core/java/com/android/internal/widget/OpReorderer.java - platform/frameworks/base - Git at Google

 /*
  * Copyright (C) 2017 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0
  *
  * 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.internal.widget;

 import static com.android.internal.widget.AdapterHelper.UpdateOp.ADD;
 import static com.android.internal.widget.AdapterHelper.UpdateOp.MOVE;
 import static com.android.internal.widget.AdapterHelper.UpdateOp.REMOVE;
 import static com.android.internal.widget.AdapterHelper.UpdateOp.UPDATE;

 import com.android.internal.widget.AdapterHelper.UpdateOp;

 import java.util.List;

 class OpReorderer {

     final Callback mCallback;

     OpReorderer(Callback callback) {
         mCallback = callback;
     }

     void reorderOps(List<UpdateOp> ops) {
         // since move operations breaks continuity, their effects on ADD/RM are hard to handle.
         // we push them to the end of the list so that they can be handled easily.
         int badMove;
         while ((badMove = getLastMoveOutOfOrder(ops)) != -1) {
             swapMoveOp(ops, badMove, badMove + 1);
         }
     }

     private void swapMoveOp(List<UpdateOp> list, int badMove, int next) {
         final UpdateOp moveOp = list.get(badMove);
         final UpdateOp nextOp = list.get(next);
         switch (nextOp.cmd) {
             case REMOVE:
                 swapMoveRemove(list, badMove, moveOp, next, nextOp);
                 break;
             case ADD:
                 swapMoveAdd(list, badMove, moveOp, next, nextOp);
                 break;
             case UPDATE:
                 swapMoveUpdate(list, badMove, moveOp, next, nextOp);
                 break;
         }
     }

     void swapMoveRemove(List<UpdateOp> list, int movePos, UpdateOp moveOp,
             int removePos, UpdateOp removeOp) {
         UpdateOp extraRm = null;
         // check if move is nulled out by remove
         boolean revertedMove = false;
         final boolean moveIsBackwards;

         if (moveOp.positionStart < moveOp.itemCount) {
             moveIsBackwards = false;
             if (removeOp.positionStart == moveOp.positionStart
                     && removeOp.itemCount == moveOp.itemCount - moveOp.positionStart) {
                 revertedMove = true;
             }
         } else {
             moveIsBackwards = true;
             if (removeOp.positionStart == moveOp.itemCount + 1
                     && removeOp.itemCount == moveOp.positionStart - moveOp.itemCount) {
                 revertedMove = true;
             }
         }

         // going in reverse, first revert the effect of add
         if (moveOp.itemCount < removeOp.positionStart) {
             removeOp.positionStart--;
         } else if (moveOp.itemCount < removeOp.positionStart + removeOp.itemCount) {
             // move is removed.
             removeOp.itemCount--;
             moveOp.cmd = REMOVE;
             moveOp.itemCount = 1;
             if (removeOp.itemCount == 0) {
                 list.remove(removePos);
                 mCallback.recycleUpdateOp(removeOp);
             }
             // no need to swap, it is already a remove
             return;
         }

         // now affect of add is consumed. now apply effect of first remove
         if (moveOp.positionStart <= removeOp.positionStart) {
             removeOp.positionStart++;
         } else if (moveOp.positionStart < removeOp.positionStart + removeOp.itemCount) {
             final int remaining = removeOp.positionStart + removeOp.itemCount
                     - moveOp.positionStart;
             extraRm = mCallback.obtainUpdateOp(REMOVE, moveOp.positionStart + 1, remaining, null);
             removeOp.itemCount = moveOp.positionStart - removeOp.positionStart;
         }

         // if effects of move is reverted by remove, we are done.
         if (revertedMove) {
             list.set(movePos, removeOp);
             list.remove(removePos);
             mCallback.recycleUpdateOp(moveOp);
             return;
         }

         // now find out the new locations for move actions
         if (moveIsBackwards) {
             if (extraRm != null) {
                 if (moveOp.positionStart > extraRm.positionStart) {
                     moveOp.positionStart -= extraRm.itemCount;
                 }
                 if (moveOp.itemCount > extraRm.positionStart) {
                     moveOp.itemCount -= extraRm.itemCount;
                 }
             }
             if (moveOp.positionStart > removeOp.positionStart) {
                 moveOp.positionStart -= removeOp.itemCount;
             }
             if (moveOp.itemCount > removeOp.positionStart) {
                 moveOp.itemCount -= removeOp.itemCount;
             }
         } else {
             if (extraRm != null) {
                 if (moveOp.positionStart >= extraRm.positionStart) {
                     moveOp.positionStart -= extraRm.itemCount;
                 }
                 if (moveOp.itemCount >= extraRm.positionStart) {
                     moveOp.itemCount -= extraRm.itemCount;
                 }
             }
             if (moveOp.positionStart >= removeOp.positionStart) {
                 moveOp.positionStart -= removeOp.itemCount;
             }
             if (moveOp.itemCount >= removeOp.positionStart) {
                 moveOp.itemCount -= removeOp.itemCount;
             }
         }

         list.set(movePos, removeOp);
         if (moveOp.positionStart != moveOp.itemCount) {
             list.set(removePos, moveOp);
         } else {
             list.remove(removePos);
         }
         if (extraRm != null) {
             list.add(movePos, extraRm);
         }
     }

     private void swapMoveAdd(List<UpdateOp> list, int move, UpdateOp moveOp, int add,
             UpdateOp addOp) {
         int offset = 0;
         // going in reverse, first revert the effect of add
         if (moveOp.itemCount < addOp.positionStart) {
             offset--;
         }
         if (moveOp.positionStart < addOp.positionStart) {
             offset++;
         }
         if (addOp.positionStart <= moveOp.positionStart) {
             moveOp.positionStart += addOp.itemCount;
         }
         if (addOp.positionStart <= moveOp.itemCount) {
             moveOp.itemCount += addOp.itemCount;
         }
         addOp.positionStart += offset;
         list.set(move, addOp);
         list.set(add, moveOp);
     }

     void swapMoveUpdate(List<UpdateOp> list, int move, UpdateOp moveOp, int update,
             UpdateOp updateOp) {
         UpdateOp extraUp1 = null;
         UpdateOp extraUp2 = null;
         // going in reverse, first revert the effect of add
         if (moveOp.itemCount < updateOp.positionStart) {
             updateOp.positionStart--;
         } else if (moveOp.itemCount < updateOp.positionStart + updateOp.itemCount) {
             // moved item is updated. add an update for it
             updateOp.itemCount--;
             extraUp1 = mCallback.obtainUpdateOp(UPDATE, moveOp.positionStart, 1, updateOp.payload);
         }
         // now affect of add is consumed. now apply effect of first remove
         if (moveOp.positionStart <= updateOp.positionStart) {
             updateOp.positionStart++;
         } else if (moveOp.positionStart < updateOp.positionStart + updateOp.itemCount) {
             final int remaining = updateOp.positionStart + updateOp.itemCount
                     - moveOp.positionStart;
             extraUp2 = mCallback.obtainUpdateOp(UPDATE, moveOp.positionStart + 1, remaining,
                     updateOp.payload);
             updateOp.itemCount -= remaining;
         }
         list.set(update, moveOp);
         if (updateOp.itemCount > 0) {
             list.set(move, updateOp);
         } else {
             list.remove(move);
             mCallback.recycleUpdateOp(updateOp);
         }
         if (extraUp1 != null) {
             list.add(move, extraUp1);
         }
         if (extraUp2 != null) {
             list.add(move, extraUp2);
         }
     }

     private int getLastMoveOutOfOrder(List<UpdateOp> list) {
         boolean foundNonMove = false;
         for (int i = list.size() - 1; i >= 0; i--) {
             final UpdateOp op1 = list.get(i);
             if (op1.cmd == MOVE) {
                 if (foundNonMove) {
                     return i;
                 }
             } else {
                 foundNonMove = true;
             }
         }
         return -1;
     }

     interface Callback {

         UpdateOp obtainUpdateOp(int cmd, int startPosition, int itemCount, Object payload);

         void recycleUpdateOp(UpdateOp op);
     }
 }
	/*
	* Copyright (C) 2017 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (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.apache.org/licenses/LICENSE-2.0
	*
	* 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.internal.widget;

	import static com.android.internal.widget.AdapterHelper.UpdateOp.ADD;
	import static com.android.internal.widget.AdapterHelper.UpdateOp.MOVE;
	import static com.android.internal.widget.AdapterHelper.UpdateOp.REMOVE;
	import static com.android.internal.widget.AdapterHelper.UpdateOp.UPDATE;

	import com.android.internal.widget.AdapterHelper.UpdateOp;

	import java.util.List;

	class OpReorderer {

	final Callback mCallback;

	OpReorderer(Callback callback) {
	mCallback = callback;
	}

	void reorderOps(List<UpdateOp> ops) {
	// since move operations breaks continuity, their effects on ADD/RM are hard to handle.
	// we push them to the end of the list so that they can be handled easily.
	int badMove;
	while ((badMove = getLastMoveOutOfOrder(ops)) != -1) {
	swapMoveOp(ops, badMove, badMove + 1);
	}
	}

	private void swapMoveOp(List<UpdateOp> list, int badMove, int next) {
	final UpdateOp moveOp = list.get(badMove);
	final UpdateOp nextOp = list.get(next);
	switch (nextOp.cmd) {
	case REMOVE:
	swapMoveRemove(list, badMove, moveOp, next, nextOp);
	break;
	case ADD:
	swapMoveAdd(list, badMove, moveOp, next, nextOp);
	break;
	case UPDATE:
	swapMoveUpdate(list, badMove, moveOp, next, nextOp);
	break;
	}
	}

	void swapMoveRemove(List<UpdateOp> list, int movePos, UpdateOp moveOp,
	int removePos, UpdateOp removeOp) {
	UpdateOp extraRm = null;
	// check if move is nulled out by remove
	boolean revertedMove = false;
	final boolean moveIsBackwards;

	if (moveOp.positionStart < moveOp.itemCount) {
	moveIsBackwards = false;
	if (removeOp.positionStart == moveOp.positionStart
	&& removeOp.itemCount == moveOp.itemCount - moveOp.positionStart) {
	revertedMove = true;
	}
	} else {
	moveIsBackwards = true;
	if (removeOp.positionStart == moveOp.itemCount + 1
	&& removeOp.itemCount == moveOp.positionStart - moveOp.itemCount) {
	revertedMove = true;
	}
	}

	// going in reverse, first revert the effect of add
	if (moveOp.itemCount < removeOp.positionStart) {
	removeOp.positionStart--;
	} else if (moveOp.itemCount < removeOp.positionStart + removeOp.itemCount) {
	// move is removed.
	removeOp.itemCount--;
	moveOp.cmd = REMOVE;
	moveOp.itemCount = 1;
	if (removeOp.itemCount == 0) {
	list.remove(removePos);
	mCallback.recycleUpdateOp(removeOp);
	}
	// no need to swap, it is already a remove
	return;
	}

	// now affect of add is consumed. now apply effect of first remove
	if (moveOp.positionStart <= removeOp.positionStart) {
	removeOp.positionStart++;
	} else if (moveOp.positionStart < removeOp.positionStart + removeOp.itemCount) {
	final int remaining = removeOp.positionStart + removeOp.itemCount
	- moveOp.positionStart;
	extraRm = mCallback.obtainUpdateOp(REMOVE, moveOp.positionStart + 1, remaining, null);
	removeOp.itemCount = moveOp.positionStart - removeOp.positionStart;
	}

	// if effects of move is reverted by remove, we are done.
	if (revertedMove) {
	list.set(movePos, removeOp);
	list.remove(removePos);
	mCallback.recycleUpdateOp(moveOp);
	return;
	}

	// now find out the new locations for move actions
	if (moveIsBackwards) {
	if (extraRm != null) {
	if (moveOp.positionStart > extraRm.positionStart) {
	moveOp.positionStart -= extraRm.itemCount;
	}
	if (moveOp.itemCount > extraRm.positionStart) {
	moveOp.itemCount -= extraRm.itemCount;
	}
	}
	if (moveOp.positionStart > removeOp.positionStart) {
	moveOp.positionStart -= removeOp.itemCount;
	}
	if (moveOp.itemCount > removeOp.positionStart) {
	moveOp.itemCount -= removeOp.itemCount;
	}
	} else {
	if (extraRm != null) {
	if (moveOp.positionStart >= extraRm.positionStart) {
	moveOp.positionStart -= extraRm.itemCount;
	}
	if (moveOp.itemCount >= extraRm.positionStart) {
	moveOp.itemCount -= extraRm.itemCount;
	}
	}
	if (moveOp.positionStart >= removeOp.positionStart) {
	moveOp.positionStart -= removeOp.itemCount;
	}
	if (moveOp.itemCount >= removeOp.positionStart) {
	moveOp.itemCount -= removeOp.itemCount;
	}
	}

	list.set(movePos, removeOp);
	if (moveOp.positionStart != moveOp.itemCount) {
	list.set(removePos, moveOp);
	} else {
	list.remove(removePos);
	}
	if (extraRm != null) {
	list.add(movePos, extraRm);
	}
	}

	private void swapMoveAdd(List<UpdateOp> list, int move, UpdateOp moveOp, int add,
	UpdateOp addOp) {
	int offset = 0;
	// going in reverse, first revert the effect of add
	if (moveOp.itemCount < addOp.positionStart) {
	offset--;
	}
	if (moveOp.positionStart < addOp.positionStart) {
	offset++;
	}
	if (addOp.positionStart <= moveOp.positionStart) {
	moveOp.positionStart += addOp.itemCount;
	}
	if (addOp.positionStart <= moveOp.itemCount) {
	moveOp.itemCount += addOp.itemCount;
	}
	addOp.positionStart += offset;
	list.set(move, addOp);
	list.set(add, moveOp);
	}

	void swapMoveUpdate(List<UpdateOp> list, int move, UpdateOp moveOp, int update,
	UpdateOp updateOp) {
	UpdateOp extraUp1 = null;
	UpdateOp extraUp2 = null;
	// going in reverse, first revert the effect of add
	if (moveOp.itemCount < updateOp.positionStart) {
	updateOp.positionStart--;
	} else if (moveOp.itemCount < updateOp.positionStart + updateOp.itemCount) {
	// moved item is updated. add an update for it
	updateOp.itemCount--;
	extraUp1 = mCallback.obtainUpdateOp(UPDATE, moveOp.positionStart, 1, updateOp.payload);
	}
	// now affect of add is consumed. now apply effect of first remove
	if (moveOp.positionStart <= updateOp.positionStart) {
	updateOp.positionStart++;
	} else if (moveOp.positionStart < updateOp.positionStart + updateOp.itemCount) {
	final int remaining = updateOp.positionStart + updateOp.itemCount
	- moveOp.positionStart;
	extraUp2 = mCallback.obtainUpdateOp(UPDATE, moveOp.positionStart + 1, remaining,
	updateOp.payload);
	updateOp.itemCount -= remaining;
	}
	list.set(update, moveOp);
	if (updateOp.itemCount > 0) {
	list.set(move, updateOp);
	} else {
	list.remove(move);
	mCallback.recycleUpdateOp(updateOp);
	}
	if (extraUp1 != null) {
	list.add(move, extraUp1);
	}
	if (extraUp2 != null) {
	list.add(move, extraUp2);
	}
	}

	private int getLastMoveOutOfOrder(List<UpdateOp> list) {
	boolean foundNonMove = false;
	for (int i = list.size() - 1; i >= 0; i--) {
	final UpdateOp op1 = list.get(i);
	if (op1.cmd == MOVE) {
	if (foundNonMove) {
	return i;
	}
	} else {
	foundNonMove = true;
	}
	}
	return -1;
	}

	interface Callback {

	UpdateOp obtainUpdateOp(int cmd, int startPosition, int itemCount, Object payload);

	void recycleUpdateOp(UpdateOp op);
	}
	}