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/*
 * Copyright (C) 2022 Parisi Alessandro - [email protected]
 * This file is part of MaterialFX (https://github.com/palexdev/MaterialFX)
 *
 * MaterialFX is free software: you can redistribute it and/or
 * modify it under the terms of the GNU Lesser General Public License
 * as published by the Free Software Foundation; either version 3 of the License,
 * or (at your option) any later version.
 *
 * MaterialFX is distributed in the hope that it will be useful,
 * but WITHOUT ANY WARRANTY; without even the implied warranty of
 * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
 * See the GNU Lesser General Public License for more details.
 *
 * You should have received a copy of the GNU Lesser General Public License
 * along with MaterialFX. If not, see .
 */

package io.github.palexdev.mfxcore.collections;

import io.github.palexdev.mfxcore.enums.GridChangeType;
import io.github.palexdev.mfxcore.utils.GridUtils;
import javafx.beans.InvalidationListener;
import javafx.beans.Observable;
import javafx.beans.property.ObjectProperty;
import javafx.beans.property.SimpleObjectProperty;
import javafx.beans.value.ChangeListener;
import javafx.beans.value.ObservableValue;
import javafx.util.Pair;

import java.util.ArrayList;
import java.util.Arrays;
import java.util.Collections;
import java.util.List;
import java.util.function.BiFunction;

/**
 * Extension of {@link Grid} to provide observables capabilities.
 * Note though that since JavaFX's implementation of listeners/observables and such is utter garbage because of private
 * APIs, complex class structures and others unhappy design decisions... The observability of this data structure is
 * implemented through an {@link ObjectProperty} that always contains the last {@link Change} occurred.
 * 

* Instead of implementing {@link Observable}, this implements {@link ObservableValue} to also get {@link ChangeListener} * capabilities. Note though that the relevant value carried by the listener is the {@code newValue} as once a {@link Change} * has been processed it should be disposed with {@link Change#endChange()} (this will reset the property to a useless state) */ public class ObservableGrid extends Grid implements ObservableValue> { //================================================================================ // Properties //================================================================================ private final ObjectProperty> change = new SimpleObjectProperty<>() { @Override protected void fireValueChangedEvent() { if (get() == Change.EMPTY) return; super.fireValueChangedEvent(); } }; //================================================================================ // Constructors //================================================================================ public ObservableGrid() { } public ObservableGrid(int nRows, int nColumns) { super(nRows, nColumns); } public ObservableGrid(List data, int nRows, int nColumns) { super(data, nRows, nColumns); } //================================================================================ // Methods //================================================================================ protected void registerChange(Change change) { this.change.set(change); } //================================================================================ // Static Methods //================================================================================ /** * Given a list of items and the number of columns the grid will have, * generates a new {@code Grid}. * Every {@code columnsNum} the list is "sliced" in rows. * * @param list the data to generate the grid * @param columnsNum the number of columns for the grid, also used to "slice" the given list in rows */ public static ObservableGrid fromList(List list, int columnsNum) { if (list.isEmpty()) { if (columnsNum == 0) return new ObservableGrid<>(); throw new IllegalArgumentException("List is empty, but cols is " + columnsNum); } if (list.size() % columnsNum != 0) throw new IllegalArgumentException("List size must be a multiple of " + columnsNum); return new ObservableGrid<>(list, list.size() / columnsNum, columnsNum); } /** * Given an array of items and the number of columns the grid will have, * generates a new {@code Grid}. * Every {@code columnsNum} the array is "sliced" in rows. * * @param arr the data to generate the grid * @param columnsNum the number of columns for the grid, also used to "slice" the given array in rows */ public static ObservableGrid fromArray(T[] arr, int columnsNum) { return fromList(List.of(arr), columnsNum); } /** * Given a 2D array of items generates a new {@code Grid}. * * @param matrix the data to generate the grid */ public static ObservableGrid fromMatrix(T[][] matrix) { int rowsNum = matrix.length; int columnsNum = matrix[0].length; List tmp = new ArrayList<>(); for (T[] row : matrix) { tmp.addAll(Arrays.asList(row)); } return new ObservableGrid<>(tmp, rowsNum, columnsNum); } //================================================================================ // Overridden Methods //================================================================================ @Override public ObservableGrid init() { List tmp = new ArrayList<>(getData()); super.init(); registerChange( Change.of(this, GridChangeType.INIT) .setStart(0) .setEnd(totalSize()) .setStep(1) .removed(tmp) ); return this; } @Override public ObservableGrid init(int rows, int columns) { List tmp = new ArrayList<>(getData()); super.init(rows, columns); registerChange( Change.of(this, GridChangeType.INIT) .setStart(0) .setEnd(totalSize()) .setStep(1) .removed(tmp) ); return this; } @Override public ObservableGrid init(int rows, int columns, T val) { List tmp = new ArrayList<>(getData()); super.init(rows, columns, val); registerChange( Change.of(this, GridChangeType.INIT) .setStart(0) .setEnd(totalSize()) .setStep(1) .removed(tmp) .added(val) ); return this; } @Override public ObservableGrid init(int rows, int columns, BiFunction valFunction) { if (rows == 0 || columns == 0) { throw new IllegalStateException("Both rows num and columns num must be greater than 0 but they are " + rows + ", " + columns); } List tmp = new ArrayList<>(getData()); clear(); this.rowsNum = rows; this.columnsNum = columns; List added = new ArrayList<>(); for (int i = 0; i < totalSize(); i++) { Coordinates rc = GridUtils.indToSub(columnsNum, i); T val = valFunction.apply(rc.getRow(), rc.getColumn()); tmp.add(val); data.add(val); } registerChange( Change.of(this, GridChangeType.INIT) .setStart(0) .setEnd(totalSize()) .setStep(1) .removed(tmp) .added(added) ); return this; } @Override public void setElement(int index, T val) { T rem = getElement(index); super.setElement(index, val); registerChange( Change.of(this, GridChangeType.REPLACE_ELEMENT) .setCoordinates(GridUtils.indToSub(getColumnsNum(), index)) .setStart(index) .setEnd(index) .setStep(1) .removed(rem) .added(val) ); } @Override public void setDiagonal(List diag) { List rem = getDiagonal(); super.setDiagonal(diag); registerChange( Change.of(this, GridChangeType.REPLACE_DIAGONAL) .setStart(0) .setEnd(totalSize()) .setStep(columnsNum + 1) .removed(rem) .added(diag) ); } @Override public void addRow(int index, List row) { super.addRow(index, row); registerChange( Change.of(this, GridChangeType.ADD_ROW) .setCoordinates(index, -1) .setStart(index * columnsNum) .setEnd(index * columnsNum + row.size()) .setStep(1) .added(row) ); } @Override public void addColumn(int index, List column) { super.addColumn(index, column); registerChange( Change.of(this, GridChangeType.ADD_COLUMN) .setCoordinates(-1, index) .setStart(index) .setEnd(((rowsNum - 1) * columnsNum + index) + 1) .setStep(columnsNum) .added(column) ); } @Override public void setRow(int index, List row) { if (row.isEmpty()) throw new IllegalArgumentException("Row to set cannot be empty"); if (row.size() > columnsNum) throw new IllegalArgumentException("Row size does not match, expecting " + columnsNum + ", but was " + row.size()); if (isEmpty() && index == 0) { addRow(row); return; } if (index < 0 || index > rowsNum) throw new IndexOutOfBoundsException(index); List tmp = getRow(index); int start = index * columnsNum; int j = 0; for (int i = start; i < start + columnsNum; i++) { data.set(i, row.get(j)); j++; } registerChange( Change.of(this, GridChangeType.REPLACE_ROW) .setCoordinates(index, -1) .setStart(start) .setEnd(start + columnsNum) .setStep(1) .removed(tmp) .added(row) ); } @Override public void setColumn(int index, List column) { if (column.isEmpty()) throw new IllegalArgumentException("Column to set cannot be empty"); if (column.size() > rowsNum) throw new IllegalArgumentException("Column size does not match, expecting " + rowsNum + ", but was " + column.size()); if (isEmpty() && index == 0) { addColumn(column); return; } if (index < 0 || index > columnsNum) throw new IndexOutOfBoundsException(index); List tmp = getColumn(index); int end = (rowsNum - 1) * columnsNum + index; int j = 0; for (int i = index; i <= end; i += columnsNum) { data.set(i, column.get(j)); j++; } registerChange( Change.of(this, GridChangeType.REPLACE_COLUMN) .setCoordinates(-1, index) .setStart(index) .setEnd(end + 1) .setStep(columnsNum) .removed(tmp) .added(column) ); } @Override public List removeRow(int index) { List rem = super.removeRow(index); registerChange( Change.of(this, GridChangeType.REMOVE_ROW) .setCoordinates(index, -1) .setStart(index * columnsNum) .setEnd(index * columnsNum + columnsNum) .setStep(1) .removed(rem) ); return rem; } @Override public List removeColumn(int index) { List rem = super.removeColumn(index); int columnsNum = this.columnsNum + 1; registerChange( Change.of(this, GridChangeType.REMOVE_COLUMN) .setCoordinates(-1, index) .setStart(index) .setEnd(((rowsNum - 1) * columnsNum + index) + 1) .setStep(columnsNum) .removed(rem) ); return rem; } @Override public Grid transpose() { Grid grid = super.transpose(); registerChange( Change.of(this, GridChangeType.TRANSPOSE) .setStart(0) .setEnd(totalSize()) .setStep(1) ); return grid; } @Override public void clear() { List tmp = new ArrayList<>(getData()); super.clear(); registerChange( Change.of(this, GridChangeType.CLEAR) .setStart(0) .setEnd(totalSize()) .setStep(1) .removed(tmp) ); } @Override public void addListener(InvalidationListener listener) { change.addListener(listener); } @Override public void removeListener(InvalidationListener listener) { change.removeListener(listener); } @Override public void addListener(ChangeListener> listener) { change.addListener(listener); } @Override public void removeListener(ChangeListener> listener) { change.removeListener(listener); } /** * @return the last {@link Change} occurred or {@link Change#EMPTY} if no change occurred * or the last change was disposed with {@link Change#endChange()} */ @Override public Change getValue() { return change.get(); } /** * Delegate for {@link #getValue()} */ public Change getChange() { return getValue(); } //================================================================================ // Internal Classes //================================================================================ /** * Bean used to represent any type of change occurring in a {@link ObservableGrid} data structure. *

* The {@code Change} brings a series of useful information like: *

- The grid's data after the change *

- The change's type, see {@link GridChangeType} *

- A list containing the added items *

- A list containing the removed items *

- The coordinates at which the change occurred. Note though that this information is not always available, * see {@link #getCoordinates()} *

- The linear index at which the change started (inclusive) *

- The linear index at which the change ended (exclusive) *

- The "step" which is an integer useful to iterate over the change's [start, end] range. * When a change occurs on a row typically is 1, when it occurs on a column typically it is the number of * columns of the grid before the change. */ @SuppressWarnings({"rawtypes", "unchecked"}) public static class Change { public static final Change EMPTY = new Change(); private ObservableGrid grid; private List data; private final Pair size; private final GridChangeType type; private final List added = new ArrayList<>(); private final List removed = new ArrayList<>(); private Coordinates coordinates; private int start; private int end; private int step; private Change() { this.data = List.of(); this.size = null; this.type = null; } public Change(ObservableGrid grid, GridChangeType type) { this.grid = grid; this.data = Collections.unmodifiableList(grid.getData()); this.size = grid.size(); this.type = type; } public static Change of(ObservableGrid grid, GridChangeType type) { return new ObservableGrid.Change<>(grid, type); } /** * @return the {@link ObservableGrid} instance this change refers to */ protected ObservableGrid getGrid() { return grid; } /** * @return the grid's data as an unmodifiable {@link List} */ public List getData() { return data; } /** * @return the size of the grid as a {@link Pair} object. The key is the number of rows and * the value is the number of columns */ public Pair getSize() { return size; } /** * @return the type of operation that lead to this change, see {@link GridChangeType} */ public GridChangeType getType() { return type; } /** * @return a {@link List} containing all the added elements. For "replacement" operations * this will contain all the new items */ public List getAdded() { return added; } /** * @return a {@link List} containing all the removed elements. For "replacement" operations * this will contain all the elements that have been replaced */ public List getRemoved() { return removed; } @SafeVarargs private Change added(T... data) { Collections.addAll(added, data); return this; } private Change added(List data) { added.addAll(data); return this; } @SafeVarargs private Change removed(T... data) { Collections.addAll(removed, data); return this; } private Change removed(List data) { removed.addAll(data); return this; } /** * @return a {@link Coordinates} object that specifies the row and column at which the change occurred. * This information is available only for the following changes: *

- Set element *

- Add row (column will be -1) *

- Add column (row will be -1) *

- Set row (column will be -1) *

- Set column (row will be -1) *

- Remove row (column will be -1) *

- Remove column (row will be -1) */ public Coordinates getCoordinates() { return coordinates; } private Change setCoordinates(Coordinates coordinates) { this.coordinates = coordinates; return this; } private Change setCoordinates(int row, int column) { this.coordinates = Coordinates.of(row, column); return this; } /** * @return the linear index at which the change started */ public int getStart() { return start; } private Change setStart(int start) { this.start = start; return this; } /** * @return the linear index at which the change ended (exclusive) */ public int getEnd() { return end; } private Change setEnd(int end) { this.end = end; return this; } /** * @return an integer useful to iterate over the change's [start, end] range. * When a change occurs on a row typically is 1, when it occurs on a column typically it is the number of * columns of the grid before the change */ public int step() { return step; } private Change setStep(int step) { this.step = step; return this; } /** * Disposes this change and resets the grid's property responsible for holding new changes. */ public void endChange() { grid.registerChange(EMPTY); grid = null; data = null; added.clear(); removed.clear(); } } }





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