Theory of bitvectors of known length \ (operations include: @,[i:j],[i],+,.,BVAND,BVNEG) More...

#include <theory_bitvector.h>

Inherits CVC3::Theory.

Collaboration diagram for CVC3::TheoryBitvector:

[legend]

List of all members.

Public Member Functions

Theorem pushNegationRec (const Expr &e)
TheoryBitvector (TheoryCore *core)
~TheoryBitvector ()
BitvectorProofRules * createProofRules ()
void addSharedTerm (const Expr &e)
Notify theory of a new shared term.
void assertFact (const Theorem &e)
Assert a new fact to the decision procedure.
void assertTypePred (const Expr &e, const Theorem &pred)
Receives all the type predicates for the types of the given theory.
void checkSat (bool fullEffort)
Check for satisfiability in the theory.
Theorem rewrite (const Expr &e)
Theory-specific rewrite rules.
Theorem rewriteAtomic (const Expr &e)
Theory-specific rewrites for atomic formulas.
void setup (const Expr &e)
Set up the term e for call-backs when e or its children change.
void update (const Theorem &e, const Expr &d)
Notify a theory of a new equality.
Theorem solve (const Theorem &e)
An optional solver.
void checkType (const Expr &e)
Check that e is a valid Type expr.
Cardinality finiteTypeInfo (Expr &e, Unsigned &n, bool enumerate, bool computeSize)
Compute information related to finiteness of types.
void computeType (const Expr &e)
Compute and store the type of e.
void computeModelTerm (const Expr &e, std::vector< Expr > &v)
Add variables from 'e' to 'v' for constructing a concrete model.
void computeModel (const Expr &e, std::vector< Expr > &vars)
Compute the value of a compound variable from the more primitive ones.
Expr computeTypePred (const Type &t, const Expr &e)
Theory specific computation of the subtyping predicate for type t applied to the expression e.
Expr computeTCC (const Expr &e)
Compute and cache the TCC of e.
ExprStream & print (ExprStream &os, const Expr &e)
Theory-specific pretty-printing.
Expr parseExprOp (const Expr &e)
Theory-specific parsing implemented by the DP.
int BVSize (const Expr &e)
Return the number of bits in the bitvector expression.
Expr rat (const Rational &r)
Expr pad (int len, const Expr &e)
pads e to be of length len
bool comparebv (const Expr &e1, const Expr &e2)
Type newBitvectorType (int i)
Expr newBitvectorTypePred (const Type &t, const Expr &e)
Expr newBitvectorTypeExpr (int i)
Expr newBVAndExpr (const Expr &t1, const Expr &t2)
Expr newBVAndExpr (const std::vector< Expr > &kids)
Expr newBVOrExpr (const Expr &t1, const Expr &t2)
Expr newBVOrExpr (const std::vector< Expr > &kids)
Expr newBVXorExpr (const Expr &t1, const Expr &t2)
Expr newBVXorExpr (const std::vector< Expr > &kids)
Expr newBVXnorExpr (const Expr &t1, const Expr &t2)
Expr newBVXnorExpr (const std::vector< Expr > &kids)
Expr newBVNandExpr (const Expr &t1, const Expr &t2)
Expr newBVNorExpr (const Expr &t1, const Expr &t2)
Expr newBVCompExpr (const Expr &t1, const Expr &t2)
Expr newBVLTExpr (const Expr &t1, const Expr &t2)
Expr newBVLEExpr (const Expr &t1, const Expr &t2)
Expr newSXExpr (const Expr &t1, int len)
Expr newBVIndexExpr (int kind, const Expr &t1, int len)
Expr newBVSLTExpr (const Expr &t1, const Expr &t2)
Expr newBVSLEExpr (const Expr &t1, const Expr &t2)
Expr newBVNegExpr (const Expr &t1)
Expr newBVUminusExpr (const Expr &t1)
Expr newBoolExtractExpr (const Expr &t1, int r)
Expr newFixedLeftShiftExpr (const Expr &t1, int r)
Expr newFixedConstWidthLeftShiftExpr (const Expr &t1, int r)
Expr newFixedRightShiftExpr (const Expr &t1, int r)
Expr newConcatExpr (const Expr &t1, const Expr &t2)
Expr newConcatExpr (const Expr &t1, const Expr &t2, const Expr &t3)
Expr newConcatExpr (const std::vector< Expr > &kids)
Expr newBVConstExpr (const std::string &s, int base=2)
Expr newBVConstExpr (const std::vector< bool > &bits)
Expr signed_newBVConstExpr (Rational c, int bv_size)
Expr newBVConstExpr (const Rational &r, int len=0)
Expr newBVZeroString (int r)
produces a string of 0's of length bvLength
Expr newBVOneString (int r)
produces a string of 1's of length bvLength
Expr newBVExtractExpr (const Expr &e, int hi, int low)
hi and low are bit indices
Expr newBVSubExpr (const Expr &t1, const Expr &t2)
Expr newBVPlusExpr (int numbits, const Expr &k1, const Expr &k2)
'numbits' is the number of bits in the result
Expr newBVPlusExpr (int numbits, const std::vector< Expr > &k)
'numbits' is the number of bits in the result
Expr newBVPlusPadExpr (int bvLength, const std::vector< Expr > &k)
pads children and then builds plus expr
Expr newBVMultExpr (int bvLength, const Expr &t1, const Expr &t2)
Expr newBVMultExpr (int bvLength, const std::vector< Expr > &kids)
Expr newBVMultPadExpr (int bvLength, const Expr &t1, const Expr &t2)
Expr newBVMultPadExpr (int bvLength, const std::vector< Expr > &kids)
Expr newBVUDivExpr (const Expr &t1, const Expr &t2)
Expr newBVURemExpr (const Expr &t1, const Expr &t2)
Expr newBVSDivExpr (const Expr &t1, const Expr &t2)
Expr newBVSRemExpr (const Expr &t1, const Expr &t2)
Expr newBVSModExpr (const Expr &t1, const Expr &t2)
int getBitvectorTypeParam (const Expr &e)
int getBitvectorTypeParam (const Type &t)
Type getTypePredType (const Expr &tp)
const Expr & getTypePredExpr (const Expr &tp)
int getSXIndex (const Expr &e)
int getBVIndex (const Expr &e)
int getBoolExtractIndex (const Expr &e)
int getFixedLeftShiftParam (const Expr &e)
int getFixedRightShiftParam (const Expr &e)
int getExtractHi (const Expr &e)
int getExtractLow (const Expr &e)
int getBVPlusParam (const Expr &e)
int getBVMultParam (const Expr &e)
unsigned getBVConstSize (const Expr &e)
bool getBVConstValue (const Expr &e, int i)
Rational computeBVConst (const Expr &e)
computes the integer value of a bitvector constant
Rational computeNegBVConst (const Expr &e)
computes the integer value of ~c+1 or BVUMINUS(c)
int getMaxSize ()
bool isLinearTerm (const Expr &e)
void extract_vars (const Expr &e, std::vector< Expr > &vars)
bool canSolveFor (const Expr &term, const Expr &e)
Rational multiplicative_inverse (Rational r, int n_bits)

Public Attributes

ExprMap< Expr > d_bvPlusCarryCacheLeftBV
ExprMap< Expr > d_bvPlusCarryCacheRightBV
std::vector< Theorem > additionalRewriteConstraints

Private Member Functions

const Expr & bvZero () const
Return cached constant 0bin0.
const Expr & bvOne () const
Return cached constant 0bin1.
Theorem bitBlastEqn (const Expr &e)
functions which implement the DP strategy for bitblasting
Theorem bitBlastDisEqn (const Theorem &notE)
bitblast disequation
Theorem bitBlastIneqn (const Expr &e)
function which implements the DP strtagey to bitblast Inequations
Theorem bitBlastTerm (const Expr &t, int bitPosition)
functions which implement the DP strategy for bitblasting
Theorem pushNegation (const Expr &e)
virtual Theorem simplifyOp (const Expr &e)
Top down simplifier.
Theorem rewriteBV (const Expr &e, ExprMap< Theorem > &cache, int n=1)
Internal rewrite method for constants.
Theorem rewriteBV (const Expr &e, int n=1)
Rewrite children 'n' levels down (n==1 means "only the top level")
Theorem rewriteBV (const Theorem &t, ExprMap< Theorem > &cache, int n=1)
Theorem rewriteBV (const Theorem &t, int n=1)
Theorem rewriteBoolean (const Expr &e)
rewrite input boolean expression e to a simpler form
Expr multiply_coeff (Rational mult_inv, const Expr &e)
int min (std::vector< Rational > list)
Rational Odd_coeff (const Expr &e)
int check_linear (const Expr &e)
bool isTermIn (const Expr &e1, const Expr &e2)
Theorem updateSubterms (const Expr &d)
int countTermIn (const Expr &term, const Expr &e)
Theorem simplifyPendingEq (const Theorem &thm, int maxEffort)
Theorem generalBitBlast (const Theorem &thm)
ExprStream & printSmtLibShared (ExprStream &os, const Expr &e)

Private Attributes

BitvectorProofRules * d_rules
size_t d_bvConstExprIndex
MemoryManager index for BVConstExpr subclass.
size_t d_bvPlusExprIndex
size_t d_bvParameterExprIndex
size_t d_bvTypePredExprIndex
StatCounter d_bvDelayEq
counts delayed asserted equalities
StatCounter d_bvAssertEq
counts asserted equalities
StatCounter d_bvDelayDiseq
counts delayed asserted disequalities
StatCounter d_bvAssertDiseq
counts asserted disequalities
StatCounter d_bvTypePreds
counts type predicates
StatCounter d_bvDelayTypePreds
counts delayed type predicates
StatCounter d_bvBitBlastEq
counts bitblasted equalities
StatCounter d_bvBitBlastDiseq
counts bitblasted disequalities
const bool * d_booleanRWFlag
boolean on the fly rewrite flag
const bool * d_boolExtractCacheFlag
bool extract cache flag
const bool * d_bv32Flag
flag which indicates that all arithmetic is 32 bit with no overflow
CDMap< Expr, Theorem > d_bitvecCache
Cache for storing the results of the bitBlastTerm function.
ExprMap< Theorem > d_pushNegCache
Cache for pushNegation(). it is ok that this is cache is.
CDList< Theorem > d_eq
Backtracking queue for equalities.
CDList< Theorem > d_eqPending
Backtracking queue for unsolved equalities.
CDO< unsigned int > d_eq_index
Index to current position in d_eqPending.
CDList< Theorem > d_bitblast
Backtracking queue for all other assertions.
CDO< unsigned int > d_bb_index
Index to current position in d_bitblast.
CDMap< Expr, Expr > d_sharedSubterms
Backtracking database of subterms of shared terms.
CDList< Expr > d_sharedSubtermsList
Backtracking database of subterms of shared terms.
Expr d_bvZero
Constant 1-bit bit-vector 0bin0.
Expr d_bvOne
Constant 1-bit bit-vector 0bin0.
int d_maxLength
Max size of any bitvector we've seen.
CDO< unsigned > d_index1
Used in checkSat.
CDO< unsigned > d_index2

Detailed Description

Theory of bitvectors of known length \ (operations include: @,[i:j],[i],+,.,BVAND,BVNEG)

Author: Vijay Ganesh

Created:Wed May 5 15:35:07 PDT 2004

Definition at line 100 of file theory_bitvector.h.

Constructor & Destructor Documentation

TheoryBitvector::TheoryBitvector ( TheoryCore * core )

Definition at line 1708 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BOOLEXTRACT, CVC3::BVAND, CVC3::BVASHR, CVC3::BVCOMP, CVC3::BVCONST, CVC3::BVGE, CVC3::BVGT, CVC3::BVLE, CVC3::BVLSHR, CVC3::BVLT, CVC3::BVMULT, CVC3::BVNAND, CVC3::BVNEG, CVC3::BVNOR, CVC3::BVOR, CVC3::BVPLUS, CVC3::BVREPEAT, CVC3::BVROTL, CVC3::BVROTR, CVC3::BVSDIV, CVC3::BVSGE, CVC3::BVSGT, CVC3::BVSHL, CVC3::BVSLE, CVC3::BVSLT, CVC3::BVSMOD, CVC3::BVSREM, CVC3::BVSUB, CVC3::BVTOINT, CVC3::BVTYPEPRED, CVC3::BVUDIV, CVC3::BVUMINUS, CVC3::BVUREM, CVC3::BVXNOR, CVC3::BVXOR, CVC3::BVZEROEXTEND, CVC3::CONCAT, CVC3::CONST_WIDTH_LEFTSHIFT, createProofRules(), d_bvConstExprIndex, d_bvOne, d_bvZero, d_rules, CVC3::EXTRACT, CVC3::Theory::getEM(), CVC3::INTTOBV, CVC3::LEFTSHIFT, newBVConstExpr(), CVC3::ExprManager::newKind(), CVC3::ExprManager::registerSubclass(), CVC3::Theory::registerTheory(), CVC3::RIGHTSHIFT, and CVC3::SX.

TheoryBitvector::~TheoryBitvector ( )

Definition at line 1842 of file theory_bitvector.cpp.

References d_rules.

Member Function Documentation

const Expr& CVC3::TheoryBitvector::bvZero ( ) const [inline, private]

Return cached constant 0bin0.

Definition at line 160 of file theory_bitvector.h.

References d_bvZero.

const Expr& CVC3::TheoryBitvector::bvOne ( ) const [inline, private]

Return cached constant 0bin1.

Definition at line 162 of file theory_bitvector.h.

References d_bvOne.

Theorem TheoryBitvector::bitBlastEqn ( const Expr & e ) [private]

functions which implement the DP strategy for bitblasting

accepts a bitvector equation t1 = t2.

Returns:: a rewrite theorem which is a conjunction of equivalences over the bits of t1,t2 respectively.

Definition at line 91 of file theory_bitvector.cpp.

References AND, CVC3::BITVECTOR, DebugAssert, CVC3::Theorem::getLHS(), CVC3::Theorem::getRHS(), IF_DEBUG, IFF, CVC3::Expr::isEq(), CVC3::Expr::isFalse(), CVC3::Expr::toString(), and TRACE.

Referenced by comparebv(), and generalBitBlast().

Theorem TheoryBitvector::bitBlastDisEqn ( const Theorem & notE ) [private]

bitblast disequation

accepts a bitvector equation t1 != t2.

Returns:: a rewrite theorem which is a conjunction of (dis)-equivalences over the bits of t1,t2 respectively.

A separate rule for disequations for efficiency sake. Obvious implementation using rule for equations and rule for NOT, is not efficient.

Definition at line 164 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, DebugAssert, CVC3::Theorem::getExpr(), CVC3::Theorem::getLHS(), CVC3::Theorem::getRHS(), CVC3::Expr::getType(), IF_DEBUG, IFF, CVC3::Expr::isNot(), CVC3::Expr::isTrue(), OR, CVC3::Theorem::toString(), CVC3::Expr::toString(), and TRACE.

Referenced by generalBitBlast().

Theorem TheoryBitvector::bitBlastIneqn ( const Expr & e ) [private]

function which implements the DP strtagey to bitblast Inequations

Parameters:

e	has the form e1 pred e2, where pred is < or <=.

if e1,e2 are constants, determine bv2int(e1) pred bv2int(e2).

most significant bit of ei is denoted by msb(ei)

Returns:: $(msb(e1)\ pred\ msb(e2)) \vee (msb(e1)=msb(e2) \wedge e1[n-2:0]\ pred\ e2[n-2:0])$

Definition at line 240 of file theory_bitvector.cpp.

References AND, CVC3::Expr::arity(), CVC3::BVCONST, CVC3::BVLE, CVC3::BVLT, DebugAssert, CVC3::Expr::getKind(), CVC3::Expr::getOpKind(), CVC3::Theorem::getRHS(), CVC3::Expr::isBoolConst(), OR, CVC3::Theorem::toString(), CVC3::Expr::toString(), and TRACE.

Referenced by generalBitBlast().

Theorem TheoryBitvector::bitBlastTerm	(	const Expr &	t,
		int	bitPosition
	)		`[private]`

functions which implement the DP strategy for bitblasting

The invariant maintained by this function is: accepts a bitvector term, t,and a bitPosition, i. returns a formula over the set of propositional variables defined using BOOLEXTRACT of bitvector variables in t at the position i.

Returns:: Theorem(BOOLEXTRACT(t, bitPosition) <=> phi), where phi is a Boolean formula over the individual bits of bit-vector variables.

Definition at line 359 of file theory_bitvector.cpp.

References AND, CVC3::Expr::arity(), CVC3::Expr::begin(), CVC3::BITVECTOR, CVC3::BOOLEXTRACT, CVC3::BVAND, CVC3::BVASHR, CVC3::BVCONST, CVC3::BVLSHR, CVC3::BVMULT, CVC3::BVNEG, CVC3::BVOR, CVC3::BVPLUS, CVC3::BVSHL, CVC3::BVXOR, CVC3::CONCAT, CVC3::CONST_WIDTH_LEFTSHIFT, DebugAssert, CVC3::Expr::end(), CVC3::CDMap< Key, Data, HashFcn >::end(), CVC3::EXTRACT, FatalAssert, CVC3::CDMap< Key, Data, HashFcn >::find(), CVC3::Expr::getKind(), CVC3::Theorem::getLHS(), CVC3::Expr::getOpKind(), CVC3::Theorem::getRHS(), CVC3::Expr::getType(), IF_DEBUG, CVC3::int2string(), CVC3::Theorem::isNull(), CVC3::leExpr(), NOT, OR, CVC3::Theorem::toString(), CVC3::Expr::toString(), TRACE, and XOR.

Referenced by comparebv().

Theorem TheoryBitvector::pushNegationRec ( const Expr & e )

Definition at line 699 of file theory_bitvector.cpp.

References CVC3::Expr::arity(), CVC3::Expr::begin(), CVC3::BVAND, CVC3::BVCONST, CVC3::BVMULT, CVC3::BVNEG, CVC3::BVOR, CVC3::BVPLUS, CVC3::BVXNOR, CVC3::BVXOR, CVC3::CONCAT, DebugAssert, CVC3::Expr::end(), CVC3::ExprMap< Data >::find(), CVC3::Expr::getKind(), CVC3::Expr::getOp(), CVC3::Theorem::getRHS(), CVC3::Theorem::isRefl(), and TRACE.

Referenced by CVC3::BitvectorTheoremProducer::collectOneTermOfPlus(), and CVC3::BitvectorTheoremProducer::createNewPlusCollection().

Theorem TheoryBitvector::pushNegation ( const Expr & e ) [private]

Definition at line 804 of file theory_bitvector.cpp.

References CVC3::BVNEG, DebugAssert, and CVC3::Expr::getOpKind().

Theorem TheoryBitvector::simplifyOp ( const Expr & e ) [private, virtual]

Top down simplifier.

Reimplemented from CVC3::Theory.

Definition at line 812 of file theory_bitvector.cpp.

References CVC3::Expr::arity(), CVC3::BVMULT, CVC3::BVNEG, CVC3::BVPLUS, CVC3::CONCAT, CVC3::CONST_WIDTH_LEFTSHIFT, CVC3::EXTRACT, CVC3::Theorem::getLHS(), CVC3::Expr::getOpKind(), CVC3::Theorem::getRHS(), CVC3::Theorem::isNull(), CVC3::LEFTSHIFT, and CVC3::RIGHTSHIFT.

Theorem TheoryBitvector::rewriteBV	(	const Expr &	e,
		ExprMap< Theorem > &	cache,
		int	n = `1`
	)		`[private]`

Internal rewrite method for constants.

Main rewrite method (implements the actual rewrites)

input: e0 <=(s) e1. output depends on whether the topbits(MSB) of e0 and e1 are constants. If they are constants then optimizations are done. In general, the following rule is implemented. Step1: e0 <=(s) e1 <==> pad(e0) <=(s) pad(e1) Step2: pad(e0) <=(s) pad(e1) <==> (e0[n-1] AND NOT e1[n-1]) OR (e0[n-1] = e1[n-1] AND e0[n-2:0] <= e1[n-2:0])

Definition at line 887 of file theory_bitvector.cpp.

References CVC3::Expr::arity(), CVC3::BOOLEXTRACT, CVC3::BVAND, CVC3::BVASHR, CVC3::BVCOMP, CVC3::BVCONST, CVC3::BVGE, CVC3::BVGT, CVC3::BVLE, CVC3::BVLSHR, CVC3::BVLT, CVC3::BVMULT, CVC3::BVNAND, CVC3::BVNEG, CVC3::BVNOR, CVC3::BVOR, CVC3::BVPLUS, CVC3::BVREPEAT, CVC3::BVROTL, CVC3::BVROTR, CVC3::BVSDIV, CVC3::BVSGE, CVC3::BVSGT, CVC3::BVSHL, CVC3::BVSLE, CVC3::BVSLT, CVC3::BVSMOD, CVC3::BVSREM, CVC3::BVSUB, CVC3::BVUDIV, CVC3::BVUMINUS, CVC3::BVUREM, CVC3::BVXNOR, CVC3::BVXOR, CVC3::BVZEROEXTEND, CVC3::CONCAT, CVC3::CONST_WIDTH_LEFTSHIFT, constantKids(), DebugAssert, CVC3::ExprMap< Data >::end(), EQ, CVC3::EXTRACT, FatalAssert, CVC3::ExprMap< Data >::find(), CVC3::Theorem::getExpr(), CVC3::Expr::getKind(), CVC3::Theorem::getLHS(), CVC3::Expr::getOp(), CVC3::Expr::getOpKind(), CVC3::Theorem::getRHS(), CVC3::Expr::hasFind(), IF_DEBUG, CVC3::int2string(), CVC3::Theorem::isNull(), CVC3::Theorem::isRefl(), CVC3::LEFTSHIFT, NOT, CVC3::pow(), CVC3::RIGHTSHIFT, CVC3::Expr::setRewriteNormal(), CVC3::SX, CVC3::Expr::toString(), and TRACE.

Referenced by rewrite(), and rewriteBV().

Theorem TheoryBitvector::rewriteBV	(	const Expr &	e,
		int	n = `1`
	)		`[private]`

Rewrite children 'n' levels down (n==1 means "only the top level")

Definition at line 1631 of file theory_bitvector.cpp.

Theorem CVC3::TheoryBitvector::rewriteBV	(	const Theorem &	t,
		ExprMap< Theorem > &	cache,
		int	n = `1`
	)		`[inline, private]`

Definition at line 218 of file theory_bitvector.h.

References CVC3::Theorem::getRHS(), rewriteBV(), and CVC3::Theory::transitivityRule().

Theorem CVC3::TheoryBitvector::rewriteBV	(	const Theorem &	t,
		int	n = `1`
	)		`[inline, private]`

Definition at line 221 of file theory_bitvector.h.

References CVC3::Theorem::getRHS(), rewriteBV(), and CVC3::Theory::transitivityRule().

Theorem TheoryBitvector::rewriteBoolean ( const Expr & e ) [private]

rewrite input boolean expression e to a simpler form

Definition at line 1638 of file theory_bitvector.cpp.

References AND, CVC3::Expr::begin(), CVC3::Expr::end(), CVC3::Expr::getKind(), CVC3::Theorem::getLHS(), CVC3::Theorem::getRHS(), IFF, CVC3::Expr::isNot(), CVC3::Theorem::isNull(), NOT, and OR.

Expr TheoryBitvector::multiply_coeff	(	Rational	mult_inv,
		const Expr &	e
	)		`[private]`

Definition at line 1965 of file theory_bitvector.cpp.

References CVC3::Expr::arity(), CVC3::BVCONST, CVC3::BVMULT, CVC3::BVPLUS, BVSize(), computeBVConst(), EQ, CVC3::Expr::getOpKind(), CVC3::Expr::isEq(), CVC3::Theory::isLeaf(), newBVConstExpr(), newBVMultExpr(), and newBVPlusExpr().

int CVC3::TheoryBitvector::min ( std::vector< Rational > list ) [private]

Rational TheoryBitvector::Odd_coeff ( const Expr & e ) [private]

Definition at line 2178 of file theory_bitvector.cpp.

References CVC3::BVCONST, CVC3::BVMULT, CVC3::BVPLUS, BVSize(), computeBVConst(), DebugAssert, EQ, CVC3::Expr::getOpKind(), CVC3::Theory::isLeaf(), CVC3::Theory::isLeafIn(), isTermIn(), and newBVZeroString().

int TheoryBitvector::check_linear ( const Expr & e ) [private]

Definition at line 2251 of file theory_bitvector.cpp.

References CVC3::Expr::arity(), CVC3::BVCONST, CVC3::BVMULT, CVC3::BVPLUS, CVC3::BVUMINUS, EQ, CVC3::Expr::getOpKind(), CVC3::Expr::isVar(), CVC3::PRESENTATION_LANG, CVC3::Expr::toString(), and TRACE.

bool TheoryBitvector::isTermIn	(	const Expr &	e1,
		const Expr &	e2
	)		`[private]`

Definition at line 2291 of file theory_bitvector.cpp.

References CVC3::Expr::begin(), CVC3::Expr::end(), and CVC3::Theory::theoryOf().

Referenced by Odd_coeff().

Theorem TheoryBitvector::updateSubterms ( const Expr & d ) [private]

Definition at line 2791 of file theory_bitvector.cpp.

References CVC3::Expr::arity(), CVC3::Theory::find(), CVC3::Theorem::getLHS(), CVC3::Theorem::getRHS(), CVC3::Theory::isLeaf(), rewrite(), CVC3::Theory::substitutivityRule(), and CVC3::Theory::transitivityRule().

int TheoryBitvector::countTermIn	(	const Expr &	term,
		const Expr &	e
	)		`[private]`

Definition at line 2327 of file theory_bitvector.cpp.

References CVC3::Expr::arity(), CVC3::BVCONST, and CVC3::Expr::getOpKind().

Referenced by canSolveFor().

Theorem TheoryBitvector::simplifyPendingEq	(	const Theorem &	thm,
		int	maxEffort
	)		`[private]`

Definition at line 2366 of file theory_bitvector.cpp.

References CVC3::BitvectorProofRules::canonBVEQ(), d_rules, DebugAssert, EQ, CVC3::Theory::find(), CVC3::Theorem::getExpr(), CVC3::Expr::getKind(), CVC3::Theorem::getLHS(), CVC3::Theorem::getRHS(), CVC3::Theory::iffMP(), CVC3::Theory::isLeaf(), CVC3::Theorem::isRewrite(), rewrite(), CVC3::Theory::substitutivityRule(), CVC3::Theory::symmetryRule(), and CVC3::Theory::transitivityRule().

Referenced by checkSat(), and generalBitBlast().

Theorem TheoryBitvector::generalBitBlast ( const Theorem & thm ) [private]

ExprStream & TheoryBitvector::printSmtLibShared	(	ExprStream &	os,
		const Expr &	e
	)		`[private]`

BitvectorProofRules * TheoryBitvector::createProofRules ( )

Definition at line 45 of file bitvector_theorem_producer.cpp.

Referenced by TheoryBitvector().

void TheoryBitvector::addSharedTerm ( const Expr & e ) [virtual]

Notify theory of a new shared term.

When a term e associated with theory i occurs as a child of an expression associated with theory j, the framework calls i->addSharedTerm(e) and j->addSharedTerm(e)

Reimplemented from CVC3::Theory.

Definition at line 1850 of file theory_bitvector.cpp.

Referenced by assertTypePred(), and update().

void TheoryBitvector::assertFact ( const Theorem & e ) [virtual]

Assert a new fact to the decision procedure.

Each fact that makes it into the core framework is assigned to exactly one theory: the theory associated with that fact. assertFact is called to inform the theory that a new fact has been assigned to the theory.

Implements CVC3::Theory.

Definition at line 1861 of file theory_bitvector.cpp.

References assertTypePred(), CVC3::BOOLEXTRACT, CVC3::BVTYPEPRED, d_bb_index, d_bitblast, d_eq, d_eqPending, DebugAssert, EQ, CVC3::Theory::getCommonRules(), CVC3::Theorem::getExpr(), CVC3::Expr::getOpKind(), getTypePredExpr(), CVC3::Theory::isLeaf(), CVC3::Theory::isLeafIn(), NOT, CVC3::CDList< T >::push_back(), CVC3::Theory::setInconsistent(), CVC3::Theory::theoryCore(), CVC3::Expr::toString(), TRACE, and CVC3::Theory::typePred().

void TheoryBitvector::assertTypePred	(	const Expr &	e,
		const Theorem &	pred
	)		`[virtual]`

Receives all the type predicates for the types of the given theory.

Type predicates may be expensive to enqueue eagerly, and DPs may choose to postpone them, or transform them to something more efficient. By default, the asserted type predicate is immediately enqueued as a new fact.

Note: Used only by bitvector theory.

Parameters:

e	is the expression for which the type predicate is computed
pred	is the predicate theorem P(e)

Reimplemented from CVC3::Theory.

Definition at line 1926 of file theory_bitvector.cpp.

References addSharedTerm(), CVC3::PRESENTATION_LANG, CVC3::Theory::theoryOf(), CVC3::Expr::toString(), and TRACE.

Referenced by assertFact().

void TheoryBitvector::checkSat ( bool fullEffort ) [virtual]

Check for satisfiability in the theory.

Parameters:

fullEffort when it is false, checkSat can do as much or as little work as it likes, though simple inferences and checks for consistency should be done to increase efficiency. If fullEffort is true, checkSat must check whether the set of facts given by assertFact together with the arrangement of shared terms (provided by addSharedTerm) induced by the global find database equivalence relation are satisfiable. If satisfiable, checkSat does nothing.

If satisfiability can be acheived by merging some of the shared terms, a new fact must be enqueued using enqueueFact (this fact need not be a literal). If there is no way to make things satisfiable, setInconsistent must be called.

Implements CVC3::Theory.

Definition at line 2574 of file theory_bitvector.cpp.

References additionalRewriteConstraints, AND, CVC3::CDList< T >::begin(), bvdump, BVSize(), d_bb_index, d_bitblast, d_eq, d_eq_index, d_eqPending, DebugAssert, std::endl(), CVC3::Theory::enqueueFact(), EQ, FALSE_EXPR, FatalAssert, generalBitBlast(), CVC3::Theory::getCommonRules(), CVC3::Theorem::getExpr(), CVC3::Expr::getKind(), newBVConstExpr(), CVC3::CDList< T >::push_back(), CVC3::Theory::simplify(), simplifyPendingEq(), CVC3::CDList< T >::size(), TRUE_EXPR, and CVC3::Theory::trueExpr().

Theorem TheoryBitvector::rewrite ( const Expr & e ) [virtual]

Theory-specific rewrite rules.

By default, rewrite just returns a reflexive theorem stating that the input expression is equivalent to itself. However, rewrite is allowed to return any theorem which describes how the input expression is equivalent to some new expression. rewrite should be used to perform simplifications, normalization, and any other preprocessing on theory-specific expressions that needs to be done.

Reimplemented from CVC3::Theory.

Definition at line 2670 of file theory_bitvector.cpp.

References rewriteBV().

Referenced by generalBitBlast(), simplifyPendingEq(), and updateSubterms().

Theorem TheoryBitvector::rewriteAtomic ( const Expr & e ) [virtual]

Theory-specific rewrites for atomic formulas.

The intended use is to convert complex atomic formulas into an equivalent Boolean combination of simpler formulas. Such conversion may be harmful for algebraic rewrites, and is not always desirable to have in rewrite() method.

Note: Used only by bitvector theory and rewriteLiteral in core.

However, if rewrite() alone cannot solve the problem, and the SAT solver needs to be envoked, these additional rewrites may ease the job for the SAT solver.

Reimplemented from CVC3::Theory.

Definition at line 2677 of file theory_bitvector.cpp.

References CVC3::Theory::reflexivityRule().

void TheoryBitvector::setup ( const Expr & e ) [virtual]

Set up the term e for call-backs when e or its children change.

setup is called once for each expression associated with the theory. It is typically used to setup theory-specific data for an expression and to add call-back information for use with update.

See also:: update

Reimplemented from CVC3::Theory.

Definition at line 2683 of file theory_bitvector.cpp.

References CVC3::Expr::addToNotify(), CVC3::Expr::arity(), and CVC3::Expr::isTerm().

void TheoryBitvector::update	(	const Theorem &	e,
		const Expr &	d
	)		`[virtual]`

Notify a theory of a new equality.

update is a call-back used by the notify mechanism of the core theory. It works as follows. When an equation t1 = t2 makes it into the core framework, the two find equivalence classes for t1 and t2 are merged. The result is that t2 is the new equivalence class representative and t1 is no longer an equivalence class representative. When this happens, the notify list of t1 is traversed. Notify list entries consist of a theory and an expression d. For each entry (i,d), i->update(e, d) is called, where e is the theorem corresponding to the equality t1=t2.

To add the entry (i,d) to a term t1's notify list, a call must be made to t1.addNotify(i,d). This is typically done in setup.

See also:: setup

Reimplemented from CVC3::Theory.

Definition at line 2695 of file theory_bitvector.cpp.

References addSharedTerm(), CVC3::Theory::assertEqualities(), CVC3::BVCONST, d_sharedSubterms, DebugAssert, CVC3::CDMap< Key, Data, HashFcn >::end(), CVC3::Theory::enqueueFact(), CVC3::Theory::find(), CVC3::CDMap< Key, Data, HashFcn >::find(), CVC3::Theorem::getExpr(), CVC3::Theorem::getLHS(), CVC3::Expr::getOpKind(), CVC3::Theorem::getRHS(), CVC3::Expr::hasFind(), CVC3::Theory::inconsistent(), CVC3::Expr::isAtomic(), CVC3::Expr::isNull(), CVC3::Theory::renameExpr(), CVC3::Theory::simplify(), CVC3::Theory::symmetryRule(), CVC3::Expr::toString(), and CVC3::Theory::transitivityRule().

Theorem TheoryBitvector::solve ( const Theorem & e ) [virtual]

An optional solver.

The solve method can be used to implement a Shostak-style solver. Since solvers do not in general combine, the following technique is used. One theory is designated as the primary solver (in our case, it is the theory of arithmetic). For each equation that enters the core framework, the primary solver is called to ensure that the equation is in solved form with respect to the primary theory.

After the primary solver, the solver for the theory associated with the equation is called. This solver can do whatever it likes, as long as the result is still in solved form with respect to the primary solver. This is a slight generalization of what is described in my (Clark)'s PhD thesis.

Reimplemented from CVC3::Theory.

Definition at line 2818 of file theory_bitvector.cpp.

References CVC3::CommonProofRules::andElim(), CVC3::BVCONST, CVC3::BitvectorProofRules::canonBVEQ(), d_rules, DebugAssert, CVC3::Theory::enqueueFact(), CVC3::EXTRACT, CVC3::Theory::getCommonRules(), CVC3::Theorem::getExpr(), CVC3::Theorem::getLHS(), IF_DEBUG, CVC3::Theory::iffMP(), CVC3::Theory::isLeaf(), CVC3::Theory::isLeafIn(), CVC3::Theorem::isRewrite(), CVC3::Expr::isTerm(), CVC3::BitvectorProofRules::processExtract(), CVC3::CommonProofRules::skolemize(), CVC3::BitvectorProofRules::solveExtractOverlap(), CVC3::BitvectorProofRules::solveExtractOverlapApplies(), and CVC3::Theory::symmetryRule().

void TheoryBitvector::checkType ( const Expr & e ) [virtual]

Check that e is a valid Type expr.

Reimplemented from CVC3::Theory.

Definition at line 2932 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, FatalAssert, CVC3::Theory::getEM(), and CVC3::Expr::getOpKind().

Cardinality TheoryBitvector::finiteTypeInfo	(	Expr &	e,
		Unsigned &	n,
		bool	enumerate,
		bool	computeSize
	)		`[virtual]`

Compute information related to finiteness of types.

Used by the TypeComputer defined in TheoryCore (theories should not call this funtion directly -- they should use the methods in Type instead). Each theory should implement this if it contains any types that could be non-infinite.

1. Returns Cardinality of the type (finite, infinite, or unknown) 2. If cardinality = finite and enumerate is true, sets e to the nth element of the type if it can sets e to NULL if n is out of bounds or if unable to compute nth element 3. If cardinality = finite and computeSize is true, sets n to the size of the type if it can sets n to 0 otherwise

Reimplemented from CVC3::Theory.

Definition at line 2945 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::CARD_FINITE, FatalAssert, getBitvectorTypeParam(), CVC3::Expr::getKind(), CVC3::Rational::getUnsigned(), CVC3::Rational::getUnsignedMP(), newBVConstExpr(), and CVC3::pow().

void TheoryBitvector::computeType ( const Expr & e ) [virtual]

Compute and store the type of e.

Parameters:

e	is the expression whose type is computed.

This function computes the type of the top-level operator of e, and recurses into children using getType(), if necessary.

Reimplemented from CVC3::Theory.

Definition at line 2969 of file theory_bitvector.cpp.

References CVC3::Type::anyType(), CVC3::Expr::arity(), CVC3::Expr::begin(), CVC3::BITVECTOR, CVC3::BOOLEXTRACT, CVC3::Theory::boolType(), CVC3::BVAND, CVC3::BVASHR, CVC3::BVCOMP, CVC3::BVCONST, CVC3::BVGE, CVC3::BVGT, CVC3::BVLE, CVC3::BVLSHR, CVC3::BVLT, CVC3::BVMULT, CVC3::BVNAND, CVC3::BVNEG, CVC3::BVNOR, CVC3::BVOR, CVC3::BVPLUS, CVC3::BVREPEAT, CVC3::BVROTL, CVC3::BVROTR, CVC3::BVSDIV, CVC3::BVSGE, CVC3::BVSGT, CVC3::BVSHL, BVSize(), CVC3::BVSLE, CVC3::BVSLT, CVC3::BVSMOD, CVC3::BVSREM, CVC3::BVSUB, CVC3::BVTYPEPRED, CVC3::BVUDIV, CVC3::BVUMINUS, CVC3::BVUREM, CVC3::BVXNOR, CVC3::BVXOR, CVC3::BVZEROEXTEND, CVC3::CONCAT, CVC3::CONST_WIDTH_LEFTSHIFT, CVC3::Expr::end(), CVC3::EXTRACT, FatalAssert, CVC3::Theory::getBaseType(), getBoolExtractIndex(), getBVConstSize(), getBVIndex(), getBVMultParam(), getBVPlusParam(), CVC3::Theory::getEM(), CVC3::Type::getExpr(), getExtractHi(), getExtractLow(), getFixedLeftShiftParam(), getFixedRightShiftParam(), CVC3::Expr::getKind(), CVC3::Expr::getOpKind(), getSXIndex(), CVC3::Expr::getType(), CVC3::int2string(), CVC3::Expr::isApply(), CVC3::LEFTSHIFT, newBitvectorType(), newBitvectorTypeExpr(), CVC3::RIGHTSHIFT, CVC3::Expr::setType(), CVC3::SX, CVC3::Expr::toString(), and TRACE.

void TheoryBitvector::computeModelTerm	(	const Expr &	e,
		std::vector< Expr > &	v
	)		`[virtual]`

Add variables from 'e' to 'v' for constructing a concrete model.

If e is already of primitive type, do NOT add it to v.

Reimplemented from CVC3::Theory.

Definition at line 3296 of file theory_bitvector.cpp.

References CVC3::Expr::begin(), CVC3::BITVECTOR, CVC3::BVAND, CVC3::BVCONST, CVC3::BVGE, CVC3::BVGT, CVC3::BVLE, CVC3::BVLT, CVC3::BVMULT, CVC3::BVNAND, CVC3::BVNEG, CVC3::BVNOR, CVC3::BVOR, CVC3::BVPLUS, CVC3::BVSGE, CVC3::BVSGT, CVC3::BVSLE, CVC3::BVSLT, CVC3::BVSUB, CVC3::BVUMINUS, CVC3::BVXNOR, CVC3::BVXOR, CVC3::CONCAT, CVC3::CONST_WIDTH_LEFTSHIFT, CVC3::Expr::end(), CVC3::EXTRACT, getBitvectorTypeParam(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), CVC3::LEFTSHIFT, newBoolExtractExpr(), and CVC3::RIGHTSHIFT.

void TheoryBitvector::computeModel	(	const Expr &	e,
		std::vector< Expr > &	vars
	)		`[virtual]`

Compute the value of a compound variable from the more primitive ones.

The more primitive variables for e are already assigned concrete values, and are available through getModelValue().

The new value for e must be assigned using assignValue() method.

Parameters:

e	is the compound type expression to assign a value;
vars	are the variables actually assigned. Normally, 'e' is the only element of vars. However, e.g. in the case of uninterpreted functions, assigning 'f' means assigning all relevant applications of 'f' to constant values (f(0), f(5), etc.). Such applications might not be known before the model is constructed (they may be of the form f(x), f(y+z), etc., where x,y,z are still unassigned).

Populating 'vars' is an opportunity for a DP to change the set of top-level "variables" to assign, if needed. In particular, it may drop 'e' from the model entirely, if it is already a concrete value by itself.

Reimplemented from CVC3::Theory.

Definition at line 3345 of file theory_bitvector.cpp.

References CVC3::Theory::assignValue(), CVC3::BITVECTOR, CVC3::BVAND, CVC3::BVCONST, CVC3::BVGE, CVC3::BVGT, CVC3::BVLE, CVC3::BVLT, CVC3::BVMULT, CVC3::BVNAND, CVC3::BVNEG, CVC3::BVNOR, CVC3::BVOR, CVC3::BVPLUS, CVC3::BVSGE, CVC3::BVSGT, CVC3::BVSLE, CVC3::BVSLT, CVC3::BVSUB, CVC3::BVUMINUS, CVC3::BVXNOR, CVC3::BVXOR, CVC3::CONCAT, CVC3::CONST_WIDTH_LEFTSHIFT, DebugAssert, CVC3::EXTRACT, FatalAssert, getBitvectorTypeParam(), CVC3::Theorem::getExpr(), CVC3::Theory::getModelValue(), CVC3::Expr::getOpKind(), CVC3::Theorem::getRHS(), CVC3::Expr::getType(), CVC3::Expr::isBoolConst(), CVC3::Expr::isTrue(), CVC3::LEFTSHIFT, newBoolExtractExpr(), newBVConstExpr(), CVC3::RIGHTSHIFT, CVC3::Theory::simplify(), CVC3::SX, and CVC3::Expr::toString().

Expr TheoryBitvector::computeTypePred	(	const Type &	t,
		const Expr &	e
	)		`[virtual]`

Theory specific computation of the subtyping predicate for type t applied to the expression e.

By default returns true. Each theory needs to compute subtype predicates for the types associated with it. So, for example, the theory of records will take a record type [# f1: T1, f2: T2 #] and an expression e and will return the subtyping predicate for e, namely: computeTypePred(T1, e.f1) AND computeTypePred(T2, e.f2)

Reimplemented from CVC3::Theory.

Definition at line 3411 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, DebugAssert, CVC3::Expr::getEM(), CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Type::toString(), and CVC3::ExprManager::trueExpr().

Expr TheoryBitvector::computeTCC ( const Expr & e ) [virtual]

Compute and cache the TCC of e.

Parameters:

e	is an expression (term or formula). This function computes the TCC of e which is true iff the expression is defined.

This function computes the TCC or predicate of the top-level operator of e, and recurses into children using getTCC(), if necessary.

The default implementation is to compute TCCs recursively for all children, and return their conjunction.

Reimplemented from CVC3::Theory.

Definition at line 5570 of file theory_bitvector.cpp.

References CVC3::Expr::andExpr(), CVC3::andExpr(), CVC3::Expr::arity(), CVC3::BVSDIV, BVSize(), CVC3::BVSMOD, CVC3::BVSREM, CVC3::BVUDIV, CVC3::BVUREM, DebugAssert, CVC3::Expr::eqExpr(), CVC3::ExprMap< Data >::find(), CVC3::Theory::getCommonRules(), CVC3::Expr::getKind(), CVC3::Theorem::getRHS(), CVC3::Theory::getTCC(), CVC3::Expr::isVar(), newBVZeroString(), CVC3::CommonProofRules::rewriteAnd(), CVC3::TheoryCore::tccCache(), CVC3::Theory::theoryCore(), CVC3::Theory::theoryOf(), and CVC3::Theory::trueExpr().

ExprStream & TheoryBitvector::print	(	ExprStream &	os,
		const Expr &	e
	)		`[virtual]`

Theory-specific pretty-printing.

By default, print the top node in AST, and resume pretty-printing the children. The same call e.print(os) can be used in DP-specific printers to use AST printing for the given node. In fact, it is strongly recommended to add e.print(os) as the default for all the cases/kinds that are not handled by the particular pretty-printer.

Reimplemented from CVC3::Theory.

Definition at line 3662 of file theory_bitvector.cpp.

References CVC3::Expr::arity(), CVC3::Expr::begin(), CVC3::BITVECTOR, CVC3::BOOLEXTRACT, CVC3::BVAND, CVC3::BVASHR, CVC3::BVCOMP, CVC3::BVCONST, CVC3::BVGE, CVC3::BVGT, CVC3::BVLE, CVC3::BVLSHR, CVC3::BVLT, CVC3::BVMULT, CVC3::BVNAND, CVC3::BVNEG, CVC3::BVNOR, CVC3::BVOR, CVC3::BVPLUS, CVC3::BVREPEAT, CVC3::BVROTL, CVC3::BVROTR, CVC3::BVSDIV, CVC3::BVSGE, CVC3::BVSGT, CVC3::BVSHL, BVSize(), CVC3::BVSLE, CVC3::BVSLT, CVC3::BVSMOD, CVC3::BVSREM, CVC3::BVSUB, CVC3::BVTOINT, CVC3::BVTYPEPRED, CVC3::BVUDIV, CVC3::BVUMINUS, CVC3::BVUREM, CVC3::BVXNOR, CVC3::BVXOR, CVC3::BVZEROEXTEND, computeBVConst(), CVC3::CONCAT, CVC3::CONST_WIDTH_LEFTSHIFT, DebugAssert, CVC3::Expr::end(), CVC3::EXTRACT, FatalAssert, getBitvectorTypeParam(), getBoolExtractIndex(), getBVConstSize(), getBVConstValue(), getBVIndex(), getBVMultParam(), getBVPlusParam(), CVC3::Op::getExpr(), getExtractHi(), getExtractLow(), getFixedLeftShiftParam(), getFixedRightShiftParam(), CVC3::Expr::getOp(), CVC3::Expr::getOpKind(), getSXIndex(), CVC3::INTTOBV, CVC3::Expr::isApply(), CVC3::Rational::isInteger(), CVC3::ExprStream::lang(), CVC3::LEFTSHIFT, newBVConstExpr(), CVC3::pop(), CVC3::PRESENTATION_LANG, CVC3::Expr::printAST(), printSmtLibShared(), CVC3::push(), CVC3::RIGHTSHIFT, CVC3::SMTLIB_LANG, CVC3::SMTLIB_V2_LANG, CVC3::space(), and CVC3::SX.

Expr TheoryBitvector::parseExprOp ( const Expr & e ) [virtual]

Theory-specific parsing implemented by the DP.

Reimplemented from CVC3::Theory.

Definition at line 4087 of file theory_bitvector.cpp.

References CVC3::Expr::arity(), CVC3::Expr::begin(), CVC3::BITVECTOR, CVC3::BOOLEXTRACT, CVC3::BVAND, CVC3::BVASHR, CVC3::BVCOMP, CVC3::BVCONST, CVC3::BVGE, CVC3::BVGT, CVC3::BVLE, CVC3::BVLSHR, CVC3::BVLT, CVC3::BVMULT, CVC3::BVNAND, CVC3::BVNEG, CVC3::BVNOR, CVC3::BVOR, CVC3::BVPLUS, CVC3::BVREPEAT, CVC3::BVROTL, CVC3::BVROTR, CVC3::BVSDIV, CVC3::BVSGE, CVC3::BVSGT, CVC3::BVSHL, BVSize(), CVC3::BVSLE, CVC3::BVSLT, CVC3::BVSMOD, CVC3::BVSREM, CVC3::BVSUB, CVC3::BVTOINT, CVC3::BVTYPEPRED, CVC3::BVUDIV, CVC3::BVUMINUS, CVC3::BVUREM, CVC3::BVXNOR, CVC3::BVXOR, CVC3::BVZEROEXTEND, computeBVConst(), CVC3::CONCAT, CVC3::CONST_WIDTH_LEFTSHIFT, CVC3::Theory::d_theoryUsed, DebugAssert, CVC3::Expr::end(), CVC3::EXTRACT, FatalAssert, CVC3::Theory::getBaseType(), CVC3::Theory::getEM(), CVC3::Type::getExpr(), CVC3::Rational::getInt(), CVC3::ExprManager::getKind(), CVC3::Expr::getKind(), CVC3::Expr::getOpKind(), CVC3::Expr::getRational(), CVC3::Expr::getString(), CVC3::Expr::getType(), ID, CVC3::INTTOBV, CVC3::Rational::isInteger(), CVC3::isRational(), CVC3::LEFTSHIFT, newBitvectorTypeExpr(), newBoolExtractExpr(), newBVAndExpr(), newBVCompExpr(), newBVConstExpr(), newBVExtractExpr(), newBVIndexExpr(), newBVLEExpr(), newBVLTExpr(), newBVMultPadExpr(), newBVNandExpr(), newBVNegExpr(), newBVNorExpr(), newBVOrExpr(), newBVPlusPadExpr(), newBVSLEExpr(), newBVSLTExpr(), newBVSubExpr(), newBVUminusExpr(), newBVXnorExpr(), newBVXorExpr(), newConcatExpr(), newFixedConstWidthLeftShiftExpr(), newFixedLeftShiftExpr(), newFixedRightShiftExpr(), newSXExpr(), pad(), CVC3::Theory::parseExpr(), RAW_LIST, CVC3::RIGHTSHIFT, CVC3::SX, CVC3::Expr::toString(), and TRACE.

int TheoryBitvector::BVSize ( const Expr & e )

Return the number of bits in the bitvector expression.

Definition at line 45 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), and CVC3::Expr::toString().

Expr CVC3::TheoryBitvector::rat ( const Rational & r ) [inline]

Definition at line 300 of file theory_bitvector.h.

References CVC3::Theory::getEM(), and CVC3::ExprManager::newRatExpr().

Expr TheoryBitvector::pad	(	int	len,
		const Expr &	e
	)

pads e to be of length len

Converts e into a BITVECTOR of length 'len'.

Parameters:

len	is the desired length of the resulting bitvector
e	is the original bitvector of arbitrary length

Definition at line 59 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), CVC3::int2string(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::canonBVEQ(), newBVConstExpr(), newBVMultPadExpr(), newBVPlusPadExpr(), parseExprOp(), and printSmtLibShared().

bool TheoryBitvector::comparebv	(	const Expr &	e1,
		const Expr &	e2
	)

Type CVC3::TheoryBitvector::newBitvectorType ( int i ) [inline]

Definition at line 307 of file theory_bitvector.h.

References newBitvectorTypeExpr().

Referenced by computeType(), CVC3::BitvectorTheoremProducer::processExtract(), CVC3::Translator::processType(), and CVC3::BitvectorTheoremProducer::solveExtractOverlap().

Expr TheoryBitvector::newBitvectorTypePred	(	const Type &	t,
		const Expr &	e
	)

Definition at line 4650 of file theory_bitvector.cpp.

References CVC3::BVTYPEPRED, and CVC3::Type::getExpr().

Expr TheoryBitvector::newBitvectorTypeExpr ( int i )

Definition at line 4638 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, d_maxLength, DebugAssert, CVC3::Theory::getEM(), and CVC3::int2string().

Referenced by computeType(), newBitvectorType(), and parseExprOp().

Expr TheoryBitvector::newBVAndExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 4656 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVAND, BVSize(), DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::bitwiseConst(), CVC3::BitvectorTheoremProducer::negBVor(), parseExprOp(), and CVC3::BitvectorTheoremProducer::rewriteNAND().

Expr TheoryBitvector::newBVAndExpr ( const std::vector< Expr > & kids )

Definition at line 4671 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVAND, BVSize(), DebugAssert, and CVC3::Theory::getEM().

Expr TheoryBitvector::newBVOrExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 4692 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVOR, BVSize(), DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::bitwiseConst(), CVC3::BitvectorTheoremProducer::negBVand(), parseExprOp(), and CVC3::BitvectorTheoremProducer::rewriteNOR().

Expr TheoryBitvector::newBVOrExpr ( const std::vector< Expr > & kids )

Definition at line 4707 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVOR, BVSize(), DebugAssert, and CVC3::Theory::getEM().

Expr TheoryBitvector::newBVXorExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 4758 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, BVSize(), CVC3::BVXOR, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::bitwiseConst(), CVC3::BitvectorTheoremProducer::canonBVEQ(), CVC3::BitvectorTheoremProducer::negBVxnor(), CVC3::BitvectorTheoremProducer::negBVxor(), parseExprOp(), and CVC3::BitvectorTheoremProducer::rewriteXNOR().

Expr TheoryBitvector::newBVXorExpr ( const std::vector< Expr > & kids )

Definition at line 4773 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, BVSize(), CVC3::BVXOR, DebugAssert, and CVC3::Theory::getEM().

Expr TheoryBitvector::newBVXnorExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 4794 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, BVSize(), CVC3::BVXNOR, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::negBVxnor(), and parseExprOp().

Expr TheoryBitvector::newBVXnorExpr ( const std::vector< Expr > & kids )

Definition at line 4824 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, BVSize(), CVC3::BVXNOR, DebugAssert, and CVC3::Theory::getEM().

Expr TheoryBitvector::newBVNandExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 4728 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVNAND, BVSize(), DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Referenced by parseExprOp().

Expr TheoryBitvector::newBVNorExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 4743 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVNOR, BVSize(), DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Referenced by parseExprOp().

Expr TheoryBitvector::newBVCompExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 4809 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVCOMP, BVSize(), DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Referenced by parseExprOp().

Expr TheoryBitvector::newBVLTExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 4845 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVLT, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::bvUDivTheorem(), CVC3::BitvectorTheoremProducer::generalIneqn(), CVC3::BitvectorTheoremProducer::notBVLTRule(), CVC3::BitvectorTheoremProducer::padBVLTRule(), parseExprOp(), and CVC3::BitvectorTheoremProducer::signBVLTRule().

Expr TheoryBitvector::newBVLEExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 4856 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVLE, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::bitExtractBVASHR(), CVC3::BitvectorTheoremProducer::generalIneqn(), CVC3::BitvectorTheoremProducer::notBVLTRule(), CVC3::BitvectorTheoremProducer::padBVLTRule(), parseExprOp(), and CVC3::BitvectorTheoremProducer::signBVLTRule().

Expr TheoryBitvector::newSXExpr	(	const Expr &	t1,
		int	len
	)

Definition at line 4867 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, DebugAssert, CVC3::Theory::getEM(), CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), CVC3::int2string(), CVC3::SX, and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::bvashrToConcat(), CVC3::BitvectorTheoremProducer::padBVSLTRule(), and parseExprOp().

Expr TheoryBitvector::newBVIndexExpr	(	int	kind,
		const Expr &	t1,
		int	len
	)

Definition at line 4882 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVREPEAT, DebugAssert, CVC3::Theory::getEM(), CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), CVC3::int2string(), and CVC3::Expr::toString().

Referenced by parseExprOp().

Expr TheoryBitvector::newBVSLTExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 4898 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVSLT, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::padBVSLTRule(), and parseExprOp().

Expr TheoryBitvector::newBVSLEExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 4909 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVSLE, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::padBVSLTRule(), and parseExprOp().

Expr TheoryBitvector::newBVNegExpr ( const Expr & t1 )

Definition at line 4920 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVNEG, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Expr TheoryBitvector::newBVUminusExpr ( const Expr & t1 )

Definition at line 4930 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVUMINUS, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::bvSDivRewrite(), CVC3::BitvectorTheoremProducer::bvSModRewrite(), CVC3::BitvectorTheoremProducer::bvSRemRewrite(), CVC3::BitvectorTheoremProducer::canonBVEQ(), CVC3::BitvectorTheoremProducer::lhsMinusRhsRule(), parseExprOp(), and CVC3::BitvectorTheoremProducer::rewriteBVSub().

Expr TheoryBitvector::newBoolExtractExpr	(	const Expr &	t1,
		int	r
	)

Definition at line 4940 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BOOLEXTRACT, DebugAssert, CVC3::Theory::getEM(), CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), CVC3::int2string(), and CVC3::Expr::toString().

Expr TheoryBitvector::newFixedLeftShiftExpr	(	const Expr &	t1,
		int	r
	)

Definition at line 4954 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, DebugAssert, CVC3::Theory::getEM(), CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), CVC3::int2string(), CVC3::LEFTSHIFT, and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::constMultToPlus(), and parseExprOp().

Expr TheoryBitvector::newFixedConstWidthLeftShiftExpr	(	const Expr &	t1,
		int	r
	)

Definition at line 4968 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::CONST_WIDTH_LEFTSHIFT, DebugAssert, CVC3::Theory::getEM(), CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), CVC3::int2string(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::bitExtractBVMult(), CVC3::BitvectorTheoremProducer::bitExtractConstBVMult(), newBVExtractExpr(), and parseExprOp().

Expr TheoryBitvector::newFixedRightShiftExpr	(	const Expr &	t1,
		int	r
	)

Definition at line 4982 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, DebugAssert, CVC3::Theory::getEM(), CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), CVC3::int2string(), CVC3::RIGHTSHIFT, and CVC3::Expr::toString().

Referenced by parseExprOp().

Expr TheoryBitvector::newConcatExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 4997 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::CONCAT, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Expr TheoryBitvector::newConcatExpr	(	const Expr &	t1,
		const Expr &	t2,
		const Expr &	t3
	)

Definition at line 5008 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::CONCAT, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Expr TheoryBitvector::newConcatExpr ( const std::vector< Expr > & kids )

Definition at line 5023 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::CONCAT, DebugAssert, and CVC3::Theory::getEM().

Expr TheoryBitvector::newBVConstExpr	(	const std::string &	s,
		int	base = `2`
	)

Definition at line 5214 of file theory_bitvector.cpp.

References d_bvConstExprIndex, DebugAssert, CVC3::Theory::getEM(), CVC3::int2string(), and CVC3::ExprManager::newExpr().

Expr TheoryBitvector::newBVConstExpr ( const std::vector< bool > & bits )

Definition at line 5172 of file theory_bitvector.cpp.

References d_bvConstExprIndex, DebugAssert, CVC3::Theory::getEM(), and CVC3::ExprManager::newExpr().

Expr TheoryBitvector::signed_newBVConstExpr	(	Rational	c,
		int	bv_size
	)

Definition at line 5459 of file theory_bitvector.cpp.

References computeNegBVConst(), and newBVConstExpr().

Expr TheoryBitvector::newBVConstExpr	(	const Rational &	r,
		int	len = `0`
	)

Definition at line 5182 of file theory_bitvector.cpp.

References DebugAssert, CVC3::int2string(), CVC3::Rational::isInteger(), newBVConstExpr(), pad(), and CVC3::Rational::toString().

Expr TheoryBitvector::newBVZeroString ( int r )

produces a string of 0's of length bvLength

Definition at line 5145 of file theory_bitvector.cpp.

References DebugAssert, CVC3::int2string(), and newBVConstExpr().

Expr TheoryBitvector::newBVOneString ( int r )

produces a string of 1's of length bvLength

Definition at line 5159 of file theory_bitvector.cpp.

References DebugAssert, CVC3::int2string(), and newBVConstExpr().

Referenced by CVC3::BitvectorTheoremProducer::bitExtractBVMult(), CVC3::BitvectorTheoremProducer::bitwiseConstElim(), CVC3::BitvectorTheoremProducer::bitwiseFlatten(), and CVC3::BitvectorTheoremProducer::rewriteBVCOMP().

Expr TheoryBitvector::newBVExtractExpr	(	const Expr &	e,
		int	hi,
		int	low
	)

hi and low are bit indices

Definition at line 5237 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, BVSize(), DebugAssert, CVC3::EXTRACT, CVC3::Theory::getEM(), CVC3::Type::getExpr(), getFixedLeftShiftParam(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), CVC3::int2string(), CVC3::LEFTSHIFT, newFixedConstWidthLeftShiftExpr(), and CVC3::Expr::toString().

Expr TheoryBitvector::newBVSubExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 5260 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, BVSize(), CVC3::BVSUB, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::bvURemRewrite(), and parseExprOp().

Expr TheoryBitvector::newBVPlusExpr	(	int	numbits,
		const Expr &	k1,
		const Expr &	k2
	)

'numbits' is the number of bits in the result

Definition at line 5275 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVPLUS, BVSize(), DebugAssert, CVC3::Theory::getEM(), CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), CVC3::int2string(), and CVC3::Expr::toString().

Expr TheoryBitvector::newBVPlusExpr	(	int	numbits,
		const std::vector< Expr > &	k
	)

'numbits' is the number of bits in the result

Definition at line 5296 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVPLUS, BVSize(), DebugAssert, CVC3::Theory::getEM(), and CVC3::int2string().

Expr TheoryBitvector::newBVPlusPadExpr	(	int	bvLength,
		const std::vector< Expr > &	k
	)

pads children and then builds plus expr

Definition at line 5317 of file theory_bitvector.cpp.

References newBVPlusExpr(), and pad().

Referenced by CVC3::BitvectorTheoremProducer::extractBVPlus(), and parseExprOp().

Expr TheoryBitvector::newBVMultExpr	(	int	bvLength,
		const Expr &	t1,
		const Expr &	t2
	)

Definition at line 5038 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVMULT, BVSize(), DebugAssert, CVC3::Theory::getEM(), CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), CVC3::int2string(), and CVC3::Expr::toString().

Expr TheoryBitvector::newBVMultExpr	(	int	bvLength,
		const std::vector< Expr > &	kids
	)

Definition at line 5056 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVMULT, BVSize(), DebugAssert, CVC3::Theory::getEM(), and CVC3::int2string().

Expr TheoryBitvector::newBVMultPadExpr	(	int	bvLength,
		const Expr &	t1,
		const Expr &	t2
	)

Definition at line 5083 of file theory_bitvector.cpp.

References newBVMultExpr(), and pad().

Referenced by CVC3::BitvectorTheoremProducer::buildPlusTerm(), CVC3::BitvectorTheoremProducer::canonBVEQ(), CVC3::BitvectorTheoremProducer::extractBVMult(), CVC3::BitvectorTheoremProducer::liftConcatBVMult(), and parseExprOp().

Expr TheoryBitvector::newBVMultPadExpr	(	int	bvLength,
		const std::vector< Expr > &	kids
	)

Definition at line 5073 of file theory_bitvector.cpp.

References newBVMultExpr(), and pad().

Expr TheoryBitvector::newBVUDivExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 5089 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, BVSize(), CVC3::BVUDIV, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::bvSDivRewrite(), and CVC3::BitvectorTheoremProducer::bvURemRewrite().

Expr TheoryBitvector::newBVURemExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 5100 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, BVSize(), CVC3::BVUREM, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::bvSModRewrite(), and CVC3::BitvectorTheoremProducer::bvSRemRewrite().

Expr TheoryBitvector::newBVSDivExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 5111 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, CVC3::BVSDIV, BVSize(), DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Expr TheoryBitvector::newBVSRemExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 5122 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, BVSize(), CVC3::BVSREM, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

Expr TheoryBitvector::newBVSModExpr	(	const Expr &	t1,
		const Expr &	t2
	)

Definition at line 5133 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, BVSize(), CVC3::BVSMOD, DebugAssert, CVC3::Type::getExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getType(), and CVC3::Expr::toString().

int TheoryBitvector::getBitvectorTypeParam ( const Expr & e )

Definition at line 5331 of file theory_bitvector.cpp.

References CVC3::BITVECTOR, DebugAssert, CVC3::Rational::getInt(), CVC3::Expr::getKind(), CVC3::Expr::getRational(), and CVC3::Expr::toString().

Referenced by computeModel(), computeModelTerm(), CVC3::BitvectorTheoremProducer::expandTypePred(), finiteTypeInfo(), print(), and CVC3::Translator::printArrayExpr().

int CVC3::TheoryBitvector::getBitvectorTypeParam ( const Type & t ) [inline]

Definition at line 380 of file theory_bitvector.h.

References getBitvectorTypeParam(), and CVC3::Type::getExpr().

Referenced by getBitvectorTypeParam().

Type TheoryBitvector::getTypePredType ( const Expr & tp )

Definition at line 5340 of file theory_bitvector.cpp.

References CVC3::BVTYPEPRED, DebugAssert, CVC3::Expr::getOpExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::isApply(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::expandTypePred().

const Expr & TheoryBitvector::getTypePredExpr ( const Expr & tp )

Definition at line 5348 of file theory_bitvector.cpp.

References CVC3::BVTYPEPRED, DebugAssert, CVC3::Expr::getOpKind(), and CVC3::Expr::toString().

Referenced by assertFact(), and CVC3::BitvectorTheoremProducer::expandTypePred().

int TheoryBitvector::getSXIndex ( const Expr & e )

Definition at line 5365 of file theory_bitvector.cpp.

References DebugAssert, CVC3::Rational::getInt(), CVC3::Expr::getOpExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getRational(), CVC3::Expr::isApply(), CVC3::SX, and CVC3::Expr::toString().

Referenced by computeType(), and print().

int TheoryBitvector::getBVIndex ( const Expr & e )

Definition at line 5373 of file theory_bitvector.cpp.

References CVC3::BVREPEAT, CVC3::BVROTL, CVC3::BVROTR, CVC3::BVZEROEXTEND, DebugAssert, CVC3::Rational::getInt(), CVC3::Expr::getOpExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getRational(), CVC3::Expr::isApply(), and CVC3::Expr::toString().

Referenced by computeType(), print(), CVC3::BitvectorTheoremProducer::repeatRule(), CVC3::BitvectorTheoremProducer::rotlRule(), CVC3::BitvectorTheoremProducer::rotrRule(), and CVC3::BitvectorTheoremProducer::zeroExtendRule().

int TheoryBitvector::getBoolExtractIndex ( const Expr & e )

int TheoryBitvector::getFixedLeftShiftParam ( const Expr & e )

Definition at line 5385 of file theory_bitvector.cpp.

References CVC3::CONST_WIDTH_LEFTSHIFT, DebugAssert, CVC3::Rational::getInt(), CVC3::Expr::getOpExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getRational(), CVC3::Expr::isApply(), CVC3::LEFTSHIFT, and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::bitExtractFixedLeftShift(), computeType(), CVC3::BitvectorTheoremProducer::constWidthLeftShiftToConcat(), CVC3::BitvectorTheoremProducer::leftShiftToConcat(), newBVExtractExpr(), and print().

int TheoryBitvector::getFixedRightShiftParam ( const Expr & e )

Definition at line 5396 of file theory_bitvector.cpp.

References DebugAssert, CVC3::Rational::getInt(), CVC3::Expr::getOpExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getRational(), CVC3::Expr::isApply(), CVC3::RIGHTSHIFT, and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::bitExtractFixedRightShift(), computeType(), print(), and CVC3::BitvectorTheoremProducer::rightShiftToConcat().

int TheoryBitvector::getExtractHi ( const Expr & e )

Definition at line 5414 of file theory_bitvector.cpp.

References DebugAssert, CVC3::EXTRACT, CVC3::Rational::getInt(), CVC3::Expr::getOpExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getRational(), CVC3::Expr::isApply(), and CVC3::Expr::toString().

int TheoryBitvector::getExtractLow ( const Expr & e )

Definition at line 5405 of file theory_bitvector.cpp.

References DebugAssert, CVC3::EXTRACT, CVC3::Rational::getInt(), CVC3::Expr::getOpExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getRational(), CVC3::Expr::isApply(), and CVC3::Expr::toString().

int TheoryBitvector::getBVPlusParam ( const Expr & e )

Definition at line 5423 of file theory_bitvector.cpp.

References CVC3::AST_LANG, CVC3::BVPLUS, DebugAssert, CVC3::Rational::getInt(), CVC3::Expr::getOpExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getRational(), CVC3::Expr::isApply(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::bitExtractBVPlus(), CVC3::BitvectorTheoremProducer::bitExtractBVPlusPreComputed(), CVC3::BitvectorTheoremProducer::bvplusConst(), CVC3::BitvectorTheoremProducer::bvplusZeroConcatRule(), computeType(), print(), and printSmtLibShared().

int TheoryBitvector::getBVMultParam ( const Expr & e )

Definition at line 5431 of file theory_bitvector.cpp.

References CVC3::AST_LANG, CVC3::BVMULT, DebugAssert, CVC3::Rational::getInt(), CVC3::Expr::getOpExpr(), CVC3::Expr::getOpKind(), CVC3::Expr::getRational(), CVC3::Expr::isApply(), and CVC3::Expr::toString().

Referenced by computeType(), print(), and printSmtLibShared().

unsigned TheoryBitvector::getBVConstSize ( const Expr & e )

Definition at line 5439 of file theory_bitvector.cpp.

References CVC3::BVCONST, DebugAssert, CVC3::Expr::getExprValue(), and CVC3::Expr::getKind().

Referenced by CVC3::BitvectorTheoremProducer::bitwiseConst(), CVC3::BitvectorTheoremProducer::bitwiseConstElim(), computeBVConst(), computeNegBVConst(), computeType(), CVC3::BitvectorTheoremProducer::concatConst(), CVC3::BitvectorTheoremProducer::negConst(), and print().

bool TheoryBitvector::getBVConstValue	(	const Expr &	e,
		int	i
	)

Definition at line 5448 of file theory_bitvector.cpp.

References CVC3::BVCONST, DebugAssert, CVC3::Expr::getExprValue(), and CVC3::Expr::getKind().

Referenced by CVC3::BitvectorTheoremProducer::bitExtractConstant(), CVC3::BitvectorTheoremProducer::bitExtractConstBVMult(), CVC3::BitvectorTheoremProducer::bitwiseConst(), CVC3::BitvectorTheoremProducer::bitwiseConstElim(), computeBVConst(), computeNegBVConst(), CVC3::BitvectorTheoremProducer::concatConst(), CVC3::BitvectorTheoremProducer::extractConst(), CVC3::BitvectorTheoremProducer::negConst(), and print().

Rational TheoryBitvector::computeBVConst ( const Expr & e )

computes the integer value of a bitvector constant

Definition at line 5474 of file theory_bitvector.cpp.

References CVC3::BVCONST, d_bv32Flag, DebugAssert, getBVConstSize(), getBVConstValue(), CVC3::Expr::getKind(), and CVC3::Expr::toString().

Rational TheoryBitvector::computeNegBVConst ( const Expr & e )

computes the integer value of ~c+1 or BVUMINUS(c)

Definition at line 5495 of file theory_bitvector.cpp.

References CVC3::BVCONST, d_bv32Flag, DebugAssert, getBVConstSize(), getBVConstValue(), CVC3::Expr::getKind(), and CVC3::Expr::toString().

Referenced by CVC3::BitvectorTheoremProducer::bvmultBVUminus(), CVC3::BitvectorTheoremProducer::bvuminusBVConst(), CVC3::BitvectorTheoremProducer::bvuminusBVMult(), and signed_newBVConstExpr().

int CVC3::TheoryBitvector::getMaxSize ( ) [inline]

Definition at line 401 of file theory_bitvector.h.

References d_maxLength.

bool TheoryBitvector::isLinearTerm ( const Expr & e )

Definition at line 2345 of file theory_bitvector.cpp.

References CVC3::BVCONST, CVC3::BVMULT, CVC3::BVPLUS, CVC3::Expr::getOpKind(), and CVC3::Theory::isLeaf().

Referenced by canSolveFor().

void TheoryBitvector::extract_vars	(	const Expr &	e,
		std::vector< Expr > &	vars
	)

Definition at line 1950 of file theory_bitvector.cpp.

References CVC3::BVCONST, CVC3::BVMULT, CVC3::BVPLUS, CVC3::BVUMINUS, DebugAssert, and CVC3::Expr::getOpKind().

Referenced by CVC3::BitvectorTheoremProducer::BVMult_order_subterms().

bool TheoryBitvector::canSolveFor	(	const Expr &	term,
		const Expr &	e
	)

Definition at line 2301 of file theory_bitvector.cpp.

References CVC3::BVCONST, CVC3::BVMULT, countTermIn(), DebugAssert, EQ, CVC3::Expr::getOpKind(), CVC3::Theory::isLeaf(), and isLinearTerm().

Rational TheoryBitvector::multiplicative_inverse	(	Rational	r,
		int	n_bits
	)

Definition at line 2052 of file theory_bitvector.cpp.

References CVC3::pow().

Referenced by CVC3::BitvectorTheoremProducer::canonBVEQ().

Member Data Documentation

BitvectorProofRules* CVC3::TheoryBitvector::d_rules [private]

Definition at line 101 of file theory_bitvector.h.

Referenced by comparebv(), generalBitBlast(), simplifyPendingEq(), solve(), TheoryBitvector(), and ~TheoryBitvector().

size_t CVC3::TheoryBitvector::d_bvConstExprIndex [private]

MemoryManager index for BVConstExpr subclass.

Definition at line 103 of file theory_bitvector.h.

Referenced by newBVConstExpr(), and TheoryBitvector().

size_t CVC3::TheoryBitvector::d_bvPlusExprIndex [private]

Definition at line 104 of file theory_bitvector.h.

size_t CVC3::TheoryBitvector::d_bvParameterExprIndex [private]

Definition at line 105 of file theory_bitvector.h.

size_t CVC3::TheoryBitvector::d_bvTypePredExprIndex [private]

Definition at line 106 of file theory_bitvector.h.

StatCounter CVC3::TheoryBitvector::d_bvDelayEq [private]

counts delayed asserted equalities

Definition at line 109 of file theory_bitvector.h.

StatCounter CVC3::TheoryBitvector::d_bvAssertEq [private]

counts asserted equalities

Definition at line 111 of file theory_bitvector.h.

StatCounter CVC3::TheoryBitvector::d_bvDelayDiseq [private]

counts delayed asserted disequalities

Definition at line 113 of file theory_bitvector.h.

StatCounter CVC3::TheoryBitvector::d_bvAssertDiseq [private]

counts asserted disequalities

Definition at line 115 of file theory_bitvector.h.

StatCounter CVC3::TheoryBitvector::d_bvTypePreds [private]

counts type predicates

Definition at line 117 of file theory_bitvector.h.

StatCounter CVC3::TheoryBitvector::d_bvDelayTypePreds [private]

counts delayed type predicates

Definition at line 119 of file theory_bitvector.h.

StatCounter CVC3::TheoryBitvector::d_bvBitBlastEq [private]

counts bitblasted equalities

Definition at line 121 of file theory_bitvector.h.

StatCounter CVC3::TheoryBitvector::d_bvBitBlastDiseq [private]

counts bitblasted disequalities

Definition at line 123 of file theory_bitvector.h.

const bool* CVC3::TheoryBitvector::d_booleanRWFlag [private]

boolean on the fly rewrite flag

Definition at line 126 of file theory_bitvector.h.

const bool* CVC3::TheoryBitvector::d_boolExtractCacheFlag [private]

bool extract cache flag

Definition at line 128 of file theory_bitvector.h.

const bool* CVC3::TheoryBitvector::d_bv32Flag [private]

flag which indicates that all arithmetic is 32 bit with no overflow

Definition at line 130 of file theory_bitvector.h.

Referenced by computeBVConst(), and computeNegBVConst().

CDMap<Expr,Theorem> CVC3::TheoryBitvector::d_bitvecCache [private]

Cache for storing the results of the bitBlastTerm function.

Definition at line 133 of file theory_bitvector.h.

ExprMap<Theorem> CVC3::TheoryBitvector::d_pushNegCache [private]

Cache for pushNegation(). it is ok that this is cache is.

Definition at line 138 of file theory_bitvector.h.

CDList<Theorem> CVC3::TheoryBitvector::d_eq [private]

Backtracking queue for equalities.

Definition at line 141 of file theory_bitvector.h.

Referenced by assertFact(), and checkSat().

CDList<Theorem> CVC3::TheoryBitvector::d_eqPending [private]

Backtracking queue for unsolved equalities.

Definition at line 143 of file theory_bitvector.h.

Referenced by assertFact(), and checkSat().

CDO<unsigned int> CVC3::TheoryBitvector::d_eq_index [private]

Index to current position in d_eqPending.

Definition at line 145 of file theory_bitvector.h.

Referenced by checkSat().

CDList<Theorem> CVC3::TheoryBitvector::d_bitblast [private]

Backtracking queue for all other assertions.

Definition at line 147 of file theory_bitvector.h.

Referenced by assertFact(), checkSat(), and comparebv().

CDO<unsigned int> CVC3::TheoryBitvector::d_bb_index [private]

Index to current position in d_bitblast.

Definition at line 149 of file theory_bitvector.h.

Referenced by assertFact(), checkSat(), and comparebv().

CDMap<Expr,Expr> CVC3::TheoryBitvector::d_sharedSubterms [private]

Backtracking database of subterms of shared terms.

Definition at line 151 of file theory_bitvector.h.

Referenced by update().

CDList<Expr> CVC3::TheoryBitvector::d_sharedSubtermsList [private]

Backtracking database of subterms of shared terms.

Definition at line 153 of file theory_bitvector.h.

Expr CVC3::TheoryBitvector::d_bvZero [private]

Constant 1-bit bit-vector 0bin0.

Definition at line 156 of file theory_bitvector.h.

Referenced by bvZero(), and TheoryBitvector().

Expr CVC3::TheoryBitvector::d_bvOne [private]

Constant 1-bit bit-vector 0bin0.

Definition at line 158 of file theory_bitvector.h.

Referenced by bvOne(), and TheoryBitvector().

int CVC3::TheoryBitvector::d_maxLength [private]

Max size of any bitvector we've seen.

Definition at line 165 of file theory_bitvector.h.

Referenced by getMaxSize(), and newBitvectorTypeExpr().

CDO<unsigned> CVC3::TheoryBitvector::d_index1 [private]

Used in checkSat.

Definition at line 168 of file theory_bitvector.h.

CDO<unsigned> CVC3::TheoryBitvector::d_index2 [private]

Definition at line 169 of file theory_bitvector.h.

ExprMap<Expr> CVC3::TheoryBitvector::d_bvPlusCarryCacheLeftBV

Definition at line 267 of file theory_bitvector.h.

Referenced by CVC3::BitvectorTheoremProducer::computeCarryPreComputed().

ExprMap<Expr> CVC3::TheoryBitvector::d_bvPlusCarryCacheRightBV

Definition at line 268 of file theory_bitvector.h.

Referenced by CVC3::BitvectorTheoremProducer::computeCarryPreComputed().

std::vector<Theorem> CVC3::TheoryBitvector::additionalRewriteConstraints

Definition at line 416 of file theory_bitvector.h.

Referenced by checkSat().

The documentation for this class was generated from the following files:

CVC3::TheoryBitvector Class ReferenceTheories

Public Member Functions

Public Attributes

Private Member Functions

Private Attributes

Detailed Description

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation

CVC3::TheoryBitvector Class Reference
Theories