X-Git-Url: http://source.jalview.org/gitweb/?a=blobdiff_plain;f=src2%2Fnet%2Fmiginfocom%2Flayout%2FGrid.java;fp=src2%2Fnet%2Fmiginfocom%2Flayout%2FGrid.java;h=0000000000000000000000000000000000000000;hb=a1225b9392dc7657d5cef12907385b07527d6122;hp=ec56de4e8ecce377813bfb4fd83ccc310d3e3610;hpb=b513684c725997c77341f30ce4e584cf9f7cdfed;p=jalview.git
diff --git a/src2/net/miginfocom/layout/Grid.java b/src2/net/miginfocom/layout/Grid.java
deleted file mode 100644
index ec56de4..0000000
--- a/src2/net/miginfocom/layout/Grid.java
+++ /dev/null
@@ -1,2496 +0,0 @@
-package net.miginfocom.layout;
-
-
-import java.lang.ref.WeakReference;
-import java.util.*;
-/*
- * License (BSD):
- * ==============
- *
- * Copyright (c) 2004, Mikael Grev, MiG InfoCom AB. (miglayout (at) miginfocom (dot) com)
- * All rights reserved.
- *
- * Redistribution and use in source and binary forms, with or without modification,
- * are permitted provided that the following conditions are met:
- * Redistributions of source code must retain the above copyright notice, this list
- * of conditions and the following disclaimer.
- * Redistributions in binary form must reproduce the above copyright notice, this
- * list of conditions and the following disclaimer in the documentation and/or other
- * materials provided with the distribution.
- * Neither the name of the MiG InfoCom AB nor the names of its contributors may be
- * used to endorse or promote products derived from this software without specific
- * prior written permission.
- *
- * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
- * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
- * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
- * IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT,
- * INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING,
- * BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA,
- * OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
- * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
- * ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY
- * OF SUCH DAMAGE.
- *
- * @version 1.0
- * @author Mikael Grev, MiG InfoCom AB
- * Date: 2006-sep-08
- */
-
-/** Holds components in a grid. Does most of the logic behind the layout manager.
- */
-public final class Grid
-{
- public static final boolean TEST_GAPS = true;
-
- private static final Float[] GROW_100 = new Float[] {ResizeConstraint.WEIGHT_100};
-
- private static final DimConstraint DOCK_DIM_CONSTRAINT = new DimConstraint();
- static {
- DOCK_DIM_CONSTRAINT.setGrowPriority(0);
- }
-
- /** This is the maximum grid position for "normal" components. Docking components use the space out to
- * MAX_DOCK_GRID and below 0.
- */
- private static final int MAX_GRID = 30000;
-
- /** Docking components will use the grid coordinates -MAX_DOCK_GRID -> 0 and MAX_GRID -> MAX_DOCK_GRID.
- */
- private static final int MAX_DOCK_GRID = 32767;
-
- /** A constraint used for gaps.
- */
- private static final ResizeConstraint GAP_RC_CONST = new ResizeConstraint(200, ResizeConstraint.WEIGHT_100, 50, null);
- private static final ResizeConstraint GAP_RC_CONST_PUSH = new ResizeConstraint(200, ResizeConstraint.WEIGHT_100, 50, ResizeConstraint.WEIGHT_100);
-
- /** Used for components that doesn't have a CC set. Not that it's really really important that the CC is never changed in this Grid class.
- */
- private static final CC DEF_CC = new CC();
-
- /** The constraints. Never null.
- */
- private final LC lc;
-
- /** The parent that is layout out and this grid is done for. Never null.
- */
- private final ContainerWrapper container;
-
- /** An x, y array implemented as a sparse array to accommodate for any grid size without wasting memory (or rather 15 bit (0-MAX_GRID * 0-MAX_GRID).
- */
- private final LinkedHashMap grid = new LinkedHashMap(); // [(y << 16) + x] -> Cell. null key for absolute positioned compwraps
-
- private HashMap wrapGapMap = null; // Row or Column index depending in the dimension that "wraps". Normally row indexes but may be column indexes if "flowy". 0 means before first row/col.
-
- /** The size of the grid. Row count and column count.
- */
- private final TreeSet rowIndexes = new TreeSet(), colIndexes = new TreeSet();
-
- /** The row and column specifications.
- */
- private final AC rowConstr, colConstr;
-
- /** The in the constructor calculated min/pref/max sizes of the rows and columns.
- */
- private FlowSizeSpec colFlowSpecs = null, rowFlowSpecs = null;
-
- /** Components that are connections in one dimension (such as baseline alignment for instance) are grouped together and stored here.
- * One for each row/column.
- */
- private final ArrayList[] colGroupLists, rowGroupLists; //[(start)row/col number]
-
- /** The in the constructor calculated min/pref/max size of the whole grid.
- */
- private int[] width = null, height = null;
-
- /** If debug is on contains the bounds for things to paint when calling {@link ContainerWrapper#paintDebugCell(int, int, int, int)}
- */
- private ArrayList debugRects = null; // [x, y, width, height]
-
- /** If any of the absolute coordinates for component bounds has links the name of the target is in this Set.
- * Since it requires some memory and computations this is checked at the creation so that
- * the link information is only created if needed later.
- *
- * The boolean is true for groups id:s and null for normal id:s.
- */
- private HashMap linkTargetIDs = null;
-
- private final int dockOffY, dockOffX;
-
- private final Float[] pushXs, pushYs;
-
- private final ArrayList callbackList;
-
- /** Constructor.
- * @param container The container that will be laid out.
- * @param lc The form flow constraints.
- * @param rowConstr The rows specifications. If more cell rows are required, the last element will be used for when there is no corresponding element in this array.
- * @param colConstr The columns specifications. If more cell rows are required, the last element will be used for when there is no corresponding element in this array.
- * @param ccMap The map containing the parsed constraints for each child component of parent. Will not be altered. Can have null CC which will use a common
- * cached one.
- * @param callbackList A list of callbacks or null if none. Will not be altered.
- */
- public Grid(ContainerWrapper container, LC lc, AC rowConstr, AC colConstr, Map extends ComponentWrapper, CC> ccMap, ArrayList callbackList)
- {
- this.lc = lc;
- this.rowConstr = rowConstr;
- this.colConstr = colConstr;
- this.container = container;
- this.callbackList = callbackList;
-
- int wrap = lc.getWrapAfter() != 0 ? lc.getWrapAfter() : (lc.isFlowX() ? colConstr : rowConstr).getConstaints().length;
- boolean useVisualPadding = lc.isVisualPadding();
-
- final ComponentWrapper[] comps = container.getComponents();
-
- boolean hasTagged = false; // So we do not have to sort if it will not do any good
- boolean hasPushX = false, hasPushY = false;
- boolean hitEndOfRow = false;
- final int[] cellXY = new int[2];
- final ArrayList spannedRects = new ArrayList(2);
-
- final DimConstraint[] specs = (lc.isFlowX() ? rowConstr : colConstr).getConstaints();
-
- int sizeGroupsX = 0, sizeGroupsY = 0;
- int[] dockInsets = null; // top, left, bottom, right insets for docks.
-
- LinkHandler.clearTemporaryBounds(container.getLayout());
-
- for (int i = 0; i < comps.length;) {
- ComponentWrapper comp = comps[i];
- CC rootCc = getCC(comp, ccMap);
-
- addLinkIDs(rootCc);
-
- int hideMode = comp.isVisible() ? -1 : rootCc.getHideMode() != -1 ? rootCc.getHideMode() : lc.getHideMode();
-
- if (hideMode == 3) { // To work with situations where there are components that does not have a layout manager, or not this one.
- setLinkedBounds(comp, rootCc, comp.getX(), comp.getY(), comp.getWidth(), comp.getHeight(), rootCc.isExternal());
- i++;
- continue; // The "external" component should not be handled further.
- }
-
- if (rootCc.getHorizontal().getSizeGroup() != null)
- sizeGroupsX++;
- if (rootCc.getVertical().getSizeGroup() != null)
- sizeGroupsY++;
-
- // Special treatment of absolute positioned components.
- if (getPos(comp, rootCc) != null || rootCc.isExternal()) {
-
- CompWrap cw = new CompWrap(comp, rootCc, hideMode, useVisualPadding);
- Cell cell = grid.get(null);
- if (cell == null) {
- grid.put(null, new Cell(cw));
- } else {
- cell.compWraps.add(cw);
- }
-
- if (!rootCc.isBoundsInGrid() || rootCc.isExternal()) {
- setLinkedBounds(comp, rootCc, comp.getX(), comp.getY(), comp.getWidth(), comp.getHeight(), rootCc.isExternal());
- i++;
- continue;
- }
- }
-
- if (rootCc.getDockSide() != -1) {
- if (dockInsets == null)
- dockInsets = new int[] {-MAX_DOCK_GRID, -MAX_DOCK_GRID, MAX_DOCK_GRID, MAX_DOCK_GRID};
-
- addDockingCell(dockInsets, rootCc.getDockSide(), new CompWrap(comp, rootCc, hideMode, useVisualPadding));
- i++;
- continue;
- }
-
- Boolean cellFlowX = rootCc.getFlowX();
- Cell cell = null;
-
- if (rootCc.isNewline()) {
- wrap(cellXY, rootCc.getNewlineGapSize());
- } else if (hitEndOfRow) {
- wrap(cellXY, null);
- }
- hitEndOfRow = false;
-
- final boolean isRowInGridMode = !lc.isNoGrid() && !((DimConstraint) LayoutUtil.getIndexSafe(specs, lc.isFlowX() ? cellXY[1] : cellXY[0])).isNoGrid();
-
- // Move to a free y, x if no absolute grid specified
- int cx = rootCc.getCellX();
- int cy = rootCc.getCellY();
- if ((cx < 0 || cy < 0) && isRowInGridMode && rootCc.getSkip() == 0) { // 3.7.2: If skip, don't find an empty cell first.
- while (!isCellFree(cellXY[1], cellXY[0], spannedRects)) {
- if (Math.abs(increase(cellXY, 1)) >= wrap)
- wrap(cellXY, null);
- }
- } else {
- if (cx >= 0 && cy >= 0) {
- if (cy >= 0) {
- cellXY[0] = cx;
- cellXY[1] = cy;
- } else { // Only one coordinate is specified. Use the current row (flowx) or column (flowy) to fill in.
- if (lc.isFlowX()) {
- cellXY[0] = cx;
- } else {
- cellXY[1] = cx;
- }
- }
- ensureIndexSizes(cx, cy);
- }
- cell = getCell(cellXY[1], cellXY[0]); // Might be null
- }
-
- // Skip a number of cells. Changed for 3.6.1 to take wrap into account and thus "skip" to the next and possibly more rows.
- for (int s = 0, skipCount = rootCc.getSkip(); s < skipCount; s++) {
- do {
- if (Math.abs(increase(cellXY, 1)) >= wrap)
- wrap(cellXY, null);
- } while (!isCellFree(cellXY[1], cellXY[0], spannedRects));
- }
-
- // If cell is not created yet, create it and set it.
- if (cell == null) {
- int spanx = Math.min(!isRowInGridMode && lc.isFlowX() ? LayoutUtil.INF : rootCc.getSpanX(), MAX_GRID - cellXY[0]);
- int spany = Math.min(!isRowInGridMode && !lc.isFlowX() ? LayoutUtil.INF : rootCc.getSpanY(), MAX_GRID - cellXY[1]);
-
- cell = new Cell(spanx, spany, cellFlowX != null ? cellFlowX : lc.isFlowX());
-
- setCell(cellXY[1], cellXY[0], cell);
-
- // Add a rectangle so we can know that spanned cells occupy more space.
- if (spanx > 1 || spany > 1)
- spannedRects.add(new int[] {cellXY[0], cellXY[1], spanx, spany});
- }
-
- // Add the one, or all, components that split the grid position to the same Cell.
- boolean wrapHandled = false;
- int splitLeft = isRowInGridMode ? rootCc.getSplit() - 1 : LayoutUtil.INF;
- boolean splitExit = false;
- final boolean spanRestOfRow = (lc.isFlowX() ? rootCc.getSpanX() : rootCc.getSpanY()) == LayoutUtil.INF;
-
- for (; splitLeft >= 0 && i < comps.length; splitLeft--) {
- ComponentWrapper compAdd = comps[i];
- CC cc = getCC(compAdd, ccMap);
-
- addLinkIDs(cc);
-
- boolean visible = compAdd.isVisible();
- hideMode = visible ? -1 : cc.getHideMode() != -1 ? cc.getHideMode() : lc.getHideMode();
-
- if (cc.isExternal() || hideMode == 3) {
- i++;
- splitLeft++; // Added for 3.5.5 so that these components does not "take" a split slot.
- continue; // To work with situations where there are components that does not have a layout manager, or not this one.
- }
-
- hasPushX |= (visible || hideMode > 1) && (cc.getPushX() != null);
- hasPushY |= (visible || hideMode > 1) && (cc.getPushY() != null);
-
- if (cc != rootCc) { // If not first in a cell
- if (cc.isNewline() || !cc.isBoundsInGrid() || cc.getDockSide() != -1)
- break;
-
- if (splitLeft > 0 && cc.getSkip() > 0) {
- splitExit = true;
- break;
- }
- }
-
- CompWrap cw = new CompWrap(compAdd, cc, hideMode, useVisualPadding);
- cell.compWraps.add(cw);
- cell.hasTagged |= cc.getTag() != null;
- hasTagged |= cell.hasTagged;
-
- if (cc != rootCc) {
- if (cc.getHorizontal().getSizeGroup() != null)
- sizeGroupsX++;
- if (cc.getVertical().getSizeGroup() != null)
- sizeGroupsY++;
- }
-
- i++;
-
- if ((cc.isWrap() || (spanRestOfRow && splitLeft == 0))) {
- if (cc.isWrap()) {
- wrap(cellXY, cc.getWrapGapSize());
- } else {
- hitEndOfRow = true;
- }
- wrapHandled = true;
- break;
- }
- }
-
- if (!wrapHandled && isRowInGridMode) {
- int span = lc.isFlowX() ? cell.spanx : cell.spany;
- if (Math.abs((lc.isFlowX() ? cellXY[0] : cellXY[1])) + span >= wrap) {
- hitEndOfRow = true;
- } else {
- increase(cellXY, splitExit ? span - 1 : span);
- }
- }
- }
-
- // If there were size groups, calculate the largest values in the groups (for min/pref/max) and enforce them on the rest in the group.
- if (sizeGroupsX > 0 || sizeGroupsY > 0) {
- HashMap sizeGroupMapX = sizeGroupsX > 0 ? new HashMap(sizeGroupsX) : null;
- HashMap sizeGroupMapY = sizeGroupsY > 0 ? new HashMap(sizeGroupsY) : null;
- ArrayList sizeGroupCWs = new ArrayList(Math.max(sizeGroupsX, sizeGroupsY));
-
- for (Cell cell : grid.values()) {
- for (int i = 0; i < cell.compWraps.size(); i++) {
- CompWrap cw = cell.compWraps.get(i);
- String sgx = cw.cc.getHorizontal().getSizeGroup();
- String sgy = cw.cc.getVertical().getSizeGroup();
-
- if (sgx != null || sgy != null) {
- if (sgx != null && sizeGroupMapX != null)
- addToSizeGroup(sizeGroupMapX, sgx, cw.getSizes(true));
- if (sgy != null && sizeGroupMapY != null)
- addToSizeGroup(sizeGroupMapY, sgy, cw.getSizes(false));
- sizeGroupCWs.add(cw);
- }
- }
- }
-
- // Set/equalize the sizeGroups to same the values.
- for (CompWrap cw : sizeGroupCWs) {
- if (sizeGroupMapX != null)
- cw.setForcedSizes(sizeGroupMapX.get(cw.cc.getHorizontal().getSizeGroup()), true); // Target method handles null sizes
- if (sizeGroupMapY != null)
- cw.setForcedSizes(sizeGroupMapY.get(cw.cc.getVertical().getSizeGroup()), false); // Target method handles null sizes
- }
- } // Component loop
-
- if (hasTagged)
- sortCellsByPlatform(grid.values(), container);
-
- // Calculate gaps now that the cells are filled and we know all adjacent components.
- boolean ltr = LayoutUtil.isLeftToRight(lc, container);
- for (Cell cell : grid.values()) {
- ArrayList cws = cell.compWraps;
-
- for (int i = 0, lastI = cws.size() - 1; i <= lastI; i++) {
- CompWrap cw = cws.get(i);
- ComponentWrapper cwBef = i > 0 ? cws.get(i - 1).comp : null;
- ComponentWrapper cwAft = i < lastI ? cws.get(i + 1).comp : null;
-
- String tag = getCC(cw.comp, ccMap).getTag();
- CC ccBef = cwBef != null ? getCC(cwBef, ccMap) : null;
- CC ccAft = cwAft != null ? getCC(cwAft, ccMap) : null;
-
- cw.calcGaps(cwBef, ccBef, cwAft, ccAft, tag, cell.flowx, ltr);
- }
- }
-
- dockOffX = getDockInsets(colIndexes);
- dockOffY = getDockInsets(rowIndexes);
-
- // Add synthetic indexes for empty rows and columns so they can get a size
- ensureIndexSizes(colConstr.getCount(), rowConstr.getCount());
-
- colGroupLists = divideIntoLinkedGroups(false);
- rowGroupLists = divideIntoLinkedGroups(true);
-
- pushXs = hasPushX || lc.isFillX() ? getDefaultPushWeights(false) : null;
- pushYs = hasPushY || lc.isFillY() ? getDefaultPushWeights(true) : null;
-
- if (LayoutUtil.isDesignTime(container))
- saveGrid(container, grid);
- }
-
- private void ensureIndexSizes(int colCount, int rowCount)
- {
- for (int i = 0; i < colCount; i++)
- colIndexes.add(i);
- for (int i = 0; i < rowCount; i++)
- rowIndexes.add(i);
- }
-
- private static CC getCC(ComponentWrapper comp, Map extends ComponentWrapper, CC> ccMap)
- {
- CC cc = ccMap.get(comp);
- return cc != null ? cc : DEF_CC;
- }
-
- private void addLinkIDs(CC cc)
- {
- String[] linkIDs = cc.getLinkTargets();
- for (String linkID : linkIDs) {
- if (linkTargetIDs == null)
- linkTargetIDs = new HashMap();
- linkTargetIDs.put(linkID, null);
- }
- }
-
- /** If the container (parent) that this grid is laying out has changed its bounds, call this method to
- * clear any cached values min/pref/max sizes of the components and rows/columns.
- *
- * If any component can have changed cell the grid needs to be recreated.
- */
- public void invalidateContainerSize()
- {
- colFlowSpecs = null;
- invalidateComponentSizes();
- }
-
- private void invalidateComponentSizes()
- {
- for (Cell cell : grid.values()) {
- for (CompWrap compWrap : cell.compWraps)
- compWrap.invalidateSizes();
- }
- }
-
- /**
- * @deprecated since 5.0 Last boolean is not needed and is gotten from the new {@link net.miginfocom.layout.ComponentWrapper#getContentBias()} instead;
- */
- public boolean layout(int[] bounds, UnitValue alignX, UnitValue alignY, boolean debug, boolean notUsed)
- {
- return layoutImpl(bounds, alignX, alignY, debug, false);
- }
-
- /** Does the actual layout. Uses many values calculated in the constructor.
- * @param bounds The bounds to layout against. Normally that of the parent. [x, y, width, height].
- * @param alignX The alignment for the x-axis. Can be null.
- * @param alignY The alignment for the y-axis. Can be null.
- * @param debug If debug information should be saved in {@link #debugRects}.
- * @return If the layout has changed the preferred size and there is need for a new layout. This can happen if one or more components
- * in the grid has a content bias according to {@link net.miginfocom.layout.ComponentWrapper#getContentBias()}.
- * @since 5.0
- */
- public boolean layout(int[] bounds, UnitValue alignX, UnitValue alignY, boolean debug)
- {
- return layoutImpl(bounds, alignX, alignY, debug, false);
- }
-
- /** Does the actual layout. Uses many values calculated in the constructor.
- * @param bounds The bounds to layout against. Normally that of the parent. [x, y, width, height].
- * @param alignX The alignment for the x-axis. Can be null.
- * @param alignY The alignment for the y-axis. Can be null.
- * @param debug If debug information should be saved in {@link #debugRects}.
- * @param trialRun If true the bounds calculated will not be transferred to the components. Only the internal size
- * of the components will be calculated.
- * @return If the layout has changed the preferred size and there is need for a new layout. This can happen if one or more components
- * in the grid has a content bias according to {@link net.miginfocom.layout.ComponentWrapper#getContentBias()}.
- * @since 5.0
- */
- private boolean layoutImpl(int[] bounds, UnitValue alignX, UnitValue alignY, boolean debug, boolean trialRun)
- {
- if (debug)
- debugRects = new ArrayList();
-
- if (colFlowSpecs == null)
- checkSizeCalcs(bounds[2], bounds[3]);
-
- resetLinkValues(true, true);
-
- layoutInOneDim(bounds[2], alignX, false, pushXs);
- layoutInOneDim(bounds[3], alignY, true, pushYs);
-
- HashMap endGrpXMap = null, endGrpYMap = null;
- int compCount = container.getComponentCount();
-
- // Transfer the calculated bound from the ComponentWrappers to the actual Components.
- boolean addVisualPadding = lc.isVisualPadding();
- boolean layoutAgain = false;
- if (compCount > 0) {
- for (int j = 0; j < (linkTargetIDs != null ? 2 : 1); j++) { // First do the calculations (maybe more than once) then set the bounds when done
- boolean doAgain;
- int count = 0;
- do {
- doAgain = false;
- for (Cell cell : grid.values()) {
- for (CompWrap cw : cell.compWraps) {
- if (j == 0) {
- doAgain |= doAbsoluteCorrections(cw, bounds);
- if (!doAgain) { // If we are going to do this again, do not bother this time around
- if (cw.cc.getHorizontal().getEndGroup() != null)
- endGrpXMap = addToEndGroup(endGrpXMap, cw.cc.getHorizontal().getEndGroup(), cw.x + cw.w);
-
- if (cw.cc.getVertical().getEndGroup() != null)
- endGrpYMap = addToEndGroup(endGrpYMap, cw.cc.getVertical().getEndGroup(), cw.y + cw.h);
- }
-
- // @since 3.7.2 Needed or absolute "pos" pointing to "visual" or "container" didn't work if
- // their bounds changed during the layout cycle. At least not in SWT.
- if (linkTargetIDs != null && (linkTargetIDs.containsKey("visual") || linkTargetIDs.containsKey("container"))) {
- layoutAgain = true;
- }
- }
-
- if (linkTargetIDs == null || j == 1) {
- if (cw.cc.getHorizontal().getEndGroup() != null)
- cw.w = endGrpXMap.get(cw.cc.getHorizontal().getEndGroup()) - cw.x;
-
- if (cw.cc.getVertical().getEndGroup() != null)
- cw.h = endGrpYMap.get(cw.cc.getVertical().getEndGroup()) - cw.y;
-
- cw.x += bounds[0];
- cw.y += bounds[1];
-
- if (!trialRun)
- cw.transferBounds(addVisualPadding);
-
- if (callbackList != null) {
- for (LayoutCallback callback : callbackList)
- callback.correctBounds(cw.comp);
- }
- }
- }
- }
- clearGroupLinkBounds();
- if (++count > ((compCount << 3) + 10)) {
- System.err.println("Unstable cyclic dependency in absolute linked values.");
- break;
- }
-
- } while (doAgain);
- }
- }
-
- // Add debug shapes for the "cells". Use the CompWraps as base for inding the cells.
- if (debug) {
- for (Cell cell : grid.values()) {
- ArrayList compWraps = cell.compWraps;
- for (CompWrap cw : compWraps) {
- LinkedDimGroup hGrp = getGroupContaining(colGroupLists, cw);
- LinkedDimGroup vGrp = getGroupContaining(rowGroupLists, cw);
-
- if (hGrp != null && vGrp != null)
- debugRects.add(new int[]{hGrp.lStart + bounds[0] - (hGrp.fromEnd ? hGrp.lSize : 0), vGrp.lStart + bounds[1] - (vGrp.fromEnd ? vGrp.lSize : 0), hGrp.lSize, vGrp.lSize});
- }
- }
- }
- return layoutAgain;
- }
-
- public void paintDebug()
- {
- if (debugRects != null) {
- container.paintDebugOutline(lc.isVisualPadding());
-
- ArrayList painted = new ArrayList();
- for (int[] r : debugRects) {
- if (!painted.contains(r)) {
- container.paintDebugCell(r[0], r[1], r[2], r[3]);
- painted.add(r);
- }
- }
-
- for (Cell cell : grid.values()) {
- ArrayList compWraps = cell.compWraps;
- for (CompWrap compWrap : compWraps)
- compWrap.comp.paintDebugOutline(lc.isVisualPadding());
- }
- }
- }
-
- public ContainerWrapper getContainer()
- {
- return container;
- }
-
- public final int[] getWidth()
- {
- return getWidth(lastRefHeight);
- }
-
- public final int[] getWidth(int refHeight)
- {
- checkSizeCalcs(lastRefWidth, refHeight);
- return width.clone();
- }
-
- public final int[] getHeight()
- {
- return getHeight(lastRefWidth);
- }
-
- public final int[] getHeight(int refWidth)
- {
- checkSizeCalcs(refWidth, lastRefHeight);
- return height.clone();
- }
-
- private int lastRefWidth = 0, lastRefHeight = 0;
-
- private void checkSizeCalcs(int refWidth, int refHeight)
- {
- if (colFlowSpecs == null)
- calcGridSizes(refWidth, refHeight);
-
- if ((refWidth > 0 && refWidth != lastRefWidth) || (refHeight > 0 && refHeight != lastRefHeight)) {
- int[] refBounds = new int[] {0, 0, (refWidth > 0 ? refWidth : width[LayoutUtil.PREF]), (refHeight > 0 ? refHeight : height[LayoutUtil.PREF])};
- layoutImpl(refBounds, null, null, false, true);
- calcGridSizes(refWidth, refHeight);
- }
-
- lastRefWidth = refWidth;
- lastRefHeight = refHeight;
- }
-
- private void calcGridSizes(int refWidth, int refHeight)
- {
- // Note, in these calls the grid can be invalidated and specs set to null. Therefore use local versions.
- FlowSizeSpec colSpecs = calcRowsOrColsSizes(true, refWidth);
- FlowSizeSpec rowSpecs = calcRowsOrColsSizes(false, refHeight);
-
- colFlowSpecs = colSpecs;
- rowFlowSpecs = rowSpecs;
-
- width = getMinPrefMaxSumSize(true, colSpecs.sizes);
- height = getMinPrefMaxSumSize(false, rowSpecs.sizes);
-
- if (linkTargetIDs == null) {
- resetLinkValues(false, true);
- } else {
- // This call makes some components flicker on SWT. They get their bounds changed twice since
- // the change might affect the absolute size adjustment below. There's no way around this that
- // I know of.
- layout(new int[]{0, 0, refWidth, refHeight}, null, null, false);
- resetLinkValues(false, false);
- }
-
- adjustSizeForAbsolute(true);
- adjustSizeForAbsolute(false);
- }
-
- private UnitValue[] getPos(ComponentWrapper cw, CC cc)
- {
- UnitValue[] callbackPos = null;
- if (callbackList != null) {
- for (int i = 0; i < callbackList.size() && callbackPos == null; i++)
- callbackPos = callbackList.get(i).getPosition(cw); // NOT a copy!
- }
-
- // If one is null, return the other (which many also be null)
- UnitValue[] ccPos = cc.getPos(); // A copy!!
- if (callbackPos == null || ccPos == null)
- return callbackPos != null ? callbackPos : ccPos;
-
- // Merge
- for (int i = 0; i < 4; i++) {
- UnitValue cbUv = callbackPos[i];
- if (cbUv != null)
- ccPos[i] = cbUv;
- }
-
- return ccPos;
- }
-
- private BoundSize[] getCallbackSize(ComponentWrapper cw)
- {
- if (callbackList != null) {
- for (LayoutCallback callback : callbackList) {
- BoundSize[] bs = callback.getSize(cw); // NOT a copy!
- if (bs != null)
- return bs;
- }
- }
- return null;
- }
-
- private static int getDockInsets(TreeSet set)
- {
- int c = 0;
- for (Integer i : set) {
- if (i < -MAX_GRID) {
- c++;
- } else {
- break; // Since they are sorted we can break
- }
- }
- return c;
- }
-
- /**
- * @param cw Never null.
- * @param cc Never null.
- * @param external The bounds should be stored even if they are not in {@link #linkTargetIDs}.
- * @return If a change has been made.
- */
- private boolean setLinkedBounds(ComponentWrapper cw, CC cc, int x, int y, int w, int h, boolean external)
- {
- String id = cc.getId() != null ? cc.getId() : cw.getLinkId();
- if (id == null)
- return false;
-
- String gid = null;
- int grIx = id.indexOf('.');
- if (grIx != -1 ) {
- gid = id.substring(0, grIx);
- id = id.substring(grIx + 1);
- }
-
- Object lay = container.getLayout();
- boolean changed = false;
- if (external || (linkTargetIDs != null && linkTargetIDs.containsKey(id)))
- changed = LinkHandler.setBounds(lay, id, x, y, w, h, !external, false);
-
- if (gid != null && (external || (linkTargetIDs != null && linkTargetIDs.containsKey(gid)))) {
- if (linkTargetIDs == null)
- linkTargetIDs = new HashMap(4);
-
- linkTargetIDs.put(gid, Boolean.TRUE);
- changed |= LinkHandler.setBounds(lay, gid, x, y, w, h, !external, true);
- }
-
- return changed;
- }
-
- /** Go to next cell.
- * @param p The point to increase
- * @param cnt How many cells to advance.
- * @return The new value in the "increasing" dimension.
- */
- private int increase(int[] p, int cnt)
- {
- return lc.isFlowX() ? (p[0] += cnt) : (p[1] += cnt);
- }
-
- /** Wraps to the next row or column depending on if horizontal flow or vertical flow is used.
- * @param cellXY The point to wrap and thus set either x or y to 0 and increase the other one.
- * @param gapSize The gaps size specified in a "wrap XXX" or "newline XXX" or null if none.
- */
- private void wrap(int[] cellXY, BoundSize gapSize)
- {
- boolean flowx = lc.isFlowX();
- cellXY[0] = flowx ? 0 : cellXY[0] + 1;
- cellXY[1] = flowx ? cellXY[1] + 1 : 0;
-
- if (gapSize != null) {
- if (wrapGapMap == null)
- wrapGapMap = new HashMap(8);
-
- wrapGapMap.put(cellXY[flowx ? 1 : 0], gapSize);
- }
-
- // add the row/column so that the gap in the last row/col will not be removed.
- if (flowx) {
- rowIndexes.add(cellXY[1]);
- } else {
- colIndexes.add(cellXY[0]);
- }
- }
-
- /** Sort components (normally buttons in a button bar) so they appear in the correct order.
- * @param cells The cells to sort.
- * @param parent The parent.
- */
- private static void sortCellsByPlatform(Collection cells, ContainerWrapper parent)
- {
- String order = PlatformDefaults.getButtonOrder();
- String orderLo = order.toLowerCase();
-
- int unrelSize = PlatformDefaults.convertToPixels(1, "u", true, 0, parent, null);
-
- if (unrelSize == UnitConverter.UNABLE)
- throw new IllegalArgumentException("'unrelated' not recognized by PlatformDefaults!");
-
- int[] gapUnrel = new int[] {unrelSize, unrelSize, LayoutUtil.NOT_SET};
- int[] flGap = new int[] {0, 0, LayoutUtil.NOT_SET};
-
- for (Cell cell : cells) {
- if (!cell.hasTagged)
- continue;
-
- CompWrap prevCW = null;
- boolean nextUnrel = false;
- boolean nextPush = false;
- ArrayList sortedList = new ArrayList(cell.compWraps.size());
-
- for (int i = 0, iSz = orderLo.length(); i < iSz; i++) {
- char c = orderLo.charAt(i);
- if (c == '+' || c == '_') {
- nextUnrel = true;
- if (c == '+')
- nextPush = true;
- } else {
- String tag = PlatformDefaults.getTagForChar(c);
- if (tag != null) {
- for (int j = 0, jSz = cell.compWraps.size(); j < jSz; j++) {
- CompWrap cw = cell.compWraps.get(j);
- if (tag.equals(cw.cc.getTag())) {
- if (Character.isUpperCase(order.charAt(i)))
- cw.adjustMinHorSizeUp((int) PlatformDefaults.getMinimumButtonWidthIncludingPadding(0, parent, cw.comp));
-
- sortedList.add(cw);
-
- if (nextUnrel) {
- (prevCW != null ? prevCW : cw).mergeGapSizes(gapUnrel, cell.flowx, prevCW == null);
- if (nextPush) {
- cw.forcedPushGaps = 1;
- nextUnrel = false;
- nextPush = false;
- }
- }
-
- // "unknown" components will always get an Unrelated gap.
- if (c == 'u')
- nextUnrel = true;
- prevCW = cw;
- }
- }
- }
- }
- }
-
- // If we have a gap that was supposed to push but no more components was found to but the "gap before" then compensate.
- if (sortedList.size() > 0) {
- CompWrap cw = sortedList.get(sortedList.size() - 1);
- if (nextUnrel) {
- cw.mergeGapSizes(gapUnrel, cell.flowx, false);
- if (nextPush)
- cw.forcedPushGaps |= 2;
- }
-
- // Remove first and last gap if not set explicitly.
- if (cw.cc.getHorizontal().getGapAfter() == null)
- cw.setGaps(flGap, 3);
-
- cw = sortedList.get(0);
- if (cw.cc.getHorizontal().getGapBefore() == null)
- cw.setGaps(flGap, 1);
- }
-
- // Exchange the unsorted CompWraps for the sorted one.
- if (cell.compWraps.size() == sortedList.size()) {
- cell.compWraps.clear();
- } else {
- cell.compWraps.removeAll(sortedList);
- }
- cell.compWraps.addAll(sortedList);
- }
- }
-
- private Float[] getDefaultPushWeights(boolean isRows)
- {
- ArrayList[] groupLists = isRows ? rowGroupLists : colGroupLists;
-
- Float[] pushWeightArr = GROW_100; // Only create specific if any of the components have grow.
- for (int i = 0, ix = 1; i < groupLists.length; i++, ix += 2) {
- ArrayList grps = groupLists[i];
- Float rowPushWeight = null;
- for (LinkedDimGroup grp : grps) {
- for (int c = 0; c < grp._compWraps.size(); c++) {
- CompWrap cw = grp._compWraps.get(c);
- int hideMode = cw.comp.isVisible() ? -1 : cw.cc.getHideMode() != -1 ? cw.cc.getHideMode() : lc.getHideMode();
-
- Float pushWeight = hideMode < 2 ? (isRows ? cw.cc.getPushY() : cw.cc.getPushX()) : null;
- if (rowPushWeight == null || (pushWeight != null && pushWeight > rowPushWeight))
- rowPushWeight = pushWeight;
- }
- }
-
- if (rowPushWeight != null) {
- if (pushWeightArr == GROW_100)
- pushWeightArr = new Float[(groupLists.length << 1) + 1];
- pushWeightArr[ix] = rowPushWeight;
- }
- }
-
- return pushWeightArr;
- }
-
- private void clearGroupLinkBounds()
- {
- if (linkTargetIDs == null)
- return;
-
- for (Map.Entry o : linkTargetIDs.entrySet()) {
- if (o.getValue() == Boolean.TRUE)
- LinkHandler.clearBounds(container.getLayout(), o.getKey());
- }
- }
-
- private void resetLinkValues(boolean parentSize, boolean compLinks)
- {
- Object lay = container.getLayout();
- if (compLinks)
- LinkHandler.clearTemporaryBounds(lay);
-
- boolean defIns = !hasDocks();
-
- int parW = parentSize ? lc.getWidth().constrain(container.getWidth(), getParentSize(container, true), container) : 0;
- int parH = parentSize ? lc.getHeight().constrain(container.getHeight(), getParentSize(container, false), container) : 0;
-
- int insX = LayoutUtil.getInsets(lc, 0, defIns).getPixels(0, container, null);
- int insY = LayoutUtil.getInsets(lc, 1, defIns).getPixels(0, container, null);
- int visW = parW - insX - LayoutUtil.getInsets(lc, 2, defIns).getPixels(0, container, null);
- int visH = parH - insY - LayoutUtil.getInsets(lc, 3, defIns).getPixels(0, container, null);
-
- LinkHandler.setBounds(lay, "visual", insX, insY, visW, visH, true, false);
- LinkHandler.setBounds(lay, "container", 0, 0, parW, parH, true, false);
- }
-
- /** Returns the {@link net.miginfocom.layout.Grid.LinkedDimGroup} that has the {@link net.miginfocom.layout.Grid.CompWrap}
- * cw.
- * @param groupLists The lists to search in.
- * @param cw The component wrap to find.
- * @return The linked group or null if none had the component wrap.
- */
- private static LinkedDimGroup getGroupContaining(ArrayList[] groupLists, CompWrap cw)
- {
- for (ArrayList groups : groupLists) {
- for (LinkedDimGroup group : groups) {
- ArrayList cwList = group._compWraps;
- for (CompWrap aCwList : cwList) {
- if (aCwList == cw)
- return group;
- }
- }
- }
- return null;
- }
-
- private boolean doAbsoluteCorrections(CompWrap cw, int[] bounds)
- {
- boolean changed = false;
-
- int[] stSz = getAbsoluteDimBounds(cw, bounds[2], true);
- if (stSz != null)
- cw.setDimBounds(stSz[0], stSz[1], true);
-
- stSz = getAbsoluteDimBounds(cw, bounds[3], false);
- if (stSz != null)
- cw.setDimBounds(stSz[0], stSz[1], false);
-
- // If there is a link id, store the new bounds.
- if (linkTargetIDs != null)
- changed = setLinkedBounds(cw.comp, cw.cc, cw.x, cw.y, cw.w, cw.h, false);
-
- return changed;
- }
-
- /** Adjust grid's width or height for the absolute components' positions.
- */
- private void adjustSizeForAbsolute(boolean isHor)
- {
- int[] curSizes = isHor ? width : height;
-
- Cell absCell = grid.get(null);
- if (absCell == null || absCell.compWraps.size() == 0)
- return;
-
- ArrayList cws = absCell.compWraps;
-
- int maxEnd = 0;
- for (int j = 0, cwSz = absCell.compWraps.size(); j < cwSz + 3; j++) { // "Do Again" max absCell.compWraps.size() + 3 times.
- boolean doAgain = false;
- for (int i = 0; i < cwSz; i++) {
- CompWrap cw = cws.get(i);
- int[] stSz = getAbsoluteDimBounds(cw, 0, isHor);
- int end = stSz[0] + stSz[1];
- if (maxEnd < end)
- maxEnd = end;
-
- // If there is a link id, store the new bounds.
- if (linkTargetIDs != null)
- doAgain |= setLinkedBounds(cw.comp, cw.cc, stSz[0], stSz[0], stSz[1], stSz[1], false);
- }
- if (!doAgain)
- break;
-
- // We need to check this again since the coords may be smaller this round.
- maxEnd = 0;
- clearGroupLinkBounds();
- }
-
- maxEnd += LayoutUtil.getInsets(lc, isHor ? 3 : 2, !hasDocks()).getPixels(0, container, null);
-
- if (curSizes[LayoutUtil.MIN] < maxEnd)
- curSizes[LayoutUtil.MIN] = maxEnd;
- if (curSizes[LayoutUtil.PREF] < maxEnd)
- curSizes[LayoutUtil.PREF] = maxEnd;
- }
-
- private int[] getAbsoluteDimBounds(CompWrap cw, int refSize, boolean isHor)
- {
- if (cw.cc.isExternal()) {
- if (isHor) {
- return new int[] {cw.comp.getX(), cw.comp.getWidth()};
- } else {
- return new int[] {cw.comp.getY(), cw.comp.getHeight()};
- }
- }
-
- UnitValue[] pad = cw.cc.getPadding();
-
- // If no changes do not create a lot of objects
- UnitValue[] pos = getPos(cw.comp, cw.cc);
- if (pos == null && pad == null)
- return null;
-
- // Set start
- int st = isHor ? cw.x : cw.y;
- int sz = isHor ? cw.w : cw.h;
-
- // If absolute, use those coordinates instead.
- if (pos != null) {
- UnitValue stUV = pos[isHor ? 0 : 1];
- UnitValue endUV = pos[isHor ? 2 : 3];
-
- int minSz = cw.getSize(LayoutUtil.MIN, isHor);
- int maxSz = cw.getSize(LayoutUtil.MAX, isHor);
- sz = Math.min(Math.max(cw.getSize(LayoutUtil.PREF, isHor), minSz), maxSz);
-
- if (stUV != null) {
- st = stUV.getPixels(stUV.getUnit() == UnitValue.ALIGN ? sz : refSize, container, cw.comp);
-
- if (endUV != null) // if (endUV == null && cw.cc.isBoundsIsGrid() == true)
- sz = Math.min(Math.max((isHor ? (cw.x + cw.w) : (cw.y + cw.h)) - st, minSz), maxSz);
- }
-
- if (endUV != null) {
- if (stUV != null) { // if (stUV != null || cw.cc.isBoundsIsGrid()) {
- sz = Math.min(Math.max(endUV.getPixels(refSize, container, cw.comp) - st, minSz), maxSz);
- } else {
- st = endUV.getPixels(refSize, container, cw.comp) - sz;
- }
- }
- }
-
- // If constraint has padding -> correct the start/size
- if (pad != null) {
- UnitValue uv = pad[isHor ? 1 : 0];
- int p = uv != null ? uv.getPixels(refSize, container, cw.comp) : 0;
- st += p;
- uv = pad[isHor ? 3 : 2];
- sz += -p + (uv != null ? uv.getPixels(refSize, container, cw.comp) : 0);
- }
-
- return new int[] {st, sz};
- }
-
- private void layoutInOneDim(int refSize, UnitValue align, boolean isRows, Float[] defaultPushWeights)
- {
- boolean fromEnd = !(isRows ? lc.isTopToBottom() : LayoutUtil.isLeftToRight(lc, container));
- DimConstraint[] primDCs = (isRows ? rowConstr : colConstr).getConstaints();
- FlowSizeSpec fss = isRows ? rowFlowSpecs : colFlowSpecs;
- ArrayList[] rowCols = isRows ? rowGroupLists : colGroupLists;
-
- int[] rowColSizes = LayoutUtil.calculateSerial(fss.sizes, fss.resConstsInclGaps, defaultPushWeights, LayoutUtil.PREF, refSize);
-
- if (LayoutUtil.isDesignTime(container)) {
- TreeSet indexes = isRows ? rowIndexes : colIndexes;
- int[] ixArr = new int[indexes.size()];
- int ix = 0;
- for (Integer i : indexes)
- ixArr[ix++] = i;
-
- putSizesAndIndexes(container.getComponent(), rowColSizes, ixArr, isRows);
- }
-
- int curPos = align != null ? align.getPixels(refSize - LayoutUtil.sum(rowColSizes), container, null) : 0;
-
- if (fromEnd)
- curPos = refSize - curPos;
-
- for (int i = 0 ; i < rowCols.length; i++) {
- ArrayList linkedGroups = rowCols[i];
- int scIx = i - (isRows ? dockOffY : dockOffX);
-
- int bIx = i << 1;
- int bIx2 = bIx + 1;
-
- curPos += (fromEnd ? -rowColSizes[bIx] : rowColSizes[bIx]);
-
- DimConstraint primDC = scIx >= 0 ? primDCs[scIx >= primDCs.length ? primDCs.length - 1 : scIx] : DOCK_DIM_CONSTRAINT;
-
- int rowSize = rowColSizes[bIx2];
-
- for (LinkedDimGroup group : linkedGroups) {
- int groupSize = rowSize;
- if (group.span > 1)
- groupSize = LayoutUtil.sum(rowColSizes, bIx2, Math.min((group.span << 1) - 1, rowColSizes.length - bIx2 - 1));
-
- group.layout(primDC, curPos, groupSize, group.span);
- }
-
- curPos += (fromEnd ? -rowSize : rowSize);
- }
- }
-
- private static void addToSizeGroup(HashMap sizeGroups, String sizeGroup, int[] size)
- {
- int[] sgSize = sizeGroups.get(sizeGroup);
- if (sgSize == null) {
- sizeGroups.put(sizeGroup, new int[] {size[LayoutUtil.MIN], size[LayoutUtil.PREF], size[LayoutUtil.MAX]});
- } else {
- sgSize[LayoutUtil.MIN] = Math.max(size[LayoutUtil.MIN], sgSize[LayoutUtil.MIN]);
- sgSize[LayoutUtil.PREF] = Math.max(size[LayoutUtil.PREF], sgSize[LayoutUtil.PREF]);
- sgSize[LayoutUtil.MAX] = Math.min(size[LayoutUtil.MAX], sgSize[LayoutUtil.MAX]);
- }
- }
-
- private static HashMap addToEndGroup(HashMap endGroups, String endGroup, int end)
- {
- if (endGroup != null) {
- if (endGroups == null)
- endGroups = new HashMap(4);
-
- Integer oldEnd = endGroups.get(endGroup);
- if (oldEnd == null || end > oldEnd)
- endGroups.put(endGroup, end);
- }
- return endGroups;
- }
-
- /** Calculates Min, Preferred and Max size for the columns OR rows.
- * @param isHor If it is the horizontal dimension to calculate.
- * @param containerSize The reference container size in the dimension. If <= 0 it will be replaced by the actual container's size.
- * @return The sizes in a {@link net.miginfocom.layout.Grid.FlowSizeSpec}.
- */
- private FlowSizeSpec calcRowsOrColsSizes(boolean isHor, int containerSize)
- {
- ArrayList[] groupsLists = isHor ? colGroupLists : rowGroupLists;
- Float[] defPush = isHor ? pushXs : pushYs;
-
- if (containerSize <= 0)
- containerSize = isHor ? container.getWidth() : container.getHeight();
-
- BoundSize cSz = isHor ? lc.getWidth() : lc.getHeight();
- if (!cSz.isUnset())
- containerSize = cSz.constrain(containerSize, getParentSize(container, isHor), container);
-
- DimConstraint[] primDCs = (isHor? colConstr : rowConstr).getConstaints();
- TreeSet primIndexes = isHor ? colIndexes : rowIndexes;
-
- int[][] rowColBoundSizes = new int[primIndexes.size()][];
- HashMap sizeGroupMap = new HashMap(4);
- DimConstraint[] allDCs = new DimConstraint[primIndexes.size()];
-
- Iterator primIt = primIndexes.iterator();
- for (int r = 0; r < rowColBoundSizes.length; r++) {
- int cellIx = primIt.next();
- int[] rowColSizes = new int[3];
-
- if (cellIx >= -MAX_GRID && cellIx <= MAX_GRID) { // If not dock cell
- allDCs[r] = primDCs[cellIx >= primDCs.length ? primDCs.length - 1 : cellIx];
- } else {
- allDCs[r] = DOCK_DIM_CONSTRAINT;
- }
-
- ArrayList groups = groupsLists[r];
-
- int[] groupSizes = new int[] {
- getTotalGroupsSizeParallel(groups, LayoutUtil.MIN, false),
- getTotalGroupsSizeParallel(groups, LayoutUtil.PREF, false),
- LayoutUtil.INF};
-
- correctMinMax(groupSizes);
- BoundSize dimSize = allDCs[r].getSize();
-
- for (int sType = LayoutUtil.MIN; sType <= LayoutUtil.MAX; sType++) {
-
- int rowColSize = groupSizes[sType];
-
- UnitValue uv = dimSize.getSize(sType);
- if (uv != null) {
- // If the size of the column is a link to some other size, use that instead
- int unit = uv.getUnit();
- if (unit == UnitValue.PREF_SIZE) {
- rowColSize = groupSizes[LayoutUtil.PREF];
- } else if (unit == UnitValue.MIN_SIZE) {
- rowColSize = groupSizes[LayoutUtil.MIN];
- } else if (unit == UnitValue.MAX_SIZE) {
- rowColSize = groupSizes[LayoutUtil.MAX];
- } else {
- rowColSize = uv.getPixels(containerSize, container, null);
- }
- } else if (cellIx >= -MAX_GRID && cellIx <= MAX_GRID && rowColSize == 0) {
- rowColSize = LayoutUtil.isDesignTime(container) ? LayoutUtil.getDesignTimeEmptySize() : 0; // Empty rows with no size set gets XX pixels if design time
- }
-
- rowColSizes[sType] = rowColSize;
- }
-
- correctMinMax(rowColSizes);
- addToSizeGroup(sizeGroupMap, allDCs[r].getSizeGroup(), rowColSizes);
-
- rowColBoundSizes[r] = rowColSizes;
- }
-
- // Set/equalize the size groups to same the values.
- if (sizeGroupMap.size() > 0) {
- for (int r = 0; r < rowColBoundSizes.length; r++) {
- if (allDCs[r].getSizeGroup() != null)
- rowColBoundSizes[r] = sizeGroupMap.get(allDCs[r].getSizeGroup());
- }
- }
-
- // Add the gaps
- ResizeConstraint[] resConstrs = getRowResizeConstraints(allDCs);
-
- boolean[] fillInPushGaps = new boolean[allDCs.length + 1];
- int[][] gapSizes = getRowGaps(allDCs, containerSize, isHor, fillInPushGaps);
-
- FlowSizeSpec fss = mergeSizesGapsAndResConstrs(resConstrs, fillInPushGaps, rowColBoundSizes, gapSizes);
-
- // Spanning components are not handled yet. Check and adjust the multi-row min/pref they enforce.
- adjustMinPrefForSpanningComps(allDCs, defPush, fss, groupsLists);
-
- return fss;
- }
-
- private static int getParentSize(ComponentWrapper cw, boolean isHor)
- {
- ContainerWrapper p = cw.getParent();
- return p != null ? (isHor ? cw.getWidth() : cw.getHeight()) : 0;
- }
-
- private int[] getMinPrefMaxSumSize(boolean isHor, int[][] sizes)
- {
- int[] retSizes = new int[3];
-
- BoundSize sz = isHor ? lc.getWidth() : lc.getHeight();
-
- for (int i = 0; i < sizes.length; i++) {
- if (sizes[i] != null) {
- int[] size = sizes[i];
- for (int sType = LayoutUtil.MIN; sType <= LayoutUtil.MAX; sType++) {
- if (sz.getSize(sType) != null) {
- if (i == 0)
- retSizes[sType] = sz.getSize(sType).getPixels(getParentSize(container, isHor), container, null);
- } else {
- int s = size[sType];
-
- if (s != LayoutUtil.NOT_SET) {
- if (sType == LayoutUtil.PREF) {
- int bnd = size[LayoutUtil.MAX];
- if (bnd != LayoutUtil.NOT_SET && bnd < s)
- s = bnd;
-
- bnd = size[LayoutUtil.MIN];
- if (bnd > s) // Includes s == LayoutUtil.NOT_SET since < 0.
- s = bnd;
- }
-
- retSizes[sType] += s; // MAX compensated below.
- }
-
- // So that MAX is always correct.
- if (size[LayoutUtil.MAX] == LayoutUtil.NOT_SET || retSizes[LayoutUtil.MAX] > LayoutUtil.INF)
- retSizes[LayoutUtil.MAX] = LayoutUtil.INF;
- }
- }
- }
- }
-
- correctMinMax(retSizes);
-
- return retSizes;
- }
-
- private static ResizeConstraint[] getRowResizeConstraints(DimConstraint[] specs)
- {
- ResizeConstraint[] resConsts = new ResizeConstraint[specs.length];
- for (int i = 0; i < resConsts.length; i++)
- resConsts[i] = specs[i].resize;
- return resConsts;
- }
-
- private static ResizeConstraint[] getComponentResizeConstraints(ArrayList compWraps, boolean isHor)
- {
- ResizeConstraint[] resConsts = new ResizeConstraint[compWraps.size()];
- for (int i = 0; i < resConsts.length; i++) {
- CC fc = compWraps.get(i).cc;
- resConsts[i] = fc.getDimConstraint(isHor).resize;
-
- // Always grow docking components in the correct dimension.
- int dock = fc.getDockSide();
- if (isHor ? (dock == 0 || dock == 2) : (dock == 1 || dock == 3)) {
- ResizeConstraint dc = resConsts[i];
- resConsts[i] = new ResizeConstraint(dc.shrinkPrio, dc.shrink, dc.growPrio, ResizeConstraint.WEIGHT_100);
- }
- }
- return resConsts;
- }
-
- private static boolean[] getComponentGapPush(ArrayList compWraps, boolean isHor)
- {
- // Make one element bigger and or the after gap with the next before gap.
- boolean[] barr = new boolean[compWraps.size() + 1];
- for (int i = 0; i < barr.length; i++) {
-
- boolean push = i > 0 && compWraps.get(i - 1).isPushGap(isHor, false);
-
- if (!push && i < (barr.length - 1))
- push = compWraps.get(i).isPushGap(isHor, true);
-
- barr[i] = push;
- }
- return barr;
- }
-
- /** Returns the row gaps in pixel sizes. One more than there are specs sent in.
- * @param specs
- * @param refSize
- * @param isHor
- * @param fillInPushGaps If the gaps are pushing. NOTE! this argument will be filled in and thus changed!
- * @return The row gaps in pixel sizes. One more than there are specs sent in.
- */
- private int[][] getRowGaps(DimConstraint[] specs, int refSize, boolean isHor, boolean[] fillInPushGaps)
- {
- BoundSize defGap = isHor ? lc.getGridGapX() : lc.getGridGapY();
- if (defGap == null)
- defGap = isHor ? PlatformDefaults.getGridGapX() : PlatformDefaults.getGridGapY();
- int[] defGapArr = defGap.getPixelSizes(refSize, container, null);
-
- boolean defIns = !hasDocks();
-
- UnitValue firstGap = LayoutUtil.getInsets(lc, isHor ? 1 : 0, defIns);
- UnitValue lastGap = LayoutUtil.getInsets(lc, isHor ? 3 : 2, defIns);
-
- int[][] retValues = new int[specs.length + 1][];
-
- for (int i = 0, wgIx = 0; i < retValues.length; i++) {
- DimConstraint specBefore = i > 0 ? specs[i - 1] : null;
- DimConstraint specAfter = i < specs.length ? specs[i] : null;
-
- // No gap if between docking components.
- boolean edgeBefore = (specBefore == DOCK_DIM_CONSTRAINT || specBefore == null);
- boolean edgeAfter = (specAfter == DOCK_DIM_CONSTRAINT || specAfter == null);
- if (edgeBefore && edgeAfter)
- continue;
-
- BoundSize wrapGapSize = (wrapGapMap == null || isHor == lc.isFlowX() ? null : wrapGapMap.get(wgIx++));
-
- if (wrapGapSize == null) {
-
- int[] gapBefore = specBefore != null ? specBefore.getRowGaps(container, null, refSize, false) : null;
- int[] gapAfter = specAfter != null ? specAfter.getRowGaps(container, null, refSize, true) : null;
-
- if (edgeBefore && gapAfter == null && firstGap != null) {
-
- int bef = firstGap.getPixels(refSize, container, null);
- retValues[i] = new int[] {bef, bef, bef};
-
- } else if (edgeAfter && gapBefore == null && firstGap != null) {
-
- int aft = lastGap.getPixels(refSize, container, null);
- retValues[i] = new int[] {aft, aft, aft};
-
- } else {
- retValues[i] = gapAfter != gapBefore ? mergeSizes(gapAfter, gapBefore) : new int[] {defGapArr[0], defGapArr[1], defGapArr[2]};
- }
-
- if (specBefore != null && specBefore.isGapAfterPush() || specAfter != null && specAfter.isGapBeforePush())
- fillInPushGaps[i] = true;
- } else {
-
- if (wrapGapSize.isUnset()) {
- retValues[i] = new int[] {defGapArr[0], defGapArr[1], defGapArr[2]};
- } else {
- retValues[i] = wrapGapSize.getPixelSizes(refSize, container, null);
- }
- fillInPushGaps[i] = wrapGapSize.getGapPush();
- }
- }
- return retValues;
- }
-
- private static int[][] getGaps(ArrayList compWraps, boolean isHor)
- {
- int compCount = compWraps.size();
- int[][] retValues = new int[compCount + 1][];
-
- retValues[0] = compWraps.get(0).getGaps(isHor, true);
- for (int i = 0; i < compCount; i++) {
- int[] gap1 = compWraps.get(i).getGaps(isHor, false);
- int[] gap2 = i < compCount - 1 ? compWraps.get(i + 1).getGaps(isHor, true) : null;
-
- retValues[i + 1] = mergeSizes(gap1, gap2);
- }
-
- return retValues;
- }
-
- private boolean hasDocks()
- {
- return (dockOffX > 0 || dockOffY > 0 || rowIndexes.last() > MAX_GRID || colIndexes.last() > MAX_GRID);
- }
-
- /** Adjust min/pref size for columns(or rows) that has components that spans multiple columns (or rows).
- * @param specs The specs for the columns or rows. Last index will be used if count is greater than this array's length.
- * @param defPush The default grow weight if the specs does not have anyone that will grow. Comes from "push" in the CC.
- * @param fss
- * @param groupsLists
- */
- private void adjustMinPrefForSpanningComps(DimConstraint[] specs, Float[] defPush, FlowSizeSpec fss, ArrayList[] groupsLists)
- {
- for (int r = groupsLists.length - 1; r >= 0; r--) { // Since 3.7.3 Iterate from end to start. Will solve some multiple spanning components hard to solve problems.
- ArrayList groups = groupsLists[r];
-
- for (LinkedDimGroup group : groups) {
- if (group.span == 1)
- continue;
-
- int[] sizes = group.getMinPrefMax();
- for (int s = LayoutUtil.MIN; s <= LayoutUtil.PREF; s++) {
- int cSize = sizes[s];
- if (cSize == LayoutUtil.NOT_SET)
- continue;
-
- int rowSize = 0;
- int sIx = (r << 1) + 1;
- int len = Math.min((group.span << 1), fss.sizes.length - sIx) - 1;
- for (int j = sIx; j < sIx + len; j++) {
- int sz = fss.sizes[j][s];
- if (sz != LayoutUtil.NOT_SET)
- rowSize += sz;
- }
-
- if (rowSize < cSize && len > 0) {
- for (int eagerness = 0, newRowSize = 0; eagerness < 4 && newRowSize < cSize; eagerness++)
- newRowSize = fss.expandSizes(specs, defPush, cSize, sIx, len, s, eagerness);
- }
- }
- }
- }
- }
-
- /** For one dimension divide the component wraps into logical groups. One group for component wraps that share a common something,
- * line the property to layout by base line.
- * @param isRows If rows, and not columns, are to be divided.
- * @return One ArrayList for every row/column.
- */
- private ArrayList[] divideIntoLinkedGroups(boolean isRows)
- {
- boolean fromEnd = !(isRows ? lc.isTopToBottom() : LayoutUtil.isLeftToRight(lc, container));
- TreeSet primIndexes = isRows ? rowIndexes : colIndexes;
- TreeSet secIndexes = isRows ? colIndexes : rowIndexes;
- DimConstraint[] primDCs = (isRows ? rowConstr : colConstr).getConstaints();
-
- @SuppressWarnings("unchecked")
- ArrayList[] groupLists = new ArrayList[primIndexes.size()];
-
- int gIx = 0;
- for (int i : primIndexes) {
-
- DimConstraint dc;
- if (i >= -MAX_GRID && i <= MAX_GRID) { // If not dock cell
- dc = primDCs[i >= primDCs.length ? primDCs.length - 1 : i];
- } else {
- dc = DOCK_DIM_CONSTRAINT;
- }
-
- ArrayList groupList = new ArrayList(4);
- groupLists[gIx++] = groupList;
-
- for (Integer ix : secIndexes) {
- Cell cell = isRows ? getCell(i, ix) : getCell(ix, i);
- if (cell == null || cell.compWraps.size() == 0)
- continue;
-
- int span = (isRows ? cell.spany : cell.spanx);
- if (span > 1)
- span = convertSpanToSparseGrid(i, span, primIndexes);
-
- boolean isPar = (cell.flowx == isRows);
-
- if ((!isPar && cell.compWraps.size() > 1) || span > 1) {
-
- int linkType = isPar ? LinkedDimGroup.TYPE_PARALLEL : LinkedDimGroup.TYPE_SERIAL;
- LinkedDimGroup lg = new LinkedDimGroup("p," + ix, span, linkType, !isRows, fromEnd);
- lg.setCompWraps(cell.compWraps);
- groupList.add(lg);
- } else {
- for (int cwIx = 0; cwIx < cell.compWraps.size(); cwIx++) {
- CompWrap cw = cell.compWraps.get(cwIx);
- boolean rowBaselineAlign = (isRows && lc.isTopToBottom() && dc.getAlignOrDefault(!isRows) == UnitValue.BASELINE_IDENTITY); // Disable baseline for bottomToTop since I can not verify it working.
- boolean isBaseline = isRows && cw.isBaselineAlign(rowBaselineAlign);
-
- String linkCtx = isBaseline ? "baseline" : null;
-
- // Find a group with same link context and put it in that group.
- boolean foundList = false;
- for (int glIx = 0, lastGl = groupList.size() - 1; glIx <= lastGl; glIx++) {
- LinkedDimGroup group = groupList.get(glIx);
- if (group.linkCtx == linkCtx || linkCtx != null && linkCtx.equals(group.linkCtx)) {
- group.addCompWrap(cw);
- foundList = true;
- break;
- }
- }
-
- // If none found and at last add a new group.
- if (!foundList) {
- int linkType = isBaseline ? LinkedDimGroup.TYPE_BASELINE : LinkedDimGroup.TYPE_PARALLEL;
- LinkedDimGroup lg = new LinkedDimGroup(linkCtx, 1, linkType, !isRows, fromEnd);
- lg.addCompWrap(cw);
- groupList.add(lg);
- }
- }
- }
- }
- }
- return groupLists;
- }
-
- /** Spanning is specified in the uncompressed grid number. They can for instance be more than 60000 for the outer
- * edge dock grid cells. When the grid is compressed and indexed after only the cells that area occupied the span
- * is erratic. This method use the row/col indexes and corrects the span to be correct for the compressed grid.
- * @param span The span in the uncompressed grid. LayoutUtil.INF will be interpreted to span the rest
- * of the column/row excluding the surrounding docking components.
- * @param indexes The indexes in the correct dimension.
- * @return The converted span.
- */
- private static int convertSpanToSparseGrid(int curIx, int span, TreeSet indexes)
- {
- int lastIx = curIx + span;
- int retSpan = 1;
-
- for (Integer ix : indexes) {
- if (ix <= curIx)
- continue; // We have not arrived to the correct index yet
-
- if (ix >= lastIx)
- break;
-
- retSpan++;
- }
- return retSpan;
- }
-
- private boolean isCellFree(int r, int c, ArrayList occupiedRects)
- {
- if (getCell(r, c) != null)
- return false;
-
- for (int[] rect : occupiedRects) {
- if (rect[0] <= c && rect[1] <= r && rect[0] + rect[2] > c && rect[1] + rect[3] > r)
- return false;
- }
- return true;
- }
-
- private Cell getCell(int r, int c)
- {
- return grid.get((r << 16) + (c & 0xffff));
- }
-
- private void setCell(int r, int c, Cell cell)
- {
- if (c < 0 || r < 0)
- throw new IllegalArgumentException("Cell position cannot be negative. row: " + r + ", col: " + c);
-
- if (c > MAX_GRID || r > MAX_GRID)
- throw new IllegalArgumentException("Cell position out of bounds. Out of cells. row: " + r + ", col: " + c);
-
- rowIndexes.add(r);
- colIndexes.add(c);
-
- grid.put((r << 16) + (c & 0xffff), cell);
- }
-
- /** Adds a docking cell. That cell is outside the normal cell indexes.
- * @param dockInsets The current dock insets. Will be updated!
- * @param side top == 0, left == 1, bottom = 2, right = 3.
- * @param cw The compwrap to put in a cell and add.
- */
- private void addDockingCell(int[] dockInsets, int side, CompWrap cw)
- {
- int r, c, spanx = 1, spany = 1;
- switch (side) {
- case 0:
- case 2:
- r = side == 0 ? dockInsets[0]++ : dockInsets[2]--;
- c = dockInsets[1];
- spanx = dockInsets[3] - dockInsets[1] + 1; // The +1 is for cell 0.
- colIndexes.add(dockInsets[3]); // Make sure there is a receiving cell
- break;
-
- case 1:
- case 3:
- c = side == 1 ? dockInsets[1]++ : dockInsets[3]--;
- r = dockInsets[0];
- spany = dockInsets[2] - dockInsets[0] + 1; // The +1 is for cell 0.
- rowIndexes.add(dockInsets[2]); // Make sure there is a receiving cell
- break;
-
- default:
- throw new IllegalArgumentException("Internal error 123.");
- }
-
- rowIndexes.add(r);
- colIndexes.add(c);
-
- grid.put((r << 16) + (c & 0xffff), new Cell(cw, spanx, spany, spanx > 1));
- }
-
- /** A simple representation of a cell in the grid. Contains a number of component wraps, if they span more than one cell.
- */
- private static class Cell
- {
- private final int spanx, spany;
- private final boolean flowx;
- private final ArrayList compWraps = new ArrayList(2);
-
- private boolean hasTagged = false; // If one or more components have styles and need to be checked by the component sorter
-
- private Cell(CompWrap cw)
- {
- this(cw, 1, 1, true);
- }
-
- private Cell(int spanx, int spany, boolean flowx)
- {
- this(null, spanx, spany, flowx);
- }
-
- private Cell(CompWrap cw, int spanx, int spany, boolean flowx)
- {
- if (cw != null)
- compWraps.add(cw);
- this.spanx = spanx;
- this.spany = spany;
- this.flowx = flowx;
- }
- }
-
- /** A number of component wraps that share a layout "something" in one dimension
- */
- private static class LinkedDimGroup
- {
- private static final int TYPE_SERIAL = 0;
- private static final int TYPE_PARALLEL = 1;
- private static final int TYPE_BASELINE = 2;
-
- private final String linkCtx;
- private final int span;
- private final int linkType;
- private final boolean isHor, fromEnd;
-
- private final ArrayList _compWraps = new ArrayList(4);
-
- private int lStart = 0, lSize = 0; // Currently mostly for debug painting
-
- private LinkedDimGroup(String linkCtx, int span, int linkType, boolean isHor, boolean fromEnd)
- {
- this.linkCtx = linkCtx;
- this.span = span;
- this.linkType = linkType;
- this.isHor = isHor;
- this.fromEnd = fromEnd;
- }
-
- private void addCompWrap(CompWrap cw)
- {
- _compWraps.add(cw);
- }
-
- private void setCompWraps(ArrayList cws)
- {
- if (_compWraps != cws) {
- _compWraps.clear();
- _compWraps.addAll(cws);
- }
- }
-
- private void layout(DimConstraint dc, int start, int size, int spanCount)
- {
- lStart = start;
- lSize = size;
-
- if (_compWraps.isEmpty())
- return;
-
- ContainerWrapper parent = _compWraps.get(0).comp.getParent();
- if (linkType == TYPE_PARALLEL) {
- layoutParallel(parent, _compWraps, dc, start, size, isHor, fromEnd);
- } else if (linkType == TYPE_BASELINE) {
- layoutBaseline(parent, _compWraps, dc, start, size, LayoutUtil.PREF, spanCount);
- } else {
- layoutSerial(parent, _compWraps, dc, start, size, isHor, spanCount, fromEnd);
- }
- }
-
- /** Returns the min/pref/max sizes for this cell. Returned array must not be altered
- * @return A shared min/pref/max array of sizes. Always of length 3 and never null. Will always be of type STATIC and PIXEL.
- */
- private int[] getMinPrefMax()
- {
- int[] sizes = new int[3];
- if (!_compWraps.isEmpty()) {
- for (int sType = LayoutUtil.MIN; sType <= LayoutUtil.PREF; sType++) {
- if (linkType == TYPE_PARALLEL) {
- sizes[sType] = getTotalSizeParallel(_compWraps, sType, isHor);
- } else if (linkType == TYPE_BASELINE) {
- AboveBelow aboveBelow = getBaselineAboveBelow(_compWraps, sType, false);
- sizes[sType] = aboveBelow.sum();
- } else {
- sizes[sType] = getTotalSizeSerial(_compWraps, sType, isHor);
- }
- }
- sizes[LayoutUtil.MAX] = LayoutUtil.INF;
- }
- return sizes;
- }
- }
-
- /** Wraps a {@link java.awt.Component} together with its constraint. Caches a lot of information about the component so
- * for instance not the preferred size has to be calculated more than once.
- *
- * Note! Does not ask the min/pref/max sizes again after the constructor. This means that
- */
- private final class CompWrap
- {
- private final ComponentWrapper comp;
- private final CC cc;
- private final int eHideMode;
- private final boolean useVisualPadding;
- private boolean sizesOk = false;
- private boolean isAbsolute;
-
- private int[][] gaps; // [top,left(actually before),bottom,right(actually after)][min,pref,max]
-
- private final int[] horSizes = new int[3];
- private final int[] verSizes = new int[3];
-
- private int x = LayoutUtil.NOT_SET, y = LayoutUtil.NOT_SET, w = LayoutUtil.NOT_SET, h = LayoutUtil.NOT_SET;
-
- private int forcedPushGaps = 0; // 1 == before, 2 = after. Bitwise.
-
- /**
- * @param c
- * @param cc
- * @param eHideMode Effective hide mode. <= 0 means visible.
- * @param useVisualPadding
- */
- private CompWrap(ComponentWrapper c, CC cc, int eHideMode, boolean useVisualPadding)
- {
- this.comp = c;
- this.cc = cc;
- this.eHideMode = eHideMode;
- this.useVisualPadding = useVisualPadding;
- this.isAbsolute = cc.getHorizontal().getSize().isAbsolute() && cc.getVertical().getSize().isAbsolute();
-
- if (eHideMode > 1) {
- gaps = new int[4][];
- for (int i = 0; i < gaps.length; i++)
- gaps[i] = new int[3];
- }
- }
-
- private int[] getSizes(boolean isHor)
- {
- validateSize();
- return isHor ? horSizes : verSizes;
- }
-
- private void validateSize()
- {
- BoundSize[] callbackSz = getCallbackSize(comp);
-
- if (isAbsolute && sizesOk && callbackSz == null)
- return;
-
- if (eHideMode <= 0) {
- int contentBias = comp.getContentBias();
-
- int sizeHint = contentBias == -1 ? -1 : (contentBias == 0 ? (w != LayoutUtil.NOT_SET ? w : comp.getWidth()) : (h != LayoutUtil.NOT_SET ? h : comp.getHeight()));
-
- BoundSize hBS = (callbackSz != null && callbackSz[0] != null) ? callbackSz[0] : cc.getHorizontal().getSize();
- BoundSize vBS = (callbackSz != null && callbackSz[1] != null) ? callbackSz[1] : cc.getVertical().getSize();
-
- for (int i = LayoutUtil.MIN; i <= LayoutUtil.MAX; i++) {
- switch (contentBias) {
- case -1: // None
- default:
- horSizes[i] = getSize(hBS, i, true, useVisualPadding, -1);
- verSizes[i] = getSize(vBS, i, false, useVisualPadding, -1);
- break;
- case 0: // Hor
- horSizes[i] = getSize(hBS, i, true, useVisualPadding, -1);
- verSizes[i] = getSize(vBS, i, false, useVisualPadding, sizeHint > 0 ? sizeHint : horSizes[i]);
- break;
- case 1: // Ver
- verSizes[i] = getSize(vBS, i, false, useVisualPadding, -1);
- horSizes[i] = getSize(hBS, i, true, useVisualPadding, sizeHint > 0 ? sizeHint : verSizes[i]);
- break;
- }
- }
-
- correctMinMax(horSizes);
- correctMinMax(verSizes);
- } else {
- Arrays.fill(horSizes, 0); // Needed if component goes from visible -> invisible without recreating the grid.
- Arrays.fill(verSizes, 0);
- }
- sizesOk = true;
- }
-
- private int getSize(BoundSize uvs, int sizeType, boolean isHor, boolean useVP, int sizeHint)
- {
- int size;
- if (uvs == null || uvs.getSize(sizeType) == null) {
- switch(sizeType) {
- case LayoutUtil.MIN:
- size = isHor ? comp.getMinimumWidth(sizeHint) : comp.getMinimumHeight(sizeHint);
- break;
- case LayoutUtil.PREF:
- size = isHor ? comp.getPreferredWidth(sizeHint) : comp.getPreferredHeight(sizeHint);
- break;
- default:
- size = isHor ? comp.getMaximumWidth(sizeHint) : comp.getMaximumHeight(sizeHint);
- break;
- }
- if (useVP) {
- //Do not include visual padding when calculating layout
- int[] visualPadding = comp.getVisualPadding();
-
- // Assume visualPadding is of length 4: top, left, bottom, right
- if (visualPadding != null && visualPadding.length > 0)
- size -= isHor ? (visualPadding[1] + visualPadding[3]) : (visualPadding[0] + visualPadding[2]);
- }
- } else {
- ContainerWrapper par = comp.getParent();
- float refValue = isHor ? par.getWidth() : par.getHeight();
- size = uvs.getSize(sizeType).getPixels(refValue, par, comp);
- }
- return size;
- }
-
-
- private void calcGaps(ComponentWrapper before, CC befCC, ComponentWrapper after, CC aftCC, String tag, boolean flowX, boolean isLTR)
- {
- ContainerWrapper par = comp.getParent();
- int parW = par.getWidth();
- int parH = par.getHeight();
-
- BoundSize befGap = before != null ? (flowX ? befCC.getHorizontal() : befCC.getVertical()).getGapAfter() : null;
- BoundSize aftGap = after != null ? (flowX ? aftCC.getHorizontal() : aftCC.getVertical()).getGapBefore() : null;
-
- mergeGapSizes(cc.getVertical().getComponentGaps(par, comp, befGap, (flowX ? null : before), tag, parH, 0, isLTR), false, true);
- mergeGapSizes(cc.getHorizontal().getComponentGaps(par, comp, befGap, (flowX ? before : null), tag, parW, 1, isLTR), true, true);
- mergeGapSizes(cc.getVertical().getComponentGaps(par, comp, aftGap, (flowX ? null : after), tag, parH, 2, isLTR), false, false);
- mergeGapSizes(cc.getHorizontal().getComponentGaps(par, comp, aftGap, (flowX ? after : null), tag, parW, 3, isLTR), true, false);
- }
-
- private void setDimBounds(int start, int size, boolean isHor)
- {
- if (isHor) {
- if (start != x || w != size) {
- x = start;
- w = size;
- if (comp.getContentBias() == LayoutUtil.HORIZONTAL)
- invalidateSizes(); // Only for components that have a bias the sizes will have changed.
- }
- } else {
- if (start != y || h != size) {
- y = start;
- h = size;
- if (comp.getContentBias() == LayoutUtil.VERTICAL)
- invalidateSizes(); // Only for components that have a bias the sizes will have changed.
- }
- }
- }
-
- void invalidateSizes()
- {
- sizesOk = false;
- }
-
- private boolean isPushGap(boolean isHor, boolean isBefore)
- {
- if (isHor && ((isBefore ? 1 : 2) & forcedPushGaps) != 0)
- return true; // Forced
-
- DimConstraint dc = cc.getDimConstraint(isHor);
- BoundSize s = isBefore ? dc.getGapBefore() : dc.getGapAfter();
- return s != null && s.getGapPush();
- }
-
- /** Transfers the bounds to the component
- */
- private void transferBounds(boolean addVisualPadding)
- {
- if (cc.isExternal())
- return;
-
- int compX = x;
- int compY = y;
- int compW = w;
- int compH = h;
-
- if (addVisualPadding) {
- //Add the visual padding back to the component when changing its size
- int[] visualPadding = comp.getVisualPadding();
- if (visualPadding != null) {
- //assume visualPadding is of length 4: top, left, bottom, right
- compX -= visualPadding[1];
- compY -= visualPadding[0];
- compW += (visualPadding[1] + visualPadding[3]);
- compH += (visualPadding[0] + visualPadding[2]);
- }
- }
-
- comp.setBounds(compX, compY, compW, compH);
- }
-
- private void setForcedSizes(int[] sizes, boolean isHor)
- {
- if (sizes == null)
- return;
-
- System.arraycopy(sizes, 0, getSizes(isHor), 0, 3);
- sizesOk = true;
- }
-
- private void setGaps(int[] minPrefMax, int ix)
- {
- if (gaps == null)
- gaps = new int[][] {null, null, null, null};
-
- gaps[ix] = minPrefMax;
- }
-
- private void mergeGapSizes(int[] sizes, boolean isHor, boolean isTL)
- {
- if (gaps == null)
- gaps = new int[][] {null, null, null, null};
-
- if (sizes == null)
- return;
-
- int gapIX = getGapIx(isHor, isTL);
- int[] oldGaps = gaps[gapIX];
- if (oldGaps == null) {
- oldGaps = new int[] {0, 0, LayoutUtil.INF};
- gaps[gapIX] = oldGaps;
- }
-
- oldGaps[LayoutUtil.MIN] = Math.max(sizes[LayoutUtil.MIN], oldGaps[LayoutUtil.MIN]);
- oldGaps[LayoutUtil.PREF] = Math.max(sizes[LayoutUtil.PREF], oldGaps[LayoutUtil.PREF]);
- oldGaps[LayoutUtil.MAX] = Math.min(sizes[LayoutUtil.MAX], oldGaps[LayoutUtil.MAX]);
- }
-
- private int getGapIx(boolean isHor, boolean isTL)
- {
- return isHor ? (isTL ? 1 : 3) : (isTL ? 0 : 2);
- }
-
- private int getSizeInclGaps(int sizeType, boolean isHor)
- {
- return filter(sizeType, getGapBefore(sizeType, isHor) + getSize(sizeType, isHor) + getGapAfter(sizeType, isHor));
- }
-
- private int getSize(int sizeType, boolean isHor)
- {
- return filter(sizeType, getSizes(isHor)[sizeType]);
- }
-
- private int getGapBefore(int sizeType, boolean isHor)
- {
- int[] gaps = getGaps(isHor, true);
- return gaps != null ? filter(sizeType, gaps[sizeType]) : 0;
- }
-
- private int getGapAfter(int sizeType, boolean isHor)
- {
- int[] gaps = getGaps(isHor, false);
- return gaps != null ? filter(sizeType, gaps[sizeType]) : 0;
- }
-
- private int[] getGaps(boolean isHor, boolean isTL)
- {
- return gaps[getGapIx(isHor, isTL)];
- }
-
- private int filter(int sizeType, int size)
- {
- if (size == LayoutUtil.NOT_SET)
- return sizeType != LayoutUtil.MAX ? 0 : LayoutUtil.INF;
- return constrainSize(size);
- }
-
- private boolean isBaselineAlign(boolean defValue)
- {
- Float g = cc.getVertical().getGrow();
- if (g != null && g.intValue() != 0)
- return false;
-
- UnitValue al = cc.getVertical().getAlign();
- return (al != null ? al == UnitValue.BASELINE_IDENTITY : defValue) && comp.hasBaseline();
- }
-
- private int getBaseline(int sizeType)
- {
- return comp.getBaseline(getSize(sizeType, true), getSize(sizeType, false));
- }
-
- void adjustMinHorSizeUp(int minSize)
- {
- int[] sz = getSizes(true);
- if (sz[LayoutUtil.MIN] < minSize)
- sz[LayoutUtil.MIN] = minSize;
- correctMinMax(sz);
- }
- }
-
- //***************************************************************************************
- //* Helper Methods
- //***************************************************************************************
-
- private static void layoutBaseline(ContainerWrapper parent, ArrayList compWraps, DimConstraint dc, int start, int size, int sizeType, int spanCount)
- {
- AboveBelow aboveBelow = getBaselineAboveBelow(compWraps, sizeType, true);
- int blRowSize = aboveBelow.sum();
-
- CC cc = compWraps.get(0).cc;
-
- // Align for the whole baseline component array
- UnitValue align = cc.getVertical().getAlign();
- if (spanCount == 1 && align == null)
- align = dc.getAlignOrDefault(false);
- if (align == UnitValue.BASELINE_IDENTITY)
- align = UnitValue.CENTER;
-
- int offset = start + aboveBelow.maxAbove + (align != null ? Math.max(0, align.getPixels(size - blRowSize, parent, null)) : 0);
- for (CompWrap cw : compWraps) {
- cw.y += offset;
- if (cw.y + cw.h > start + size)
- cw.h = start + size - cw.y;
- }
- }
-
- private static void layoutSerial(ContainerWrapper parent, ArrayList compWraps, DimConstraint dc, int start, int size, boolean isHor, int spanCount, boolean fromEnd)
- {
- FlowSizeSpec fss = mergeSizesGapsAndResConstrs(
- getComponentResizeConstraints(compWraps, isHor),
- getComponentGapPush(compWraps, isHor),
- getComponentSizes(compWraps, isHor),
- getGaps(compWraps, isHor));
-
- Float[] pushW = dc.isFill() ? GROW_100 : null;
- int[] sizes = LayoutUtil.calculateSerial(fss.sizes, fss.resConstsInclGaps, pushW, LayoutUtil.PREF, size);
- setCompWrapBounds(parent, sizes, compWraps, dc.getAlignOrDefault(isHor), start, size, isHor, fromEnd);
- }
-
- private static void setCompWrapBounds(ContainerWrapper parent, int[] allSizes, ArrayList compWraps, UnitValue rowAlign, int start, int size, boolean isHor, boolean fromEnd)
- {
- int totSize = LayoutUtil.sum(allSizes);
- CC cc = compWraps.get(0).cc;
- UnitValue align = correctAlign(cc, rowAlign, isHor, fromEnd);
-
- int cSt = start;
- int slack = size - totSize;
- if (slack > 0 && align != null) {
- int al = Math.min(slack, Math.max(0, align.getPixels(slack, parent, null)));
- cSt += (fromEnd ? -al : al);
- }
-
- for (int i = 0, bIx = 0, iSz = compWraps.size(); i < iSz; i++) {
- CompWrap cw = compWraps.get(i);
- if (fromEnd ) {
- cSt -= allSizes[bIx++];
- cw.setDimBounds(cSt - allSizes[bIx], allSizes[bIx], isHor);
- cSt -= allSizes[bIx++];
- } else {
- cSt += allSizes[bIx++];
- cw.setDimBounds(cSt, allSizes[bIx], isHor);
- cSt += allSizes[bIx++];
- }
- }
- }
-
- private static void layoutParallel(ContainerWrapper parent, ArrayList compWraps, DimConstraint dc, int start, int size, boolean isHor, boolean fromEnd)
- {
- int[][] sizes = new int[compWraps.size()][]; // [compIx][gapBef,compSize,gapAft]
-
- for (int i = 0; i < sizes.length; i++) {
- CompWrap cw = compWraps.get(i);
-
- DimConstraint cDc = cw.cc.getDimConstraint(isHor);
-
- ResizeConstraint[] resConstr = new ResizeConstraint[] {
- cw.isPushGap(isHor, true) ? GAP_RC_CONST_PUSH : GAP_RC_CONST,
- cDc.resize,
- cw.isPushGap(isHor, false) ? GAP_RC_CONST_PUSH : GAP_RC_CONST,
- };
-
- int[][] sz = new int[][] {
- cw.getGaps(isHor, true), cw.getSizes(isHor), cw.getGaps(isHor, false)
- };
-
- Float[] pushW = dc.isFill() ? GROW_100 : null;
-
- sizes[i] = LayoutUtil.calculateSerial(sz, resConstr, pushW, LayoutUtil.PREF, size);
- }
-
- UnitValue rowAlign = dc.getAlignOrDefault(isHor);
- setCompWrapBounds(parent, sizes, compWraps, rowAlign, start, size, isHor, fromEnd);
- }
-
- private static void setCompWrapBounds(ContainerWrapper parent, int[][] sizes, ArrayList compWraps, UnitValue rowAlign, int start, int size, boolean isHor, boolean fromEnd)
- {
- for (int i = 0; i < sizes.length; i++) {
- CompWrap cw = compWraps.get(i);
-
- UnitValue align = correctAlign(cw.cc, rowAlign, isHor, fromEnd);
-
- int[] cSizes = sizes[i];
- int gapBef = cSizes[0];
- int cSize = cSizes[1]; // No Math.min(size, cSizes[1]) here!
- int gapAft = cSizes[2];
-
- int cSt = fromEnd ? start - gapBef : start + gapBef;
- int slack = size - cSize - gapBef - gapAft;
- if (slack > 0 && align != null) {
- int al = Math.min(slack, Math.max(0, align.getPixels(slack, parent, null)));
- cSt += (fromEnd ? -al : al);
- }
-
- cw.setDimBounds(fromEnd ? cSt - cSize : cSt, cSize, isHor);
- }
- }
-
- private static UnitValue correctAlign(CC cc, UnitValue rowAlign, boolean isHor, boolean fromEnd)
- {
- UnitValue align = (isHor ? cc.getHorizontal() : cc.getVertical()).getAlign();
- if (align == null)
- align = rowAlign;
- if (align == UnitValue.BASELINE_IDENTITY)
- align = UnitValue.CENTER;
-
- if (fromEnd) {
- if (align == UnitValue.LEFT)
- align = UnitValue.RIGHT;
- else if (align == UnitValue.RIGHT)
- align = UnitValue.LEFT;
- }
- return align;
- }
-
- private static class AboveBelow {
- int maxAbove;
- int maxBelow;
-
- AboveBelow(int maxAbove, int maxBelow) {
- this.maxAbove = maxAbove;
- this.maxBelow = maxBelow;
- }
-
- int sum() {
- return maxAbove + maxBelow;
- }
- }
-
- private static AboveBelow getBaselineAboveBelow(ArrayList compWraps, int sType, boolean centerBaseline)
- {
- int maxAbove = Integer.MIN_VALUE;
- int maxBelow = Integer.MIN_VALUE;
- for (CompWrap cw : compWraps) {
- int height = cw.getSize(sType, false);
- if (height >= LayoutUtil.INF)
- return new AboveBelow(LayoutUtil.INF / 2, LayoutUtil.INF / 2);
-
- int baseline = cw.getBaseline(sType);
- int above = baseline + cw.getGapBefore(sType, false);
- maxAbove = Math.max(above, maxAbove);
- maxBelow = Math.max(height - baseline + cw.getGapAfter(sType, false), maxBelow);
-
- if (centerBaseline)
- cw.setDimBounds(-baseline, height, false);
- }
- return new AboveBelow(maxAbove, maxBelow);
- }
-
- private static int getTotalSizeParallel(ArrayList compWraps, int sType, boolean isHor)
- {
- int size = sType == LayoutUtil.MAX ? LayoutUtil.INF : 0;
-
- for (CompWrap cw : compWraps) {
- int cwSize = cw.getSizeInclGaps(sType, isHor);
- if (cwSize >= LayoutUtil.INF)
- return LayoutUtil.INF;
-
- if (sType == LayoutUtil.MAX ? cwSize < size : cwSize > size)
- size = cwSize;
- }
- return constrainSize(size);
- }
-
- private static int getTotalSizeSerial(ArrayList compWraps, int sType, boolean isHor)
- {
- int totSize = 0;
- for (int i = 0, iSz = compWraps.size(), lastGapAfter = 0; i < iSz; i++) {
- CompWrap wrap = compWraps.get(i);
- int gapBef = wrap.getGapBefore(sType, isHor);
- if (gapBef > lastGapAfter)
- totSize += gapBef - lastGapAfter;
-
- totSize += wrap.getSize(sType, isHor);
- totSize += (lastGapAfter = wrap.getGapAfter(sType, isHor));
-
- if (totSize >= LayoutUtil.INF)
- return LayoutUtil.INF;
- }
- return constrainSize(totSize);
- }
-
- private static int getTotalGroupsSizeParallel(ArrayList groups, int sType, boolean countSpanning)
- {
- int size = sType == LayoutUtil.MAX ? LayoutUtil.INF : 0;
- for (LinkedDimGroup group : groups) {
- if (countSpanning || group.span == 1) {
- int grpSize = group.getMinPrefMax()[sType];
- if (grpSize >= LayoutUtil.INF)
- return LayoutUtil.INF;
-
- if (sType == LayoutUtil.MAX ? grpSize < size : grpSize > size)
- size = grpSize;
- }
- }
- return constrainSize(size);
- }
-
- /**
- * @param compWraps
- * @param isHor
- * @return Might contain LayoutUtil.NOT_SET
- */
- private static int[][] getComponentSizes(ArrayList compWraps, boolean isHor)
- {
- int[][] compSizes = new int[compWraps.size()][];
- for (int i = 0; i < compSizes.length; i++)
- compSizes[i] = compWraps.get(i).getSizes(isHor);
- return compSizes;
- }
-
- /** Merges sizes and gaps together with Resize Constraints. For gaps {@link #GAP_RC_CONST} is used.
- * @param resConstr One resize constraint for every row/component. Can be lesser in length and the last element should be used for missing elements.
- * @param gapPush If the corresponding gap should be considered pushing and thus want to take free space if left over. Should be one more than resConstrs!
- * @param minPrefMaxSizes The sizes (min/pref/max) for every row/component.
- * @param gapSizes The gaps before and after each row/component packed in one double sized array.
- * @return A holder for the merged values.
- */
- private static FlowSizeSpec mergeSizesGapsAndResConstrs(ResizeConstraint[] resConstr, boolean[] gapPush, int[][] minPrefMaxSizes, int[][] gapSizes)
- {
- int[][] sizes = new int[(minPrefMaxSizes.length << 1) + 1][]; // Make room for gaps around.
- ResizeConstraint[] resConstsInclGaps = new ResizeConstraint[sizes.length];
-
- sizes[0] = gapSizes[0];
- for (int i = 0, crIx = 1; i < minPrefMaxSizes.length; i++, crIx += 2) {
-
- // Component bounds and constraints
- resConstsInclGaps[crIx] = resConstr[i];
- sizes[crIx] = minPrefMaxSizes[i];
-
- sizes[crIx + 1] = gapSizes[i + 1];
-
- if (sizes[crIx - 1] != null)
- resConstsInclGaps[crIx - 1] = gapPush[i < gapPush.length ? i : gapPush.length - 1] ? GAP_RC_CONST_PUSH : GAP_RC_CONST;
-
- if (i == (minPrefMaxSizes.length - 1) && sizes[crIx + 1] != null)
- resConstsInclGaps[crIx + 1] = gapPush[(i + 1) < gapPush.length ? (i + 1) : gapPush.length - 1] ? GAP_RC_CONST_PUSH : GAP_RC_CONST;
- }
-
- // Check for null and set it to 0, 0, 0.
- for (int i = 0; i < sizes.length; i++) {
- if (sizes[i] == null)
- sizes[i] = new int[3];
- }
-
- return new FlowSizeSpec(sizes, resConstsInclGaps);
- }
-
- private static int[] mergeSizes(int[] oldValues, int[] newValues)
- {
- if (oldValues == null)
- return newValues;
-
- if (newValues == null)
- return oldValues;
-
- int[] ret = new int[oldValues.length];
- for (int i = 0; i < ret.length; i++)
- ret[i] = mergeSizes(oldValues[i], newValues[i], true);
-
- return ret;
- }
-
- private static int mergeSizes(int oldValue, int newValue, boolean toMax)
- {
- if (oldValue == LayoutUtil.NOT_SET || oldValue == newValue)
- return newValue;
-
- if (newValue == LayoutUtil.NOT_SET)
- return oldValue;
-
- return toMax != oldValue > newValue ? newValue : oldValue;
- }
-
- private static int constrainSize(int s)
- {
- return s > 0 ? (s < LayoutUtil.INF ? s : LayoutUtil.INF) : 0;
- }
-
- private static void correctMinMax(int s[])
- {
- if (s[LayoutUtil.MIN] > s[LayoutUtil.MAX])
- s[LayoutUtil.MIN] = s[LayoutUtil.MAX]; // Since MAX is almost always explicitly set use that
-
- if (s[LayoutUtil.PREF] < s[LayoutUtil.MIN])
- s[LayoutUtil.PREF] = s[LayoutUtil.MIN];
-
- if (s[LayoutUtil.PREF] > s[LayoutUtil.MAX])
- s[LayoutUtil.PREF] = s[LayoutUtil.MAX];
- }
-
- private static final class FlowSizeSpec
- {
- private final int[][] sizes; // [row/col index][min, pref, max]
- private final ResizeConstraint[] resConstsInclGaps; // [row/col index]
-
- private FlowSizeSpec(int[][] sizes, ResizeConstraint[] resConstsInclGaps)
- {
- this.sizes = sizes;
- this.resConstsInclGaps = resConstsInclGaps;
- }
-
- /**
- * @param specs The specs for the columns or rows. Last index will be used of fromIx + len is greater than this array's length.
- * @param targetSize The size to try to meet.
- * @param defGrow The default grow weight if the specs does not have anyone that will grow. Comes from "push" in the CC.
- * @param fromIx
- * @param len
- * @param sizeType
- * @param eagerness How eager the algorithm should be to try to expand the sizes.
- *
- *
0 - Grow only rows/columns which have the sizeType set to be the containing components AND which has a grow weight > 0.
- *
1 - Grow only rows/columns which have the sizeType set to be the containing components AND which has a grow weight > 0 OR unspecified.
- *
2 - Grow all rows/columns that have a grow weight > 0.
- *
3 - Grow all rows/columns that have a grow weight > 0 OR unspecified.
- *
- * @return The new size.
- */
- private int expandSizes(DimConstraint[] specs, Float[] defGrow, int targetSize, int fromIx, int len, int sizeType, int eagerness)
- {
- ResizeConstraint[] resConstr = new ResizeConstraint[len];
- int[][] sizesToExpand = new int[len][];
- for (int i = 0; i < len; i++) {
- int[] minPrefMax = sizes[i + fromIx];
- sizesToExpand[i] = new int[] {minPrefMax[sizeType], minPrefMax[LayoutUtil.PREF], minPrefMax[LayoutUtil.MAX]};
-
- if (eagerness <= 1 && i % 2 == 0) { // (i % 2 == 0) means only odd indexes, which is only rows/col indexes and not gaps.
- int cIx = (i + fromIx - 1) >> 1;
- DimConstraint spec = (DimConstraint) LayoutUtil.getIndexSafe(specs, cIx);
-
- BoundSize sz = spec.getSize();
- if ( (sizeType == LayoutUtil.MIN && sz.getMin() != null && sz.getMin().getUnit() != UnitValue.MIN_SIZE) ||
- (sizeType == LayoutUtil.PREF && sz.getPreferred() != null && sz.getPreferred().getUnit() != UnitValue.PREF_SIZE)) {
- continue;
- }
- }
- resConstr[i] = (ResizeConstraint) LayoutUtil.getIndexSafe(resConstsInclGaps, i + fromIx);
- }
-
- Float[] growW = (eagerness == 1 || eagerness == 3) ? extractSubArray(specs, defGrow, fromIx, len): null;
- int[] newSizes = LayoutUtil.calculateSerial(sizesToExpand, resConstr, growW, LayoutUtil.PREF, targetSize);
- int newSize = 0;
-
- for (int i = 0; i < len; i++) {
- int s = newSizes[i];
- sizes[i + fromIx][sizeType] = s;
- newSize += s;
- }
- return newSize;
- }
- }
-
- private static Float[] extractSubArray(DimConstraint[] specs, Float[] arr, int ix, int len)
- {
- if (arr == null || arr.length < ix + len) {
- Float[] growLastArr = new Float[len];
-
- // Handle a group where some rows (first one/few and/or last one/few) are docks.
- for (int i = ix + len - 1; i >= 0; i -= 2) {
- int specIx = (i >> 1);
- if (specs[specIx] != DOCK_DIM_CONSTRAINT) {
- growLastArr[i - ix] = ResizeConstraint.WEIGHT_100;
- return growLastArr;
- }
- }
- return growLastArr;
- }
-
- Float[] newArr = new Float[len];
- System.arraycopy(arr, ix, newArr, 0, len);
- return newArr;
- }
-
- private static WeakHashMap