/* * Copyright (c) 1999, 2008, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code 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 General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package javax.swing.text; import java.util.*; import java.awt.*; import java.text.AttributedCharacterIterator; import java.text.BreakIterator; import java.awt.font.*; import java.awt.geom.AffineTransform; import javax.swing.JComponent; import javax.swing.event.DocumentEvent; import sun.font.BidiUtils; /** * A flow strategy that uses java.awt.font.LineBreakMeasureer to * produce java.awt.font.TextLayout for i18n capable rendering. * If the child view being placed into the flow is of type * GlyphView and can be rendered by TextLayout, a GlyphPainter * that uses TextLayout is plugged into the GlyphView. * * @author Timothy Prinzing */ class TextLayoutStrategy extends FlowView.FlowStrategy { /** * Constructs a layout strategy for paragraphs based * upon java.awt.font.LineBreakMeasurer. */ public TextLayoutStrategy() { text = new AttributedSegment(); } // --- FlowStrategy methods -------------------------------------------- /** * Gives notification that something was inserted into the document * in a location that the given flow view is responsible for. The * strategy should update the appropriate changed region (which * depends upon the strategy used for repair). * * @param e the change information from the associated document * @param alloc the current allocation of the view inside of the insets. * This value will be null if the view has not yet been displayed. * @see View#insertUpdate */ public void insertUpdate(FlowView fv, DocumentEvent e, Rectangle alloc) { sync(fv); super.insertUpdate(fv, e, alloc); } /** * Gives notification that something was removed from the document * in a location that the given flow view is responsible for. * * @param e the change information from the associated document * @param alloc the current allocation of the view inside of the insets. * @see View#removeUpdate */ public void removeUpdate(FlowView fv, DocumentEvent e, Rectangle alloc) { sync(fv); super.removeUpdate(fv, e, alloc); } /** * Gives notification from the document that attributes were changed * in a location that this view is responsible for. * * @param changes the change information from the associated document * @param a the current allocation of the view * @param f the factory to use to rebuild if the view has children * @see View#changedUpdate */ public void changedUpdate(FlowView fv, DocumentEvent e, Rectangle alloc) { sync(fv); super.changedUpdate(fv, e, alloc); } /** * Does a a full layout on the given View. This causes all of * the rows (child views) to be rebuilt to match the given * constraints for each row. This is called by a FlowView.layout * to update the child views in the flow. * * @param fv the view to reflow */ public void layout(FlowView fv) { super.layout(fv); } /** * Creates a row of views that will fit within the * layout span of the row. This is implemented to execute the * superclass functionality (which fills the row with child * views or view fragments) and follow that with bidi reordering * of the unidirectional view fragments. * * @param row the row to fill in with views. This is assumed * to be empty on entry. * @param pos The current position in the children of * this views element from which to start. * @return the position to start the next row */ protected int layoutRow(FlowView fv, int rowIndex, int p0) { int p1 = super.layoutRow(fv, rowIndex, p0); View row = fv.getView(rowIndex); Document doc = fv.getDocument(); Object i18nFlag = doc.getProperty(AbstractDocument.I18NProperty); if ((i18nFlag != null) && i18nFlag.equals(Boolean.TRUE)) { int n = row.getViewCount(); if (n > 1) { AbstractDocument d = (AbstractDocument)fv.getDocument(); Element bidiRoot = d.getBidiRootElement(); byte[] levels = new byte[n]; View[] reorder = new View[n]; for( int i=0; i= 0 * @param x the location r starts at. */ protected void adjustRow(FlowView fv, int rowIndex, int desiredSpan, int x) { } /** * Creates a unidirectional view that can be used to represent the * current chunk. This can be either an entire view from the * logical view, or a fragment of the view. * * @param fv the view holding the flow * @param startOffset the start location for the view being created * @param spanLeft the about of span left to fill in the row * @param rowIndex the row the view will be placed into */ protected View createView(FlowView fv, int startOffset, int spanLeft, int rowIndex) { // Get the child view that contains the given starting position View lv = getLogicalView(fv); View row = fv.getView(rowIndex); boolean requireNextWord = (viewBuffer.size() == 0) ? false : true; int childIndex = lv.getViewIndex(startOffset, Position.Bias.Forward); View v = lv.getView(childIndex); int endOffset = getLimitingOffset(v, startOffset, spanLeft, requireNextWord); if (endOffset == startOffset) { return null; } View frag; if ((startOffset==v.getStartOffset()) && (endOffset == v.getEndOffset())) { // return the entire view frag = v; } else { // return a unidirectional fragment. frag = v.createFragment(startOffset, endOffset); } if ((frag instanceof GlyphView) && (measurer != null)) { // install a TextLayout based renderer if the view is responsible // for glyphs. If the view represents a tab, the default // glyph painter is used (may want to handle tabs differently). boolean isTab = false; int p0 = frag.getStartOffset(); int p1 = frag.getEndOffset(); if ((p1 - p0) == 1) { // check for tab Segment s = ((GlyphView)frag).getText(p0, p1); char ch = s.first(); if (ch == '\t') { isTab = true; } } TextLayout tl = (isTab) ? null : measurer.nextLayout(spanLeft, text.toIteratorIndex(endOffset), requireNextWord); if (tl != null) { ((GlyphView)frag).setGlyphPainter(new GlyphPainter2(tl)); } } return frag; } /** * Calculate the limiting offset for the next view fragment. * At most this would be the entire view (i.e. the limiting * offset would be the end offset in that case). If the range * contains a tab or a direction change, that will limit the * offset to something less. This value is then fed to the * LineBreakMeasurer as a limit to consider in addition to the * remaining span. * * @param v the logical view representing the starting offset. * @param startOffset the model location to start at. */ int getLimitingOffset(View v, int startOffset, int spanLeft, boolean requireNextWord) { int endOffset = v.getEndOffset(); // check for direction change Document doc = v.getDocument(); if (doc instanceof AbstractDocument) { AbstractDocument d = (AbstractDocument) doc; Element bidiRoot = d.getBidiRootElement(); if( bidiRoot.getElementCount() > 1 ) { int bidiIndex = bidiRoot.getElementIndex( startOffset ); Element bidiElem = bidiRoot.getElement( bidiIndex ); endOffset = Math.min( bidiElem.getEndOffset(), endOffset ); } } // check for tab if (v instanceof GlyphView) { Segment s = ((GlyphView)v).getText(startOffset, endOffset); char ch = s.first(); if (ch == '\t') { // if the first character is a tab, create a dedicated // view for just the tab endOffset = startOffset + 1; } else { for (ch = s.next(); ch != Segment.DONE; ch = s.next()) { if (ch == '\t') { // found a tab, don't include it in the text endOffset = startOffset + s.getIndex() - s.getBeginIndex(); break; } } } } // determine limit from LineBreakMeasurer int limitIndex = text.toIteratorIndex(endOffset); if (measurer != null) { int index = text.toIteratorIndex(startOffset); if (measurer.getPosition() != index) { measurer.setPosition(index); } limitIndex = measurer.nextOffset(spanLeft, limitIndex, requireNextWord); } int pos = text.toModelPosition(limitIndex); return pos; } /** * Synchronize the strategy with its FlowView. Allows the strategy * to update its state to account for changes in that portion of the * model represented by the FlowView. Also allows the strategy * to update the FlowView in response to these changes. */ void sync(FlowView fv) { View lv = getLogicalView(fv); text.setView(lv); Container container = fv.getContainer(); FontRenderContext frc = sun.swing.SwingUtilities2. getFontRenderContext(container); BreakIterator iter; Container c = fv.getContainer(); if (c != null) { iter = BreakIterator.getLineInstance(c.getLocale()); } else { iter = BreakIterator.getLineInstance(); } Object shaper = null; if (c instanceof JComponent) { shaper = ((JComponent) c).getClientProperty( TextAttribute.NUMERIC_SHAPING); } text.setShaper(shaper); measurer = new LineBreakMeasurer(text, iter, frc); // If the children of the FlowView's logical view are GlyphViews, they // need to have their painters updated. int n = lv.getViewCount(); for( int i=0; i= 0) && (childIndex < v.getViewCount()); childIndex += dir) { Font next = getFont(childIndex); if (next != f) { // this run is different break; } child = v.getView(childIndex); } return (dir < 0) ? child.getStartOffset() : child.getEndOffset(); } /** * Get the font at the given child index. */ Font getFont(int childIndex) { View child = v.getView(childIndex); if (child instanceof GlyphView) { return ((GlyphView)child).getFont(); } return null; } int toModelPosition(int index) { return v.getStartOffset() + (index - getBeginIndex()); } int toIteratorIndex(int pos) { return pos - v.getStartOffset() + getBeginIndex(); } private void setShaper(Object shaper) { this.shaper = shaper; } // --- AttributedCharacterIterator methods ------------------------- /** * Returns the index of the first character of the run * with respect to all attributes containing the current character. */ public int getRunStart() { int pos = toModelPosition(getIndex()); int i = v.getViewIndex(pos, Position.Bias.Forward); View child = v.getView(i); return toIteratorIndex(child.getStartOffset()); } /** * Returns the index of the first character of the run * with respect to the given attribute containing the current character. */ public int getRunStart(AttributedCharacterIterator.Attribute attribute) { if (attribute instanceof TextAttribute) { int pos = toModelPosition(getIndex()); int i = v.getViewIndex(pos, Position.Bias.Forward); if (attribute == TextAttribute.FONT) { return toIteratorIndex(getFontBoundary(i, -1)); } } return getBeginIndex(); } /** * Returns the index of the first character of the run * with respect to the given attributes containing the current character. */ public int getRunStart(Set attributes) { int index = getBeginIndex(); Object[] a = attributes.toArray(); for (int i = 0; i < a.length; i++) { TextAttribute attr = (TextAttribute) a[i]; index = Math.max(getRunStart(attr), index); } return Math.min(getIndex(), index); } /** * Returns the index of the first character following the run * with respect to all attributes containing the current character. */ public int getRunLimit() { int pos = toModelPosition(getIndex()); int i = v.getViewIndex(pos, Position.Bias.Forward); View child = v.getView(i); return toIteratorIndex(child.getEndOffset()); } /** * Returns the index of the first character following the run * with respect to the given attribute containing the current character. */ public int getRunLimit(AttributedCharacterIterator.Attribute attribute) { if (attribute instanceof TextAttribute) { int pos = toModelPosition(getIndex()); int i = v.getViewIndex(pos, Position.Bias.Forward); if (attribute == TextAttribute.FONT) { return toIteratorIndex(getFontBoundary(i, 1)); } } return getEndIndex(); } /** * Returns the index of the first character following the run * with respect to the given attributes containing the current character. */ public int getRunLimit(Set attributes) { int index = getEndIndex(); Object[] a = attributes.toArray(); for (int i = 0; i < a.length; i++) { TextAttribute attr = (TextAttribute) a[i]; index = Math.min(getRunLimit(attr), index); } return Math.max(getIndex(), index); } /** * Returns a map with the attributes defined on the current * character. */ public Map getAttributes() { Object[] ka = keys.toArray(); Hashtable h = new Hashtable(); for (int i = 0; i < ka.length; i++) { TextAttribute a = (TextAttribute) ka[i]; Object value = getAttribute(a); if (value != null) { h.put(a, value); } } return h; } /** * Returns the value of the named attribute for the current character. * Returns null if the attribute is not defined. * @param attribute the key of the attribute whose value is requested. */ public Object getAttribute(AttributedCharacterIterator.Attribute attribute) { int pos = toModelPosition(getIndex()); int childIndex = v.getViewIndex(pos, Position.Bias.Forward); if (attribute == TextAttribute.FONT) { return getFont(childIndex); } else if( attribute == TextAttribute.RUN_DIRECTION ) { return v.getDocument().getProperty(TextAttribute.RUN_DIRECTION); } else if (attribute == TextAttribute.NUMERIC_SHAPING) { return shaper; } return null; } /** * Returns the keys of all attributes defined on the * iterator's text range. The set is empty if no * attributes are defined. */ public Set getAllAttributeKeys() { return keys; } View v; static Set keys; static { keys = new HashSet(); keys.add(TextAttribute.FONT); keys.add(TextAttribute.RUN_DIRECTION); keys.add(TextAttribute.NUMERIC_SHAPING); } private Object shaper = null; } }