mirror of
https://github.com/moparisthebest/k-9
synced 2024-11-16 14:35:04 -05:00
432 lines
13 KiB
Java
432 lines
13 KiB
Java
package com.fsck.k9.search;
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import java.util.ArrayList;
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import java.util.HashSet;
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import java.util.List;
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import java.util.Stack;
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import android.database.Cursor;
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import android.os.Parcel;
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import android.os.Parcelable;
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import com.fsck.k9.search.SearchSpecification.Attribute;
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import com.fsck.k9.search.SearchSpecification.Searchfield;
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import com.fsck.k9.search.SearchSpecification.SearchCondition;
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/**
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* This class stores search conditions. It's basically a boolean expression binary tree.
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* The output will be SQL queries ( obtained by traversing inorder ).
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*
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* TODO removing conditions from the tree
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* TODO implement NOT as a node again
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*/
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public class ConditionsTreeNode implements Parcelable {
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public enum Operator {
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AND, OR, CONDITION;
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}
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public ConditionsTreeNode mLeft;
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public ConditionsTreeNode mRight;
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public ConditionsTreeNode mParent;
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/*
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* If mValue isn't CONDITION then mCondition contains a real
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* condition, otherwise it's null.
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*/
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public Operator mValue;
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public SearchCondition mCondition;
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/*
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* Used for storing and retrieving the tree to/from the database.
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* The algorithm is called "modified preorder tree traversal".
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*/
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public int mLeftMPTTMarker;
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public int mRightMPTTMarker;
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///////////////////////////////////////////////////////////////
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// Static Helpers to restore a tree from a database cursor
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///////////////////////////////////////////////////////////////
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/**
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* Builds a condition tree starting from a database cursor. The cursor
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* should point to rows representing the nodes of the tree.
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*
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* @param cursor Cursor pointing to the first of a bunch or rows. Each rows
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* should contains 1 tree node.
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* @return A condition tree.
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*/
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public static ConditionsTreeNode buildTreeFromDB(Cursor cursor) {
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Stack<ConditionsTreeNode> stack = new Stack<ConditionsTreeNode>();
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ConditionsTreeNode tmp = null;
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// root node
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if (cursor.moveToFirst()) {
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tmp = buildNodeFromRow(cursor);
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stack.push(tmp);
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}
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// other nodes
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while (cursor.moveToNext()) {
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tmp = buildNodeFromRow(cursor);
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if (tmp.mRightMPTTMarker < stack.peek().mRightMPTTMarker) {
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stack.peek().mLeft = tmp;
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stack.push(tmp);
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} else {
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while (stack.peek().mRightMPTTMarker < tmp.mRightMPTTMarker) {
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stack.pop();
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}
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stack.peek().mRight = tmp;
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}
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}
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return tmp;
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}
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/**
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* Converts a single database row to a single condition node.
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*
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* @param cursor Cursor pointing to the row we want to convert.
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* @return A single ConditionsTreeNode
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*/
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private static ConditionsTreeNode buildNodeFromRow(Cursor cursor) {
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ConditionsTreeNode result = null;
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SearchCondition condition = null;
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Operator tmpValue = ConditionsTreeNode.Operator.valueOf(cursor.getString(5));
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if (tmpValue == Operator.CONDITION) {
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condition = new SearchCondition(Searchfield.valueOf(cursor.getString(0)),
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Attribute.valueOf(cursor.getString(2)), cursor.getString(1));
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}
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result = new ConditionsTreeNode(condition);
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result.mValue = tmpValue;
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result.mLeftMPTTMarker = cursor.getInt(3);
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result.mRightMPTTMarker = cursor.getInt(4);
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return result;
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}
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///////////////////////////////////////////////////////////////
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// Constructors
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///////////////////////////////////////////////////////////////
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public ConditionsTreeNode(SearchCondition condition) {
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mParent = null;
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mCondition = condition;
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mValue = Operator.CONDITION;
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}
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public ConditionsTreeNode(ConditionsTreeNode parent, Operator op) {
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mParent = parent;
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mValue = op;
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mCondition = null;
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}
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/* package */ ConditionsTreeNode cloneTree() {
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if (mParent != null) {
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throw new IllegalStateException("Can't call cloneTree() for a non-root node");
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}
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ConditionsTreeNode copy = new ConditionsTreeNode(mCondition.clone());
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copy.mLeftMPTTMarker = mLeftMPTTMarker;
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copy.mRightMPTTMarker = mRightMPTTMarker;
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copy.mLeft = (mLeft == null) ? null : mLeft.cloneNode(copy);
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copy.mRight = (mRight == null) ? null : mRight.cloneNode(copy);
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return copy;
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}
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private ConditionsTreeNode cloneNode(ConditionsTreeNode parent) {
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ConditionsTreeNode copy = new ConditionsTreeNode(parent, mValue);
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copy.mCondition = mCondition.clone();
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copy.mLeftMPTTMarker = mLeftMPTTMarker;
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copy.mRightMPTTMarker = mRightMPTTMarker;
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copy.mLeft = (mLeft == null) ? null : mLeft.cloneNode(copy);
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copy.mRight = (mRight == null) ? null : mRight.cloneNode(copy);
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return copy;
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}
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///////////////////////////////////////////////////////////////
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// Public modifiers
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///////////////////////////////////////////////////////////////
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/**
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* Adds the expression as the second argument of an AND
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* clause to this node.
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*
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* @param expr Expression to 'AND' with.
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* @return New top AND node.
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* @throws Exception
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*/
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public ConditionsTreeNode and(ConditionsTreeNode expr) throws Exception {
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return add(expr, Operator.AND);
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}
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/**
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* Convenience method.
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* Adds the provided condition as the second argument of an AND
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* clause to this node.
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*
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* @param condition Condition to 'AND' with.
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* @return New top AND node, new root.
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*/
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public ConditionsTreeNode and(SearchCondition condition) {
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try {
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ConditionsTreeNode tmp = new ConditionsTreeNode(condition);
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return and(tmp);
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} catch (Exception e) {
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// impossible
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return null;
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}
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}
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/**
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* Adds the expression as the second argument of an OR
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* clause to this node.
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*
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* @param expr Expression to 'OR' with.
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* @return New top OR node.
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* @throws Exception
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*/
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public ConditionsTreeNode or(ConditionsTreeNode expr) throws Exception {
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return add(expr, Operator.OR);
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}
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/**
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* Convenience method.
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* Adds the provided condition as the second argument of an OR
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* clause to this node.
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*
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* @param condition Condition to 'OR' with.
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* @return New top OR node, new root.
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*/
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public ConditionsTreeNode or(SearchCondition condition) {
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try {
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ConditionsTreeNode tmp = new ConditionsTreeNode(condition);
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return or(tmp);
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} catch (Exception e) {
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// impossible
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return null;
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}
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}
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/**
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* This applies the MPTT labeling to the subtree of which this node
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* is the root node.
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*
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* For a description on MPTT see:
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* http://www.sitepoint.com/hierarchical-data-database-2/
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*/
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public void applyMPTTLabel() {
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applyMPTTLabel(1);
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}
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///////////////////////////////////////////////////////////////
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// Public accessors
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///////////////////////////////////////////////////////////////
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/**
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* Returns the condition stored in this node.
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* @return Condition stored in the node.
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*/
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public SearchCondition getCondition() {
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return mCondition;
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}
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/**
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* Get a set of all the leaves in the tree.
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* @return Set of all the leaves.
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*/
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public HashSet<ConditionsTreeNode> getLeafSet() {
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HashSet<ConditionsTreeNode> leafSet = new HashSet<ConditionsTreeNode>();
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return getLeafSet(leafSet);
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}
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/**
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* Returns a list of all the nodes in the subtree of which this node
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* is the root. The list contains the nodes in a pre traversal order.
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*
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* @return List of all nodes in subtree in preorder.
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*/
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public List<ConditionsTreeNode> preorder() {
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ArrayList<ConditionsTreeNode> result = new ArrayList<ConditionsTreeNode>();
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Stack<ConditionsTreeNode> stack = new Stack<ConditionsTreeNode>();
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stack.push(this);
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while (!stack.isEmpty()) {
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ConditionsTreeNode current = stack.pop();
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if (current.mLeft != null) {
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stack.push(current.mLeft);
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}
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if (current.mRight != null) {
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stack.push(current.mRight);
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}
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result.add(current);
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}
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return result;
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}
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///////////////////////////////////////////////////////////////
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// Private class logic
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///////////////////////////////////////////////////////////////
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/**
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* Adds two new ConditionTreeNodes, one for the operator and one for the
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* new condition. The current node will end up on the same level as the
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* one provided in the arguments, they will be siblings. Their common
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* parent node will be one containing the operator provided in the arguments.
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* The method will update all the required references so the tree ends up in
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* a valid state.
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*
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* This method only supports node arguments with a null parent node.
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*
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* @param Node to add.
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* @param Operator that will connect the new node with this one.
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* @return New parent node, containing the operator.
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* @throws Exception Throws when the provided new node does not have a null parent.
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*/
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private ConditionsTreeNode add(ConditionsTreeNode node, Operator op) throws Exception {
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if (node.mParent != null) {
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throw new Exception("Can only add new expressions from root node down.");
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}
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ConditionsTreeNode tmpNode = new ConditionsTreeNode(mParent, op);
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tmpNode.mLeft = this;
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tmpNode.mRight = node;
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if (mParent != null) {
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mParent.updateChild(this, tmpNode);
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}
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this.mParent = tmpNode;
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node.mParent = tmpNode;
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return tmpNode;
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}
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/**
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* Helper method that replaces a child of the current node with a new node.
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* If the provided old child node was the left one, left will be replaced with
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* the new one. Same goes for the right one.
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*
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* @param oldChild Old child node to be replaced.
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* @param newChild New child node.
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*/
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private void updateChild(ConditionsTreeNode oldChild, ConditionsTreeNode newChild) {
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// we can compare objects id's because this is the desired behaviour in this case
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if (mLeft == oldChild) {
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mLeft = newChild;
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} else if (mRight == oldChild) {
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mRight = newChild;
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}
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}
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/**
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* Recursive function to gather all the leaves in the subtree of which
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* this node is the root.
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*
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* @param leafSet Leafset that's being built.
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* @return Set of leaves being completed.
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*/
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private HashSet<ConditionsTreeNode> getLeafSet(HashSet<ConditionsTreeNode> leafSet) {
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if (mLeft == null && mRight == null) {
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// if we ended up in a leaf, add ourself and return
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leafSet.add(this);
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return leafSet;
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}
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// we didn't end up in a leaf
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if (mLeft != null) {
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mLeft.getLeafSet(leafSet);
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}
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if (mRight != null) {
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mRight.getLeafSet(leafSet);
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}
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return leafSet;
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}
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/**
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* This applies the MPTT labeling to the subtree of which this node
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* is the root node.
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*
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* For a description on MPTT see:
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* http://www.sitepoint.com/hierarchical-data-database-2/
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*/
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private int applyMPTTLabel(int label) {
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mLeftMPTTMarker = label;
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if (mLeft != null) {
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label = mLeft.applyMPTTLabel(label += 1);
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}
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if (mRight != null) {
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label = mRight.applyMPTTLabel(label += 1);
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}
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++label;
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mRightMPTTMarker = label;
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return label;
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}
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///////////////////////////////////////////////////////////////
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// Parcelable
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//
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// This whole class has to be parcelable because it's passed
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// on through intents.
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///////////////////////////////////////////////////////////////
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@Override
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public int describeContents() {
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return 0;
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}
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@Override
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public void writeToParcel(Parcel dest, int flags) {
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dest.writeInt(mValue.ordinal());
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dest.writeParcelable(mCondition, flags);
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dest.writeParcelable(mLeft, flags);
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dest.writeParcelable(mRight, flags);
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}
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public static final Parcelable.Creator<ConditionsTreeNode> CREATOR =
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new Parcelable.Creator<ConditionsTreeNode>() {
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@Override
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public ConditionsTreeNode createFromParcel(Parcel in) {
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return new ConditionsTreeNode(in);
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}
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@Override
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public ConditionsTreeNode[] newArray(int size) {
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return new ConditionsTreeNode[size];
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}
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};
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private ConditionsTreeNode(Parcel in) {
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mValue = Operator.values()[in.readInt()];
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mCondition = in.readParcelable(ConditionsTreeNode.class.getClassLoader());
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mLeft = in.readParcelable(ConditionsTreeNode.class.getClassLoader());
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mRight = in.readParcelable(ConditionsTreeNode.class.getClassLoader());
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mParent = null;
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if (mLeft != null) {
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mLeft.mParent = this;
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}
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if (mRight != null) {
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mRight.mParent = this;
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}
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}
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}
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