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()});
}
}
/**
* 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
}
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;
}