diff options
Diffstat (limited to 'eclipse/plugins/com.android.ide.eclipse.adt/src/com/android/ide/eclipse/adt/internal/editors/layout/ExplodedRenderingHelper.java')
-rw-r--r-- | eclipse/plugins/com.android.ide.eclipse.adt/src/com/android/ide/eclipse/adt/internal/editors/layout/ExplodedRenderingHelper.java | 421 |
1 files changed, 421 insertions, 0 deletions
diff --git a/eclipse/plugins/com.android.ide.eclipse.adt/src/com/android/ide/eclipse/adt/internal/editors/layout/ExplodedRenderingHelper.java b/eclipse/plugins/com.android.ide.eclipse.adt/src/com/android/ide/eclipse/adt/internal/editors/layout/ExplodedRenderingHelper.java new file mode 100644 index 000000000..25fa3e991 --- /dev/null +++ b/eclipse/plugins/com.android.ide.eclipse.adt/src/com/android/ide/eclipse/adt/internal/editors/layout/ExplodedRenderingHelper.java @@ -0,0 +1,421 @@ +/* + * Copyright (C) 2009 The Android Open Source Project + * + * Licensed under the Eclipse Public License, Version 1.0 (the "License"); + * you may not use this file except in compliance with the License. + * You may obtain a copy of the License at + * + * http://www.eclipse.org/org/documents/epl-v10.php + * + * Unless required by applicable law or agreed to in writing, software + * distributed under the License is distributed on an "AS IS" BASIS, + * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. + * See the License for the specific language governing permissions and + * limitations under the License. + */ + +package com.android.ide.eclipse.adt.internal.editors.layout; + +import com.android.SdkConstants; +import com.android.ide.eclipse.adt.internal.editors.layout.descriptors.LayoutDescriptors; +import com.android.ide.eclipse.adt.internal.editors.layout.descriptors.ViewElementDescriptor; +import com.android.ide.eclipse.adt.internal.sdk.AndroidTargetData; +import com.android.ide.eclipse.adt.internal.sdk.Sdk; +import com.android.sdklib.IAndroidTarget; + +import org.eclipse.core.resources.IProject; +import org.w3c.dom.NamedNodeMap; +import org.w3c.dom.Node; +import org.w3c.dom.NodeList; + +import java.util.ArrayList; +import java.util.Collection; +import java.util.HashMap; +import java.util.HashSet; +import java.util.List; +import java.util.Map; +import java.util.Map.Entry; +import java.util.Set; + +/** + * This class computes the new screen size in "exploded rendering" mode. + * It goes through the whole layout tree and figures out how many embedded layouts will have + * extra padding and compute how that will affect the screen size. + * + * TODO + * - find a better class name :) + * - move the logic for each layout to the layout rule classes? + * - support custom classes (by querying JDT for its super class and reverting to its behavior) + */ +public final class ExplodedRenderingHelper { + /** value of the padding in pixel. + * TODO: make a preference? + */ + public final static int PADDING_VALUE = 10; + + private final int[] mPadding = new int[] { 0, 0 }; + private Set<String> mLayoutNames; + + /** + * Computes the padding. access the result through {@link #getWidthPadding()} and + * {@link #getHeightPadding()}. + * @param root the root node (ie the top layout). + * @param iProject the project to which the layout belong. + */ + public ExplodedRenderingHelper(Node root, IProject iProject) { + // get the layout descriptors to get the name of all the layout classes. + IAndroidTarget target = Sdk.getCurrent().getTarget(iProject); + AndroidTargetData data = Sdk.getCurrent().getTargetData(target); + LayoutDescriptors descriptors = data.getLayoutDescriptors(); + + mLayoutNames = new HashSet<String>(); + List<ViewElementDescriptor> layoutDescriptors = descriptors.getLayoutDescriptors(); + for (ViewElementDescriptor desc : layoutDescriptors) { + mLayoutNames.add(desc.getXmlLocalName()); + } + + computePadding(root, mPadding); + } + + /** + * (Unit tests only) + * Computes the padding. access the result through {@link #getWidthPadding()} and + * {@link #getHeightPadding()}. + * @param root the root node (ie the top layout). + * @param layoutNames the list of layout classes + */ + public ExplodedRenderingHelper(Node root, Set<String> layoutNames) { + mLayoutNames = layoutNames; + + computePadding(root, mPadding); + } + + /** + * Returns the number of extra padding in the X axis. This doesn't return a number of pixel + * or dip, but how many paddings are pushing the screen dimension out. + */ + public int getWidthPadding() { + return mPadding[0]; + } + + /** + * Returns the number of extra padding in the Y axis. This doesn't return a number of pixel + * or dip, but how many paddings are pushing the screen dimension out. + */ + public int getHeightPadding() { + return mPadding[1]; + } + + /** + * Computes the number of padding for a given view, and fills the given array of int. + * <p/>index 0 is X axis, index 1 is Y axis + * @param view the view to compute + * @param padding the result padding (index 0 is X axis, index 1 is Y axis) + */ + private void computePadding(Node view, int[] padding) { + String localName = view.getLocalName(); + + // first compute for each children + NodeList children = view.getChildNodes(); + int count = children.getLength(); + if (count > 0) { + // compute the padding for all the children. + Map<Node, int[]> childrenPadding = new HashMap<Node, int[]>(count); + for (int i = 0 ; i < count ; i++) { + Node child = children.item(i); + short type = child.getNodeType(); + if (type == Node.ELEMENT_NODE) { // ignore TEXT/CDATA nodes. + int[] p = new int[] { 0, 0 }; + childrenPadding.put(child, p); + computePadding(child, p); + } + } + + // since the non ELEMENT_NODE children were filtered out, count must be updated. + count = childrenPadding.size(); + + // now combine/compare based on the parent. + if (count == 1) { + int[] p = childrenPadding.get(childrenPadding.keySet().iterator().next()); + padding[0] = p[0]; + padding[1] = p[1]; + } else { + if ("LinearLayout".equals(localName)) { //$NON-NLS-1$ + String orientation = getAttribute(view, "orientation", null); //$NON-NLS-1$ + + // default value is horizontal + boolean horizontal = orientation == null || + "horizontal".equals("vertical"); //$NON-NLS-1$ //$NON-NLS-2$ + combineLinearLayout(childrenPadding.values(), padding, horizontal); + } else if ("TableLayout".equals(localName)) { //$NON-NLS-1$ + combineLinearLayout(childrenPadding.values(), padding, false /*horizontal*/); + } else if ("TableRow".equals(localName)) { //$NON-NLS-1$ + combineLinearLayout(childrenPadding.values(), padding, true /*true*/); + // TODO: properly support Relative Layouts. +// } else if ("RelativeLayout".equals(localName)) { //$NON-NLS-1$ +// combineRelativeLayout(childrenPadding, padding); + } else { + // unknown layout. For now, let's consider it's better to add the children + // margins in both dimensions than not at all. + for (int[] p : childrenPadding.values()) { + padding[0] += p[0]; + padding[1] += p[1]; + } + } + } + } + + // if the view itself is a layout, add its padding + if (mLayoutNames.contains(localName)) { + padding[0]++; + padding[1]++; + } + } + + /** + * Combines the padding of the children of a linear layout. + * <p/>For this layout, the padding of the children are added in the direction of + * the layout, while the max is taken for the other direction. + * @param paddings the list of the padding for the children. + * @param resultPadding the result padding array to fill. + * @param horizontal whether this layout is horizontal (<code>true</code>) or vertical + * (<code>false</code>) + */ + private void combineLinearLayout(Collection<int[]> paddings, int[] resultPadding, + boolean horizontal) { + // The way the children are combined will depend on the direction. + // For instance in a vertical layout, we add the y padding as they all add to the length + // of the needed canvas, while we take the biggest x padding needed by the children + + // the axis in which we take the sum of the padding of the children + int sumIndex = horizontal ? 0 : 1; + // the axis in which we take the max of the padding of the children + int maxIndex = horizontal ? 1 : 0; + + int max = -1; + for (int[] p : paddings) { + resultPadding[sumIndex] += p[sumIndex]; + if (max == -1 || max < p[maxIndex]) { + max = p[maxIndex]; + } + } + resultPadding[maxIndex] = max; + } + + /** + * Combine the padding of children of a relative layout. + * @param childrenPadding a map of the children. This is guaranteed that the node object + * are of type ELEMENT_NODE + * @param padding + * + * TODO: Not used yet. Still need (lots of) work. + */ + private void combineRelativeLayout(Map<Node, int[]> childrenPadding, int[] padding) { + /* + * Combines the children of the layout. + * The way this works: for each children, for each direction, look for all the chidrens + * connected and compute the combined margin in that direction. + * + * There's a chance the returned value will be too much. this is due to the layout sometimes + * dropping views which will not be dropped here. It's ok, as it's better to have too + * much than not enough. + * We could fix this by matching those UiElementNode with their bounds as returned + * by the rendering (ie if bounds is 0/0 in h/w, then ignore the child) + */ + + // list of the UiElementNode + Set<Node> nodeSet = childrenPadding.keySet(); + // map of Id -> node + Map<String, Node> idNodeMap = computeIdNodeMap(nodeSet); + + for (Entry<Node, int[]> entry : childrenPadding.entrySet()) { + Node node = entry.getKey(); + + // first horizontal, to the left. + int[] leftResult = getBiggestMarginInDirection(node, 0 /*horizontal*/, + "layout_toRightOf", "layout_toLeftOf", //$NON-NLS-1$ //$NON-NLS-2$ + childrenPadding, nodeSet, idNodeMap, + false /*includeThisPadding*/); + + // then to the right + int[] rightResult = getBiggestMarginInDirection(node, 0 /*horizontal*/, + "layout_toLeftOf", "layout_toRightOf", //$NON-NLS-1$ //$NON-NLS-2$ + childrenPadding, nodeSet, idNodeMap, + false /*includeThisPadding*/); + + // compute total horizontal margins + int[] thisPadding = childrenPadding.get(node); + int combinedMargin = + (thisPadding != null ? thisPadding[0] : 0) + + (leftResult != null ? leftResult[0] : 0) + + (rightResult != null ? rightResult[0] : 0); + if (combinedMargin > padding[0]) { + padding[0] = combinedMargin; + } + + // first vertical, above. + int[] topResult = getBiggestMarginInDirection(node, 1 /*horizontal*/, + "layout_below", "layout_above", //$NON-NLS-1$ //$NON-NLS-2$ + childrenPadding, nodeSet, idNodeMap, + false /*includeThisPadding*/); + + // then below + int[] bottomResult = getBiggestMarginInDirection(node, 1 /*horizontal*/, + "layout_above", "layout_below", //$NON-NLS-1$ //$NON-NLS-2$ + childrenPadding, nodeSet, idNodeMap, + false /*includeThisPadding*/); + + // compute total horizontal margins + combinedMargin = + (thisPadding != null ? thisPadding[1] : 0) + + (topResult != null ? topResult[1] : 0) + + (bottomResult != null ? bottomResult[1] : 0); + if (combinedMargin > padding[1]) { + padding[1] = combinedMargin; + } + } + } + + /** + * Computes the biggest margin in a given direction. + * + * TODO: Not used yet. Still need (lots of) work. + */ + private int[] getBiggestMarginInDirection(Node node, int resIndex, String relativeTo, + String inverseRelation, Map<Node, int[]> childrenPadding, + Set<Node> nodeSet, Map<String, Node> idNodeMap, + boolean includeThisPadding) { + NamedNodeMap attributes = node.getAttributes(); + + String viewId = getAttribute(node, "id", attributes); //$NON-NLS-1$ + + // first get the item this one is positioned relative to. + String toLeftOfRef = getAttribute(node, relativeTo, attributes); + Node toLeftOf = null; + if (toLeftOfRef != null) { + toLeftOf = idNodeMap.get(cleanUpIdReference(toLeftOfRef)); + } + + ArrayList<Node> list = null; + if (viewId != null) { + // now to the left for items being placed to the left of this one. + list = getMatchingNode(nodeSet, cleanUpIdReference(viewId), inverseRelation); + } + + // now process each children in the same direction. + if (toLeftOf != null) { + if (list == null) { + list = new ArrayList<Node>(); + } + + if (list.indexOf(toLeftOf) == -1) { + list.add(toLeftOf); + } + } + + int[] thisPadding = childrenPadding.get(node); + + if (list != null) { + // since there's a combination to do, we'll return a new result object + int[] result = null; + for (Node nodeOnLeft : list) { + int[] tempRes = getBiggestMarginInDirection(nodeOnLeft, resIndex, relativeTo, + inverseRelation, childrenPadding, nodeSet, idNodeMap, true); + if (tempRes != null && (result == null || result[resIndex] < tempRes[resIndex])) { + result = tempRes; + } + } + + // return the combined padding + if (includeThisPadding == false || thisPadding[resIndex] == 0) { + // just return the one we got since this object adds no padding (or doesn't + // need to be comibined) + return result; + } else if (result != null) { // if result is null, the main return below is used. + // add the result we got with the padding from the current node + int[] realRes = new int [2]; + realRes[resIndex] = thisPadding[resIndex] + result[resIndex]; + return realRes; + } + } + + // if we reach this, there were no other views to the left of this one, so just return + // the view padding. + return includeThisPadding ? thisPadding : null; + } + + /** + * Computes and returns a map of (id, node) for each node of a given {@link Set}. + * <p/> + * Nodes with no id are ignored and not put in the map. + * @param nodes the nodes to fill the map with. + * @return a newly allocated, non-null, map of (id, node) + */ + private Map<String, Node> computeIdNodeMap(Set<Node> nodes) { + Map<String, Node> map = new HashMap<String, Node>(); + for (Node node : nodes) { + String viewId = getAttribute(node, "id", null); //$NON-NLS-1$ + if (viewId != null) { + map.put(cleanUpIdReference(viewId), node); + } + } + return map; + } + + /** + * Cleans up a reference to an ID to return the ID itself only. + * @param reference the reference to "clean up". + * @return the id string only. + */ + private String cleanUpIdReference(String reference) { + // format is @id/foo or @+id/foo or @android:id/foo, or something similar. + int slash = reference.indexOf('/'); + return reference.substring(slash); + } + + /** + * Returns a list of nodes for which a given attribute contains a reference to a given ID. + * + * @param nodes the list of nodes to search through + * @param resId the requested ID + * @param attribute the name of the attribute to test. + * @return a newly allocated, non-null, list of nodes. Could be empty. + */ + private ArrayList<Node> getMatchingNode(Set<Node> nodes, String resId, + String attribute) { + ArrayList<Node> list = new ArrayList<Node>(); + + for (Node node : nodes) { + String value = getAttribute(node, attribute, null); + if (value != null) { + value = cleanUpIdReference(value); + if (value.equals(resId)) { + list.add(node); + } + } + } + + return list; + } + + /** + * Returns an attribute for a given node. + * @param node the node to query + * @param name the name of an attribute + * @param attributes the option {@link NamedNodeMap} object to use to read the attributes from. + */ + private static String getAttribute(Node node, String name, NamedNodeMap attributes) { + if (attributes == null) { + attributes = node.getAttributes(); + } + + if (attributes != null) { + Node attribute = attributes.getNamedItemNS(SdkConstants.NS_RESOURCES, name); + if (attribute != null) { + return attribute.getNodeValue(); + } + } + + return null; + } +} |