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|
//===-- Z3Builder.cpp ------------------------------------------*- C++ -*-====//
//
// The KLEE Symbolic Virtual Machine
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
#include "klee/Config/config.h"
#ifdef ENABLE_Z3
#include "Z3Builder.h"
#include "klee/ADT/Bits.h"
#include "klee/Expr/Expr.h"
#include "klee/Solver/Solver.h"
#include "klee/Solver/SolverStats.h"
#include "klee/Support/ErrorHandling.h"
#include "llvm/ADT/StringExtras.h"
#include "llvm/ADT/iterator_range.h"
#include "llvm/Support/CommandLine.h"
using namespace klee;
namespace {
llvm::cl::opt<bool> UseConstructHashZ3(
"use-construct-hash-z3",
llvm::cl::desc("Use hash-consing during Z3 query construction (default=true)"),
llvm::cl::init(true),
llvm::cl::cat(klee::ExprCat));
// FIXME: This should be std::atomic<bool>. Need C++11 for that.
bool Z3InterationLogOpen = false;
}
namespace klee {
// Declared here rather than `Z3Builder.h` so they can be called in gdb.
template <> void Z3NodeHandle<Z3_sort>::dump() {
llvm::errs() << "Z3SortHandle:\n" << ::Z3_sort_to_string(context, node)
<< "\n";
}
template <> void Z3NodeHandle<Z3_ast>::dump() {
llvm::errs() << "Z3ASTHandle:\n" << ::Z3_ast_to_string(context, as_ast())
<< "\n";
}
void custom_z3_error_handler(Z3_context ctx, Z3_error_code ec) {
::Z3_string errorMsg =
#ifdef HAVE_Z3_GET_ERROR_MSG_NEEDS_CONTEXT
// Z3 > 4.4.1
Z3_get_error_msg(ctx, ec);
#else
// Z3 4.4.1
Z3_get_error_msg(ec);
#endif
// FIXME: This is kind of a hack. The value comes from the enum
// Z3_CANCELED_MSG but this isn't currently exposed by Z3's C API
if (strcmp(errorMsg, "canceled") == 0) {
// Solver timeout is not a fatal error
return;
}
llvm::errs() << "Error: Incorrect use of Z3. [" << ec << "] " << errorMsg
<< "\n";
// NOTE: The current implementation of `Z3_close_log()` can be safely
// called even if the log isn't open.
Z3_close_log();
abort();
}
Z3ArrayExprHash::~Z3ArrayExprHash() {}
void Z3ArrayExprHash::clear() {
_update_node_hash.clear();
_array_hash.clear();
}
Z3Builder::Z3Builder(bool autoClearConstructCache, const char* z3LogInteractionFileArg)
: autoClearConstructCache(autoClearConstructCache), z3LogInteractionFile("") {
if (z3LogInteractionFileArg)
this->z3LogInteractionFile = std::string(z3LogInteractionFileArg);
if (z3LogInteractionFile.length() > 0) {
klee_message("Logging Z3 API interaction to \"%s\"",
z3LogInteractionFile.c_str());
assert(!Z3InterationLogOpen && "interaction log should not already be open");
Z3_open_log(z3LogInteractionFile.c_str());
Z3InterationLogOpen = true;
}
// FIXME: Should probably let the client pass in a Z3_config instead
Z3_config cfg = Z3_mk_config();
// It is very important that we ask Z3 to let us manage memory so that
// we are able to cache expressions and sorts.
ctx = Z3_mk_context_rc(cfg);
// Make sure we handle any errors reported by Z3.
Z3_set_error_handler(ctx, custom_z3_error_handler);
// When emitting Z3 expressions make them SMT-LIBv2 compliant
Z3_set_ast_print_mode(ctx, Z3_PRINT_SMTLIB2_COMPLIANT);
Z3_del_config(cfg);
}
Z3Builder::~Z3Builder() {
// Clear caches so exprs/sorts gets freed before the destroying context
// they aren associated with.
clearConstructCache();
_arr_hash.clear();
constant_array_assertions.clear();
Z3_del_context(ctx);
if (z3LogInteractionFile.length() > 0) {
Z3_close_log();
Z3InterationLogOpen = false;
}
}
Z3SortHandle Z3Builder::getBvSort(unsigned width) {
// FIXME: cache these
return Z3SortHandle(Z3_mk_bv_sort(ctx, width), ctx);
}
Z3SortHandle Z3Builder::getArraySort(Z3SortHandle domainSort,
Z3SortHandle rangeSort) {
// FIXME: cache these
return Z3SortHandle(Z3_mk_array_sort(ctx, domainSort, rangeSort), ctx);
}
Z3ASTHandle Z3Builder::buildArray(const char *name, unsigned indexWidth,
unsigned valueWidth) {
Z3SortHandle domainSort = getBvSort(indexWidth);
Z3SortHandle rangeSort = getBvSort(valueWidth);
Z3SortHandle t = getArraySort(domainSort, rangeSort);
Z3_symbol s = Z3_mk_string_symbol(ctx, const_cast<char *>(name));
return Z3ASTHandle(Z3_mk_const(ctx, s, t), ctx);
}
Z3ASTHandle Z3Builder::getTrue() { return Z3ASTHandle(Z3_mk_true(ctx), ctx); }
Z3ASTHandle Z3Builder::getFalse() { return Z3ASTHandle(Z3_mk_false(ctx), ctx); }
Z3ASTHandle Z3Builder::bvOne(unsigned width) { return bvZExtConst(width, 1); }
Z3ASTHandle Z3Builder::bvZero(unsigned width) { return bvZExtConst(width, 0); }
Z3ASTHandle Z3Builder::bvMinusOne(unsigned width) {
return bvSExtConst(width, (int64_t)-1);
}
Z3ASTHandle Z3Builder::bvConst32(unsigned width, uint32_t value) {
Z3SortHandle t = getBvSort(width);
return Z3ASTHandle(Z3_mk_unsigned_int(ctx, value, t), ctx);
}
Z3ASTHandle Z3Builder::bvConst64(unsigned width, uint64_t value) {
Z3SortHandle t = getBvSort(width);
return Z3ASTHandle(Z3_mk_unsigned_int64(ctx, value, t), ctx);
}
Z3ASTHandle Z3Builder::bvZExtConst(unsigned width, uint64_t value) {
if (width <= 64)
return bvConst64(width, value);
Z3ASTHandle expr = Z3ASTHandle(bvConst64(64, value), ctx);
Z3ASTHandle zero = Z3ASTHandle(bvConst64(64, 0), ctx);
for (width -= 64; width > 64; width -= 64)
expr = Z3ASTHandle(Z3_mk_concat(ctx, zero, expr), ctx);
return Z3ASTHandle(Z3_mk_concat(ctx, bvConst64(width, 0), expr), ctx);
}
Z3ASTHandle Z3Builder::bvSExtConst(unsigned width, uint64_t value) {
if (width <= 64)
return bvConst64(width, value);
Z3SortHandle t = getBvSort(width - 64);
if (value >> 63) {
Z3ASTHandle r = Z3ASTHandle(Z3_mk_int64(ctx, -1, t), ctx);
return Z3ASTHandle(Z3_mk_concat(ctx, r, bvConst64(64, value)), ctx);
}
Z3ASTHandle r = Z3ASTHandle(Z3_mk_int64(ctx, 0, t), ctx);
return Z3ASTHandle(Z3_mk_concat(ctx, r, bvConst64(64, value)), ctx);
}
Z3ASTHandle Z3Builder::bvBoolExtract(Z3ASTHandle expr, int bit) {
return Z3ASTHandle(Z3_mk_eq(ctx, bvExtract(expr, bit, bit), bvOne(1)), ctx);
}
Z3ASTHandle Z3Builder::bvExtract(Z3ASTHandle expr, unsigned top,
unsigned bottom) {
return Z3ASTHandle(Z3_mk_extract(ctx, top, bottom, expr), ctx);
}
Z3ASTHandle Z3Builder::eqExpr(Z3ASTHandle a, Z3ASTHandle b) {
return Z3ASTHandle(Z3_mk_eq(ctx, a, b), ctx);
}
// logical right shift
Z3ASTHandle Z3Builder::bvRightShift(Z3ASTHandle expr, unsigned shift) {
unsigned width = getBVLength(expr);
if (shift == 0) {
return expr;
} else if (shift >= width) {
return bvZero(width); // Overshift to zero
} else {
return Z3ASTHandle(
Z3_mk_concat(ctx, bvZero(shift), bvExtract(expr, width - 1, shift)),
ctx);
}
}
// logical left shift
Z3ASTHandle Z3Builder::bvLeftShift(Z3ASTHandle expr, unsigned shift) {
unsigned width = getBVLength(expr);
if (shift == 0) {
return expr;
} else if (shift >= width) {
return bvZero(width); // Overshift to zero
} else {
return Z3ASTHandle(
Z3_mk_concat(ctx, bvExtract(expr, width - shift - 1, 0), bvZero(shift)),
ctx);
}
}
// left shift by a variable amount on an expression of the specified width
Z3ASTHandle Z3Builder::bvVarLeftShift(Z3ASTHandle expr, Z3ASTHandle shift) {
unsigned width = getBVLength(expr);
Z3ASTHandle res = bvZero(width);
// construct a big if-then-elif-elif-... with one case per possible shift
// amount
for (int i = width - 1; i >= 0; i--) {
res =
iteExpr(eqExpr(shift, bvConst32(width, i)), bvLeftShift(expr, i), res);
}
// If overshifting, shift to zero
Z3ASTHandle ex = bvLtExpr(shift, bvConst32(getBVLength(shift), width));
res = iteExpr(ex, res, bvZero(width));
return res;
}
// logical right shift by a variable amount on an expression of the specified
// width
Z3ASTHandle Z3Builder::bvVarRightShift(Z3ASTHandle expr, Z3ASTHandle shift) {
unsigned width = getBVLength(expr);
Z3ASTHandle res = bvZero(width);
// construct a big if-then-elif-elif-... with one case per possible shift
// amount
for (int i = width - 1; i >= 0; i--) {
res =
iteExpr(eqExpr(shift, bvConst32(width, i)), bvRightShift(expr, i), res);
}
// If overshifting, shift to zero
Z3ASTHandle ex = bvLtExpr(shift, bvConst32(getBVLength(shift), width));
res = iteExpr(ex, res, bvZero(width));
return res;
}
// arithmetic right shift by a variable amount on an expression of the specified
// width
Z3ASTHandle Z3Builder::bvVarArithRightShift(Z3ASTHandle expr,
Z3ASTHandle shift) {
unsigned width = getBVLength(expr);
// get the sign bit to fill with
Z3ASTHandle signedBool = bvBoolExtract(expr, width - 1);
// start with the result if shifting by width-1
Z3ASTHandle res = constructAShrByConstant(expr, width - 1, signedBool);
// construct a big if-then-elif-elif-... with one case per possible shift
// amount
// XXX more efficient to move the ite on the sign outside all exprs?
// XXX more efficient to sign extend, right shift, then extract lower bits?
for (int i = width - 2; i >= 0; i--) {
res = iteExpr(eqExpr(shift, bvConst32(width, i)),
constructAShrByConstant(expr, i, signedBool), res);
}
// If overshifting, shift to zero
Z3ASTHandle ex = bvLtExpr(shift, bvConst32(getBVLength(shift), width));
res = iteExpr(ex, res, bvZero(width));
return res;
}
Z3ASTHandle Z3Builder::notExpr(Z3ASTHandle expr) {
return Z3ASTHandle(Z3_mk_not(ctx, expr), ctx);
}
Z3ASTHandle Z3Builder::bvNotExpr(Z3ASTHandle expr) {
return Z3ASTHandle(Z3_mk_bvnot(ctx, expr), ctx);
}
Z3ASTHandle Z3Builder::andExpr(Z3ASTHandle lhs, Z3ASTHandle rhs) {
::Z3_ast args[2] = {lhs, rhs};
return Z3ASTHandle(Z3_mk_and(ctx, 2, args), ctx);
}
Z3ASTHandle Z3Builder::bvAndExpr(Z3ASTHandle lhs, Z3ASTHandle rhs) {
return Z3ASTHandle(Z3_mk_bvand(ctx, lhs, rhs), ctx);
}
Z3ASTHandle Z3Builder::orExpr(Z3ASTHandle lhs, Z3ASTHandle rhs) {
::Z3_ast args[2] = {lhs, rhs};
return Z3ASTHandle(Z3_mk_or(ctx, 2, args), ctx);
}
Z3ASTHandle Z3Builder::bvOrExpr(Z3ASTHandle lhs, Z3ASTHandle rhs) {
return Z3ASTHandle(Z3_mk_bvor(ctx, lhs, rhs), ctx);
}
Z3ASTHandle Z3Builder::iffExpr(Z3ASTHandle lhs, Z3ASTHandle rhs) {
Z3SortHandle lhsSort = Z3SortHandle(Z3_get_sort(ctx, lhs), ctx);
Z3SortHandle rhsSort = Z3SortHandle(Z3_get_sort(ctx, rhs), ctx);
assert(Z3_get_sort_kind(ctx, lhsSort) == Z3_get_sort_kind(ctx, rhsSort) &&
"lhs and rhs sorts must match");
assert(Z3_get_sort_kind(ctx, lhsSort) == Z3_BOOL_SORT && "args must have BOOL sort");
return Z3ASTHandle(Z3_mk_iff(ctx, lhs, rhs), ctx);
}
Z3ASTHandle Z3Builder::bvXorExpr(Z3ASTHandle lhs, Z3ASTHandle rhs) {
return Z3ASTHandle(Z3_mk_bvxor(ctx, lhs, rhs), ctx);
}
Z3ASTHandle Z3Builder::bvSignExtend(Z3ASTHandle src, unsigned width) {
unsigned src_width =
Z3_get_bv_sort_size(ctx, Z3SortHandle(Z3_get_sort(ctx, src), ctx));
assert(src_width <= width && "attempted to extend longer data");
return Z3ASTHandle(Z3_mk_sign_ext(ctx, width - src_width, src), ctx);
}
Z3ASTHandle Z3Builder::writeExpr(Z3ASTHandle array, Z3ASTHandle index,
Z3ASTHandle value) {
return Z3ASTHandle(Z3_mk_store(ctx, array, index, value), ctx);
}
Z3ASTHandle Z3Builder::readExpr(Z3ASTHandle array, Z3ASTHandle index) {
return Z3ASTHandle(Z3_mk_select(ctx, array, index), ctx);
}
Z3ASTHandle Z3Builder::iteExpr(Z3ASTHandle condition, Z3ASTHandle whenTrue,
Z3ASTHandle whenFalse) {
return Z3ASTHandle(Z3_mk_ite(ctx, condition, whenTrue, whenFalse), ctx);
}
unsigned Z3Builder::getBVLength(Z3ASTHandle expr) {
return Z3_get_bv_sort_size(ctx, Z3SortHandle(Z3_get_sort(ctx, expr), ctx));
}
Z3ASTHandle Z3Builder::bvLtExpr(Z3ASTHandle lhs, Z3ASTHandle rhs) {
return Z3ASTHandle(Z3_mk_bvult(ctx, lhs, rhs), ctx);
}
Z3ASTHandle Z3Builder::bvLeExpr(Z3ASTHandle lhs, Z3ASTHandle rhs) {
return Z3ASTHandle(Z3_mk_bvule(ctx, lhs, rhs), ctx);
}
Z3ASTHandle Z3Builder::sbvLtExpr(Z3ASTHandle lhs, Z3ASTHandle rhs) {
return Z3ASTHandle(Z3_mk_bvslt(ctx, lhs, rhs), ctx);
}
Z3ASTHandle Z3Builder::sbvLeExpr(Z3ASTHandle lhs, Z3ASTHandle rhs) {
return Z3ASTHandle(Z3_mk_bvsle(ctx, lhs, rhs), ctx);
}
Z3ASTHandle Z3Builder::constructAShrByConstant(Z3ASTHandle expr, unsigned shift,
Z3ASTHandle isSigned) {
unsigned width = getBVLength(expr);
if (shift == 0) {
return expr;
} else if (shift >= width) {
return bvZero(width); // Overshift to zero
} else {
// FIXME: Is this really the best way to interact with Z3?
return iteExpr(isSigned,
Z3ASTHandle(Z3_mk_concat(ctx, bvMinusOne(shift),
bvExtract(expr, width - 1, shift)),
ctx),
bvRightShift(expr, shift));
}
}
Z3ASTHandle Z3Builder::getInitialArray(const Array *root) {
assert(root);
Z3ASTHandle array_expr;
bool hashed = _arr_hash.lookupArrayExpr(root, array_expr);
if (!hashed) {
// Unique arrays by name, so we make sure the name is unique by
// using the size of the array hash as a counter.
std::string unique_id = llvm::utostr(_arr_hash._array_hash.size());
// Prefix unique ID with '_' to avoid name collision if name ends with
// number
std::string unique_name = root->name + "_" + unique_id;
array_expr = buildArray(unique_name.c_str(), root->getDomain(),
root->getRange());
if (root->isConstantArray() && constant_array_assertions.count(root) == 0) {
std::vector<Z3ASTHandle> array_assertions;
for (unsigned i = 0, e = root->size; i != e; ++i) {
// construct(= (select i root) root->value[i]) to be asserted in
// Z3Solver.cpp
int width_out;
Z3ASTHandle array_value =
construct(root->constantValues[i], &width_out);
assert(width_out == (int)root->getRange() &&
"Value doesn't match root range");
array_assertions.push_back(
eqExpr(readExpr(array_expr, bvConst32(root->getDomain(), i)),
array_value));
}
constant_array_assertions[root] = std::move(array_assertions);
}
_arr_hash.hashArrayExpr(root, array_expr);
}
return (array_expr);
}
Z3ASTHandle Z3Builder::getInitialRead(const Array *root, unsigned index) {
return readExpr(getInitialArray(root), bvConst32(32, index));
}
Z3ASTHandle Z3Builder::getArrayForUpdate(const Array *root,
const UpdateNode *un) {
// Iterate over the update nodes, until we find a cached version of the node,
// or no more update nodes remain
Z3ASTHandle un_expr;
std::vector<const UpdateNode *> update_nodes;
for (; un && !_arr_hash.lookupUpdateNodeExpr(un, un_expr);
un = un->next.get()) {
update_nodes.push_back(un);
}
if (!un) {
un_expr = getInitialArray(root);
}
// `un_expr` now holds an expression for the array - either from cache or by
// virtue of being the initial array expression
// Create and cache solver expressions based on the update nodes starting from
// the oldest
for (const auto &un :
llvm::make_range(update_nodes.crbegin(), update_nodes.crend())) {
un_expr =
writeExpr(un_expr, construct(un->index, 0), construct(un->value, 0));
_arr_hash.hashUpdateNodeExpr(un, un_expr);
}
return un_expr;
}
/** if *width_out!=1 then result is a bitvector,
otherwise it is a bool */
Z3ASTHandle Z3Builder::construct(ref<Expr> e, int *width_out) {
// TODO: We could potentially use Z3_simplify() here
// to store simpler expressions.
if (!UseConstructHashZ3 || isa<ConstantExpr>(e)) {
return constructActual(e, width_out);
} else {
ExprHashMap<std::pair<Z3ASTHandle, unsigned> >::iterator it =
constructed.find(e);
if (it != constructed.end()) {
if (width_out)
*width_out = it->second.second;
return it->second.first;
} else {
int width;
if (!width_out)
width_out = &width;
Z3ASTHandle res = constructActual(e, width_out);
constructed.insert(std::make_pair(e, std::make_pair(res, *width_out)));
return res;
}
}
}
/** if *width_out!=1 then result is a bitvector,
otherwise it is a bool */
Z3ASTHandle Z3Builder::constructActual(ref<Expr> e, int *width_out) {
int width;
if (!width_out)
width_out = &width;
++stats::queryConstructs;
switch (e->getKind()) {
case Expr::Constant: {
ConstantExpr *CE = cast<ConstantExpr>(e);
*width_out = CE->getWidth();
// Coerce to bool if necessary.
if (*width_out == 1)
return CE->isTrue() ? getTrue() : getFalse();
// Fast path.
if (*width_out <= 32)
return bvConst32(*width_out, CE->getZExtValue(32));
if (*width_out <= 64)
return bvConst64(*width_out, CE->getZExtValue());
ref<ConstantExpr> Tmp = CE;
Z3ASTHandle Res = bvConst64(64, Tmp->Extract(0, 64)->getZExtValue());
while (Tmp->getWidth() > 64) {
Tmp = Tmp->Extract(64, Tmp->getWidth() - 64);
unsigned Width = std::min(64U, Tmp->getWidth());
Res = Z3ASTHandle(
Z3_mk_concat(ctx,
bvConst64(Width, Tmp->Extract(0, Width)->getZExtValue()),
Res),
ctx);
}
return Res;
}
// Special
case Expr::NotOptimized: {
NotOptimizedExpr *noe = cast<NotOptimizedExpr>(e);
return construct(noe->src, width_out);
}
case Expr::Read: {
ReadExpr *re = cast<ReadExpr>(e);
assert(re && re->updates.root);
*width_out = re->updates.root->getRange();
return readExpr(getArrayForUpdate(re->updates.root, re->updates.head.get()),
construct(re->index, 0));
}
case Expr::Select: {
SelectExpr *se = cast<SelectExpr>(e);
Z3ASTHandle cond = construct(se->cond, 0);
Z3ASTHandle tExpr = construct(se->trueExpr, width_out);
Z3ASTHandle fExpr = construct(se->falseExpr, width_out);
return iteExpr(cond, tExpr, fExpr);
}
case Expr::Concat: {
ConcatExpr *ce = cast<ConcatExpr>(e);
unsigned numKids = ce->getNumKids();
Z3ASTHandle res = construct(ce->getKid(numKids - 1), 0);
for (int i = numKids - 2; i >= 0; i--) {
res =
Z3ASTHandle(Z3_mk_concat(ctx, construct(ce->getKid(i), 0), res), ctx);
}
*width_out = ce->getWidth();
return res;
}
case Expr::Extract: {
ExtractExpr *ee = cast<ExtractExpr>(e);
Z3ASTHandle src = construct(ee->expr, width_out);
*width_out = ee->getWidth();
if (*width_out == 1) {
return bvBoolExtract(src, ee->offset);
} else {
return bvExtract(src, ee->offset + *width_out - 1, ee->offset);
}
}
// Casting
case Expr::ZExt: {
int srcWidth;
CastExpr *ce = cast<CastExpr>(e);
Z3ASTHandle src = construct(ce->src, &srcWidth);
*width_out = ce->getWidth();
if (srcWidth == 1) {
return iteExpr(src, bvOne(*width_out), bvZero(*width_out));
} else {
assert(*width_out > srcWidth && "Invalid width_out");
return Z3ASTHandle(Z3_mk_concat(ctx, bvZero(*width_out - srcWidth), src),
ctx);
}
}
case Expr::SExt: {
int srcWidth;
CastExpr *ce = cast<CastExpr>(e);
Z3ASTHandle src = construct(ce->src, &srcWidth);
*width_out = ce->getWidth();
if (srcWidth == 1) {
return iteExpr(src, bvMinusOne(*width_out), bvZero(*width_out));
} else {
return bvSignExtend(src, *width_out);
}
}
// Arithmetic
case Expr::Add: {
AddExpr *ae = cast<AddExpr>(e);
Z3ASTHandle left = construct(ae->left, width_out);
Z3ASTHandle right = construct(ae->right, width_out);
assert(*width_out != 1 && "uncanonicalized add");
Z3ASTHandle result = Z3ASTHandle(Z3_mk_bvadd(ctx, left, right), ctx);
assert(getBVLength(result) == static_cast<unsigned>(*width_out) &&
"width mismatch");
return result;
}
case Expr::Sub: {
SubExpr *se = cast<SubExpr>(e);
Z3ASTHandle left = construct(se->left, width_out);
Z3ASTHandle right = construct(se->right, width_out);
assert(*width_out != 1 && "uncanonicalized sub");
Z3ASTHandle result = Z3ASTHandle(Z3_mk_bvsub(ctx, left, right), ctx);
assert(getBVLength(result) == static_cast<unsigned>(*width_out) &&
"width mismatch");
return result;
}
case Expr::Mul: {
MulExpr *me = cast<MulExpr>(e);
Z3ASTHandle right = construct(me->right, width_out);
assert(*width_out != 1 && "uncanonicalized mul");
Z3ASTHandle left = construct(me->left, width_out);
Z3ASTHandle result = Z3ASTHandle(Z3_mk_bvmul(ctx, left, right), ctx);
assert(getBVLength(result) == static_cast<unsigned>(*width_out) &&
"width mismatch");
return result;
}
case Expr::UDiv: {
UDivExpr *de = cast<UDivExpr>(e);
Z3ASTHandle left = construct(de->left, width_out);
assert(*width_out != 1 && "uncanonicalized udiv");
if (ConstantExpr *CE = dyn_cast<ConstantExpr>(de->right)) {
if (CE->getWidth() <= 64) {
uint64_t divisor = CE->getZExtValue();
if (bits64::isPowerOfTwo(divisor))
return bvRightShift(left, bits64::indexOfSingleBit(divisor));
}
}
Z3ASTHandle right = construct(de->right, width_out);
Z3ASTHandle result = Z3ASTHandle(Z3_mk_bvudiv(ctx, left, right), ctx);
assert(getBVLength(result) == static_cast<unsigned>(*width_out) &&
"width mismatch");
return result;
}
case Expr::SDiv: {
SDivExpr *de = cast<SDivExpr>(e);
Z3ASTHandle left = construct(de->left, width_out);
assert(*width_out != 1 && "uncanonicalized sdiv");
Z3ASTHandle right = construct(de->right, width_out);
Z3ASTHandle result = Z3ASTHandle(Z3_mk_bvsdiv(ctx, left, right), ctx);
assert(getBVLength(result) == static_cast<unsigned>(*width_out) &&
"width mismatch");
return result;
}
case Expr::URem: {
URemExpr *de = cast<URemExpr>(e);
Z3ASTHandle left = construct(de->left, width_out);
assert(*width_out != 1 && "uncanonicalized urem");
if (ConstantExpr *CE = dyn_cast<ConstantExpr>(de->right)) {
if (CE->getWidth() <= 64) {
uint64_t divisor = CE->getZExtValue();
if (bits64::isPowerOfTwo(divisor)) {
// FIXME: This should be unsigned but currently needs to be signed to
// avoid signed-unsigned comparison in assert.
int bits = bits64::indexOfSingleBit(divisor);
// special case for modding by 1 or else we bvExtract -1:0
if (bits == 0) {
return bvZero(*width_out);
} else {
assert(*width_out > bits && "invalid width_out");
return Z3ASTHandle(Z3_mk_concat(ctx, bvZero(*width_out - bits),
bvExtract(left, bits - 1, 0)),
ctx);
}
}
}
}
Z3ASTHandle right = construct(de->right, width_out);
Z3ASTHandle result = Z3ASTHandle(Z3_mk_bvurem(ctx, left, right), ctx);
assert(getBVLength(result) == static_cast<unsigned>(*width_out) &&
"width mismatch");
return result;
}
case Expr::SRem: {
SRemExpr *de = cast<SRemExpr>(e);
Z3ASTHandle left = construct(de->left, width_out);
Z3ASTHandle right = construct(de->right, width_out);
assert(*width_out != 1 && "uncanonicalized srem");
// LLVM's srem instruction says that the sign follows the dividend
// (``left``).
// Z3's C API says ``Z3_mk_bvsrem()`` does this so these seem to match.
Z3ASTHandle result = Z3ASTHandle(Z3_mk_bvsrem(ctx, left, right), ctx);
assert(getBVLength(result) == static_cast<unsigned>(*width_out) &&
"width mismatch");
return result;
}
// Bitwise
case Expr::Not: {
NotExpr *ne = cast<NotExpr>(e);
Z3ASTHandle expr = construct(ne->expr, width_out);
if (*width_out == 1) {
return notExpr(expr);
} else {
return bvNotExpr(expr);
}
}
case Expr::And: {
AndExpr *ae = cast<AndExpr>(e);
Z3ASTHandle left = construct(ae->left, width_out);
Z3ASTHandle right = construct(ae->right, width_out);
if (*width_out == 1) {
return andExpr(left, right);
} else {
return bvAndExpr(left, right);
}
}
case Expr::Or: {
OrExpr *oe = cast<OrExpr>(e);
Z3ASTHandle left = construct(oe->left, width_out);
Z3ASTHandle right = construct(oe->right, width_out);
if (*width_out == 1) {
return orExpr(left, right);
} else {
return bvOrExpr(left, right);
}
}
case Expr::Xor: {
XorExpr *xe = cast<XorExpr>(e);
Z3ASTHandle left = construct(xe->left, width_out);
Z3ASTHandle right = construct(xe->right, width_out);
if (*width_out == 1) {
// XXX check for most efficient?
return iteExpr(left, Z3ASTHandle(notExpr(right)), right);
} else {
return bvXorExpr(left, right);
}
}
case Expr::Shl: {
ShlExpr *se = cast<ShlExpr>(e);
Z3ASTHandle left = construct(se->left, width_out);
assert(*width_out != 1 && "uncanonicalized shl");
if (ConstantExpr *CE = dyn_cast<ConstantExpr>(se->right)) {
return bvLeftShift(left, (unsigned)CE->getLimitedValue());
} else {
int shiftWidth;
Z3ASTHandle amount = construct(se->right, &shiftWidth);
return bvVarLeftShift(left, amount);
}
}
case Expr::LShr: {
LShrExpr *lse = cast<LShrExpr>(e);
Z3ASTHandle left = construct(lse->left, width_out);
assert(*width_out != 1 && "uncanonicalized lshr");
if (ConstantExpr *CE = dyn_cast<ConstantExpr>(lse->right)) {
return bvRightShift(left, (unsigned)CE->getLimitedValue());
} else {
int shiftWidth;
Z3ASTHandle amount = construct(lse->right, &shiftWidth);
return bvVarRightShift(left, amount);
}
}
case Expr::AShr: {
AShrExpr *ase = cast<AShrExpr>(e);
Z3ASTHandle left = construct(ase->left, width_out);
assert(*width_out != 1 && "uncanonicalized ashr");
if (ConstantExpr *CE = dyn_cast<ConstantExpr>(ase->right)) {
unsigned shift = (unsigned)CE->getLimitedValue();
Z3ASTHandle signedBool = bvBoolExtract(left, *width_out - 1);
return constructAShrByConstant(left, shift, signedBool);
} else {
int shiftWidth;
Z3ASTHandle amount = construct(ase->right, &shiftWidth);
return bvVarArithRightShift(left, amount);
}
}
// Comparison
case Expr::Eq: {
EqExpr *ee = cast<EqExpr>(e);
Z3ASTHandle left = construct(ee->left, width_out);
Z3ASTHandle right = construct(ee->right, width_out);
if (*width_out == 1) {
if (ConstantExpr *CE = dyn_cast<ConstantExpr>(ee->left)) {
if (CE->isTrue())
return right;
return notExpr(right);
} else {
return iffExpr(left, right);
}
} else {
*width_out = 1;
return eqExpr(left, right);
}
}
case Expr::Ult: {
UltExpr *ue = cast<UltExpr>(e);
Z3ASTHandle left = construct(ue->left, width_out);
Z3ASTHandle right = construct(ue->right, width_out);
assert(*width_out != 1 && "uncanonicalized ult");
*width_out = 1;
return bvLtExpr(left, right);
}
case Expr::Ule: {
UleExpr *ue = cast<UleExpr>(e);
Z3ASTHandle left = construct(ue->left, width_out);
Z3ASTHandle right = construct(ue->right, width_out);
assert(*width_out != 1 && "uncanonicalized ule");
*width_out = 1;
return bvLeExpr(left, right);
}
case Expr::Slt: {
SltExpr *se = cast<SltExpr>(e);
Z3ASTHandle left = construct(se->left, width_out);
Z3ASTHandle right = construct(se->right, width_out);
assert(*width_out != 1 && "uncanonicalized slt");
*width_out = 1;
return sbvLtExpr(left, right);
}
case Expr::Sle: {
SleExpr *se = cast<SleExpr>(e);
Z3ASTHandle left = construct(se->left, width_out);
Z3ASTHandle right = construct(se->right, width_out);
assert(*width_out != 1 && "uncanonicalized sle");
*width_out = 1;
return sbvLeExpr(left, right);
}
// unused due to canonicalization
#if 0
case Expr::Ne:
case Expr::Ugt:
case Expr::Uge:
case Expr::Sgt:
case Expr::Sge:
#endif
default:
assert(0 && "unhandled Expr type");
return getTrue();
}
}
}
#endif // ENABLE_Z3
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