use of com.microsoft.z3.BoolExpr in project Dat3M by hernanponcedeleon.
the class ARM method Inconsistent.
public static BoolExpr Inconsistent(Program program, Context ctx) throws Z3Exception {
Set<Event> events = program.getEvents().stream().filter(e -> e instanceof MemEvent).collect(Collectors.toSet());
BoolExpr enc = ctx.mkAnd(satCycleDef("hb-arm", events, ctx), satCycleDef("(co+prop)", events, ctx), satCycleDef("(poloc+com)", events, ctx));
enc = ctx.mkAnd(enc, ctx.mkOr(satCycle("hb-arm", events, ctx), ctx.mkNot(satIrref("((fre;prop);(hb-arm)*)", events, ctx)), satCycle("(co+prop)", events, ctx), satCycle("(poloc+com)", events, ctx)));
return enc;
}
use of com.microsoft.z3.BoolExpr in project Dat3M by hernanponcedeleon.
the class Domain method encode.
public static BoolExpr encode(Program program, Context ctx) throws Z3Exception {
BoolExpr enc = ctx.mkTrue();
Set<Event> mEvents = program.getEvents().stream().filter(e -> e instanceof MemEvent).collect(Collectors.toSet());
Set<Event> barriers = program.getEvents().stream().filter(e -> e instanceof Barrier).collect(Collectors.toSet());
Set<Event> eventsL = program.getEvents().stream().filter(e -> e instanceof MemEvent || e instanceof Local).collect(Collectors.toSet());
for (Event e : eventsL) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("ii", e, e, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("ic", e, e, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("ci", e, e, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("cc", e, e, ctx)));
}
for (Event e1 : mEvents) {
for (Event e2 : mEvents) {
enc = ctx.mkAnd(enc, ctx.mkImplies(edge("rf", e1, e2, ctx), ctx.mkAnd(e1.executes(ctx), e2.executes(ctx))));
enc = ctx.mkAnd(enc, ctx.mkImplies(edge("co", e1, e2, ctx), ctx.mkAnd(e1.executes(ctx), e2.executes(ctx))));
if (!(e1 instanceof Init)) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("IM", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("IW", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("IR", e1, e2, ctx)));
} else {
enc = ctx.mkAnd(enc, edge("IM", e1, e2, ctx));
}
if (!(e2 instanceof Init)) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("MI", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("WI", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("RI", e1, e2, ctx)));
} else {
enc = ctx.mkAnd(enc, edge("MI", e1, e2, ctx));
}
if (!(e1 instanceof Load)) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("RM", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("RW", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("RR", e1, e2, ctx)));
} else {
enc = ctx.mkAnd(enc, edge("RM", e1, e2, ctx));
}
if (!(e2 instanceof Load)) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("MR", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("WR", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("RR", e1, e2, ctx)));
} else {
enc = ctx.mkAnd(enc, edge("MR", e1, e2, ctx));
}
if (!(e1 instanceof Store || e1 instanceof Init)) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("WM", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("WW", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("WR", e1, e2, ctx)));
} else {
enc = ctx.mkAnd(enc, edge("WM", e1, e2, ctx));
}
if (!(e2 instanceof Store || e2 instanceof Init)) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("MW", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("WW", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("RW", e1, e2, ctx)));
} else {
enc = ctx.mkAnd(enc, edge("MW", e1, e2, ctx));
}
if (e1 instanceof Load && e2 instanceof Load) {
enc = ctx.mkAnd(enc, edge("RR", e1, e2, ctx));
}
if (e1 instanceof Load && (e2 instanceof Init || e2 instanceof Store)) {
enc = ctx.mkAnd(enc, edge("RW", e1, e2, ctx));
}
if ((e1 instanceof Init || e1 instanceof Store) && (e2 instanceof Init || e2 instanceof Store)) {
enc = ctx.mkAnd(enc, edge("WW", e1, e2, ctx));
}
if ((e1 instanceof Init || e1 instanceof Store) && e2 instanceof Load) {
enc = ctx.mkAnd(enc, edge("WR", e1, e2, ctx));
}
if (e1 == e2) {
enc = ctx.mkAnd(enc, edge("id", e1, e2, ctx));
} else {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("id", e1, e2, ctx)));
}
if (e1.getMainThread() == e2.getMainThread()) {
enc = ctx.mkAnd(enc, edge("int", e1, e2, ctx));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("ext", e1, e2, ctx)));
if (e1.getEId() < e2.getEId()) {
enc = ctx.mkAnd(enc, edge("po", e1, e2, ctx));
if (e1.getCondLevel() < e2.getCondLevel() && e1 instanceof Load && e2.getCondRegs().contains(e1.getReg())) {
enc = ctx.mkAnd(enc, edge("ctrlDirect", e1, e2, ctx));
} else {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("ctrlDirect", e1, e2, ctx)));
}
} else {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("po", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("ctrl", e1, e2, ctx)));
}
boolean noMfence = true;
boolean noSync = true;
boolean noLwsync = true;
boolean noIsync = true;
boolean noIsh = true;
boolean noIsb = true;
for (Event b : barriers.stream().filter(e -> e.getMainThread() == e1.getMainThread() && e1.getEId() < e.getEId() && e.getEId() < e2.getEId()).collect(Collectors.toSet())) {
if (b instanceof Mfence) {
noMfence = false;
}
if (b instanceof Sync) {
noSync = false;
}
if (b instanceof Lwsync) {
noLwsync = false;
}
if (b instanceof Isync) {
noIsync = false;
}
if (b instanceof Ish) {
noIsh = false;
}
if (b instanceof Isb) {
noIsb = false;
}
}
if (noMfence) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("mfence", e1, e2, ctx)));
}
if (noSync) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("sync", e1, e2, ctx)));
}
if (noLwsync) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("lwsync", e1, e2, ctx)));
}
if (noIsync) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("isync", e1, e2, ctx)));
}
if (noIsh) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("ish", e1, e2, ctx)));
}
if (noIsb) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("isb", e1, e2, ctx)));
}
} else {
enc = ctx.mkAnd(enc, edge("ext", e1, e2, ctx));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("int", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("po", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("ctrl", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("ii", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("ic", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("ci", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("cc", e1, e2, ctx)));
}
if (e1.getLoc() == e2.getLoc()) {
enc = ctx.mkAnd(enc, edge("loc", e1, e2, ctx));
} else {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("loc", e1, e2, ctx)));
}
if (!((e1 instanceof Store || e1 instanceof Init) && e2 instanceof Load && e1.getLoc() == e2.getLoc())) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("rf", e1, e2, ctx)));
}
if (!((e1 instanceof Store || e1 instanceof Init) && (e2 instanceof Store || e2 instanceof Init) && e1.getLoc() == e2.getLoc())) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("co", e1, e2, ctx)));
}
if (!(e1.getMainThread() == e2.getMainThread() && e1.getEId() < e2.getEId())) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("mfence", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("sync", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("lwsync", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("isync", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("ish", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("isb", e1, e2, ctx)));
}
enc = ctx.mkAnd(enc, ctx.mkEq(edge("rfe", e1, e2, ctx), ctx.mkAnd(edge("rf", e1, e2, ctx), edge("ext", e1, e2, ctx))));
enc = ctx.mkAnd(enc, ctx.mkEq(edge("rfi", e1, e2, ctx), ctx.mkAnd(edge("rf", e1, e2, ctx), edge("int", e1, e2, ctx))));
enc = ctx.mkAnd(enc, ctx.mkEq(edge("coe", e1, e2, ctx), ctx.mkAnd(edge("co", e1, e2, ctx), edge("ext", e1, e2, ctx))));
enc = ctx.mkAnd(enc, ctx.mkEq(edge("coi", e1, e2, ctx), ctx.mkAnd(edge("co", e1, e2, ctx), edge("int", e1, e2, ctx))));
enc = ctx.mkAnd(enc, ctx.mkEq(edge("fre", e1, e2, ctx), ctx.mkAnd(edge("fr", e1, e2, ctx), edge("ext", e1, e2, ctx))));
enc = ctx.mkAnd(enc, ctx.mkEq(edge("fri", e1, e2, ctx), ctx.mkAnd(edge("fr", e1, e2, ctx), edge("int", e1, e2, ctx))));
enc = ctx.mkAnd(enc, ctx.mkEq(edge("poloc", e1, e2, ctx), ctx.mkAnd(edge("po", e1, e2, ctx), edge("loc", e1, e2, ctx))));
enc = ctx.mkAnd(enc, ctx.mkEq(edge("ctrlisync", e1, e2, ctx), ctx.mkAnd(edge("ctrl", e1, e2, ctx), edge("isync", e1, e2, ctx))));
enc = ctx.mkAnd(enc, ctx.mkEq(edge("ctrlisb", e1, e2, ctx), ctx.mkAnd(edge("ctrl", e1, e2, ctx), edge("isb", e1, e2, ctx))));
}
}
for (Event e1 : mEvents) {
for (Event e2 : mEvents) {
BoolExpr mfences = ctx.mkFalse();
BoolExpr syncs = ctx.mkFalse();
BoolExpr lwsyncs = ctx.mkFalse();
BoolExpr isyncs = ctx.mkFalse();
BoolExpr ishs = ctx.mkFalse();
BoolExpr isbs = ctx.mkFalse();
for (Event b : barriers) {
if (b instanceof Mfence && e1.getMainThread() == b.getMainThread() && b.getMainThread() == e2.getMainThread() && e1.getEId() < b.getEId() && b.getEId() < e2.getEId()) {
mfences = ctx.mkOr(mfences, b.executes(ctx));
enc = ctx.mkAnd(enc, ctx.mkImplies(ctx.mkAnd(e1.executes(ctx), ctx.mkAnd(b.executes(ctx), e2.executes(ctx))), edge("mfence", e1, e2, ctx)));
}
if (b instanceof Sync && e1.getMainThread() == b.getMainThread() && b.getMainThread() == e2.getMainThread() && e1.getEId() < b.getEId() && b.getEId() < e2.getEId()) {
syncs = ctx.mkOr(syncs, b.executes(ctx));
enc = ctx.mkAnd(enc, ctx.mkImplies(ctx.mkAnd(e1.executes(ctx), ctx.mkAnd(b.executes(ctx), e2.executes(ctx))), edge("sync", e1, e2, ctx)));
}
if (b instanceof Lwsync && e1.getMainThread() == b.getMainThread() && b.getMainThread() == e2.getMainThread() && e1.getEId() < b.getEId() && b.getEId() < e2.getEId()) {
lwsyncs = ctx.mkOr(lwsyncs, b.executes(ctx));
enc = ctx.mkAnd(enc, ctx.mkImplies(ctx.mkAnd(e1.executes(ctx), ctx.mkAnd(b.executes(ctx), e2.executes(ctx))), edge("lwsync", e1, e2, ctx)));
}
if (b instanceof Isync && e1.getMainThread() == b.getMainThread() && b.getMainThread() == e2.getMainThread() && e1.getEId() < b.getEId() && b.getEId() < e2.getEId()) {
isyncs = ctx.mkOr(isyncs, b.executes(ctx));
enc = ctx.mkAnd(enc, ctx.mkImplies(ctx.mkAnd(e1.executes(ctx), ctx.mkAnd(b.executes(ctx), e2.executes(ctx))), edge("isync", e1, e2, ctx)));
}
if (b instanceof Ish && e1.getMainThread() == b.getMainThread() && b.getMainThread() == e2.getMainThread() && e1.getEId() < b.getEId() && b.getEId() < e2.getEId()) {
ishs = ctx.mkOr(ishs, b.executes(ctx));
enc = ctx.mkAnd(enc, ctx.mkImplies(ctx.mkAnd(e1.executes(ctx), ctx.mkAnd(b.executes(ctx), e2.executes(ctx))), edge("ish", e1, e2, ctx)));
}
if (b instanceof Isb && e1.getMainThread() == b.getMainThread() && b.getMainThread() == e2.getMainThread() && e1.getEId() < b.getEId() && b.getEId() < e2.getEId()) {
isbs = ctx.mkOr(isbs, b.executes(ctx));
enc = ctx.mkAnd(enc, ctx.mkImplies(ctx.mkAnd(e1.executes(ctx), ctx.mkAnd(b.executes(ctx), e2.executes(ctx))), edge("isb", e1, e2, ctx)));
}
}
enc = ctx.mkAnd(enc, ctx.mkImplies(edge("mfence", e1, e2, ctx), mfences));
enc = ctx.mkAnd(enc, ctx.mkImplies(edge("sync", e1, e2, ctx), syncs));
enc = ctx.mkAnd(enc, ctx.mkImplies(edge("lwsync", e1, e2, ctx), lwsyncs));
enc = ctx.mkAnd(enc, ctx.mkImplies(edge("isync", e1, e2, ctx), isyncs));
enc = ctx.mkAnd(enc, ctx.mkImplies(edge("ish", e1, e2, ctx), ishs));
enc = ctx.mkAnd(enc, ctx.mkImplies(edge("isb", e1, e2, ctx), isbs));
}
}
for (Event e1 : eventsL) {
for (Event e2 : eventsL) {
if (e1.getMainThread() != e2.getMainThread() || e2.getEId() < e1.getEId() || e1 == e2) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("idd", e1, e2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkNot(edge("data", e1, e2, ctx)));
}
if (e2 instanceof Store) {
if (!e2.getLastModMap().get(e2.getReg()).contains(e1)) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("idd", e1, e2, ctx)));
}
}
if (e2 instanceof Load) {
if (!e2.getLastModMap().keySet().contains(e2.getLoc())) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("idd", e1, e2, ctx)));
}
}
if (e2 instanceof Local && e2.getExpr() instanceof AConst) {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("idd", e1, e2, ctx)));
}
}
}
for (Event e : eventsL) {
if (e instanceof Store) {
BoolExpr orClause = ctx.mkFalse();
for (Event x : eventsL) {
if (e.getLastModMap().get(e.getReg()).contains(x)) {
orClause = ctx.mkOr(orClause, edge("idd", x, e, ctx));
} else {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("idd", x, e, ctx)));
}
}
enc = ctx.mkAnd(enc, orClause);
}
if (e instanceof Load) {
if (!e.getLastModMap().keySet().contains(e.getLoc())) {
continue;
}
BoolExpr orClause = ctx.mkFalse();
for (Event x : eventsL) {
if (e.getLastModMap().get(e.getLoc()).contains(x)) {
orClause = ctx.mkOr(orClause, edge("idd", x, e, ctx));
} else {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("idd", x, e, ctx)));
}
}
enc = ctx.mkAnd(enc, orClause);
}
if (e instanceof Local) {
for (Register reg : e.getExpr().getRegs()) {
BoolExpr orClause = ctx.mkFalse();
for (Event x : eventsL) {
if (e.getLastModMap().get(reg).contains(x)) {
orClause = ctx.mkOr(orClause, edge("idd", x, e, ctx));
} else {
enc = ctx.mkAnd(enc, ctx.mkNot(edge("idd", x, e, ctx)));
}
}
enc = ctx.mkAnd(enc, orClause);
}
}
}
for (Event e1 : mEvents) {
for (Event e2 : mEvents) {
BoolExpr ctrlClause = edge("ctrlDirect", e1, e2, ctx);
BoolExpr orClause = ctx.mkFalse();
for (Event e3 : mEvents) {
ctrlClause = ctx.mkOr(ctrlClause, ctx.mkAnd(edge("ctrl", e1, e3, ctx), edge("po", e3, e2, ctx)));
orClause = ctx.mkOr(orClause, ctx.mkAnd(edge("rf", e3, e1, ctx), edge("co", e3, e2, ctx)));
}
enc = ctx.mkAnd(enc, ctx.mkEq(edge("fr", e1, e2, ctx), orClause));
enc = ctx.mkAnd(enc, ctx.mkEq(edge("ctrl", e1, e2, ctx), ctrlClause));
}
}
Set<Location> locs = mEvents.stream().filter(e -> e instanceof MemEvent).map(e -> e.getLoc()).collect(Collectors.toSet());
for (Location loc : locs) {
Set<Event> writesEventsLoc = mEvents.stream().filter(e -> (e instanceof Store || e instanceof Init) && e.getLoc() == loc).collect(Collectors.toSet());
enc = ctx.mkAnd(enc, satTO("co", writesEventsLoc, ctx));
}
for (Event e : mEvents.stream().filter(e -> e instanceof Init).collect(Collectors.toSet())) {
enc = ctx.mkAnd(enc, ctx.mkEq(intVar("co", e, ctx), ctx.mkInt(1)));
}
for (Event w1 : mEvents.stream().filter(e -> e instanceof Init || e instanceof Store).collect(Collectors.toSet())) {
Set<Event> writeSameLoc = mEvents.stream().filter(e -> (e instanceof Init || e instanceof Store) && w1.getLoc() == e.getLoc()).collect(Collectors.toSet());
BoolExpr lastCoOrder = w1.executes(ctx);
for (Event w2 : writeSameLoc) {
lastCoOrder = ctx.mkAnd(lastCoOrder, ctx.mkNot(edge("co", w1, w2, ctx)));
}
enc = ctx.mkAnd(enc, ctx.mkImplies(lastCoOrder, ctx.mkEq(lastValueLoc(w1.getLoc(), ctx), ((MemEvent) w1).ssaLoc)));
}
for (Event r1 : eventsL.stream().filter(e -> e instanceof Load || e instanceof Local).collect(Collectors.toSet())) {
Set<Event> modRegLater = eventsL.stream().filter(e -> (e instanceof Load || e instanceof Local) && r1.getReg() == e.getReg() && r1.getEId() < e.getEId()).collect(Collectors.toSet());
BoolExpr lastModReg = r1.executes(ctx);
for (Event r2 : modRegLater) {
lastModReg = ctx.mkAnd(lastModReg, ctx.mkNot(r2.executes(ctx)));
}
enc = ctx.mkAnd(enc, ctx.mkImplies(lastModReg, ctx.mkEq(lastValueReg(r1.getReg(), ctx), ssaReg(r1.getReg(), r1.getSsaRegIndex(), ctx))));
}
for (Event e : mEvents.stream().filter(e -> e instanceof Load).collect(Collectors.toSet())) {
Set<Event> storeEventsLoc = mEvents.stream().filter(x -> (x instanceof Store || x instanceof Init) && e.getLoc() == x.getLoc()).collect(Collectors.toSet());
Set<BoolExpr> rfPairs = new HashSet<BoolExpr>();
for (Event w : storeEventsLoc) {
rfPairs.add(edge("rf", w, e, ctx));
}
enc = ctx.mkAnd(enc, ctx.mkImplies(e.executes(ctx), encodeEO(rfPairs, ctx)));
}
return enc;
}
use of com.microsoft.z3.BoolExpr in project Dat3M by hernanponcedeleon.
the class Encodings method encodePreserveFences.
public static BoolExpr encodePreserveFences(Program p1, Program p2, Context ctx) {
BoolExpr enc = ctx.mkTrue();
Set<Event> memEventsP1 = p1.getEvents().stream().filter(e -> e instanceof MemEvent).collect(Collectors.toSet());
Set<Event> memEventsP2 = p2.getEvents().stream().filter(e -> e instanceof MemEvent).collect(Collectors.toSet());
for (Event e1P1 : memEventsP1) {
for (Event e1P2 : memEventsP2) {
if (e1P1.getHLId().equals(e1P2.getHLId())) {
for (Event e2P1 : memEventsP1) {
for (Event e2P2 : memEventsP2) {
if (e1P1.getMainThread() != e2P1.getMainThread()) {
continue;
}
if (e1P2.getMainThread() != e2P2.getMainThread()) {
continue;
}
if (e1P1.getEId() >= e2P1.getEId() | e1P2.getEId() >= e2P2.getEId()) {
continue;
}
if (e2P1.getHLId().equals(e2P2.getHLId())) {
enc = ctx.mkAnd(enc, ctx.mkImplies(Utils.edge("sync", e1P1, e2P1, ctx), Utils.edge("sync", e1P2, e2P2, ctx)));
enc = ctx.mkAnd(enc, ctx.mkImplies(Utils.edge("lwsync", e1P1, e2P1, ctx), ctx.mkOr(Utils.edge("lwsync", e1P2, e2P2, ctx), Utils.edge("sync", e1P2, e2P2, ctx))));
}
}
}
}
}
}
return enc;
}
use of com.microsoft.z3.BoolExpr in project Dat3M by hernanponcedeleon.
the class Encodings method encodeReachedState.
public static BoolExpr encodeReachedState(Program p, Model model, Context ctx) {
Set<Location> locs = p.getEvents().stream().filter(e -> e instanceof MemEvent).map(e -> e.getLoc()).collect(Collectors.toSet());
BoolExpr reachedState = ctx.mkTrue();
for (Location loc : locs) {
reachedState = ctx.mkAnd(reachedState, ctx.mkEq(ctx.mkIntConst(loc.getName() + "_final"), model.getConstInterp(ctx.mkIntConst(loc.getName() + "_final"))));
}
Set<Event> executedEvents = p.getEvents().stream().filter(e -> model.getConstInterp(e.executes(ctx)).isTrue()).collect(Collectors.toSet());
Set<Register> regs = executedEvents.stream().filter(e -> e instanceof Local | e instanceof Load).map(e -> e.getReg()).collect(Collectors.toSet());
for (Register reg : regs) {
Set<Integer> ssaRegIndexes = new HashSet<Integer>();
for (Event e : executedEvents) {
if (!(e instanceof Load | e instanceof Local)) {
continue;
}
if (e.getReg() != reg) {
continue;
}
ssaRegIndexes.add(e.getSsaRegIndex());
}
Integer lastRegIndex = Collections.max(ssaRegIndexes);
String regVarName = String.format("T%s_%s_%s", reg.getMainThread(), reg.getName(), lastRegIndex);
reachedState = ctx.mkAnd(reachedState, ctx.mkEq(ctx.mkIntConst(regVarName), model.getConstInterp(ctx.mkIntConst(regVarName))));
}
return reachedState;
}
use of com.microsoft.z3.BoolExpr in project Dat3M by hernanponcedeleon.
the class Encodings method encodeCommonExecutions.
public static BoolExpr encodeCommonExecutions(Program p1, Program p2, Context ctx) throws Z3Exception {
BoolExpr enc = ctx.mkTrue();
Set<Event> lEventsP1 = p1.getEvents().stream().filter(e -> e instanceof MemEvent | e instanceof Local).collect(Collectors.toSet());
Set<Event> lEventsP2 = p2.getEvents().stream().filter(e -> e instanceof MemEvent | e instanceof Local).collect(Collectors.toSet());
Set<Event> rEventsP1 = p1.getEvents().stream().filter(e -> e instanceof Load).collect(Collectors.toSet());
Set<Event> wEventsP1 = p1.getEvents().stream().filter(e -> e instanceof Store || e instanceof Init).collect(Collectors.toSet());
Set<Event> rEventsP2 = p2.getEvents().stream().filter(e -> e instanceof Load).collect(Collectors.toSet());
Set<Event> wEventsP2 = p2.getEvents().stream().filter(e -> e instanceof Store || e instanceof Init).collect(Collectors.toSet());
for (Event e1 : lEventsP1) {
for (Event e2 : lEventsP2) {
if (e1.getHLId().equals(e2.getHLId())) {
enc = ctx.mkAnd(enc, ctx.mkEq(e1.executes(ctx), e2.executes(ctx)));
}
}
}
for (Event r1 : rEventsP1) {
for (Event r2 : rEventsP2) {
if (r1.getHLId().equals(r2.getHLId())) {
for (Event w1 : wEventsP1) {
for (Event w2 : wEventsP2) {
if (r1.getLoc() != w1.getLoc()) {
continue;
}
if (r2.getLoc() != w2.getLoc()) {
continue;
}
if (w1.getHLId().equals(w2.getHLId())) {
enc = ctx.mkAnd(enc, ctx.mkEq(Utils.edge("rf", w1, r1, ctx), Utils.edge("rf", w2, r2, ctx)));
}
}
}
}
}
}
for (Event w1P1 : wEventsP1) {
for (Event w1P2 : wEventsP2) {
if (w1P1.getHLId().equals(w1P2.getHLId())) {
for (Event w2P1 : wEventsP1) {
for (Event w2P2 : wEventsP2) {
if (w1P1.getLoc() != w2P1.getLoc()) {
continue;
}
if (w1P1.getLoc() != w2P2.getLoc()) {
continue;
}
if (w1P1 == w2P1 | w1P2 == w2P2) {
continue;
}
if (w2P1.getHLId().equals(w2P2.getHLId())) {
enc = ctx.mkAnd(enc, ctx.mkEq(Utils.edge("co", w1P1, w2P1, ctx), Utils.edge("co", w1P2, w2P2, ctx)));
}
}
}
}
}
}
return enc;
}
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