public void readBuildRun()
      throws ContentError, ParseError, ParseException, BuildException, XMLException,
          ConnectionError, RuntimeError {

    File simFile = new File(modelName);

    if (!simFile.exists()) {
      E.error("No such file: " + simFile.getAbsolutePath());
      System.exit(1);
    }

    FileInclusionReader fir = new FileInclusionReader(simFile);
    if (typePath != null) {
      fir.addSearchPaths(typePath);
    }
    Sim sim = new Sim(fir.read());

    sim.readModel();
    sim.build();

    boolean doRun = true;

    if (doRun) {
      sim.run();
      E.info("Finished reading, building, running & displaying LEMS model");
    }
  }
示例#2
0
文件: Dynamics.java 项目: LEMS/jLEMS
  public void checkEquations(HashMap<String, Dimensional> cdimHM) throws ContentError {

    HashMap<String, Dimensional> dimHM = new HashMap<String, Dimensional>();

    dimHM.putAll(cdimHM);

    for (RequiredVar rv : p_requiredVars) {
      dimHM.put(rv.getName(), rv.getDimensionality());
    }

    for (StateVariable sv : stateVariables) {
      dimHM.put(sv.getName(), sv.getDimensionality());
    }

    for (FinalParam fp : r_type.getFinalParams()) {
      dimHM.put(fp.getName(), fp.getDimensionality());
    }

    for (InstanceProperty ip : r_type.getInstancePropertys()) {
      dimHM.put(ip.getName(), ip.getDimensionality());
    }

    ExprDimensional tdim = new ExprDimensional();
    tdim.setT(1);
    dimHM.put("t", tdim);

    for (DerivedVariable dv : derivedVariables) {
      try {
        dimHM.put(dv.getName(), dv.getDimensionality(dimHM));
      } catch (ContentError ce) {
        E.error("Checking " + dv + " in " + r_type + " " + ce.getMessage());
      }
    }

    for (ConditionalDerivedVariable cdv : conditionalDerivedVariables) {
      try {
        dimHM.put(cdv.getName(), cdv.getDimensionality(dimHM));
      } catch (ContentError ce) {
        E.error("Checking " + cdv + " in " + r_type + " " + ce.getMessage());
      }
    }

    for (TimeDerivative td : timeDerivatives) {
      td.checkDimensions(dimHM);
    }
    for (PointResponse pr : onStarts) {
      pr.checkEquations(dimHM);
    }
    for (PointResponse pr : onEvents) {
      pr.checkEquations(dimHM);
    }
    for (OnCondition oc : onConditions) {
      oc.checkEquations(dimHM);
      oc.checkConditionDimensions(dimHM);
    }
  }
 public MatlabWriter(Lems lems)
     throws ModelFeatureSupportException, LEMSException, NeuroMLException {
   super(lems, "MATLAB");
   MinimalMessageHandler.setVeryMinimal(true);
   E.setDebug(false);
   sli.checkAllFeaturesSupported(FORMAT, lems);
 }
  private void runDiscreteUpdateComponent(File f1)
      throws ContentError, IOException, ParseError, ConnectionError, RuntimeError {

    String stxt = FileUtil.readStringFromFile(f1);

    XMLElementReader exmlr = new XMLElementReader(stxt + "    ");

    XMLElement xel = exmlr.getRootElement();

    LemsLiteFactory lf = new LemsLiteFactory();
    LemsLite lemsLite = lf.buildLemsFromXMLElement(xel);

    E.info("lemsLite model read: " + lemsLite.getSummary());

    // XMLSerializer xs = new XMLSerializer();
    // String sx = xs.serialize(lemsLite);

    File fdir = f1.getParentFile();

    LemsLiteSimulation lls = new LemsLiteSimulation(lemsLite);

    FileDataSource fds = new FileDataSource(fdir);

    lls.run(fds);
  }
 public ParseTree parseCondition(String e) throws ParseError {
   ParseTree ret = null;
   ParseTree ev = parse(e);
   if (ev.isBoolean()) {
     ret = ev;
   } else {
     E.error("not a condition: " + e);
   }
   return ret;
 }
  public ParseTree parseExpression(String e) throws ParseError {
    ParseTree ret = null;
    ParseTree ev = parse(e);
    if (ev.isFloat()) {
      ret = ev;
    } else {
      E.error("not an expression: " + e);
    }

    return ret;
  }
示例#7
0
文件: Dynamics.java 项目: LEMS/jLEMS
  private void realResolve(Lems lems, Parser parser) throws ContentError, ParseError {
    if (lems.looseResolving()) {
      // then we expose anything with a name that matches the name of an exposure
      HashSet<String> expHS = new HashSet<String>();
      for (Exposure exp : getComponentType().getExposures()) {
        expHS.add(exp.getName());
      }

      for (StateVariable sv : stateVariables) {
        if (sv.exposure == null && expHS.contains(sv.name)) {
          sv.exposure = sv.name;
          E.shortWarning(
              "Implicitly exposing a state variable because its name matches an exposure: " + sv);
        }
      }
      for (DerivedVariable dv : derivedVariables) {
        if (dv.exposure == null && expHS.contains(dv.name)) {
          dv.exposure = dv.name;
          E.shortWarning(
              "Implicitly exposing a derived variable because its name matches an exposure: " + dv);
        }
      }

      for (ConditionalDerivedVariable dv : conditionalDerivedVariables) {
        if (dv.exposure == null && expHS.contains(dv.name)) {
          dv.exposure = dv.name;
          E.shortWarning(
              "Implicitly exposing a derived variable because its name matches an exposure: " + dv);
        }
      }
    }

    HashMap<String, Integer> exposedHM = new HashMap<String, Integer>();

    for (Requirement req : getComponentType().getRequirements()) {
      p_requiredVars.add(new RequiredVar(req.getName(), req.getDimension()));
    }

    for (Exposure exp : getComponentType().getExposures()) {
      p_exposedVars.add(new ExposedVar(exp.getName(), exp.getDimension()));
      exposedHM.put(exp.getName(), 0);
    }

    checkMakeValHM();

    addToMap(lems.getGlobals(), valHM);

    addToMap(lems.getConstantValueds(), valHM);

    for (DerivedVariable dvar : derivedVariables) {
      dvar.resolve(lems, lems.getDimensions(), r_type, valHM, parser);
      if (dvar.hasExposure()) {
        countExposure(dvar.getExposure(), exposedHM);
      }
    }

    for (ConditionalDerivedVariable dvar : conditionalDerivedVariables) {
      dvar.resolve(lems, lems.getDimensions(), r_type, valHM, parser);
      if (dvar.hasExposure()) {
        countExposure(dvar.getExposure(), exposedHM);
      }
    }

    for (StateVariable sv : stateVariables) {
      sv.resolve(r_type, lems.getDimensions());
      if (sv.hasExposure()) {
        countExposure(sv.getExposure(), exposedHM);
      }
    }

    for (StateScalarField scf : stateScalarFields) {
      scf.resolve(r_type, lems.getDimensions());
    }

    for (DerivedScalarField dcf : derivedScalarFields) {
      dcf.resolve(r_type, lems.getDimensions());
    }

    for (DerivedPunctateField dpf : derivedPunctateFields) {
      dpf.resolve(r_type, lems.getDimensions());
    }

    for (TimeDerivative sd : timeDerivatives) {
      sd.resolve(stateVariables, valHM, parser);
    }

    for (OnStart os : onStarts) {
      os.resolve(this, stateVariables, valHM, parser);
    }

    for (OnEvent oe : onEvents) {
      oe.resolve(this, stateVariables, valHM, parser);
    }

    for (OnCondition oc : onConditions) {
      oc.resolve(this, stateVariables, valHM, parser);
    }

    for (Regime reg : regimes) {
      reg.setBehavior(this);
      reg.resolve(stateVariables, lems, parser, exposedHM);
    }

    for (KineticScheme ks : kineticSchemes) {
      ks.resolve(r_type);
    }

    for (String enm : exposedHM.keySet()) {
      if (exposedHM.get(enm) == 0) {
        E.oneLineWarning(
            "No internal variable is linked to the exposure: "
                + enm
                + " for ComponentType "
                + getComponentType().getName());
      }
    }
  }
  public ParseTree parse(String ea) throws ParseError {

    String e = ea;
    if (verbose) {
      E.info("Parsing: " + e);
    }
    e = e.trim();

    if (e.lastIndexOf("(") == 0 && e.indexOf(")") == e.length() - 1) {
      e = e.substring(1, e.length() - 1);
      // E.info("Replaced with: " + e);
    }

    ArrayList<Node> nodes = tokenize(e);
    // now we've got a list of tokens, and each is linked to is neighbor on either side

    if (verbose) {
      E.info("tokens: " + nodes);
    }

    // a group node to hold the whole lot, the same as is used for the content of bracketed chunks
    GroupNode groot = new GroupNode(null);
    groot.addAll(nodes);

    // some nodes will get replaced, but the operators remain throughout and will be needed later
    // to claim their operands. Use a list here so we can sort by precedence.
    ArrayList<AbstractOperatorNode> ops = new ArrayList<AbstractOperatorNode>();
    ArrayList<GroupNode> gnodes = new ArrayList<GroupNode>();
    ArrayList<FunctionNode> fnodes = new ArrayList<FunctionNode>();

    for (Node n : nodes) {
      if (n instanceof AbstractOperatorNode) {
        ops.add((AbstractOperatorNode) n);
      }
      if (n instanceof GroupNode) {
        gnodes.add((GroupNode) n);
      }
      if (n instanceof FunctionNode) {
        fnodes.add((FunctionNode) n);
      }
    }

    // Right parentheses have been mapped to group nodes. Left parentheses
    // are still present. Make each group node claim the content back to the corresponding
    // opening parenthesis. By starting at the left and processing groups as
    // we come to them we don't need recursion

    for (GroupNode gn : gnodes) {
      gn.gatherPreceeding();
    }

    if (verbose) {
      E.info("Root group: " + groot.toString());
    }

    AbstractOperatorNode[] aops = ops.toArray(new AbstractOperatorNode[ops.size()]);
    Arrays.sort(aops, new PrecedenceComparator());

    for (FunctionNode fn : fnodes) {
      fn.claim();
    }

    for (AbstractOperatorNode op : aops) {
      op.claim();
    }

    for (GroupNode gn : gnodes) {
      gn.supplantByChild();
    }

    ParseTreeNode root = null;
    if (groot.getChildren().size() == 1) {
      Node fc = groot.getChildren().get(0);
      if (fc instanceof ParseTreeNode) {
        root = (ParseTreeNode) fc;
      } else {
        throw new ParseError("root node is not evaluable " + fc);
      }
    } else {
      StringBuilder sb = new StringBuilder();
      sb.append(" too many children left in container: " + groot.getChildren().size());
      sb.append("\n");
      for (Node n : groot.getChildren()) {
        sb.append("Node: " + n + "\n");
      }

      throw new ParseError(sb.toString());
    }

    ParseTree ret = new ParseTree(root);
    return ret;
  }
  public ArrayList<Node> tokenize(String e) {
    ArrayList<Node> ret = new ArrayList<Node>();

    String ewk = disambiguate(e);

    for (String op : opHM.keySet()) {
      ewk = replaceAll(ewk, op, " " + op + " ");
    }
    ewk = replaceAll(ewk, "(", " ( ");
    ewk = replaceAll(ewk, ")", " ) ");

    ewk = reambiguate(ewk);

    if (verbose) {
      E.info("after spaces " + ewk);
    }

    Node pretok = null;

    //	StringTokenizer st = new StringTokenizer(ewk, " ");
    //	while (st.hasMoreTokens()) {
    //		String stok = st.nextToken();

    // avoiding tokenizer - not part of GWT

    String[] bits = ewk.split(" ");
    for (int i = 0; i < bits.length; i++) {
      String stok = bits[i];

      stok = stok.trim();
      if (stok.length() > 0) {

        Node n = null;
        if (stok.equals(")")) {
          n = new GroupNode();

        } else if (stok.equals("(")) {
          n = new OpenNode();

        } else if (funcHS.contains(stok)) {
          n = new FunctionNode(stok);

        } else if (opHM.containsKey(stok)) {
          n = opHM.get(stok).copy();
          if (n instanceof MinusNode && pretok instanceof AbstractOperatorNode) {
            n = new UnaryMinusNode();
          }

        } else if (snum.indexOf(stok.substring(0, 1)) >= 0) {
          n = new ConstantNode(stok);

        } else {
          n = new VariableNode(stok);
        }

        if (pretok != null) {
          pretok.linkNext(n);
        }
        pretok = n;
        ret.add(n);
      }
    }
    return ret;
  }
  public String getMainScript() throws GenerationException, IOException {
    StringBuilder mainRunScript = new StringBuilder();

    addComment(
        mainRunScript,
        format + " simulator compliant export for:\n\n" + lems.textSummary(false, false));

    try {
      List<File> files = dlemsw.convert();

      for (File file : files) {

        E.info("Writing " + format + " files to: " + this.getOutputFolder());
        if (file.getName().equals(mainDlemsFile)) {

          VelocityUtils.initializeVelocity();
          VelocityContext context = new VelocityContext();
          VelocityEngine ve = VelocityUtils.getVelocityEngine();
          String dlems = FileUtil.readStringFromFile(file);
          DLemsWriter.putIntoVelocityContext(dlems, context);

          addComment(
              mainRunScript,
              "Using the following distilled version of the LEMS model description for the script below:\n\n"
                  + dlems);

          StringWriter sw1 = new StringWriter();
          boolean generationStatus =
              ve.evaluate(
                  context,
                  sw1,
                  "LOG",
                  VelocityUtils.getTemplateAsReader(VelocityUtils.vertexRunTemplateFile));
          mainRunScript.append(sw1);
        } else if (file.getName().indexOf(".synapse.") > 0) {

          StringBuilder synapseScript = new StringBuilder();
          addComment(
              synapseScript,
              format + " simulator compliant export for:\n\n" + lems.textSummary(false, false));
          E.info(" ====  Handling DLEMS file: " + file.getAbsolutePath());

          VelocityUtils.initializeVelocity();
          VelocityContext context = new VelocityContext();
          VelocityEngine ve = VelocityUtils.getVelocityEngine();
          String dlems = FileUtil.readStringFromFile(file);
          DLemsWriter.putIntoVelocityContext(dlems, context);

          StringWriter sw2 = new StringWriter();
          boolean generationStatus2 =
              ve.evaluate(
                  context,
                  sw2,
                  "LOG",
                  VelocityUtils.getTemplateAsReader(VelocityUtils.vertexSynapseTemplateFile));

          addComment(
              synapseScript,
              "Using the following distilled version of the LEMS model description for the script below:\n\n"
                  + dlems);
          synapseScript.append(sw2);

          String name = (String) context.internalGet(DLemsKeywords.NAME.get());
          E.info("Name: " + name);

          File synapseScriptFile =
              new File(this.getOutputFolder(), "SynapseModel_" + name.toLowerCase() + ".m");

          FileUtil.writeStringToFile(synapseScript.toString(), synapseScriptFile);
          outputFiles.add(synapseScriptFile);

        } else {

          StringBuilder cellScript = new StringBuilder();
          addComment(
              cellScript,
              format + " simulator compliant export for:\n\n" + lems.textSummary(false, false));
          E.info(" ====  Handling DLEMS file: " + file.getAbsolutePath());

          VelocityUtils.initializeVelocity();
          VelocityContext context = new VelocityContext();
          VelocityEngine ve = VelocityUtils.getVelocityEngine();
          String dlems = FileUtil.readStringFromFile(file);
          DLemsWriter.putIntoVelocityContext(dlems, context);

          StringWriter sw2 = new StringWriter();
          boolean generationStatus2 =
              ve.evaluate(
                  context,
                  sw2,
                  "LOG",
                  VelocityUtils.getTemplateAsReader(VelocityUtils.vertexCellTemplateFile));

          addComment(
              cellScript,
              "Using the following distilled version of the LEMS model description for the script below:\n\n"
                  + dlems);
          cellScript.append(sw2);

          String name = (String) context.internalGet(DLemsKeywords.NAME.get());
          E.info("Name: " + name);

          File cellScriptFile =
              new File(this.getOutputFolder(), "PointNeuronModel_" + name.toLowerCase() + ".m");

          FileUtil.writeStringToFile(cellScript.toString(), cellScriptFile);
          outputFiles.add(cellScriptFile);
        }
      }

    } catch (IOException e1) {
      throw new GenerationException("Problem converting LEMS to dLEMS", e1);
    } catch (VelocityException e) {
      throw new GenerationException("Problem using Velocity template", e);
    }

    return mainRunScript.toString();
  }
 private void initializeWriter() {
   MinimalMessageHandler.setVeryMinimal(true);
   E.setDebug(false);
 }