->listExpr("_BITVECTOR", VC->ratExpr(*$3)));
}
else {
$$ = new CVC3::Expr(VC->listExpr(*$1, VC->ratExpr(*$3)));
}
delete $1;
delete $3;
}
| SYM_TOK LBRACKET_TOK NUMERAL_TOK COLON_TOK NUMERAL_TOK RBRACKET_TOK
{
if (BVENABLED && ARRAYSENABLED && *$1 == "Array") {
$$ = new CVC3::Expr(VC->listExpr("_ARRAY",
VC->listExpr("_BITVECTOR", VC->ratExpr(*$3)),
VC->listExpr("_BITVECTOR", VC->ratExpr(*$5))));
}
else {
$$ = new CVC3::Expr(VC->listExpr(*$1, VC->ratExpr(*$3), VC->ratExpr(*$5)));
}
delete $1;
delete $3;
delete $5;
}
| SYM_TOK
{
if (*$1 == "Real") {
$$ = new CVC3::Expr(VC->idExpr("_REAL"));
} else if (*$1 == "Int") {
$$ = new CVC3::Expr(VC->idExpr("_INT"));
} else {
$$ = new CVC3::Expr(VC->idExpr(*$1));
}
delete $1;
}
;
pred_symb:
SYM_TOK
{
if (BVENABLED && (*$1 == "bvlt" || *$1 == "bvult")) {
$$ = new CVC3::Expr(VC->idExpr("_BVLT"));
}
else if (BVENABLED && (*$1 == "bvleq" || *$1 == "bvule")) {
$$ = new CVC3::Expr(VC->idExpr("_BVLE"));
}
else if (BVENABLED && (*$1 == "bvgeq" || *$1 == "bvuge")) {
$$ = new CVC3::Expr(VC->idExpr("_BVGE"));
}
else if (BVENABLED && (*$1 == "bvgt" || *$1 == "bvugt")) {
$$ = new CVC3::Expr(VC->idExpr("_BVGT"));
}
else if (BVENABLED && *$1 == "bvslt") {
$$ = new CVC3::Expr(VC->idExpr("_BVSLT"));
}
else if (BVENABLED && (*$1 == "bvsleq" || *$1 == "bvsle")) {
$$ = new CVC3::Expr(VC->idExpr("_BVSLE"));
}
else if (BVENABLED && (*$1 == "bvsgeq" || *$1 == "bvsge")) {
$$ = new CVC3::Expr(VC->idExpr("_BVSGE"));
}
else if (BVENABLED && *$1 == "bvsgt") {
$$ = new CVC3::Expr(VC->idExpr("_BVSGT"));
}
else {
$$ = new CVC3::Expr(VC->idExpr(*$1));
}
delete $1;
}
| AR_SYMB
{
if ($1->length() == 1) {
switch ((*$1)[0]) {
case '=': $$ = new CVC3::Expr(VC->idExpr("_EQ")); break;
case '<': $$ = new CVC3::Expr(VC->idExpr("_LT")); break;
case '>': $$ = new CVC3::Expr(VC->idExpr("_GT")); break;
default: $$ = new CVC3::Expr(VC->idExpr(*$1)); break;
}
}
else {
if (*$1 == "<=") {
$$ = new CVC3::Expr(VC->idExpr("_LE"));
} else if (*$1 == ">=") {
$$ = new CVC3::Expr(VC->idExpr("_GE"));
}
else $$ = new CVC3::Expr(VC->idExpr(*$1));
}
delete $1;
}
;
fun_symb:
SYM_TOK LBRACKET_TOK NUMERAL_TOK RBRACKET_TOK
{
$$ = new std::vector;
if (BVENABLED && *$1 == "repeat") {
$$->push_back(VC->idExpr("_BVREPEAT"));
}
else if (BVENABLED && *$1 == "zero_extend") {
$$->push_back(VC->idExpr("_BVZEROEXTEND"));
}
else if (BVENABLED && *$1 == "sign_extend") {
$$->push_back(VC->idExpr("_SX"));
$$->push_back(VC->idExpr("_smtlib"));
}
else if (BVENABLED && *$1 == "rotate_left") {
$$->push_back(VC->idExpr("_BVROTL"));
}
else if (BVENABLED && *$1 == "rotate_right") {
$$->push_back(VC->idExpr("_BVROTR"));
}
else if (BVENABLED &&
$1->size() > 2 &&
(*$1)[0] == 'b' &&
(*$1)[1] == 'v') {
int i = 2;
while ((*$1)[i] >= '0' && (*$1)[i] <= '9') ++i;
if ((*$1)[i] == '\0') {
$$->push_back(VC->idExpr("_BVCONST"));
$$->push_back(VC->ratExpr($1->substr(2), 10));
}
else $$->push_back(VC->idExpr(*$1));
}
else $$->push_back(VC->idExpr(*$1));
$$->push_back(VC->ratExpr(*$3));
delete $1;
delete $3;
}
| SYM_TOK LBRACKET_TOK NUMERAL_TOK COLON_TOK NUMERAL_TOK RBRACKET_TOK
{
$$ = new std::vector;
if (BVENABLED && *$1 == "extract") {
$$->push_back(VC->idExpr("_EXTRACT"));
}
else $$->push_back(VC->idExpr(*$1));
$$->push_back(VC->ratExpr(*$3));
$$->push_back(VC->ratExpr(*$5));
delete $1;
delete $3;
delete $5;
}
| SYM_TOK
{
$$ = new std::vector;
if (BVENABLED && (*$1 == "bvlt" || *$1 == "bvult")) {
$$->push_back(VC->idExpr("_BVLT"));
}
else if (BVENABLED && (*$1 == "bvleq" || *$1 == "bvule")) {
$$->push_back(VC->idExpr("_BVLE"));
}
else if (BVENABLED && (*$1 == "bvgeq" || *$1 == "bvuge")) {
$$->push_back(VC->idExpr("_BVGE"));
}
else if (BVENABLED && (*$1 == "bvgt" || *$1 == "bvugt")) {
$$->push_back(VC->idExpr("_BVGT"));
}
else if (BVENABLED && *$1 == "bvslt") {
$$->push_back(VC->idExpr("_BVSLT"));
}
else if (BVENABLED && (*$1 == "bvsleq" || *$1 == "bvsle")) {
$$->push_back(VC->idExpr("_BVSLE"));
}
else if (BVENABLED && (*$1 == "bvsgeq" || *$1 == "bvsge")) {
$$->push_back(VC->idExpr("_BVSGE"));
}
else if (BVENABLED && *$1 == "bvsgt") {
$$->push_back(VC->idExpr("_BVSGT"));
}
else if (ARRAYSENABLED && *$1 == "select") {
$$->push_back(VC->idExpr("_READ"));
}
else if (ARRAYSENABLED && *$1 == "store") {
$$->push_back(VC->idExpr("_WRITE"));
}
else if (BVENABLED && *$1 == "bit0") {
$$->push_back(VC->idExpr("_BVCONST"));
$$->push_back(VC->ratExpr(0));
$$->push_back(VC->ratExpr(1));
}
else if (BVENABLED && *$1 == "bit1") {
$$->push_back(VC->idExpr("_BVCONST"));
$$->push_back(VC->ratExpr(1));
$$->push_back(VC->ratExpr(1));
}
else if (BVENABLED && *$1 == "concat") {
$$->push_back(VC->idExpr("_CONCAT"));
}
else if (BVENABLED && *$1 == "bvnot") {
$$->push_back(VC->idExpr("_BVNEG"));
}
else if (BVENABLED && *$1 == "bvand") {
$$->push_back(VC->idExpr("_BVAND"));
}
else if (BVENABLED && *$1 == "bvor") {
$$->push_back(VC->idExpr("_BVOR"));
}
else if (BVENABLED && *$1 == "bvneg") {
$$->push_back(VC->idExpr("_BVUMINUS"));
}
else if (BVENABLED && *$1 == "bvadd") {
$$->push_back(VC->idExpr("_BVPLUS"));
}
else if (BVENABLED && *$1 == "bvmul") {
$$->push_back(VC->idExpr("_BVMULT"));
}
else if (BVENABLED && *$1 == "bvudiv") {
$$->push_back(VC->idExpr("_BVUDIV"));
}
else if (BVENABLED && *$1 == "bvurem") {
$$->push_back(VC->idExpr("_BVUREM"));
}
else if (BVENABLED && *$1 == "bvshl") {
$$->push_back(VC->idExpr("_BVSHL"));
}
else if (BVENABLED && *$1 == "bvlshr") {
$$->push_back(VC->idExpr("_BVLSHR"));
}
else if (BVENABLED && *$1 == "bvxor") {
$$->push_back(VC->idExpr("_BVXOR"));
}
else if (BVENABLED && *$1 == "bvxnor") {
$$->push_back(VC->idExpr("_BVXNOR"));
}
else if (BVENABLED && *$1 == "bvcomp") {
$$->push_back(VC->idExpr("_BVCOMP"));
}
else if (BVENABLED && *$1 == "bvsub") {
$$->push_back(VC->idExpr("_BVSUB"));
}
else if (BVENABLED && *$1 == "bvsdiv") {
$$->push_back(VC->idExpr("_BVSDIV"));
}
else if (BVENABLED && *$1 == "bvsrem") {
$$->push_back(VC->idExpr("_BVSREM"));
}
else if (BVENABLED && *$1 == "bvsmod") {
$$->push_back(VC->idExpr("_BVSMOD"));
}
else if (BVENABLED && *$1 == "bvashr") {
$$->push_back(VC->idExpr("_BVASHR"));
}
// For backwards compatibility:
else if (BVENABLED && *$1 == "shift_left0") {
$$->push_back(VC->idExpr("_CONST_WIDTH_LEFTSHIFT"));
}
else if (BVENABLED && *$1 == "shift_right0") {
$$->push_back(VC->idExpr("_RIGHTSHIFT"));
}
else if (BVENABLED && *$1 == "sign_extend") {
$$->push_back(VC->idExpr("_SX"));
$$->push_back(VC->idExpr("_smtlib"));
}
// Bitvector constants
else if (BVENABLED &&
$1->size() > 2 &&
(*$1)[0] == 'b' &&
(*$1)[1] == 'v') {
bool done = false;
if ((*$1)[2] >= '0' && (*$1)[2] <= '9') {
int i = 3;
while ((*$1)[i] >= '0' && (*$1)[i] <= '9') ++i;
if ((*$1)[i] == '\0') {
$$->push_back(VC->idExpr("_BVCONST"));
$$->push_back(VC->ratExpr($1->substr(2), 10));
$$->push_back(VC->ratExpr(32));
done = true;
}
}
else if ($1->size() > 5) {
std::string s = $1->substr(0,5);
if (s == "bvbin") {
int i = 5;
while ((*$1)[i] >= '0' && (*$1)[i] <= '1') ++i;
if ((*$1)[i] == '\0') {
$$->push_back(VC->idExpr("_BVCONST"));
$$->push_back(VC->ratExpr($1->substr(5), 2));
$$->push_back(VC->ratExpr(i-5));
done = true;
}
}
else if (s == "bvhex") {
int i = 5;
char c = (*$1)[i];
while ((c >= '0' && c <= '9') ||
(c >= 'a' && c <= 'f') ||
(c >= 'A' && c <= 'F')) {
++i;
c =(*$1)[i];
}
if ((*$1)[i] == '\0') {
$$->push_back(VC->idExpr("_BVCONST"));
$$->push_back(VC->ratExpr($1->substr(5), 16));
$$->push_back(VC->ratExpr(i-5));
done = true;
}
}
}
if (!done) $$->push_back(VC->idExpr(*$1));
}
else {
$$->push_back(VC->idExpr(*$1));
}
delete $1;
}
| AR_SYMB
{
$$ = new std::vector;
if ($1->length() == 1) {
switch ((*$1)[0]) {
case '+': $$->push_back(VC->idExpr("_PLUS")); break;
case '-': $$->push_back(VC->idExpr("_MINUS")); break;
case '*': $$->push_back(VC->idExpr("_MULT")); break;
case '~': $$->push_back(VC->idExpr("_UMINUS")); break;
case '/': $$->push_back(VC->idExpr("_DIVIDE")); break;
case '=': $$->push_back(VC->idExpr("_EQ")); break;
case '<': $$->push_back(VC->idExpr("_LT")); break;
case '>': $$->push_back(VC->idExpr("_GT")); break;
default: $$->push_back(VC->idExpr(*$1));
}
}
else {
if (*$1 == "<=") {
$$->push_back(VC->idExpr("_LE"));
} else if (*$1 == ">=") {
$$->push_back(VC->idExpr("_GE"));
}
else $$->push_back(VC->idExpr(*$1));
}
delete $1;
}
| NUMERAL_TOK
{
$$ = new std::vector;
$$->push_back(VC->ratExpr(*$1));
delete $1;
}
;
attribute:
COLON_TOK SYM_TOK
{
$$ = $2;
}
;
var:
QUESTION_TOK SYM_TOK
{
$$ = new CVC3::Expr(VC->idExpr(*$2));
delete $2;
}
;
fvar:
DOLLAR_TOK SYM_TOK
{
$$ = new CVC3::Expr(VC->idExpr(*$2));
delete $2;
}
;
*/
%%