예제 #1
0
 public void closeDB() {
   cliDB.closeScript();
   log.dbg(2, "processOneFile", "storing in DB");
   cliDB.runSQL(cached.dbName);
   log.dbg(2, "processOneFile", "finished");
   cliDB = null;
 }
예제 #2
0
  public TextFile openDBforFile(String dbName, String fileName, String tablePrefix) {
    perFile = new perFileStruc();

    cliDB = new sqlSolver();
    initialScript(dbName, tablePrefix);

    if (checkMisprog(cliDB == null, "cliDB")) return null;
    if (checkMisprog(cached == null, "cached")) return null;

    cliDB.openScript();
    out(
        "INSERT INTO "
            + cached.tabPrefix
            + "_files VALUES ("
            + cached.fileID
            + ", '"
            + cliDB.escapeString(DateFormat.getTodayStr())
            + "', '"
            + fileName
            + "');");

    log.dbg(2, "processOneFile", "start parsing [" + fileName + "]");
    TextFile tf = new TextFile();
    if (!tf.fopen(fileName, "rb")) // mode "rb" to be able to get the InputStream!
    {
      log.err("processOneFile", "file to parse [" + fileName + "] cannot be openned!");
      return null;
    }
    return tf;
  }
예제 #3
0
 /**
  * Calculates the minimum size dimensions for the specified panel given the components in the
  * specified parent container.
  *
  * @param parent the component to be laid out
  */
 public Dimensio minimumLayoutSize(int posX0, int posY0, int posX1, int posY1) {
   Dimensio di = getLayoutSize(posX0, posY0, posX1, posY1, false);
   log.dbg(
       2,
       "minimumLayoutSize",
       lay.getName() + " minimumLayoutSize (" + di.width + ", " + di.height + ")");
   return di;
 }
예제 #4
0
 public static void registerWidgetByName(String name, View widget) {
   utilSys.objectSacPut("javaj." + name, widget);
   getListOfWidgetNames().add(name);
   if (log_widgetRegister.isDebugging(2)) {
     log_widgetRegister.dbg(
         2, "register", "add", new String[] {name, widget.getClass().toString()});
   }
 }
예제 #5
0
  /**
   * Calculates the preferred size dimensions for the specified panel given the components in the
   * specified parent container.
   *
   * @param parent the component to be laid out
   */
  public Dimensio preferredLayoutSize(int posX0, int posY0, int posX1, int posY1) {
    /// *EXPERIMENT!!!*/invalidatePreCalc ();
    Dimensio di = getLayoutSize(posX0, posY0, posX1, posY1, true);
    log.dbg(
        2,
        "preferredLayoutSize",
        lay.getName() + " preferredLayoutSize (" + di.width + ", " + di.height + ")");

    // (o) TODO_javaj_layingOut Problem: preferredLayoutSize
    // 19.04.2009 19:50 Problem: preferredLayoutSize is called when pack and after that no more
    //                 layouts data dependent like slider (don't know if horizontal or vertical)
    // have problems
    //                 Note: this is not just a problem of EvaLayout but of all layout managers
    // log.severe ("SEVERINIO!");

    return di;
  }
예제 #6
0
 public void clearCache() {
   cached = new cacheableStruct();
   log.dbg(2, "clearCache", "cache cleared");
 }
예제 #7
0
  /**
   * NOTE: Only call this function if a record is going to be stored
   *
   * <p>When calling this function with the current path WE KNOW that there is data to be stored
   * using this pathID, therefore we set HASDATA = 1 for this path
   */
  public long getPathTypeIdentifier() {
    if (checkMisprog(perFile == null, "perFile")) return -1;
    if (checkMisprog(cached == null, "cached")) return -1;

    // form path and search for its index
    //
    int currentPathIndx = perFile.currentPath.rows() - 1;
    String pathStr = "";
    String lastNode = perFile.currentPath.getValue(currentPathIndx, cNODE);
    for (int ii = 0; ii <= currentPathIndx; ii++) {
      pathStr += "/" + perFile.currentPath.getValue(ii, cNODE);
    }
    long indx = cached.patIDList.indexOf(pathStr);

    log.dbg(
        2,
        "getPathTypeIdentifier pathStr ["
            + pathStr
            + "] currentPathIndx = "
            + currentPathIndx
            + " index = "
            + indx);

    // SET has data flag
    if (currentPathIndx >= 0) {
      perFile.currentPath.setValue("1", currentPathIndx, cHASDATA);
    }

    if (indx == -1) {
      cached.patIDList.add(pathStr);
      indx = cached.patIDList.size() - 1;

      // (o) TOSEE_XMeLon is this record convenient ? 14.02.2010 02:46
      if (indx == 0) {
        // first one, insert path root (one per file)
        out("INSERT OR IGNORE INTO " + cached.tabPrefix + "_pathDef VALUES (0, 0, '', '', '', 0);");
      }

      long parentIndx = getPathParentIndex(pathStr);

      log.dbg(2, "getPathTypeIdentifier a insert con parentIndx = " + parentIndx);
      out(
          "INSERT INTO "
              + cached.tabPrefix
              + "_pathDef VALUES ("
              + (MIN_PAT_ID + indx)
              + ", "
              + (parentIndx != -1 ? (MIN_PAT_ID + parentIndx) : 0)
              + ", '"
              + utilEscapeStr.escapeStr(pathStr)
              + "', '"
              + utilEscapeStr.escapeStr(naming.toVariableName(pathStr))
              + "', '"
              + utilEscapeStr.escapeStr(lastNode)
              + "', "
              + perFile.currentPath.rows()
              + ");");
    }

    return MIN_PAT_ID + indx;
  }
예제 #8
0
  protected void initialScript(String dbName, String prefix) {
    if (checkMisprog(cliDB == null, "cliDB")) return;
    if (checkMisprog(cached == null, "cached")) return;

    // (o) listix_sql_schemas XMELON schema creation

    if (cached.dbName == null
        || !cached.dbName.equals(dbName)
        || cached.tabPrefix == null
        || !cached.tabPrefix.equals(prefix)) {
      cached.tabPrefix = prefix;
      cached.dbName = dbName;
      log.dbg(
          2,
          "initialScript",
          "ensure tables creation for prefix "
              + cached.tabPrefix
              + " in database "
              + cached.dbName);
      cliDB.openScript();

      //
      //   table: xmelon_files    (fileID, timeParse, fullPath)
      //   table: xmelon_tagDef   (tagID, tagStr, tagStrNormal)
      //   table: xmelon_pathDef  (patID, parentPatID, pathStr, pathStrNormal, lastNode, level)
      //   table: xmelon_data     (fileID, dataCnt, patCnt, parentPatCnt, patID, tagID, dataPlace,
      // value)
      //
      String tTAG = cached.tabPrefix + "_tagDef";
      String tPATH = cached.tabPrefix + "_pathDef";
      String tFILE = cached.tabPrefix + "_files";
      String tDATA = cached.tabPrefix + "_data";
      String tLOG = cached.tabPrefix + "_log";

      cliDB.writeScript(
          "CREATE TABLE IF NOT EXISTS "
              + tTAG
              + " (tagID int, tagStr text, tagStrNormal text, UNIQUE(tagID));");
      cliDB.writeScript(
          "CREATE TABLE IF NOT EXISTS "
              + tPATH
              + " (patID int, parentPatID int, pathStr text, pathStrNormal text, lastNode text, level int, UNIQUE(patID));");
      cliDB.writeScript(
          "CREATE TABLE IF NOT EXISTS "
              + tFILE
              + " (fileID int, timeParse text, fullPath text, UNIQUE(fileID));");
      cliDB.writeScript(
          "CREATE TABLE IF NOT EXISTS "
              + tDATA
              + " (fileID int, dataCnt int, patCnt int, parentPatCnt int, patID int, tagID int, dataPlace text, value text, UNIQUE(fileID, dataCnt));");

      cliDB.writeScript(
          "CREATE INDEX IF NOT EXISTS " + tDATA + "_indx1 ON " + tDATA + " (fileID, patCnt);");
      cliDB.writeScript(
          "CREATE INDEX IF NOT EXISTS "
              + tDATA
              + "_indx2 ON "
              + tDATA
              + " (fileID, parentPatCnt);");
      cliDB.writeScript(
          "CREATE INDEX IF NOT EXISTS "
              + tDATA
              + "_indx3 ON "
              + tDATA
              + " (patID, tagID);"); // relevant for <SQL calc_PathTag> in util.lsx
      cliDB.writeScript(
          "CREATE INDEX IF NOT EXISTS "
              + tDATA
              + "_indx4 ON "
              + tDATA
              + " (fileID, patID, patCnt);");

      cliDB.writeScript("CREATE TABLE IF NOT EXISTS " + tLOG + " (fileID int, logMessage text);");

      // o-o  Add dbMore connections info
      //
      // connexiones directas
      //
      //   conn, srcTab, srcKey, targTab, targKey
      //
      //   file  , xmelon_data, fileID, xmelon_files, fileID
      //   path  , xmelon_data, patID, xmelon_pathDef, patID
      //   tag   , xmelon_data, tagID, xmelon_tagDef, tagID
      //   parent, xmelon_data, parentPatCnt, xmelon_data, patCnt
      //
      cliDB.writeScript(deepSqlUtil.getSQL_CreateTableConnections());
      cliDB.writeScript(
          deepSqlUtil.getSQL_InsertConnection("parentPath", tPATH, "parentPatID", tPATH, "patID"));
      cliDB.writeScript(
          deepSqlUtil.getSQL_InsertConnection("file", tDATA, "fileID", tFILE, "fileID"));
      cliDB.writeScript(
          deepSqlUtil.getSQL_InsertConnection("path", tDATA, "patID", tPATH, "patID"));
      cliDB.writeScript(deepSqlUtil.getSQL_InsertConnection("tag", tDATA, "tagID", tTAG, "tagID"));
      // NO! es N->N !
      // cliDB.writeScript (deepSqlUtil.getSQL_InsertConnection("parent"    , tDATA, "parentPatCnt",
      //  tDATA,  "patCnt"));

      cliDB.closeScript();
      cliDB.runSQL(cached.dbName);

      // reset patIDList cache
      cached.patIDList = null;
      cached.tagIDList = null;

      // get last fileID
      cached.fileID =
          sqlUtil.getNextID(cached.dbName, cached.tabPrefix + "_files", "fileID", MIN_FILE_ID);
    } else cached.fileID++;

    if (cached.patIDList != null) return;

    // ok, need the list if given

    // get the list id path ID's
    //
    cached.patIDList =
        cliDB.getSQL(
            dbName,
            ".headers off\nSELECT pathStr FROM " + cached.tabPrefix + "_pathDef ORDER BY patID;");
    log.dbg(
        2, "initialScript", "obtained pathDef list of " + cached.patIDList.size() + " elements");

    // get the list id tag ID's
    //
    cached.tagIDList =
        cliDB.getSQL(
            dbName,
            ".headers off\nSELECT tagStr FROM " + cached.tabPrefix + "_tagDef ORDER BY tagID;");
    log.dbg(2, "initialScript", "obtained tagDef list of " + cached.tagIDList.size() + " elements");
  }
예제 #9
0
  /**
   * Lays out the container in the specified container.
   *
   * @param parent the component which needs to be laid out
   */
  public void layoutContainer(int posX0, int posY0, int posX1, int posY1) {
    // isPrecalculated = false;
    if (log.isDebugging(4)) log.dbg(4, "layoutContainer", lay.getName());

    precalculateAll();

    // synchronized (parent.getTreeLock())
    {
      // if (log.isDebugging(4))
      //   log.dbg (4, "layoutContainer", "insets left right =" + insets.left + ", " + insets.right
      // + " top bottom " + insets.top + ", " + insets.bottom);

      // Total parent dimensions
      int parDx = posX1 - posX0;
      int parDy = posY1 - posY0;

      if (log.isDebugging(4)) log.dbg(4, "layoutContainer", "parent size =" + parDx + ", " + parDy);

      int repartH = parDx - fijoH;
      int repartV = parDy - fijoV;

      int[] HextraPos = new int[HdimPref.length];
      int[] VextraPos = new int[VdimPref.length];

      if (log.isDebugging(4))
        log.dbg(4, "layoutContainer", "repartH=" + repartH + " repartV=" + repartV);

      // repartir H
      if (columnsReparto.size() > 0) {
        repartH /= columnsReparto.size();
        for (int ii = 0; ii < columnsReparto.size(); ii++) {
          int indx = ((int[]) columnsReparto.get(ii))[0];
          HdimPref[indx] = repartH;
          for (int res = indx + 1; res < nColumns(); res++) HextraPos[res] += repartH;
        }
      }

      // repartir V
      if (rowsReparto.size() > 0) {
        repartV /= rowsReparto.size();
        for (int ii = 0; ii < rowsReparto.size(); ii++) {
          int indx = ((int[]) rowsReparto.get(ii))[0];
          VdimPref[indx] = repartV;
          for (int res = indx + 1; res < nRows(); res++) VextraPos[res] += repartV;
        }
      }

      for (int co = 0; co < getChildCount(); co++) {
        View vi = getChildAt(co);
        LayoutParams lp = (EvaLayout.LayoutParams) vi.getLayoutParams();

        if (log.isDebugging(4)) log.dbg(4, "layoutContainer", "element [" + lp.name + "]");
        // System.out.println ("componente " + lp.name);

        if (!lp.isLaidOut) continue;

        // System.out.println ("   indices " + lp.posCol0 + " (" + Hpos[lp.posCol0] + " extras " +
        // HextraPos[lp.posCol0] + ")");

        int x = Hpos[lp.posCol0] + HextraPos[lp.posCol0];
        int y = Vpos[lp.posRow0] + VextraPos[lp.posRow0];
        int dx = 0;
        int dy = 0;

        // if (log.isDebugging(4))
        //    log.dbg (4, "SIGUEY", "1) y = " + y + " Vpos[lp.posRow0] = " + Vpos[lp.posRow0] + "
        // VextraPos[lp.posRow0] = " + VextraPos[lp.posRow0]);

        for (int mm = lp.posCol0; mm <= lp.posCol1; mm++) {
          if (mm != lp.posCol0) dx += Hgap;
          dx += HdimPref[mm];
        }
        for (int mm = lp.posRow0; mm <= lp.posRow1; mm++) {
          if (mm != lp.posRow0) dy += Vgap;
          dy += VdimPref[mm];
        }

        if (x < 0 || y < 0 || dx < 0 || dy < 0) {
          // Disable this warning because it happens very often when minimizing the window etc
          // log.warn ("layoutContainer", "component not laid out! [" + lp.name + "] (" + x + ", " +
          // y + ") (" + dx + ", " + dy + ")");
          continue;
        }

        // vi.setWidth (dx);
        // vi.setHeight (dy);
        setMeasuredDimension(dx, dy);
        vi.layout(x, y, x + dx, y + dy);
        if (log.isDebugging(4))
          log.dbg(
              4,
              "layoutContainer",
              "vi.name [" + lp.name + "] (" + x + ", " + y + ") (" + dx + ", " + dy + ")");
      }
    } // end synchronized
  }
예제 #10
0
  /** calculating layout size (minimum or preferred). */
  protected Dimensio getLayoutSize(
      int posX0, int posY0, int posX1, int posY1, boolean isPreferred) {
    log.dbg(2, "getLayoutSize", lay.getName());
    precalculateAll();

    // In precalculateAll the methods minWidthOfColumn and minHeightOfRow
    // does not evaluate expandable components since these might use other columns.
    // But in order to calculate the minimum or preferred total size we need this information.
    // In these cases we have to calculate following : if the sum of the sizes of the
    // columns that the component occupies is less that the minimum/preferred size of
    // the component then we add the difference to the total width
    // We evaluate this ONLY for those components that could be expanded!
    // for example
    //
    //    NO COMPONENT HAS TO          COMPONENTS comp1 and comp3
    //    BE RECALCULED                HAS TO BE RECALCULED
    //    ---------------------        ------------------------
    //    grid,   160  ,   A           grid,   160  ,   X
    //      A ,  comp1 ,   -             A ,  comp1 ,   -
    //      A ,  comp2 , comp3           X ,  comp2 , comp3
    //

    int[] extraCol = new int[nColumns()];
    int[] extraRow = new int[nRows()];

    int[] Hdim = isPreferred ? HdimPref : HdimMin;
    int[] Vdim = isPreferred ? VdimPref : VdimMin;

    // System.err.println ("PARLANT DE " + lay.getName () + " !!!");

    // for all components ...
    for (int ii = 0; ii < getChildCount(); ii++) {
      View vi = getChildAt(ii);
      LayoutParams lp = (EvaLayout.LayoutParams) vi.getLayoutParams();
      boolean someExpan = false;
      if (!lp.isLaidOut) continue;

      //         log.dbg (2, "getLayoutSize",  lp.name + " mea (" + vi.getMeasuredWidth() + ", " +
      // vi.getMeasuredHeight() + ")");
      //         log.dbg (2, "getLayoutSize",  lp.name + " haz (" + vi.getWidth() + ", " +
      // vi.getHeight() + ")");
      //
      //         int csizWidth  = (isPreferred) ? vi.getMeasuredWidth(): vi.getWidth();
      //         int csizHeight = (isPreferred) ? vi.getMeasuredHeight(): vi.getHeight();

      int csizWidth = (vi instanceof izWidget) ? ((izWidget) vi).getDefaultWidth() : 300;
      int csizHeight = (vi instanceof izWidget) ? ((izWidget) vi).getDefaultHeight() : 400;

      log.dbg(2, "getLayoutSize", lp.name + " dim (" + csizWidth + ", " + csizHeight + ")");

      // some column expandable ?
      //
      someExpan = false;
      for (int cc = lp.posCol0; cc <= lp.posCol1; cc++)
        if (headType(columnHeader(cc)) == HEADER_EXPAND) {
          someExpan = true;
          break;
        }

      if (someExpan) {
        // sum of all columns that this component occupy
        int sum = 0;
        for (int cc = lp.posCol0; cc <= lp.posCol1; cc++) sum += (Hdim[cc] + extraCol[cc]);

        // distribute it in all columns to be salomonic
        int resto = csizWidth - sum;
        if (resto > 0) {
          if (lp.posCol0 == lp.posCol1) {
            // System.err.println ("Resto X " + resto + " de " +  lp.name + " en la " + lp.posCol0 +
            // " veniendo de csiz.width " + csiz.width + " y sum " + sum + " que repahartimos en " +
            // (1 + lp.posCol1 - lp.posCol0) + " parates tenahamos una estra de " +
            // extraCol[lp.posCol0]);
          }
          for (int cc = lp.posCol0; cc <= lp.posCol1; cc++)
            extraCol[cc] = resto / (1 + lp.posCol1 - lp.posCol0);
        }
      }

      // some row expandable ?
      //
      someExpan = false;
      for (int rr = lp.posRow0; rr <= lp.posRow1; rr++)
        if (headType(rowHeader(rr)) == HEADER_EXPAND) {
          someExpan = true;
          break;
        }

      if (someExpan) {
        // sum of all height (rows) that this component occupy
        int sum = 0;
        for (int rr = lp.posRow0; rr <= lp.posRow1; rr++) sum += (Vdim[rr] + extraRow[rr]);

        // distribute it in all columns to be salomonic
        int resto = csizHeight - sum;
        if (resto > 0) {
          for (int rr = lp.posRow0; rr <= lp.posRow1; rr++)
            extraRow[rr] = resto / (1 + lp.posRow1 - lp.posRow0);
        }
      }
    }

    int tot_width = 0;
    for (int cc = 0; cc < nColumns(); cc++) {
      tot_width += (Hdim[cc] + extraCol[cc]);
    }

    int tot_height = 0;
    for (int rr = 0; rr < nRows(); rr++) {
      tot_height += Vdim[rr] + extraRow[rr];
    }

    // Insets insets = (parent != null) ? parent.getInsets(): new Insets(0,0,0,0);
    tot_width += Hgap * (nColumns() - 1) + 2 * Hmargin;
    tot_height += Vgap * (nRows() - 1) + 2 * Vmargin;

    log.dbg(2, "getLayoutSize", "returning tot_width " + tot_width + ", tot_height " + tot_height);
    // System.out.println ("getLayoutSize pref=" + isPreferred + " nos sale (" + tot_width + ", " +
    // tot_height + ")");
    return new Dimensio(tot_width > 0 ? tot_width : 100, tot_height > 0 ? tot_height : 100);
  }
예제 #11
0
  private void precalculateAll() {
    if (isPrecalculated) return;
    if (!checkLayoutInfo()) {
      log.err("checkLayoutInfo", "layout [" + lay.getName() + "] is not of type EVA");
      // do not return! some variables has to be initialized anyway
    }

    log.dbg(2, "precalculateAll", "layout " + lay.getName() + " perform precalculation.");

    Hmargin = Math.max(0, stdlib.atoi(lay.getValue(0, 1)));
    Vmargin = Math.max(0, stdlib.atoi(lay.getValue(0, 2)));
    Hgap = Math.max(0, stdlib.atoi(lay.getValue(0, 3)));
    Vgap = Math.max(0, stdlib.atoi(lay.getValue(0, 4)));

    log.dbg(4, "precalculateAll", nColumns() + " columns x " + nRows() + " rows");
    log.dbg(
        4,
        "precalculateAll",
        "margins xm=" + Hmargin + ", ym=" + Vmargin + ", yg=" + Hgap + ", yg=" + Vgap);

    mnCols = -1; // reset cached number of cols
    mnRows = -1; // reset cached number of rows

    HdimMin = new int[nColumns()];
    HdimPref = new int[nColumns()];
    Hpos = new int[nColumns()];
    VdimMin = new int[nRows()];
    VdimPref = new int[nRows()];
    Vpos = new int[nRows()];

    columnsReparto = new Vector();
    rowsReparto = new Vector();

    // for all components ...
    int count = getChildCount();
    for (int i = 0; i < count; i++) {
      View child = getChildAt(i);
      // if (child.getVisibility() != GONE)
      EvaLayout.LayoutParams lp = (EvaLayout.LayoutParams) child.getLayoutParams();
      lp.isLaidOut = false;
    }

    // compute Vdim (Note: it might be precalculated if needed)
    fijoV = Vmargin;
    for (int rr = 0; rr < nRows(); rr++) {
      String heaRow = rowHeader(rr);
      int typ = headType(heaRow);
      int gap = (rr == 0) ? 0 : Vgap;

      if (typ == HEADER_ORIGINAL) {
        // maximum-minimum of the row
        VdimPref[rr] = minHeightOfRow(rr, true);
        VdimMin[rr] = minHeightOfRow(rr, false);
        log.dbg(2, "precalculateAll", "Adaption... VdimPref[rr] = " + VdimPref[rr]);
      } else if (typ == HEADER_EXPAND) {
        rowsReparto.add(new int[] {rr}); // compute later
        log.dbg(2, "precalculateAll", "Expand... VdimPref[rr] = " + VdimPref[rr]);
      } else {
        // indicated size
        VdimPref[rr] = VdimMin[rr] = stdlib.atoi(heaRow);
        log.dbg(2, "precalculateAll", "Explicit... VdimPref[rr] = " + VdimPref[rr]);
      }

      Vpos[rr] = fijoV + gap;
      fijoV += VdimPref[rr];
      fijoV += gap;
    }
    fijoV += Vmargin;
    log.dbg(2, "precalculateAll", "fijoV = " + fijoV + " Vmargin = " + Vmargin + " Vgap = " + Vgap);

    // DEBUG ....
    if (log.isDebugging(2)) {
      String vertical = "Vertical array (posY/prefHeight/minHeight)";
      for (int rr = 0; rr < Vpos.length; rr++)
        vertical += "  " + rr + ") " + Vpos[rr] + "/" + VdimPref[rr] + "/" + VdimMin[rr];

      log.dbg(2, "precalculateAll", vertical);
    }

    // compute Hdim (Note: it might be precalculated if needed)
    fijoH = Hmargin;
    for (int cc = 0; cc < nColumns(); cc++) {
      String heaCol = columnHeader(cc);
      int typ = headType(heaCol);
      int gap = (cc == 0) ? 0 : Hgap;

      if (typ == HEADER_ORIGINAL) {
        // maximum-minimum of the column
        HdimPref[cc] = minWidthOfColumn(cc, true);
        HdimMin[cc] = minWidthOfColumn(cc, false);
      } else if (typ == HEADER_EXPAND) columnsReparto.add(new int[] {cc}); // compute later
      else HdimPref[cc] = HdimMin[cc] = stdlib.atoi(heaCol); // indicated size

      Hpos[cc] = fijoH + gap;
      fijoH += HdimPref[cc];
      fijoH += gap;
    }
    fijoH += Hmargin;
    log.dbg(2, "precalculateAll", "fijoH = " + fijoH);

    // DEBUG ....
    if (log.isDebugging(2)) {
      String horizontal = "Horizontal array (posX/prefWidth/minWidth)";
      for (int cc = 0; cc < Hpos.length; cc++)
        horizontal += "  " + cc + ") " + Hpos[cc] + "/" + HdimPref[cc] + "/" + HdimMin[cc];

      log.dbg(2, "precalculateAll", horizontal);
    }

    // finding all components in the layout array
    for (int cc = 0; cc < nColumns(); cc++) {
      for (int rr = 0; rr < nRows(); rr++) {
        String name = widgetAt(rr, cc);

        LayoutParams wid = theComponent(name);
        if (wid == null) continue;

        // set position x,y
        wid.posCol0 = cc;
        wid.posRow0 = rr;

        // set position x2,y2
        int ava = cc;
        while (ava + 1 < nColumns() && widgetAt(rr, ava + 1).equals(EXPAND_HORIZONTAL)) ava++;
        wid.posCol1 = ava;

        ava = rr;
        while (ava + 1 < nRows() && widgetAt(ava + 1, cc).equals(EXPAND_VERTICAL)) ava++;
        wid.posRow1 = ava;

        wid.isLaidOut = true;

        // DEBUG ....
        if (log.isDebugging(2)) {
          log.dbg(
              2,
              "precalculateAll",
              wid.name
                  + " leftTop ("
                  + wid.posCol0
                  + ", "
                  + wid.posRow0
                  + ") rightBottom ("
                  + wid.posCol1
                  + ", "
                  + wid.posRow1
                  + ")");
        }
      }
    }

    isPrecalculated = true;
  }
예제 #12
0
 /**
  * Switches to another layout : note that the components used in this new layout has to exists
  * (added to the layout using add method)
  */
 public void switchLayout(Eva layarray) {
   log.dbg(2, "switchLayout", "switch new layout info " + layarray.getName());
   lay = layarray;
   invalidatePreCalc();
 }