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Example 46 with Context

use of org.kie.workbench.common.dmn.api.definition.v1_1.Context in project webtools.servertools by eclipse.

the class Tomcat70TestConfiguration method verifyPublishedModule.

protected void verifyPublishedModule(IPath baseDir, IModule module) throws Exception {
    Tomcat70TestConfiguration config = new Tomcat70TestConfiguration(null);
    config.load(baseDir.append("conf"), null);
    ServerInstance serverInstance = config.getServerInstance();
    Context context = serverInstance.getContext(module.getName());
    String deployDir = getTomcatServer().getDeployDirectory();
    if ("webapps".equals(deployDir)) {
        assertEquals(module.getName(), context.getDocBase());
    } else {
        assertEquals(getTomcatServerBehaviour().getModuleDeployDirectory(module).toOSString(), context.getDocBase());
    }
    verifyPublishedModuleFiles(module);
}
Also used : Context(org.eclipse.jst.server.tomcat.core.internal.xml.server40.Context) ServerInstance(org.eclipse.jst.server.tomcat.core.internal.xml.server40.ServerInstance)

Example 47 with Context

use of org.kie.workbench.common.dmn.api.definition.v1_1.Context 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;
}
Also used : EncodingsCAT.satTransFixPoint(dartagnan.wmm.EncodingsCAT.satTransFixPoint) EncodingsCAT.satCycle(dartagnan.wmm.EncodingsCAT.satCycle) EncodingsCAT.satTransRef(dartagnan.wmm.EncodingsCAT.satTransRef) Event(dartagnan.program.Event) Context(com.microsoft.z3.Context) Set(java.util.Set) Utils(dartagnan.utils.Utils) Collectors(java.util.stream.Collectors) Utils.intCount(dartagnan.utils.Utils.intCount) EncodingsCAT.satEmpty(dartagnan.wmm.EncodingsCAT.satEmpty) EncodingsCAT.satUnion(dartagnan.wmm.EncodingsCAT.satUnion) EncodingsCAT.satComp(dartagnan.wmm.EncodingsCAT.satComp) EncodingsCAT.satIrref(dartagnan.wmm.EncodingsCAT.satIrref) EncodingsCAT.satCycleDef(dartagnan.wmm.EncodingsCAT.satCycleDef) EncodingsCAT.satAcyclic(dartagnan.wmm.EncodingsCAT.satAcyclic) Local(dartagnan.program.Local) MemEvent(dartagnan.program.MemEvent) BoolExpr(com.microsoft.z3.BoolExpr) Z3Exception(com.microsoft.z3.Z3Exception) Program(dartagnan.program.Program) Utils.edge(dartagnan.utils.Utils.edge) EncodingsCAT.satIntersection(dartagnan.wmm.EncodingsCAT.satIntersection) BoolExpr(com.microsoft.z3.BoolExpr) MemEvent(dartagnan.program.MemEvent) Event(dartagnan.program.Event) MemEvent(dartagnan.program.MemEvent)

Example 48 with Context

use of org.kie.workbench.common.dmn.api.definition.v1_1.Context in project Dat3M by hernanponcedeleon.

the class Porthos method main.

public static void main(String[] args) throws Z3Exception, IOException {
    List<String> MCMs = Arrays.asList("sc", "tso", "pso", "rmo", "alpha", "power", "arm");
    Options options = new Options();
    Option sourceOpt = new Option("s", "source", true, "source MCM");
    sourceOpt.setRequired(true);
    options.addOption(sourceOpt);
    Option targetOpt = new Option("t", "target", true, "target MCM");
    targetOpt.setRequired(true);
    options.addOption(targetOpt);
    Option inputOpt = new Option("i", "input", true, "input file path");
    inputOpt.setRequired(true);
    options.addOption(inputOpt);
    options.addOption("state", false, "PORTHOS performs state portability");
    options.addOption(Option.builder("draw").hasArg().desc("If a buf is found, it outputs a graph \\path_to_file.dot").build());
    options.addOption(Option.builder("rels").hasArgs().desc("Relations to be drawn in the graph").build());
    options.addOption(Option.builder("unroll").hasArg().desc("Unrolling steps").build());
    CommandLineParser parserCmd = new DefaultParser();
    HelpFormatter formatter = new HelpFormatter();
    CommandLine cmd;
    try {
        cmd = parserCmd.parse(options, args);
    } catch (ParseException e) {
        System.out.println(e.getMessage());
        formatter.printHelp("PORTHOS", options);
        System.exit(1);
        return;
    }
    String source = cmd.getOptionValue("source");
    if (!MCMs.stream().anyMatch(mcms -> mcms.trim().equals(source))) {
        System.out.println("Unrecognized source");
        System.exit(0);
        return;
    }
    String target = cmd.getOptionValue("target");
    if (!MCMs.stream().anyMatch(mcms -> mcms.trim().equals(target))) {
        System.out.println("Unrecognized target");
        System.exit(0);
        return;
    }
    String inputFilePath = cmd.getOptionValue("input");
    if (!inputFilePath.endsWith("pts") && !inputFilePath.endsWith("litmus")) {
        System.out.println("Unrecognized program format");
        System.exit(0);
        return;
    }
    File file = new File(inputFilePath);
    boolean statePortability = cmd.hasOption("state");
    String[] rels = new String[100];
    if (cmd.hasOption("rels")) {
        rels = cmd.getOptionValues("rels");
    }
    String program = FileUtils.readFileToString(file, "UTF-8");
    ANTLRInputStream input = new ANTLRInputStream(program);
    Program p = new Program(inputFilePath);
    if (inputFilePath.endsWith("litmus")) {
        LitmusLexer lexer = new LitmusLexer(input);
        CommonTokenStream tokens = new CommonTokenStream(lexer);
        LitmusParser parser = new LitmusParser(tokens);
        p = parser.program(inputFilePath).p;
    }
    if (inputFilePath.endsWith("pts")) {
        PorthosLexer lexer = new PorthosLexer(input);
        CommonTokenStream tokens = new CommonTokenStream(lexer);
        PorthosParser parser = new PorthosParser(tokens);
        p = parser.program(inputFilePath).p;
    }
    int steps = 1;
    if (cmd.hasOption("unroll")) {
        steps = Integer.parseInt(cmd.getOptionValue("unroll"));
    }
    p.initialize(steps);
    Program pSource = p.clone();
    Program pTarget = p.clone();
    pSource.compile(source, false, true);
    Integer startEId = Collections.max(pSource.getEvents().stream().filter(e -> e instanceof Init).map(e -> e.getEId()).collect(Collectors.toSet())) + 1;
    pTarget.compile(target, false, true, startEId);
    Context ctx = new Context();
    ctx.setPrintMode(Z3_ast_print_mode.Z3_PRINT_SMTLIB_FULL);
    Solver s = ctx.mkSolver();
    Solver s2 = ctx.mkSolver();
    BoolExpr sourceDF = pSource.encodeDF(ctx);
    BoolExpr sourceCF = pSource.encodeCF(ctx);
    BoolExpr sourceDF_RF = pSource.encodeDF_RF(ctx);
    BoolExpr sourceDomain = Domain.encode(pSource, ctx);
    BoolExpr sourceMM = pSource.encodeMM(ctx, source);
    s.add(pTarget.encodeDF(ctx));
    s.add(pTarget.encodeCF(ctx));
    s.add(pTarget.encodeDF_RF(ctx));
    s.add(Domain.encode(pTarget, ctx));
    s.add(pTarget.encodeMM(ctx, target));
    s.add(pTarget.encodeConsistent(ctx, target));
    s.add(sourceDF);
    s.add(sourceCF);
    s.add(sourceDF_RF);
    s.add(sourceDomain);
    s.add(sourceMM);
    s.add(pSource.encodeInconsistent(ctx, source));
    s.add(encodeCommonExecutions(pTarget, pSource, ctx));
    s2.add(sourceDF);
    s2.add(sourceCF);
    s2.add(sourceDF_RF);
    s2.add(sourceDomain);
    s2.add(sourceMM);
    s2.add(pSource.encodeConsistent(ctx, source));
    if (!statePortability) {
        if (s.check() == Status.SATISFIABLE) {
            System.out.println("The program is not portable");
            // System.out.println("       0");
            if (cmd.hasOption("draw")) {
                String outputPath = cmd.getOptionValue("draw");
                Utils.drawGraph(p, pSource, pTarget, ctx, s.getModel(), outputPath, rels);
            }
            return;
        } else {
            System.out.println("The program is portable");
            // System.out.println("       1");
            return;
        }
    }
    int iterations = 0;
    Status lastCheck = Status.SATISFIABLE;
    Set<Expr> visited = new HashSet<Expr>();
    while (lastCheck == Status.SATISFIABLE) {
        lastCheck = s.check();
        if (lastCheck == Status.SATISFIABLE) {
            iterations = iterations + 1;
            Model model = s.getModel();
            s2.push();
            BoolExpr reachedState = encodeReachedState(pTarget, model, ctx);
            visited.add(reachedState);
            assert (iterations == visited.size());
            s2.add(reachedState);
            if (s2.check() == Status.UNSATISFIABLE) {
                System.out.println("The program is not state-portable");
                System.out.println("Iterations: " + iterations);
                // System.out.println("       0");
                return;
            } else {
                s2.pop();
                s.add(ctx.mkNot(reachedState));
            }
        } else {
            System.out.println("The program is state-portable");
            System.out.println("Iterations: " + iterations);
            // System.out.println("       1");
            return;
        }
    }
}
Also used : Arrays(java.util.Arrays) Solver(com.microsoft.z3.Solver) org.apache.commons.cli(org.apache.commons.cli) Context(com.microsoft.z3.Context) CommonTokenStream(org.antlr.v4.runtime.CommonTokenStream) HashSet(java.util.HashSet) LitmusParser(dartagnan.LitmusParser) PorthosLexer(dartagnan.PorthosLexer) PorthosParser(dartagnan.PorthosParser) BoolExpr(com.microsoft.z3.BoolExpr) Status(com.microsoft.z3.Status) Program(dartagnan.program.Program) ANTLRInputStream(org.antlr.v4.runtime.ANTLRInputStream) Set(java.util.Set) IOException(java.io.IOException) FileUtils(org.apache.commons.io.FileUtils) Utils(dartagnan.utils.Utils) Collectors(java.util.stream.Collectors) File(java.io.File) Z3_ast_print_mode(com.microsoft.z3.enumerations.Z3_ast_print_mode) Init(dartagnan.program.Init) List(java.util.List) Model(com.microsoft.z3.Model) Domain(dartagnan.wmm.Domain) Encodings.encodeReachedState(dartagnan.utils.Encodings.encodeReachedState) Expr(com.microsoft.z3.Expr) Z3Exception(com.microsoft.z3.Z3Exception) Collections(java.util.Collections) LitmusLexer(dartagnan.LitmusLexer) Encodings.encodeCommonExecutions(dartagnan.utils.Encodings.encodeCommonExecutions) BoolExpr(com.microsoft.z3.BoolExpr) Solver(com.microsoft.z3.Solver) LitmusLexer(dartagnan.LitmusLexer) PorthosParser(dartagnan.PorthosParser) PorthosLexer(dartagnan.PorthosLexer) Init(dartagnan.program.Init) HashSet(java.util.HashSet) Context(com.microsoft.z3.Context) Status(com.microsoft.z3.Status) CommonTokenStream(org.antlr.v4.runtime.CommonTokenStream) Program(dartagnan.program.Program) LitmusParser(dartagnan.LitmusParser) BoolExpr(com.microsoft.z3.BoolExpr) Expr(com.microsoft.z3.Expr) Model(com.microsoft.z3.Model) File(java.io.File) ANTLRInputStream(org.antlr.v4.runtime.ANTLRInputStream)

Example 49 with Context

use of org.kie.workbench.common.dmn.api.definition.v1_1.Context in project batfish by batfish.

the class PropertyAdder method instrumentPathLength.

// Potentially useful in the future to optimize reachability when we know
// that there can't be routing loops e.g., due to a preliminary static analysis
/* public Map<String, BoolExpr> instrumentReachabilityFast(String router) {
    Context ctx = _encoderSlice.getCtx();
    Solver solver = _encoderSlice.getSolver();
    Map<String, BoolExpr> reachableVars = new HashMap<>();
    String sliceName = _encoderSlice.getSliceName();
    _encoderSlice
        .getGraph()
        .getConfigurations()
        .forEach(
            (r, conf) -> {
              int id = _encoderSlice.getEncoder().getId();
              String s2 = id + "_" + sliceName + "_reachable_" + r;
              BoolExpr var = ctx.mkBoolConst(s2);
              reachableVars.put(r, var);
              _encoderSlice.getAllVariables().put(var.toString(), var);
            });

    BoolExpr baseReach = reachableVars.get(router);
    _encoderSlice.add(baseReach);
    _encoderSlice
        .getGraph()
        .getEdgeMap()
        .forEach(
            (r, edges) -> {
              if (!r.equals(router)) {
                BoolExpr reach = reachableVars.get(r);
                BoolExpr hasRecursiveRoute = ctx.mkFalse();
                for (GraphEdge edge : edges) {
                  if (!edge.isAbstract()) {
                    BoolExpr fwd = _encoderSlice.getForwardsAcross().get(r, edge);
                    if (edge.getPeer() != null) {
                      BoolExpr peerReachable = reachableVars.get(edge.getPeer());
                      BoolExpr sendToReachable = ctx.mkAnd(fwd, peerReachable);
                      hasRecursiveRoute = ctx.mkOr(hasRecursiveRoute, sendToReachable);
                    }
                  }
                }
                solver.add(ctx.mkEq(reach, hasRecursiveRoute));
              }
            });

    return reachableVars;
  }

  public Map<String, BoolExpr> instrumentReachabilityFast(Set<GraphEdge> ges) {
    Context ctx = _encoderSlice.getCtx();
    Solver solver = _encoderSlice.getSolver();
    EncoderSlice slice = _encoderSlice;
    String sliceName = _encoderSlice.getSliceName();
    Graph g = slice.getGraph();
    Map<String, BoolExpr> reachableVars = new HashMap<>();

    _encoderSlice
        .getGraph()
        .getConfigurations()
        .forEach(
            (r, conf) -> {
              int id = _encoderSlice.getEncoder().getId();
              String s2 = id + "_" + sliceName + "_reachable_" + r;
              BoolExpr var = ctx.mkBoolConst(s2);
              reachableVars.put(r, var);
              _encoderSlice.getAllVariables().put(var.toString(), var);
            });

    for (Entry<String, List<GraphEdge>> entry : g.getEdgeMap().entrySet()) {
      String router = entry.getKey();
      List<GraphEdge> edges = entry.getValue();
      BoolExpr reach = reachableVars.get(router);

      // Add the base case, reachable if we forward to a directly connected interface
      BoolExpr hasDirectRoute = ctx.mkFalse();
      BoolExpr isAbsorbed = ctx.mkFalse();
      SymbolicRoute r = _encoderSlice.getBestNeighborPerProtocol(router, Protocol.CONNECTED);

      for (GraphEdge ge : edges) {
        if (!ge.isAbstract() && ges.contains(ge)) {
          // If a host, consider reachable
          if (g.isHost(router)) {
            hasDirectRoute = ctx.mkTrue();
            break;
          }
          // Reachable if we leave the network
          if (ge.getPeer() == null) {
            BoolExpr fwdIface = _encoderSlice.getForwardsAcross().get(ge.getRouter(), ge);
            assert (fwdIface != null);
            hasDirectRoute = ctx.mkOr(hasDirectRoute, fwdIface);
          }
          // Also reachable if connected route and we use it despite not forwarding
          if (r != null) {
            BitVecExpr dstIp = _encoderSlice.getSymbolicPacket().getDstIp();
            BitVecExpr ip = ctx.mkBV(ge.getStart().getIp().getIp().asLong(), 32);
            BoolExpr reachable = ctx.mkAnd(r.getPermitted(), ctx.mkEq(dstIp, ip));
            isAbsorbed = ctx.mkOr(isAbsorbed, reachable);
          }
        }
      }

      // Add the recursive case, where it is reachable through a neighbor
      BoolExpr hasRecursiveRoute = ctx.mkFalse();
      for (GraphEdge edge : edges) {
        if (!edge.isAbstract()) {
          BoolExpr fwd = _encoderSlice.getForwardsAcross().get(router, edge);
          if (edge.getPeer() != null) {
            BoolExpr peerReachable = reachableVars.get(edge.getPeer());
            BoolExpr sendToReachable = ctx.mkAnd(fwd, peerReachable);
            hasRecursiveRoute = ctx.mkOr(hasRecursiveRoute, sendToReachable);
          }
        }
      }

      BoolExpr cond = slice.mkOr(hasDirectRoute, isAbsorbed, hasRecursiveRoute);
      solver.add(slice.mkEq(reach, cond));
    }

    return reachableVars;
  } */
/*
   * Instruments the network with path length information to a
   * destination port corresponding to a graph edge ge.
   * A router has a path of length n if some neighbor has a path
   * with length n-1.
   */
Map<String, ArithExpr> instrumentPathLength(Set<GraphEdge> ges) {
    Context ctx = _encoderSlice.getCtx();
    Solver solver = _encoderSlice.getSolver();
    String sliceName = _encoderSlice.getSliceName();
    // Initialize path length variables
    Graph graph = _encoderSlice.getGraph();
    Map<String, ArithExpr> lenVars = new HashMap<>();
    for (String router : graph.getRouters()) {
        String name = _encoderSlice.getEncoder().getId() + "_" + sliceName + "_path-length_" + router;
        ArithExpr var = ctx.mkIntConst(name);
        lenVars.put(router, var);
        _encoderSlice.getAllVariables().put(var.toString(), var);
    }
    ArithExpr zero = ctx.mkInt(0);
    ArithExpr one = ctx.mkInt(1);
    ArithExpr minusOne = ctx.mkInt(-1);
    // Lower bound for all lengths
    lenVars.forEach((name, var) -> solver.add(ctx.mkGe(var, minusOne)));
    for (Entry<String, List<GraphEdge>> entry : graph.getEdgeMap().entrySet()) {
        String router = entry.getKey();
        List<GraphEdge> edges = entry.getValue();
        ArithExpr length = lenVars.get(router);
        // If there is a direct route, then we have length 0
        BoolExpr hasDirectRoute = ctx.mkFalse();
        BoolExpr isAbsorbed = ctx.mkFalse();
        SymbolicRoute r = _encoderSlice.getBestNeighborPerProtocol(router, Protocol.CONNECTED);
        for (GraphEdge ge : edges) {
            if (!ge.isAbstract() && ges.contains(ge)) {
                // Reachable if we leave the network
                if (ge.getPeer() == null) {
                    BoolExpr fwdIface = _encoderSlice.getForwardsAcross().get(ge.getRouter(), ge);
                    assert (fwdIface != null);
                    hasDirectRoute = ctx.mkOr(hasDirectRoute, fwdIface);
                }
                // Also reachable if connected route and we use it despite not forwarding
                if (r != null) {
                    BitVecExpr dstIp = _encoderSlice.getSymbolicPacket().getDstIp();
                    BitVecExpr ip = ctx.mkBV(ge.getStart().getAddress().getIp().asLong(), 32);
                    BoolExpr reach = ctx.mkAnd(r.getPermitted(), ctx.mkEq(dstIp, ip));
                    isAbsorbed = ctx.mkOr(isAbsorbed, reach);
                }
            }
        }
        // Otherwise, we find length recursively
        BoolExpr accNone = ctx.mkTrue();
        BoolExpr accSome = ctx.mkFalse();
        for (GraphEdge edge : edges) {
            if (!edge.isAbstract() && edge.getPeer() != null) {
                BoolExpr dataFwd = _encoderSlice.getForwardsAcross().get(router, edge);
                assert (dataFwd != null);
                ArithExpr peerLen = lenVars.get(edge.getPeer());
                accNone = ctx.mkAnd(accNone, ctx.mkOr(ctx.mkLt(peerLen, zero), ctx.mkNot(dataFwd)));
                ArithExpr newVal = ctx.mkAdd(peerLen, one);
                BoolExpr fwd = ctx.mkAnd(ctx.mkGe(peerLen, zero), dataFwd, ctx.mkEq(length, newVal));
                accSome = ctx.mkOr(accSome, fwd);
            }
        }
        BoolExpr guard = _encoderSlice.mkOr(hasDirectRoute, isAbsorbed);
        BoolExpr cond1 = _encoderSlice.mkIf(accNone, ctx.mkEq(length, minusOne), accSome);
        BoolExpr cond2 = _encoderSlice.mkIf(guard, ctx.mkEq(length, zero), cond1);
        solver.add(cond2);
    }
    return lenVars;
}
Also used : Context(com.microsoft.z3.Context) ArithExpr(com.microsoft.z3.ArithExpr) BoolExpr(com.microsoft.z3.BoolExpr) Solver(com.microsoft.z3.Solver) HashMap(java.util.HashMap) BitVecExpr(com.microsoft.z3.BitVecExpr) Graph(org.batfish.symbolic.Graph) List(java.util.List) GraphEdge(org.batfish.symbolic.GraphEdge)

Example 50 with Context

use of org.kie.workbench.common.dmn.api.definition.v1_1.Context in project batfish by batfish.

the class PropertyAdder method instrumentReachability.

/*
   * Add reachability information to the network for a destination edge.
   * Each router will have a boolean variable determining if it can reach
   * the destination. A router is reachable if it has some neighbor that
   * is also reachable.
   */
Map<String, BoolExpr> instrumentReachability(Set<GraphEdge> ges) {
    Context ctx = _encoderSlice.getCtx();
    Solver solver = _encoderSlice.getSolver();
    EncoderSlice slice = _encoderSlice;
    Map<String, BoolExpr> reachableVars = new HashMap<>();
    Map<String, ArithExpr> idVars = new HashMap<>();
    initializeReachabilityVars(slice, ctx, solver, reachableVars, idVars);
    Graph g = _encoderSlice.getGraph();
    for (Entry<String, List<GraphEdge>> entry : g.getEdgeMap().entrySet()) {
        String router = entry.getKey();
        List<GraphEdge> edges = entry.getValue();
        ArithExpr id = idVars.get(router);
        // Add the base case, reachable if we forward to a directly connected interface
        BoolExpr hasDirectRoute = ctx.mkFalse();
        BoolExpr isAbsorbed = ctx.mkFalse();
        SymbolicRoute r = _encoderSlice.getBestNeighborPerProtocol(router, Protocol.CONNECTED);
        for (GraphEdge ge : edges) {
            if (!ge.isAbstract() && ges.contains(ge)) {
                // If a host, consider reachable
                if (g.isHost(router)) {
                    hasDirectRoute = ctx.mkTrue();
                    break;
                }
                // Reachable if we leave the network
                if (ge.getPeer() == null) {
                    BoolExpr fwdIface = _encoderSlice.getForwardsAcross().get(ge.getRouter(), ge);
                    assert (fwdIface != null);
                    hasDirectRoute = ctx.mkOr(hasDirectRoute, fwdIface);
                }
                // Also reachable if connected route and we use it despite not forwarding
                if (r != null) {
                    BitVecExpr dstIp = _encoderSlice.getSymbolicPacket().getDstIp();
                    BitVecExpr ip = ctx.mkBV(ge.getStart().getAddress().getIp().asLong(), 32);
                    BoolExpr reach = ctx.mkAnd(r.getPermitted(), ctx.mkEq(dstIp, ip));
                    isAbsorbed = ctx.mkOr(isAbsorbed, reach);
                }
            }
        }
        // Add the recursive case, where it is reachable through a neighbor
        BoolExpr recursive = recursiveReachability(ctx, slice, edges, idVars, router, id);
        BoolExpr guard = ctx.mkOr(hasDirectRoute, isAbsorbed);
        BoolExpr cond = slice.mkIf(guard, ctx.mkEq(id, ctx.mkInt(1)), recursive);
        solver.add(cond);
    }
    return reachableVars;
}
Also used : Context(com.microsoft.z3.Context) ArithExpr(com.microsoft.z3.ArithExpr) BoolExpr(com.microsoft.z3.BoolExpr) Solver(com.microsoft.z3.Solver) HashMap(java.util.HashMap) BitVecExpr(com.microsoft.z3.BitVecExpr) Graph(org.batfish.symbolic.Graph) List(java.util.List) GraphEdge(org.batfish.symbolic.GraphEdge)

Aggregations

Context (org.eclipse.jst.server.tomcat.core.internal.xml.server40.Context)58 Context (com.microsoft.z3.Context)36 CoreException (org.eclipse.core.runtime.CoreException)34 Test (org.junit.Test)25 BoolExpr (com.microsoft.z3.BoolExpr)23 List (java.util.List)21 IOException (java.io.IOException)18 ServerInstance (org.eclipse.jst.server.tomcat.core.internal.xml.server40.ServerInstance)17 Context (org.kie.workbench.common.dmn.api.definition.v1_1.Context)17 HashMap (java.util.HashMap)16 ArrayList (java.util.ArrayList)15 Map (java.util.Map)14 File (java.io.File)13 Solver (com.microsoft.z3.Solver)12 Status (com.microsoft.z3.Status)12 IPath (org.eclipse.core.runtime.IPath)11 IStatus (org.eclipse.core.runtime.IStatus)11 Status (org.eclipse.core.runtime.Status)11 Factory (org.eclipse.jst.server.tomcat.core.internal.xml.Factory)11 LiteralExpression (org.kie.workbench.common.dmn.api.definition.v1_1.LiteralExpression)10