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/*******************************************************************************
 * Copyright (c) 2000, 2015 IBM Corporation and others.
 * All rights reserved. This program and the accompanying materials
 * are made available under the terms of the Eclipse Public License v1.0
 * which accompanies this distribution, and is available at
 * http://www.eclipse.org/legal/epl-v10.html
 *
 * Contributors:
 *     IBM Corporation - initial API and implementation
 *******************************************************************************/
package org.eclipse.jface.text;

import java.util.ArrayList;
import java.util.Iterator;
import java.util.NoSuchElementException;

import org.eclipse.swt.SWT;
import org.eclipse.swt.custom.StyleRange;
import org.eclipse.swt.custom.StyledText;

import org.eclipse.core.runtime.Assert;


/**
 * Describes the presentation styles for a section of an indexed text such as a
 * document or string. A text presentation defines a default style for the whole
 * section and in addition style differences for individual subsections. Text
 * presentations can be narrowed down to a particular result window. All methods
 * are result window aware, i.e. ranges outside the result window are always
 * ignored.
 * 

* All iterators provided by a text presentation assume that they enumerate non * overlapping, consecutive ranges inside the default range. Thus, all these * iterators do not include the default range. The default style range must be * explicitly asked for using getDefaultStyleRange. */ public class TextPresentation { /** * Applies the given presentation to the given text widget. Helper method. * * @param presentation the style information * @param text the widget to which to apply the style information * @since 2.0 */ public static void applyTextPresentation(TextPresentation presentation, StyledText text) { StyleRange[] ranges= new StyleRange[presentation.getDenumerableRanges()]; int i= 0; Iterator e= presentation.getAllStyleRangeIterator(); while (e.hasNext()) ranges[i++]= e.next(); text.setStyleRanges(ranges); } /** * Enumerates all the StyleRanges included in the presentation. */ class FilterIterator implements Iterator { /** The index of the next style range to be enumerated */ protected int fIndex; /** The upper bound of the indices of style ranges to be enumerated */ protected int fLength; /** Indicates whether ranges similar to the default range should be enumerated */ protected boolean fSkipDefaults; /** The result window */ protected IRegion fWindow; /** * skipDefaults tells the enumeration to skip all those style ranges * which define the same style as the presentation's default style range. * * @param skipDefaults false if ranges similar to the default range should be enumerated */ protected FilterIterator(boolean skipDefaults) { fSkipDefaults= skipDefaults; fWindow= fResultWindow; fIndex= getFirstIndexInWindow(fWindow); fLength= getFirstIndexAfterWindow(fWindow); if (fSkipDefaults) computeIndex(); } @Override public StyleRange next() { try { StyleRange r= fRanges.get(fIndex++); return createWindowRelativeRange(fWindow, r); } catch (ArrayIndexOutOfBoundsException x) { throw new NoSuchElementException(); } finally { if (fSkipDefaults) computeIndex(); } } @Override public boolean hasNext() { return fIndex < fLength; } @Override public void remove() { throw new UnsupportedOperationException(); } /** * Returns whether the given object should be skipped. * * @param o the object to be checked * @return true if the object should be skipped by the iterator */ protected boolean skip(Object o) { StyleRange r= (StyleRange) o; return r.similarTo(fDefaultRange); } /** * Computes the index of the styled range that is the next to be enumerated. */ protected void computeIndex() { while (fIndex < fLength && skip(fRanges.get(fIndex))) ++ fIndex; } } /** The style information for the range covered by the whole presentation */ private StyleRange fDefaultRange; /** The member ranges of the presentation */ private ArrayList fRanges; /** A clipping region against which the presentation can be clipped when asked for results */ private IRegion fResultWindow; /** * The optional extent for this presentation. * @since 3.0 */ private IRegion fExtent; /** * Creates a new empty text presentation. */ public TextPresentation() { fRanges= new ArrayList<>(50); } /** * Creates a new empty text presentation. sizeHint tells the expected size of this * presentation. * * @param sizeHint the expected size of this presentation, must be positive */ public TextPresentation(int sizeHint) { Assert.isTrue(sizeHint > 0); fRanges= new ArrayList<>(sizeHint); } /** * Creates a new empty text presentation with the given extent. sizeHint tells the * expected size of this presentation. * * @param extent the extent of the created TextPresentation * @param sizeHint the expected size of this presentation, must be positive * @since 3.0 */ public TextPresentation(IRegion extent, int sizeHint) { this(sizeHint); Assert.isNotNull(extent); fExtent= extent; } /** * Sets the result window for this presentation. When dealing with * this presentation all ranges which are outside the result window * are ignored. For example, the size of the presentation is 0 * when there is no range inside the window even if there are ranges * outside the window. All methods are aware of the result window. * * @param resultWindow the result window */ public void setResultWindow(IRegion resultWindow) { fResultWindow= resultWindow; } /** * Set the default style range of this presentation. * The default style range defines the overall area covered * by this presentation and its style information. * * @param range the range describing the default region */ public void setDefaultStyleRange(StyleRange range) { fDefaultRange= range; } /** * Returns this presentation's default style range. The returned StyleRange * is relative to the start of the result window. * * @return this presentation's default style range */ public StyleRange getDefaultStyleRange() { StyleRange range= createWindowRelativeRange(fResultWindow, fDefaultRange); if (range == null) return null; return (StyleRange)range.clone(); } /** * Add the given range to the presentation. The range must be a * subrange of the presentation's default range. * * @param range the range to be added */ public void addStyleRange(StyleRange range) { checkConsistency(range); fRanges.add(range); } /** * Replaces the given range in this presentation. The range must be a * subrange of the presentation's default range. * * @param range the range to be added * @since 3.0 */ public void replaceStyleRange(StyleRange range) { applyStyleRange(range, false); } /** * Merges the given range into this presentation. The range must be a * subrange of the presentation's default range. * * @param range the range to be added * @since 3.0 */ public void mergeStyleRange(StyleRange range) { applyStyleRange(range, true); } /** * Applies the given range to this presentation. The range must be a * subrange of the presentation's default range. * * @param range the range to be added * @param merge true if the style should be merged instead of replaced * @since 3.0 */ private void applyStyleRange(StyleRange range, boolean merge) { if (range.length == 0) return; checkConsistency(range); int start= range.start; int length= range.length; int end= start + length; if (fRanges.size() == 0) { StyleRange defaultRange= getDefaultStyleRange(); if (defaultRange == null) defaultRange= range; defaultRange.start= start; defaultRange.length= length; applyStyle(range, defaultRange, merge); fRanges.add(defaultRange); } else { IRegion rangeRegion= new Region(start, length); int first= getFirstIndexInWindow(rangeRegion); if (first == fRanges.size()) { StyleRange defaultRange= getDefaultStyleRange(); if (defaultRange == null) defaultRange= range; defaultRange.start= start; defaultRange.length= length; applyStyle(range, defaultRange, merge); fRanges.add(defaultRange); return; } int last= getFirstIndexAfterWindow(rangeRegion); for (int i= first; i < last && length > 0; i++) { StyleRange current= fRanges.get(i); int currentStart= current.start; int currentEnd= currentStart + current.length; if (end <= currentStart) { fRanges.add(i, range); return; } if (start >= currentEnd) continue; StyleRange currentCopy= null; if (end < currentEnd) currentCopy= (StyleRange)current.clone(); if (start < currentStart) { // Apply style to new default range and add it StyleRange defaultRange= getDefaultStyleRange(); if (defaultRange == null) defaultRange= new StyleRange(); defaultRange.start= start; defaultRange.length= currentStart - start; applyStyle(range, defaultRange, merge); fRanges.add(i, defaultRange); i++; last++; // Apply style to first part of current range current.length= Math.min(end, currentEnd) - currentStart; applyStyle(range, current, merge); } if (start >= currentStart) { // Shorten the current range current.length= start - currentStart; // Apply the style to the rest of the current range and add it if (current.length > 0) { current= (StyleRange)current.clone(); i++; last++; fRanges.add(i, current); } applyStyle(range, current, merge); current.start= start; current.length= Math.min(end, currentEnd) - start; } if (end < currentEnd) { // Add rest of current range currentCopy.start= end; currentCopy.length= currentEnd - end; i++; last++; fRanges.add(i, currentCopy); } // Update range range.start= currentEnd; range.length= Math.max(end - currentEnd, 0); start= range.start; length= range.length; } if (length > 0) { // Apply style to new default range and add it StyleRange defaultRange= getDefaultStyleRange(); if (defaultRange == null) defaultRange= range; defaultRange.start= start; defaultRange.length= end - start; applyStyle(range, defaultRange, merge); fRanges.add(last, defaultRange); } } } /** * Replaces the given ranges in this presentation. Each range must be a * subrange of the presentation's default range. The ranges must be ordered * by increasing offset and must not overlap (but may be adjacent). * * @param ranges the ranges to be added * @since 3.0 */ public void replaceStyleRanges(StyleRange[] ranges) { applyStyleRanges(ranges, false); } /** * Merges the given ranges into this presentation. Each range must be a * subrange of the presentation's default range. The ranges must be ordered * by increasing offset and must not overlap (but may be adjacent). * * @param ranges the ranges to be added * @since 3.0 */ public void mergeStyleRanges(StyleRange[] ranges) { applyStyleRanges(ranges, true); } /** * Applies the given ranges to this presentation. Each range must be a * subrange of the presentation's default range. The ranges must be ordered * by increasing offset and must not overlap (but may be adjacent). * * @param ranges the ranges to be added * @param merge true if the style should be merged instead of replaced * @since 3.0 */ private void applyStyleRanges(StyleRange[] ranges, boolean merge) { int j= 0; ArrayList oldRanges= fRanges; ArrayList newRanges= new ArrayList<>(2*ranges.length + oldRanges.size()); for (int i= 0, n= ranges.length; i < n; i++) { StyleRange range= ranges[i]; fRanges= oldRanges; // for getFirstIndexAfterWindow(...) for (int m= getFirstIndexAfterWindow(new Region(range.start, range.length)); j < m; j++) newRanges.add(oldRanges.get(j)); fRanges= newRanges; // for mergeStyleRange(...) applyStyleRange(range, merge); } for (int m= oldRanges.size(); j < m; j++) newRanges.add(oldRanges.get(j)); fRanges= newRanges; } /** * Applies the template's style to the target. * * @param template the style range to be used as template * @param target the style range to which to apply the template * @param merge true if the style should be merged instead of replaced * @since 3.0 */ private void applyStyle(StyleRange template, StyleRange target, boolean merge) { if (merge) { if (template.font != null) target.font= template.font; target.fontStyle|= template.fontStyle; if (template.metrics != null) target.metrics= template.metrics; if (template.foreground != null || template.underlineStyle == SWT.UNDERLINE_LINK) target.foreground= template.foreground; if (template.background != null) target.background= template.background; target.strikeout|= template.strikeout; if (template.strikeoutColor != null) target.strikeoutColor= template.strikeoutColor; target.underline|= template.underline; if (template.underlineStyle != SWT.NONE && target.underlineStyle != SWT.UNDERLINE_LINK) target.underlineStyle= template.underlineStyle; if (template.underlineColor != null) target.underlineColor= template.underlineColor; if (template.borderStyle != SWT.NONE) target.borderStyle= template.borderStyle; if (template.borderColor != null) target.borderColor= template.borderColor; } else { target.font= template.font; target.fontStyle= template.fontStyle; target.metrics= template.metrics; target.foreground= template.foreground; target.background= template.background; target.strikeout= template.strikeout; target.strikeoutColor= template.strikeoutColor; target.underline= template.underline; target.underlineStyle= template.underlineStyle; target.underlineColor= template.underlineColor; target.borderStyle= template.borderStyle; target.borderColor= template.borderColor; } } /** * Checks whether the given range is a subrange of the presentation's * default style range. * * @param range the range to be checked * @exception IllegalArgumentException if range is not a subrange of the presentation's default range */ private void checkConsistency(StyleRange range) { if (range == null) throw new IllegalArgumentException(); if (fDefaultRange != null) { if (range.start < fDefaultRange.start) range.start= fDefaultRange.start; int defaultEnd= fDefaultRange.start + fDefaultRange.length; int end= range.start + range.length; if (end > defaultEnd) range.length -= (end - defaultEnd); } } /** * Returns the index of the first range which overlaps with the * specified window. * * @param window the window to be used for searching * @return the index of the first range overlapping with the window */ private int getFirstIndexInWindow(IRegion window) { if (window != null) { int start= window.getOffset(); int i= -1, j= fRanges.size(); while (j - i > 1) { int k= (i + j) >> 1; StyleRange r= fRanges.get(k); if (r.start + r.length > start) j= k; else i= k; } return j; } return 0; } /** * Returns the index of the first range which comes after the specified window and does * not overlap with this window. * * @param window the window to be used for searching * @return the index of the first range behind the window and not overlapping with the window */ private int getFirstIndexAfterWindow(IRegion window) { if (window != null) { int end= window.getOffset() + window.getLength(); int i= -1, j= fRanges.size(); while (j - i > 1) { int k= (i + j) >> 1; StyleRange r= fRanges.get(k); if (r.start < end) i= k; else j= k; } return j; } return fRanges.size(); } /** * Returns a style range which is relative to the specified window and * appropriately clipped if necessary. The original style range is not * modified. * * @param window the reference window * @param range the absolute range * @return the window relative range based on the absolute range */ private StyleRange createWindowRelativeRange(IRegion window, StyleRange range) { if (window == null || range == null) return range; int start= range.start - window.getOffset(); if (start < 0) start= 0; int rangeEnd= range.start + range.length; int windowEnd= window.getOffset() + window.getLength(); int end= (rangeEnd > windowEnd ? windowEnd : rangeEnd); end -= window.getOffset(); StyleRange newRange= (StyleRange) range.clone(); newRange.start= start; newRange.length= end - start; return newRange; } /** * Returns the region which is relative to the specified window and * appropriately clipped if necessary. * * @param coverage the absolute coverage * @return the window relative region based on the absolute coverage * @since 3.0 */ private IRegion createWindowRelativeRegion(IRegion coverage) { if (fResultWindow == null || coverage == null) return coverage; int start= coverage.getOffset() - fResultWindow.getOffset(); if (start < 0) start= 0; int rangeEnd= coverage.getOffset() + coverage.getLength(); int windowEnd= fResultWindow.getOffset() + fResultWindow.getLength(); int end= (rangeEnd > windowEnd ? windowEnd : rangeEnd); end -= fResultWindow.getOffset(); return new Region(start, end - start); } /** * Returns an iterator which enumerates all style ranged which define a style * different from the presentation's default style range. The default style range * is not enumerated. * * @return a style range iterator */ public Iterator getNonDefaultStyleRangeIterator() { return new FilterIterator(fDefaultRange != null); } /** * Returns an iterator which enumerates all style ranges of this presentation * except the default style range. The returned StyleRanges * are relative to the start of the presentation's result window. * * @return a style range iterator */ public Iterator getAllStyleRangeIterator() { return new FilterIterator(false); } /** * Returns whether this collection contains any style range including * the default style range. * * @return true if there is no style range in this presentation */ public boolean isEmpty() { return (fDefaultRange == null && getDenumerableRanges() == 0); } /** * Returns the number of style ranges in the presentation not counting the default * style range. * * @return the number of style ranges in the presentation excluding the default style range */ public int getDenumerableRanges() { int size= getFirstIndexAfterWindow(fResultWindow) - getFirstIndexInWindow(fResultWindow); return (size < 0 ? 0 : size); } /** * Returns the style range with the smallest offset ignoring the default style range or null * if the presentation is empty. * * @return the style range with the smallest offset different from the default style range */ public StyleRange getFirstStyleRange() { try { StyleRange range= fRanges.get(getFirstIndexInWindow(fResultWindow)); return createWindowRelativeRange(fResultWindow, range); } catch (NoSuchElementException x) { } catch (IndexOutOfBoundsException x) { } return null; } /** * Returns the style range with the highest offset ignoring the default style range. * * @return the style range with the highest offset different from the default style range */ public StyleRange getLastStyleRange() { try { StyleRange range= fRanges.get(getFirstIndexAfterWindow(fResultWindow) - 1); return createWindowRelativeRange(fResultWindow, range); } catch (NoSuchElementException x) { return null; } catch (IndexOutOfBoundsException x) { return null; } } /** * Returns the coverage of this presentation as clipped by the presentation's * result window. * * @return the coverage of this presentation */ public IRegion getCoverage() { if (fDefaultRange != null) { StyleRange range= getDefaultStyleRange(); return new Region(range.start, range.length); } StyleRange first= getFirstStyleRange(); StyleRange last= getLastStyleRange(); if (first == null || last == null) return null; return new Region(first.start, last.start - first. start + last.length); } /** * Returns the extent of this presentation clipped by the * presentation's result window. * * @return the clipped extent * @since 3.0 */ public IRegion getExtent() { if (fExtent != null) return createWindowRelativeRegion(fExtent); return getCoverage(); } /** * Clears this presentation by resetting all applied changes. * @since 2.0 */ public void clear() { fDefaultRange= null; fResultWindow= null; fRanges.clear(); } }





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