Bugzilla – Attachment 132 Details for
Bug 356
TextRenderer causes a GLException on pre-OpenGL 1.5 version
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Final cleanest fix, tested under OpenGL 1.3
TextRenderer.java (text/plain), 76.89 KB, created by
Sven Gothel
on 2008-08-19 13:44:00 CEST
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Description:
Final cleanest fix, tested under OpenGL 1.3
Filename:
MIME Type:
Creator:
Sven Gothel
Created:
2008-08-19 13:44:00 CEST
Size:
76.89 KB
patch
obsolete
>/* > * Copyright (c) 2006 Sun Microsystems, Inc. All Rights Reserved. > * > * Redistribution and use in source and binary forms, with or without > * modification, are permitted provided that the following conditions are > * met: > * > * - Redistribution of source code must retain the above copyright > * notice, this list of conditions and the following disclaimer. > * > * - Redistribution in binary form must reproduce the above copyright > * notice, this list of conditions and the following disclaimer in the > * documentation and/or other materials provided with the distribution. > * > * Neither the name of Sun Microsystems, Inc. or the names of > * contributors may be used to endorse or promote products derived from > * this software without specific prior written permission. > * > * This software is provided "AS IS," without a warranty of any kind. ALL > * EXPRESS OR IMPLIED CONDITIONS, REPRESENTATIONS AND WARRANTIES, > * INCLUDING ANY IMPLIED WARRANTY OF MERCHANTABILITY, FITNESS FOR A > * PARTICULAR PURPOSE OR NON-INFRINGEMENT, ARE HEREBY EXCLUDED. SUN > * MICROSYSTEMS, INC. ("SUN") AND ITS LICENSORS SHALL NOT BE LIABLE FOR > * ANY DAMAGES SUFFERED BY LICENSEE AS A RESULT OF USING, MODIFYING OR > * DISTRIBUTING THIS SOFTWARE OR ITS DERIVATIVES. IN NO EVENT WILL SUN OR > * ITS LICENSORS BE LIABLE FOR ANY LOST REVENUE, PROFIT OR DATA, OR FOR > * DIRECT, INDIRECT, SPECIAL, CONSEQUENTIAL, INCIDENTAL OR PUNITIVE > * DAMAGES, HOWEVER CAUSED AND REGARDLESS OF THE THEORY OF LIABILITY, > * ARISING OUT OF THE USE OF OR INABILITY TO USE THIS SOFTWARE, EVEN IF > * SUN HAS BEEN ADVISED OF THE POSSIBILITY OF SUCH DAMAGES. > * > * You acknowledge that this software is not designed or intended for use > * in the design, construction, operation or maintenance of any nuclear > * facility. > * > * Sun gratefully acknowledges that this software was originally authored > * and developed by Kenneth Bradley Russell and Christopher John Kline. > */ >package com.sun.opengl.util.j2d; > >import com.sun.opengl.impl.*; >import com.sun.opengl.impl.packrect.*; >import com.sun.opengl.util.*; >import com.sun.opengl.util.texture.*; > >import java.awt.AlphaComposite; >import java.awt.Color; >import java.awt.Composite; > >// For debugging purposes >import java.awt.EventQueue; >import java.awt.Font; >import java.awt.Frame; >import java.awt.Graphics2D; >import java.awt.Image; >import java.awt.Point; >import java.awt.RenderingHints; >import java.awt.event.*; >import java.awt.font.*; >import java.awt.geom.*; > >import java.nio.*; > >import java.text.*; > >import java.util.*; > >import javax.media.opengl.*; >import javax.media.opengl.glu.*; > > >/** Renders bitmapped Java 2D text into an OpenGL window with high > performance, full Unicode support, and a simple API. Performs > appropriate caching of text rendering results in an OpenGL texture > internally to avoid repeated font rasterization. The caching is > completely automatic, does not require any user intervention, and > has no visible controls in the public API. <P> > > Using the {@link TextRenderer TextRenderer} is simple. Add a > "<code>TextRenderer renderer;</code>" field to your {@link > javax.media.opengl.GLEventListener GLEventListener}. In your {@link > javax.media.opengl.GLEventListener#init init} method, add: > > <PRE> > renderer = new TextRenderer(new Font("SansSerif", Font.BOLD, 36)); > </PRE> > > <P> In the {@link javax.media.opengl.GLEventListener#display display} method of your > {@link javax.media.opengl.GLEventListener GLEventListener}, add: > <PRE> > renderer.beginRendering(drawable.getWidth(), drawable.getHeight()); > // optionally set the color > renderer.setColor(1.0f, 0.2f, 0.2f, 0.8f); > renderer.draw("Text to draw", xPosition, yPosition); > // ... more draw commands, color changes, etc. > renderer.endRendering(); > </PRE> > > Unless you are sharing textures and display lists between OpenGL > contexts, you do not need to call the {@link #dispose dispose} > method of the TextRenderer; the OpenGL resources it uses > internally will be cleaned up automatically when the OpenGL > context is destroyed. <P> > > <b>Note</b> that the TextRenderer may cause the vertex and texture > coordinate array buffer bindings to change, or to be unbound. This > is important to note if you are using Vertex Buffer Objects (VBOs) > in your application. <P> > > Internally, the renderer uses a rectangle packing algorithm to > pack both glyphs and full Strings' rendering results (which are > variable size) onto a larger OpenGL texture. The internal backing > store is maintained using a {@link > com.sun.opengl.util.j2d.TextureRenderer TextureRenderer}. A least > recently used (LRU) algorithm is used to discard previously > rendered strings; the specific algorithm is undefined, but is > currently implemented by flushing unused Strings' rendering > results every few hundred rendering cycles, where a rendering > cycle is defined as a pair of calls to {@link #beginRendering > beginRendering} / {@link #endRendering endRendering}. > > @author John Burkey > @author Kenneth Russell >*/ >public class TextRenderer { > private static final boolean DEBUG = Debug.debug("TextRenderer"); > > // These are occasionally useful for more in-depth debugging > private static final boolean DISABLE_GLYPH_CACHE = false; > private static final boolean DRAW_BBOXES = false; > > static final int kSize = 256; > > // Every certain number of render cycles, flush the strings which > // haven't been used recently > private static final int CYCLES_PER_FLUSH = 100; > > // The amount of vertical dead space on the backing store before we > // force a compaction > private static final float MAX_VERTICAL_FRAGMENTATION = 0.7f; > static final int kQuadsPerBuffer = 100; > static final int kCoordsPerVertVerts = 3; > static final int kCoordsPerVertTex = 2; > static final int kVertsPerQuad = 4; > static final int kTotalBufferSizeVerts = kQuadsPerBuffer * kVertsPerQuad; > static final int kTotalBufferSizeCoordsVerts = kQuadsPerBuffer * kVertsPerQuad * kCoordsPerVertVerts; > static final int kTotalBufferSizeCoordsTex = kQuadsPerBuffer * kVertsPerQuad * kCoordsPerVertTex; > static final int kTotalBufferSizeBytesVerts = kTotalBufferSizeCoordsVerts * 4; > static final int kTotalBufferSizeBytesTex = kTotalBufferSizeCoordsTex * 4; > static final int kSizeInBytes_OneVertices_VertexData = kCoordsPerVertVerts * 4; > static final int kSizeInBytes_OneVertices_TexData = kCoordsPerVertTex * 4; > private Font font; > private boolean antialiased; > private boolean useFractionalMetrics; > > // Whether we're attempting to use automatic mipmap generation support > private boolean mipmap; > private RectanglePacker packer; > private boolean haveMaxSize; > private RenderDelegate renderDelegate; > private TextureRenderer cachedBackingStore; > private Graphics2D cachedGraphics; > private FontRenderContext cachedFontRenderContext; > private Map /*<String,Rect>*/ stringLocations = new HashMap /*<String,Rect>*/(); > private GlyphProducer mGlyphProducer; > > private int numRenderCycles; > > // Need to keep track of whether we're in a beginRendering() / > // endRendering() cycle so we can re-enter the exact same state if > // we have to reallocate the backing store > private boolean inBeginEndPair; > private boolean isOrthoMode; > private int beginRenderingWidth; > private int beginRenderingHeight; > private boolean beginRenderingDepthTestDisabled; > > // For resetting the color after disposal of the old backing store > private boolean haveCachedColor; > private float cachedR; > private float cachedG; > private float cachedB; > private float cachedA; > private Color cachedColor; > private boolean needToResetColor; > > // For debugging only > private Frame dbgFrame; > > // Debugging purposes only > private boolean debugged; > Pipelined_QuadRenderer mPipelinedQuadRenderer; > > //emzic: added boolean flag > private boolean useVertexArrays = true; > > //emzic: added boolean flag > private boolean isExtensionAvailable_GL_VERSION_1_5; > private boolean checkFor_isExtensionAvailable_GL_VERSION_1_5; > > // Whether GL_LINEAR filtering is enabled for the backing store > private boolean smoothing = true; > > /** Creates a new TextRenderer with the given font, using no > antialiasing or fractional metrics, and the default > RenderDelegate. Equivalent to <code>TextRenderer(font, false, > false)</code>. > > @param font the font to render with > */ > public TextRenderer(Font font) { > this(font, false, false, null, false); > } > > /** Creates a new TextRenderer with the given font, using no > antialiasing or fractional metrics, and the default > RenderDelegate. If <CODE>mipmap</CODE> is true, attempts to use > OpenGL's automatic mipmap generation for better smoothing when > rendering the TextureRenderer's contents at a distance. > Equivalent to <code>TextRenderer(font, false, false)</code>. > > @param font the font to render with > @param mipmap whether to attempt use of automatic mipmap generation > */ > public TextRenderer(Font font, boolean mipmap) { > this(font, false, false, null, mipmap); > } > > /** Creates a new TextRenderer with the given Font, specified font > properties, and default RenderDelegate. The > <code>antialiased</code> and <code>useFractionalMetrics</code> > flags provide control over the same properties at the Java 2D > level. No mipmap support is requested. Equivalent to > <code>TextRenderer(font, antialiased, useFractionalMetrics, > null)</code>. > > @param font the font to render with > @param antialiased whether to use antialiased fonts > @param useFractionalMetrics whether to use fractional font > metrics at the Java 2D level > */ > public TextRenderer(Font font, boolean antialiased, > boolean useFractionalMetrics) { > this(font, antialiased, useFractionalMetrics, null, false); > } > > /** Creates a new TextRenderer with the given Font, specified font > properties, and given RenderDelegate. The > <code>antialiased</code> and <code>useFractionalMetrics</code> > flags provide control over the same properties at the Java 2D > level. The <code>renderDelegate</code> provides more control > over the text rendered. No mipmap support is requested. > > @param font the font to render with > @param antialiased whether to use antialiased fonts > @param useFractionalMetrics whether to use fractional font > metrics at the Java 2D level > @param renderDelegate the render delegate to use to draw the > text's bitmap, or null to use the default one > */ > public TextRenderer(Font font, boolean antialiased, > boolean useFractionalMetrics, RenderDelegate renderDelegate) { > this(font, antialiased, useFractionalMetrics, renderDelegate, false); > } > > /** Creates a new TextRenderer with the given Font, specified font > properties, and given RenderDelegate. The > <code>antialiased</code> and <code>useFractionalMetrics</code> > flags provide control over the same properties at the Java 2D > level. The <code>renderDelegate</code> provides more control > over the text rendered. If <CODE>mipmap</CODE> is true, attempts > to use OpenGL's automatic mipmap generation for better smoothing > when rendering the TextureRenderer's contents at a distance. > > @param font the font to render with > @param antialiased whether to use antialiased fonts > @param useFractionalMetrics whether to use fractional font > metrics at the Java 2D level > @param renderDelegate the render delegate to use to draw the > text's bitmap, or null to use the default one > @param mipmap whether to attempt use of automatic mipmap generation > */ > public TextRenderer(Font font, boolean antialiased, > boolean useFractionalMetrics, RenderDelegate renderDelegate, > boolean mipmap) { > this.font = font; > this.antialiased = antialiased; > this.useFractionalMetrics = useFractionalMetrics; > this.mipmap = mipmap; > > // FIXME: consider adjusting the size based on font size > // (it will already automatically resize if necessary) > packer = new RectanglePacker(new Manager(), kSize, kSize); > > if (renderDelegate == null) { > renderDelegate = new DefaultRenderDelegate(); > } > > this.renderDelegate = renderDelegate; > > mGlyphProducer = new GlyphProducer(font.getNumGlyphs()); > } > > /** Returns the bounding rectangle of the given String, assuming it > was rendered at the origin. See {@link #getBounds(CharSequence) > getBounds(CharSequence)}. */ > public Rectangle2D getBounds(String str) { > return getBounds((CharSequence) str); > } > > /** Returns the bounding rectangle of the given CharSequence, > assuming it was rendered at the origin. The coordinate system of > the returned rectangle is Java 2D's, with increasing Y > coordinates in the downward direction. The relative coordinate > (0, 0) in the returned rectangle corresponds to the baseline of > the leftmost character of the rendered string, in similar > fashion to the results returned by, for example, {@link > java.awt.font.GlyphVector#getVisualBounds}. Most applications > will use only the width and height of the returned Rectangle for > the purposes of centering or justifying the String. It is not > specified which Java 2D bounds ({@link > java.awt.font.GlyphVector#getVisualBounds getVisualBounds}, > {@link java.awt.font.GlyphVector#getPixelBounds getPixelBounds}, > etc.) the returned bounds correspond to, although every effort > is made to ensure an accurate bound. */ > public Rectangle2D getBounds(CharSequence str) { > // FIXME: this should be more optimized and use the glyph cache > Rect r = null; > > if ((r = (Rect) stringLocations.get(str)) != null) { > TextData data = (TextData) r.getUserData(); > > // Reconstitute the Java 2D results based on the cached values > return new Rectangle2D.Double(-data.origin().x, -data.origin().y, > r.w(), r.h()); > } > > // Must return a Rectangle compatible with the layout algorithm -- > // must be idempotent > return normalize(renderDelegate.getBounds(str, font, > getFontRenderContext())); > } > > /** Returns the Font this renderer is using. */ > public Font getFont() { > return font; > } > > /** Returns a FontRenderContext which can be used for external > text-related size computations. This object should be considered > transient and may become invalidated between {@link > #beginRendering beginRendering} / {@link #endRendering > endRendering} pairs. */ > public FontRenderContext getFontRenderContext() { > if (cachedFontRenderContext == null) { > cachedFontRenderContext = getGraphics2D().getFontRenderContext(); > } > > return cachedFontRenderContext; > } > > /** Begins rendering with this {@link TextRenderer TextRenderer} > into the current OpenGL drawable, pushing the projection and > modelview matrices and some state bits and setting up a > two-dimensional orthographic projection with (0, 0) as the > lower-left coordinate and (width, height) as the upper-right > coordinate. Binds and enables the internal OpenGL texture > object, sets the texture environment mode to GL_MODULATE, and > changes the current color to the last color set with this > TextRenderer via {@link #setColor setColor}. This method > disables the depth test and is equivalent to > beginRendering(width, height, true). > > @param width the width of the current on-screen OpenGL drawable > @param height the height of the current on-screen OpenGL drawable > @throws javax.media.opengl.GLException If an OpenGL context is not current when this method is called > */ > public void beginRendering(int width, int height) throws GLException { > beginRendering(width, height, true); > } > > /** Begins rendering with this {@link TextRenderer TextRenderer} > into the current OpenGL drawable, pushing the projection and > modelview matrices and some state bits and setting up a > two-dimensional orthographic projection with (0, 0) as the > lower-left coordinate and (width, height) as the upper-right > coordinate. Binds and enables the internal OpenGL texture > object, sets the texture environment mode to GL_MODULATE, and > changes the current color to the last color set with this > TextRenderer via {@link #setColor setColor}. Disables the depth > test if the disableDepthTest argument is true. > > @param width the width of the current on-screen OpenGL drawable > @param height the height of the current on-screen OpenGL drawable > @param disableDepthTest whether to disable the depth test > @throws GLException If an OpenGL context is not current when this method is called > */ > public void beginRendering(int width, int height, boolean disableDepthTest) > throws GLException { > beginRendering(true, width, height, disableDepthTest); > } > > /** Begins rendering of 2D text in 3D with this {@link TextRenderer > TextRenderer} into the current OpenGL drawable. Assumes the end > user is responsible for setting up the modelview and projection > matrices, and will render text using the {@link #draw3D draw3D} > method. This method pushes some OpenGL state bits, binds and > enables the internal OpenGL texture object, sets the texture > environment mode to GL_MODULATE, and changes the current color > to the last color set with this TextRenderer via {@link > #setColor setColor}. > > @throws GLException If an OpenGL context is not current when this method is called > */ > public void begin3DRendering() throws GLException { > beginRendering(false, 0, 0, false); > } > > /** Changes the current color of this TextRenderer to the supplied > one. The default color is opaque white. > > @param color the new color to use for rendering text > @throws GLException If an OpenGL context is not current when this method is called > */ > public void setColor(Color color) throws GLException { > boolean noNeedForFlush = (haveCachedColor && (cachedColor != null) && > color.equals(cachedColor)); > > if (!noNeedForFlush) { > flushGlyphPipeline(); > } > > getBackingStore().setColor(color); > haveCachedColor = true; > cachedColor = color; > } > > /** Changes the current color of this TextRenderer to the supplied > one, where each component ranges from 0.0f - 1.0f. The alpha > component, if used, does not need to be premultiplied into the > color channels as described in the documentation for {@link > com.sun.opengl.util.texture.Texture Texture}, although > premultiplied colors are used internally. The default color is > opaque white. > > @param r the red component of the new color > @param g the green component of the new color > @param b the blue component of the new color > @param a the alpha component of the new color, 0.0f = completely > transparent, 1.0f = completely opaque > @throws GLException If an OpenGL context is not current when this method is called > */ > public void setColor(float r, float g, float b, float a) > throws GLException { > boolean noNeedForFlush = (haveCachedColor && (cachedColor == null) && > (r == cachedR) && (g == cachedG) && (b == cachedB) && > (a == cachedA)); > > if (!noNeedForFlush) { > flushGlyphPipeline(); > } > > getBackingStore().setColor(r, g, b, a); > haveCachedColor = true; > cachedR = r; > cachedG = g; > cachedB = b; > cachedA = a; > cachedColor = null; > } > > /** Draws the supplied CharSequence at the desired location using > the renderer's current color. The baseline of the leftmost > character is at position (x, y) specified in OpenGL coordinates, > where the origin is at the lower-left of the drawable and the Y > coordinate increases in the upward direction. > > @param str the string to draw > @param x the x coordinate at which to draw > @param y the y coordinate at which to draw > @throws GLException If an OpenGL context is not current when this method is called > */ > public void draw(CharSequence str, int x, int y) throws GLException { > draw3D(str, x, y, 0, 1); > } > > /** Draws the supplied String at the desired location using the > renderer's current color. See {@link #draw(CharSequence, int, > int) draw(CharSequence, int, int)}. */ > public void draw(String str, int x, int y) throws GLException { > draw3D(str, x, y, 0, 1); > } > > /** Draws the supplied CharSequence at the desired 3D location using > the renderer's current color. The baseline of the leftmost > character is placed at position (x, y, z) in the current > coordinate system. > > @param str the string to draw > @param x the x coordinate at which to draw > @param y the y coordinate at which to draw > @param z the z coordinate at which to draw > @param scaleFactor a uniform scale factor applied to the width and height of the drawn rectangle > @throws GLException If an OpenGL context is not current when this method is called > */ > public void draw3D(CharSequence str, float x, float y, float z, > float scaleFactor) { > internal_draw3D(str, x, y, z, scaleFactor); > } > > /** Draws the supplied String at the desired 3D location using the > renderer's current color. See {@link #draw3D(CharSequence, > float, float, float, float) draw3D(CharSequence, float, float, > float, float)}. */ > public void draw3D(String str, float x, float y, float z, float scaleFactor) { > internal_draw3D(str, x, y, z, scaleFactor); > } > > /** Returns the pixel width of the given character. */ > public float getCharWidth(char inChar) { > return mGlyphProducer.getGlyphPixelWidth(inChar); > } > > /** Causes the TextRenderer to flush any internal caches it may be > maintaining and draw its rendering results to the screen. This > should be called after each call to draw() if you are setting > OpenGL state such as the modelview matrix between calls to > draw(). */ > public void flush() { > flushGlyphPipeline(); > } > > /** Ends a render cycle with this {@link TextRenderer TextRenderer}. > Restores the projection and modelview matrices as well as > several OpenGL state bits. Should be paired with {@link > #beginRendering beginRendering}. > > @throws GLException If an OpenGL context is not current when this method is called > */ > public void endRendering() throws GLException { > endRendering(true); > } > > /** Ends a 3D render cycle with this {@link TextRenderer TextRenderer}. > Restores several OpenGL state bits. Should be paired with {@link > #begin3DRendering begin3DRendering}. > > @throws GLException If an OpenGL context is not current when this method is called > */ > public void end3DRendering() throws GLException { > endRendering(false); > } > > /** Disposes of all resources this TextRenderer is using. It is not > valid to use the TextRenderer after this method is called. > > @throws GLException If an OpenGL context is not current when this method is called > */ > public void dispose() throws GLException { > packer.dispose(); > packer = null; > cachedBackingStore = null; > cachedGraphics = null; > cachedFontRenderContext = null; > > if (dbgFrame != null) { > dbgFrame.dispose(); > } > } > > //---------------------------------------------------------------------- > // Internals only below this point > // > > private static Rectangle2D preNormalize(Rectangle2D src) { > // Need to round to integer coordinates > // Also give ourselves a little slop around the reported > // bounds of glyphs because it looks like neither the visual > // nor the pixel bounds works perfectly well > int minX = (int) Math.floor(src.getMinX()) - 1; > int minY = (int) Math.floor(src.getMinY()) - 1; > int maxX = (int) Math.ceil(src.getMaxX()) + 1; > int maxY = (int) Math.ceil(src.getMaxY()) + 1; > return new Rectangle2D.Double(minX, minY, maxX - minX, maxY - minY); > } > > > private Rectangle2D normalize(Rectangle2D src) { > // Give ourselves a boundary around each entity on the backing > // store in order to prevent bleeding of nearby Strings due to > // the fact that we use linear filtering > > // NOTE that this boundary is quite heuristic and is related > // to how far away in 3D we may view the text -- > // heuristically, 1.5% of the font's height > int boundary = (int) Math.max(1, 0.015 * font.getSize()); > > return new Rectangle2D.Double((int) Math.floor(src.getMinX() - boundary), > (int) Math.floor(src.getMinY() - boundary), > (int) Math.ceil(src.getWidth() + 2 * boundary), > (int) Math.ceil(src.getHeight()) + 2 * boundary); > } > > private TextureRenderer getBackingStore() { > TextureRenderer renderer = (TextureRenderer) packer.getBackingStore(); > > if (renderer != cachedBackingStore) { > // Backing store changed since last time; discard any cached Graphics2D > if (cachedGraphics != null) { > cachedGraphics.dispose(); > cachedGraphics = null; > cachedFontRenderContext = null; > } > > cachedBackingStore = renderer; > } > > return cachedBackingStore; > } > > private Graphics2D getGraphics2D() { > TextureRenderer renderer = getBackingStore(); > > if (cachedGraphics == null) { > cachedGraphics = renderer.createGraphics(); > > // Set up composite, font and rendering hints > cachedGraphics.setComposite(AlphaComposite.Src); > cachedGraphics.setColor(Color.WHITE); > cachedGraphics.setFont(font); > cachedGraphics.setRenderingHint(RenderingHints.KEY_TEXT_ANTIALIASING, > (antialiased ? RenderingHints.VALUE_TEXT_ANTIALIAS_ON > : RenderingHints.VALUE_TEXT_ANTIALIAS_OFF)); > cachedGraphics.setRenderingHint(RenderingHints.KEY_FRACTIONALMETRICS, > (useFractionalMetrics > ? RenderingHints.VALUE_FRACTIONALMETRICS_ON > : RenderingHints.VALUE_FRACTIONALMETRICS_OFF)); > } > > return cachedGraphics; > } > > private void beginRendering(boolean ortho, int width, int height, > boolean disableDepthTestForOrtho) { > if (DEBUG && !debugged) { > debug(); > } > > inBeginEndPair = true; > isOrthoMode = ortho; > beginRenderingWidth = width; > beginRenderingHeight = height; > beginRenderingDepthTestDisabled = disableDepthTestForOrtho; > > if (ortho) { > getBackingStore().beginOrthoRendering(width, height, > disableDepthTestForOrtho); > } else { > getBackingStore().begin3DRendering(); > } > > GL gl = GLU.getCurrentGL(); > > // Push client attrib bits used by the pipelined quad renderer > gl.glPushClientAttrib((int) GL.GL_ALL_CLIENT_ATTRIB_BITS); > > if (!haveMaxSize) { > // Query OpenGL for the maximum texture size and set it in the > // RectanglePacker to keep it from expanding too large > int[] sz = new int[1]; > gl.glGetIntegerv(GL.GL_MAX_TEXTURE_SIZE, sz, 0); > packer.setMaxSize(sz[0], sz[0]); > haveMaxSize = true; > } > > if (needToResetColor && haveCachedColor) { > if (cachedColor == null) { > getBackingStore().setColor(cachedR, cachedG, cachedB, cachedA); > } else { > getBackingStore().setColor(cachedColor); > } > > needToResetColor = false; > } > > // Disable future attempts to use mipmapping if TextureRenderer > // doesn't support it > if (mipmap && !getBackingStore().isUsingAutoMipmapGeneration()) { > if (DEBUG) { > System.err.println("Disabled mipmapping in TextRenderer"); > } > > mipmap = false; > } > } > > /** > * emzic: here the call to glBindBuffer crashes on certain graphicscard/driver combinations > * this is why the ugly try-catch block has been added, which falls back to the old textrenderer > * > * @param ortho > * @throws GLException > */ > private void endRendering(boolean ortho) throws GLException { > flushGlyphPipeline(); > > inBeginEndPair = false; > > GL gl = GLU.getCurrentGL(); > > // Pop client attrib bits used by the pipelined quad renderer > gl.glPopClientAttrib(); > > // The OpenGL spec is unclear about whether this changes the > // buffer bindings, so preemptively zero out the GL_ARRAY_BUFFER > // binding > if (is15Available(gl)) { > try { > gl.glBindBuffer(GL.GL_ARRAY_BUFFER, 0); > } catch (Exception e) { > isExtensionAvailable_GL_VERSION_1_5 = false; > } > } > > if (ortho) { > getBackingStore().endOrthoRendering(); > } else { > getBackingStore().end3DRendering(); > } > > if (++numRenderCycles >= CYCLES_PER_FLUSH) { > numRenderCycles = 0; > > if (DEBUG) { > System.err.println("Clearing unused entries in endRendering()"); > } > > clearUnusedEntries(); > } > } > > private void clearUnusedEntries() { > final java.util.List deadRects = new ArrayList /*<Rect>*/(); > > // Iterate through the contents of the backing store, removing > // text strings that haven't been used recently > packer.visit(new RectVisitor() { > public void visit(Rect rect) { > TextData data = (TextData) rect.getUserData(); > > if (data.used()) { > data.clearUsed(); > } else { > deadRects.add(rect); > } > } > }); > > for (Iterator iter = deadRects.iterator(); iter.hasNext();) { > Rect r = (Rect) iter.next(); > packer.remove(r); > stringLocations.remove(((TextData) r.getUserData()).string()); > > int unicodeToClearFromCache = ((TextData) r.getUserData()).unicodeID; > > if (unicodeToClearFromCache > 0) { > mGlyphProducer.clearCacheEntry(unicodeToClearFromCache); > } > > // if (DEBUG) { > // Graphics2D g = getGraphics2D(); > // g.setComposite(AlphaComposite.Clear); > // g.fillRect(r.x(), r.y(), r.w(), r.h()); > // g.setComposite(AlphaComposite.Src); > // } > } > > // If we removed dead rectangles this cycle, try to do a compaction > float frag = packer.verticalFragmentationRatio(); > > if (!deadRects.isEmpty() && (frag > MAX_VERTICAL_FRAGMENTATION)) { > if (DEBUG) { > System.err.println( > "Compacting TextRenderer backing store due to vertical fragmentation " + > frag); > } > > packer.compact(); > } > > if (DEBUG) { > getBackingStore().markDirty(0, 0, getBackingStore().getWidth(), > getBackingStore().getHeight()); > } > } > > private void internal_draw3D(CharSequence str, float x, float y, float z, > float scaleFactor) { > List/*<Glyph>*/ glyphs = mGlyphProducer.getGlyphs(str); > for (Iterator iter = glyphs.iterator(); iter.hasNext(); ) { > Glyph glyph = (Glyph) iter.next(); > float advance = glyph.draw3D(x, y, z, scaleFactor); > x += advance * scaleFactor; > } > } > > private void flushGlyphPipeline() { > if (mPipelinedQuadRenderer != null) { > mPipelinedQuadRenderer.draw(); > } > } > > private void draw3D_ROBUST(CharSequence str, float x, float y, float z, > float scaleFactor) { > String curStr; > if (str instanceof String) { > curStr = (String) str; > } else { > curStr = str.toString(); > } > > // Look up the string on the backing store > Rect rect = (Rect) stringLocations.get(curStr); > > if (rect == null) { > // Rasterize this string and place it on the backing store > Graphics2D g = getGraphics2D(); > Rectangle2D origBBox = preNormalize(renderDelegate.getBounds(curStr, font, getFontRenderContext())); > Rectangle2D bbox = normalize(origBBox); > Point origin = new Point((int) -bbox.getMinX(), > (int) -bbox.getMinY()); > rect = new Rect(0, 0, (int) bbox.getWidth(), > (int) bbox.getHeight(), > new TextData(curStr, origin, origBBox, -1)); > > packer.add(rect); > stringLocations.put(curStr, rect); > > // Re-fetch the Graphics2D in case the addition of the rectangle > // caused the old backing store to be thrown away > g = getGraphics2D(); > > // OK, should now have an (x, y) for this rectangle; rasterize > // the String > int strx = rect.x() + origin.x; > int stry = rect.y() + origin.y; > > // Clear out the area we're going to draw into > g.setComposite(AlphaComposite.Clear); > g.fillRect(rect.x(), rect.y(), rect.w(), rect.h()); > g.setComposite(AlphaComposite.Src); > > // Draw the string > renderDelegate.draw(g, curStr, strx, stry); > > if (DRAW_BBOXES) { > TextData data = (TextData) rect.getUserData(); > // Draw a bounding box on the backing store > g.drawRect(strx - data.origOriginX(), > stry - data.origOriginY(), > (int) data.origRect().getWidth(), > (int) data.origRect().getHeight()); > g.drawRect(strx - data.origin().x, > stry - data.origin().y, > rect.w(), > rect.h()); > } > > // Mark this region of the TextureRenderer as dirty > getBackingStore().markDirty(rect.x(), rect.y(), rect.w(), > rect.h()); > } > > // OK, now draw the portion of the backing store to the screen > TextureRenderer renderer = getBackingStore(); > > // NOTE that the rectangles managed by the packer have their > // origin at the upper-left but the TextureRenderer's origin is > // at its lower left!!! > TextData data = (TextData) rect.getUserData(); > data.markUsed(); > > Rectangle2D origRect = data.origRect(); > > // Align the leftmost point of the baseline to the (x, y, z) coordinate requested > renderer.draw3DRect(x - (scaleFactor * data.origOriginX()), > y - (scaleFactor * ((float) origRect.getHeight() - data.origOriginY())), z, > rect.x() + (data.origin().x - data.origOriginX()), > renderer.getHeight() - rect.y() - (int) origRect.getHeight() - > (data.origin().y - data.origOriginY()), > (int) origRect.getWidth(), (int) origRect.getHeight(), scaleFactor); > } > > //---------------------------------------------------------------------- > // Debugging functionality > // > private void debug() { > dbgFrame = new Frame("TextRenderer Debug Output"); > > GLCanvas dbgCanvas = new GLCanvas(new GLCapabilities(), null, > GLContext.getCurrent(), null); > dbgCanvas.addGLEventListener(new DebugListener(dbgFrame)); > dbgFrame.add(dbgCanvas); > > final FPSAnimator anim = new FPSAnimator(dbgCanvas, 10); > dbgFrame.addWindowListener(new WindowAdapter() { > public void windowClosing(WindowEvent e) { > // Run this on another thread than the AWT event queue to > // make sure the call to Animator.stop() completes before > // exiting > new Thread(new Runnable() { > public void run() { > anim.stop(); > } > }).start(); > } > }); > dbgFrame.setSize(kSize, kSize); > dbgFrame.setVisible(true); > anim.start(); > debugged = true; > } > > /** Class supporting more full control over the process of rendering > the bitmapped text. Allows customization of whether the backing > store text bitmap is full-color or intensity only, the size of > each individual rendered text rectangle, and the contents of > each individual rendered text string. The default implementation > of this interface uses an intensity-only texture, a > closely-cropped rectangle around the text, and renders text > using the color white, which is modulated by the set color > during the rendering process. */ > public static interface RenderDelegate { > /** Indicates whether the backing store of this TextRenderer > should be intensity-only (the default) or full-color. */ > public boolean intensityOnly(); > > /** Computes the bounds of the given String relative to the > origin. */ > public Rectangle2D getBounds(String str, Font font, > FontRenderContext frc); > > /** Computes the bounds of the given character sequence relative > to the origin. */ > public Rectangle2D getBounds(CharSequence str, Font font, > FontRenderContext frc); > > /** Computes the bounds of the given GlyphVector, already > assumed to have been created for a particular Font, > relative to the origin. */ > public Rectangle2D getBounds(GlyphVector gv, FontRenderContext frc); > > /** Render the passed character sequence at the designated > location using the supplied Graphics2D instance. The > surrounding region will already have been cleared to the RGB > color (0, 0, 0) with zero alpha. The initial drawing context > of the passed Graphics2D will be set to use > AlphaComposite.Src, the color white, the Font specified in the > TextRenderer's constructor, and the rendering hints specified > in the TextRenderer constructor. Changes made by the end user > may be visible in successive calls to this method, but are not > guaranteed to be preserved. Implementors of this method > should reset the Graphics2D's state to that desired each time > this method is called, in particular those states which are > not the defaults. */ > public void draw(Graphics2D graphics, String str, int x, int y); > > /** Render the passed GlyphVector at the designated location using > the supplied Graphics2D instance. The surrounding region will > already have been cleared to the RGB color (0, 0, 0) with zero > alpha. The initial drawing context of the passed Graphics2D > will be set to use AlphaComposite.Src, the color white, the > Font specified in the TextRenderer's constructor, and the > rendering hints specified in the TextRenderer constructor. > Changes made by the end user may be visible in successive > calls to this method, but are not guaranteed to be preserved. > Implementors of this method should reset the Graphics2D's > state to that desired each time this method is called, in > particular those states which are not the defaults. */ > public void drawGlyphVector(Graphics2D graphics, GlyphVector str, > int x, int y); > } > > private static class CharSequenceIterator implements CharacterIterator { > CharSequence mSequence; > int mLength; > int mCurrentIndex; > > CharSequenceIterator() { > } > > CharSequenceIterator(CharSequence sequence) { > initFromCharSequence(sequence); > } > > public void initFromCharSequence(CharSequence sequence) { > mSequence = sequence; > mLength = mSequence.length(); > mCurrentIndex = 0; > } > > public char last() { > mCurrentIndex = Math.max(0, mLength - 1); > > return current(); > } > > public char current() { > if ((mLength == 0) || (mCurrentIndex >= mLength)) { > return CharacterIterator.DONE; > } > > return mSequence.charAt(mCurrentIndex); > } > > public char next() { > mCurrentIndex++; > > return current(); > } > > public char previous() { > mCurrentIndex = Math.max(mCurrentIndex - 1, 0); > > return current(); > } > > public char setIndex(int position) { > mCurrentIndex = position; > > return current(); > } > > public int getBeginIndex() { > return 0; > } > > public int getEndIndex() { > return mLength; > } > > public int getIndex() { > return mCurrentIndex; > } > > public Object clone() { > CharSequenceIterator iter = new CharSequenceIterator(mSequence); > iter.mCurrentIndex = mCurrentIndex; > > return iter; > } > > public char first() { > if (mLength == 0) { > return CharacterIterator.DONE; > } > > mCurrentIndex = 0; > > return current(); > } > } > > // Data associated with each rectangle of text > static class TextData { > // Back-pointer to String this TextData describes, if it > // represents a String rather than a single glyph > private String str; > > // If this TextData represents a single glyph, this is its > // unicode ID > int unicodeID; > > // The following must be defined and used VERY precisely. This is > // the offset from the upper-left corner of this rectangle (Java > // 2D coordinate system) at which the string must be rasterized in > // order to fit within the rectangle -- the leftmost point of the > // baseline. > private Point origin; > > // This represents the pre-normalized rectangle, which fits > // within the rectangle on the backing store. We keep a > // one-pixel border around entries on the backing store to > // prevent bleeding of adjacent letters when using GL_LINEAR > // filtering for rendering. The origin of this rectangle is > // equivalent to the origin above. > private Rectangle2D origRect; > > private boolean used; // Whether this text was used recently > > TextData(String str, Point origin, Rectangle2D origRect, int unicodeID) { > this.str = str; > this.origin = origin; > this.origRect = origRect; > this.unicodeID = unicodeID; > } > > String string() { > return str; > } > > Point origin() { > return origin; > } > > // The following three methods are used to locate the glyph > // within the expanded rectangle coming from normalize() > int origOriginX() { > return (int) -origRect.getMinX(); > } > > int origOriginY() { > return (int) -origRect.getMinY(); > } > > Rectangle2D origRect() { > return origRect; > } > > boolean used() { > return used; > } > > void markUsed() { > used = true; > } > > void clearUsed() { > used = false; > } > } > > class Manager implements BackingStoreManager { > private Graphics2D g; > > public Object allocateBackingStore(int w, int h) { > // FIXME: should consider checking Font's attributes to see > // whether we're likely to need to support a full RGBA backing > // store (i.e., non-default Paint, foreground color, etc.), but > // for now, let's just be more efficient > TextureRenderer renderer; > > if (renderDelegate.intensityOnly()) { > renderer = TextureRenderer.createAlphaOnlyRenderer(w, h, mipmap); > } else { > renderer = new TextureRenderer(w, h, true, mipmap); > } > renderer.setSmoothing(smoothing); > > if (DEBUG) { > System.err.println(" TextRenderer allocating backing store " + > w + " x " + h); > } > > return renderer; > } > > public void deleteBackingStore(Object backingStore) { > ((TextureRenderer) backingStore).dispose(); > } > > public boolean preExpand(Rect cause, int attemptNumber) { > // Only try this one time; clear out potentially obsolete entries > // NOTE: this heuristic and the fact that it clears the used bit > // of all entries seems to cause cycling of entries in some > // situations, where the backing store becomes small compared to > // the amount of text on the screen (see the TextFlow demo) and > // the entries continually cycle in and out of the backing > // store, decreasing performance. If we added a little age > // information to the entries, and only cleared out entries > // above a certain age, this behavior would be eliminated. > // However, it seems the system usually stabilizes itself, so > // for now we'll just keep things simple. Note that if we don't > // clear the used bit here, the backing store tends to increase > // very quickly to its maximum size, at least with the TextFlow > // demo when the text is being continually re-laid out. > if (attemptNumber == 0) { > if (DEBUG) { > System.err.println( > "Clearing unused entries in preExpand(): attempt number " + > attemptNumber); > } > > if (inBeginEndPair) { > // Draw any outstanding glyphs > flush(); > } > > clearUnusedEntries(); > > return true; > } > > return false; > } > > public void additionFailed(Rect cause, int attemptNumber) { > // Heavy hammer -- might consider doing something different > packer.clear(); > stringLocations.clear(); > mGlyphProducer.clearAllCacheEntries(); > > if (DEBUG) { > System.err.println( > " *** Cleared all text because addition failed ***"); > } > } > > public void beginMovement(Object oldBackingStore, Object newBackingStore) { > // Exit the begin / end pair if necessary > if (inBeginEndPair) { > // Draw any outstanding glyphs > flush(); > > GL gl = GLU.getCurrentGL(); > > // Pop client attrib bits used by the pipelined quad renderer > gl.glPopClientAttrib(); > > // The OpenGL spec is unclear about whether this changes the > // buffer bindings, so preemptively zero out the GL_ARRAY_BUFFER > // binding > if (is15Available(gl)) { > try { > gl.glBindBuffer(GL.GL_ARRAY_BUFFER, 0); > } catch (Exception e) { > isExtensionAvailable_GL_VERSION_1_5 = false; > } > } > > if (isOrthoMode) { > ((TextureRenderer) oldBackingStore).endOrthoRendering(); > } else { > ((TextureRenderer) oldBackingStore).end3DRendering(); > } > } > > TextureRenderer newRenderer = (TextureRenderer) newBackingStore; > g = newRenderer.createGraphics(); > } > > public void move(Object oldBackingStore, Rect oldLocation, > Object newBackingStore, Rect newLocation) { > TextureRenderer oldRenderer = (TextureRenderer) oldBackingStore; > TextureRenderer newRenderer = (TextureRenderer) newBackingStore; > > if (oldRenderer == newRenderer) { > // Movement on the same backing store -- easy case > g.copyArea(oldLocation.x(), oldLocation.y(), oldLocation.w(), > oldLocation.h(), newLocation.x() - oldLocation.x(), > newLocation.y() - oldLocation.y()); > } else { > // Need to draw from the old renderer's image into the new one > Image img = oldRenderer.getImage(); > g.drawImage(img, newLocation.x(), newLocation.y(), > newLocation.x() + newLocation.w(), > newLocation.y() + newLocation.h(), oldLocation.x(), > oldLocation.y(), oldLocation.x() + oldLocation.w(), > oldLocation.y() + oldLocation.h(), null); > } > } > > public void endMovement(Object oldBackingStore, Object newBackingStore) { > g.dispose(); > > // Sync the whole surface > TextureRenderer newRenderer = (TextureRenderer) newBackingStore; > newRenderer.markDirty(0, 0, newRenderer.getWidth(), > newRenderer.getHeight()); > > // Re-enter the begin / end pair if necessary > if (inBeginEndPair) { > if (isOrthoMode) { > ((TextureRenderer) newBackingStore).beginOrthoRendering(beginRenderingWidth, > beginRenderingHeight, beginRenderingDepthTestDisabled); > } else { > ((TextureRenderer) newBackingStore).begin3DRendering(); > } > > // Push client attrib bits used by the pipelined quad renderer > GL gl = GLU.getCurrentGL(); > gl.glPushClientAttrib((int) GL.GL_ALL_CLIENT_ATTRIB_BITS); > > if (haveCachedColor) { > if (cachedColor == null) { > ((TextureRenderer) newBackingStore).setColor(cachedR, > cachedG, cachedB, cachedA); > } else { > ((TextureRenderer) newBackingStore).setColor(cachedColor); > } > } > } else { > needToResetColor = true; > } > } > } > > public static class DefaultRenderDelegate implements RenderDelegate { > public boolean intensityOnly() { > return true; > } > > public Rectangle2D getBounds(CharSequence str, Font font, > FontRenderContext frc) { > return getBounds(font.createGlyphVector(frc, > new CharSequenceIterator(str)), > frc); > } > > public Rectangle2D getBounds(String str, Font font, > FontRenderContext frc) { > return getBounds(font.createGlyphVector(frc, str), frc); > } > > public Rectangle2D getBounds(GlyphVector gv, FontRenderContext frc) { > return gv.getVisualBounds(); > } > > public void drawGlyphVector(Graphics2D graphics, GlyphVector str, > int x, int y) { > graphics.drawGlyphVector(str, x, y); > } > > public void draw(Graphics2D graphics, String str, int x, int y) { > graphics.drawString(str, x, y); > } > } > > //---------------------------------------------------------------------- > // Glyph-by-glyph rendering support > // > > // A temporary to prevent excessive garbage creation > private char[] singleUnicode = new char[1]; > > /** A Glyph represents either a single unicode glyph or a > substring of characters to be drawn. The reason for the dual > behavior is so that we can take in a sequence of unicode > characters and partition them into runs of individual glyphs, > but if we encounter complex text and/or unicode sequences we > don't understand, we can render them using the > string-by-string method. <P> > > Glyphs need to be able to re-upload themselves to the backing > store on demand as we go along in the render sequence. > */ > > class Glyph { > // If this Glyph represents an individual unicode glyph, this > // is its unicode ID. If it represents a String, this is -1. > private int unicodeID; > // If the above field isn't -1, then these fields are used. > // The glyph code in the font > private int glyphCode; > // The GlyphProducer which created us > private GlyphProducer producer; > // The advance of this glyph > private float advance; > // The GlyphVector for this single character; this is passed > // in during construction but cleared during the upload > // process > private GlyphVector singleUnicodeGlyphVector; > // The rectangle of this glyph on the backing store, or null > // if it has been cleared due to space pressure > private Rect glyphRectForTextureMapping; > // If this Glyph represents a String, this is the sequence of > // characters > private String str; > // Whether we need a valid advance when rendering this string > // (i.e., whether it has other single glyphs coming after it) > private boolean needAdvance; > > // Creates a Glyph representing an individual Unicode character > public Glyph(int unicodeID, > int glyphCode, > float advance, > GlyphVector singleUnicodeGlyphVector, > GlyphProducer producer) { > this.unicodeID = unicodeID; > this.glyphCode = glyphCode; > this.advance = advance; > this.singleUnicodeGlyphVector = singleUnicodeGlyphVector; > this.producer = producer; > } > > // Creates a Glyph representing a sequence of characters, with > // an indication of whether additional single glyphs are being > // rendered after it > public Glyph(String str, boolean needAdvance) { > this.str = str; > this.needAdvance = needAdvance; > } > > /** Returns this glyph's unicode ID */ > public int getUnicodeID() { > return unicodeID; > } > > /** Returns this glyph's (font-specific) glyph code */ > public int getGlyphCode() { > return glyphCode; > } > > /** Returns the advance for this glyph */ > public float getAdvance() { > return advance; > } > > /** Draws this glyph and returns the (x) advance for this glyph */ > public float draw3D(float inX, float inY, float z, float scaleFactor) { > if (str != null) { > draw3D_ROBUST(str, inX, inY, z, scaleFactor); > if (!needAdvance) { > return 0; > } > // Compute and return the advance for this string > GlyphVector gv = font.createGlyphVector(getFontRenderContext(), str); > float totalAdvance = 0; > for (int i = 0; i < gv.getNumGlyphs(); i++) { > totalAdvance += gv.getGlyphMetrics(i).getAdvance(); > } > return totalAdvance; > } > > // This is the code path taken for individual glyphs > if (glyphRectForTextureMapping == null) { > upload(); > } > > try { > if (mPipelinedQuadRenderer == null) { > mPipelinedQuadRenderer = new Pipelined_QuadRenderer(); > } > > TextureRenderer renderer = getBackingStore(); > // Handles case where NPOT texture is used for backing store > TextureCoords wholeImageTexCoords = renderer.getTexture().getImageTexCoords(); > float xScale = wholeImageTexCoords.right(); > float yScale = wholeImageTexCoords.bottom(); > > Rect rect = glyphRectForTextureMapping; > TextData data = (TextData) rect.getUserData(); > data.markUsed(); > > Rectangle2D origRect = data.origRect(); > > float x = inX - (scaleFactor * data.origOriginX()); > float y = inY - (scaleFactor * ((float) origRect.getHeight() - data.origOriginY())); > > int texturex = rect.x() + (data.origin().x - data.origOriginX()); > int texturey = renderer.getHeight() - rect.y() - (int) origRect.getHeight() - > (data.origin().y - data.origOriginY()); > int width = (int) origRect.getWidth(); > int height = (int) origRect.getHeight(); > > float tx1 = xScale * (float) texturex / (float) renderer.getWidth(); > float ty1 = yScale * (1.0f - > ((float) texturey / (float) renderer.getHeight())); > float tx2 = xScale * (float) (texturex + width) / (float) renderer.getWidth(); > float ty2 = yScale * (1.0f - > ((float) (texturey + height) / (float) renderer.getHeight())); > > mPipelinedQuadRenderer.glTexCoord2f(tx1, ty1); > mPipelinedQuadRenderer.glVertex3f(x, y, z); > mPipelinedQuadRenderer.glTexCoord2f(tx2, ty1); > mPipelinedQuadRenderer.glVertex3f(x + (width * scaleFactor), y, > z); > mPipelinedQuadRenderer.glTexCoord2f(tx2, ty2); > mPipelinedQuadRenderer.glVertex3f(x + (width * scaleFactor), > y + (height * scaleFactor), z); > mPipelinedQuadRenderer.glTexCoord2f(tx1, ty2); > mPipelinedQuadRenderer.glVertex3f(x, > y + (height * scaleFactor), z); > } catch (Exception e) { > e.printStackTrace(); > } > return advance; > } > > /** Notifies this glyph that it's been cleared out of the cache */ > public void clear() { > glyphRectForTextureMapping = null; > } > > private void upload() { > GlyphVector gv = getGlyphVector(); > Rectangle2D origBBox = preNormalize(renderDelegate.getBounds(gv, getFontRenderContext())); > Rectangle2D bbox = normalize(origBBox); > Point origin = new Point((int) -bbox.getMinX(), > (int) -bbox.getMinY()); > Rect rect = new Rect(0, 0, (int) bbox.getWidth(), > (int) bbox.getHeight(), > new TextData(null, origin, origBBox, unicodeID)); > packer.add(rect); > glyphRectForTextureMapping = rect; > Graphics2D g = getGraphics2D(); > // OK, should now have an (x, y) for this rectangle; rasterize > // the glyph > int strx = rect.x() + origin.x; > int stry = rect.y() + origin.y; > > // Clear out the area we're going to draw into > g.setComposite(AlphaComposite.Clear); > g.fillRect(rect.x(), rect.y(), rect.w(), rect.h()); > g.setComposite(AlphaComposite.Src); > > // Draw the string > renderDelegate.drawGlyphVector(g, gv, strx, stry); > > if (DRAW_BBOXES) { > TextData data = (TextData) rect.getUserData(); > // Draw a bounding box on the backing store > g.drawRect(strx - data.origOriginX(), > stry - data.origOriginY(), > (int) data.origRect().getWidth(), > (int) data.origRect().getHeight()); > g.drawRect(strx - data.origin().x, > stry - data.origin().y, > rect.w(), > rect.h()); > } > > // Mark this region of the TextureRenderer as dirty > getBackingStore().markDirty(rect.x(), rect.y(), rect.w(), > rect.h()); > // Re-register ourselves with our producer > producer.register(this); > } > > private GlyphVector getGlyphVector() { > GlyphVector gv = singleUnicodeGlyphVector; > if (gv != null) { > singleUnicodeGlyphVector = null; // Don't need this anymore > return gv; > } > singleUnicode[0] = (char) unicodeID; > return font.createGlyphVector(getFontRenderContext(), singleUnicode); > } > } > > class GlyphProducer { > final int undefined = -2; > FontRenderContext fontRenderContext; > List/*<Glyph>*/ glyphsOutput = new ArrayList/*<Glyph>*/(); > // The mapping from unicode character to font-specific glyph ID > int[] unicodes2Glyphs; > // The mapping from glyph ID to Glyph > Glyph[] glyphCache; > // We re-use this for each incoming string > CharSequenceIterator iter = new CharSequenceIterator(); > > GlyphProducer(int fontLengthInGlyphs) { > unicodes2Glyphs = new int[512]; > glyphCache = new Glyph[fontLengthInGlyphs]; > clearAllCacheEntries(); > } > > public List/*<Glyph>*/ getGlyphs(CharSequence inString) { > glyphsOutput.clear(); > iter.initFromCharSequence(inString); > GlyphVector fullRunGlyphVector = font.createGlyphVector(getFontRenderContext(), > iter); > boolean complex = (fullRunGlyphVector.getLayoutFlags() != 0); > if (complex || DISABLE_GLYPH_CACHE) { > // Punt to the robust version of the renderer > glyphsOutput.add(new Glyph(inString.toString(), false)); > return glyphsOutput; > } > > int lengthInGlyphs = fullRunGlyphVector.getNumGlyphs(); > int i = 0; > while (i < lengthInGlyphs) { > Glyph glyph = getGlyph(inString, fullRunGlyphVector, i); > if (glyph != null) { > glyphsOutput.add(glyph); > i++; > } else { > // Assemble a run of characters that don't fit in > // the cache > StringBuffer buf = new StringBuffer(); > while (i < lengthInGlyphs && > getGlyph(inString, fullRunGlyphVector, i) == null) { > buf.append(inString.charAt(i++)); > } > glyphsOutput.add(new Glyph(buf.toString(), > // Any more glyphs after this run? > i < lengthInGlyphs)); > } > } > return glyphsOutput; > } > > public void clearCacheEntry(int unicodeID) { > int glyphID = unicodes2Glyphs[unicodeID]; > if (glyphID != undefined) { > Glyph glyph = glyphCache[glyphID]; > if (glyph != null) { > glyph.clear(); > } > glyphCache[glyphID] = null; > } > unicodes2Glyphs[unicodeID] = undefined; > } > > public void clearAllCacheEntries() { > for (int i = 0; i < unicodes2Glyphs.length; i++) { > clearCacheEntry(i); > } > } > > public void register(Glyph glyph) { > unicodes2Glyphs[glyph.getUnicodeID()] = glyph.getGlyphCode(); > glyphCache[glyph.getGlyphCode()] = glyph; > } > > public float getGlyphPixelWidth(char unicodeID) { > Glyph glyph = getGlyph(unicodeID); > if (glyph != null) { > return glyph.getAdvance(); > } > > // Have to do this the hard / uncached way > singleUnicode[0] = unicodeID; > GlyphVector gv = font.createGlyphVector(fontRenderContext, > singleUnicode); > return gv.getGlyphMetrics(0).getAdvance(); > } > > // Returns a glyph object for this single glyph. Returns null > // if the unicode or glyph ID would be out of bounds of the > // glyph cache. > private Glyph getGlyph(CharSequence inString, > GlyphVector fullRunGlyphVector, > int index) { > char unicodeID = inString.charAt(index); > > if (unicodeID >= unicodes2Glyphs.length) { > return null; > } > > int glyphID = unicodes2Glyphs[unicodeID]; > if (glyphID != undefined) { > return glyphCache[glyphID]; > } > > // Must fabricate the glyph > singleUnicode[0] = unicodeID; > GlyphVector gv = font.createGlyphVector(getFontRenderContext(), singleUnicode); > return getGlyph(unicodeID, gv, fullRunGlyphVector.getGlyphMetrics(index)); > } > > // It's unclear whether this variant might produce less > // optimal results than if we can see the entire GlyphVector > // for the incoming string > private Glyph getGlyph(int unicodeID) { > if (unicodeID >= unicodes2Glyphs.length) { > return null; > } > > int glyphID = unicodes2Glyphs[unicodeID]; > if (glyphID != undefined) { > return glyphCache[glyphID]; > } > singleUnicode[0] = (char) unicodeID; > GlyphVector gv = font.createGlyphVector(getFontRenderContext(), singleUnicode); > return getGlyph(unicodeID, gv, gv.getGlyphMetrics(0)); > } > > private Glyph getGlyph(int unicodeID, > GlyphVector singleUnicodeGlyphVector, > GlyphMetrics metrics) { > int glyphCode = singleUnicodeGlyphVector.getGlyphCode(0); > // Have seen huge glyph codes (65536) coming out of some fonts in some Unicode situations > if (glyphCode >= glyphCache.length) { > return null; > } > Glyph glyph = new Glyph(unicodeID, > glyphCode, > metrics.getAdvance(), > singleUnicodeGlyphVector, > this); > register(glyph); > return glyph; > } > } > > class Pipelined_QuadRenderer { > int mOutstandingGlyphsVerticesPipeline = 0; > FloatBuffer mTexCoords; > FloatBuffer mVertCoords; > boolean usingVBOs; > boolean ARBVBOAvailable; > int mVBO_For_ResuableTileVertices; > int mVBO_For_ResuableTileTexCoords; > > Pipelined_QuadRenderer() { > GL gl = GLU.getCurrentGL(); > mVertCoords = BufferUtil.newFloatBuffer(kTotalBufferSizeCoordsVerts); > mTexCoords = BufferUtil.newFloatBuffer(kTotalBufferSizeCoordsTex); > > usingVBOs = is15Available(gl); > > ARBVBOAvailable = gl.isExtensionAvailable("GL_ARB_vertex_buffer_object") && > gl.isFunctionAvailable("glBindBufferARB"); > > if (usingVBOs) { > try { > int[] vbos = new int[2]; > gl.glGenBuffers(2, IntBuffer.wrap(vbos)); > > mVBO_For_ResuableTileVertices = vbos[0]; > mVBO_For_ResuableTileTexCoords = vbos[1]; > > gl.glBindBuffer(GL.GL_ARRAY_BUFFER, > mVBO_For_ResuableTileVertices); > gl.glBufferData(GL.GL_ARRAY_BUFFER, kTotalBufferSizeBytesVerts, > null, GL.GL_STREAM_DRAW); // stream draw because this is a single quad use pipeline > > gl.glBindBuffer(GL.GL_ARRAY_BUFFER, > mVBO_For_ResuableTileTexCoords); > gl.glBufferData(GL.GL_ARRAY_BUFFER, kTotalBufferSizeBytesTex, > null, GL.GL_STREAM_DRAW); // stream draw because this is a single quad use pipeline > } catch (Exception e) { > isExtensionAvailable_GL_VERSION_1_5 = false; > usingVBOs = false; > } > } > } > > public void glTexCoord2f(float v, float v1) { > mTexCoords.put(v); > mTexCoords.put(v1); > } > > public void glVertex3f(float inX, float inY, float inZ) { > mVertCoords.put(inX); > mVertCoords.put(inY); > mVertCoords.put(inZ); > > mOutstandingGlyphsVerticesPipeline++; > > if (mOutstandingGlyphsVerticesPipeline >= kTotalBufferSizeVerts) { > this.draw(); > } > } > > private void draw() { > if (useVertexArrays) { > drawVertexArrays(); > } else { > drawIMMEDIATE(); > } > } > > private void drawVertexArrays() { > if (mOutstandingGlyphsVerticesPipeline > 0) { > GL gl = GLU.getCurrentGL(); > > TextureRenderer renderer = getBackingStore(); > Texture texture = renderer.getTexture(); // triggers texture uploads. Maybe this should be more obvious? > > mVertCoords.rewind(); > mTexCoords.rewind(); > > gl.glEnableClientState(GL.GL_VERTEX_ARRAY); > > if (usingVBOs) { > gl.glBindBuffer(GL.GL_ARRAY_BUFFER, > mVBO_For_ResuableTileVertices); > gl.glBufferSubData(GL.GL_ARRAY_BUFFER, 0, > mOutstandingGlyphsVerticesPipeline * kSizeInBytes_OneVertices_VertexData, > mVertCoords); // upload only the new stuff > gl.glVertexPointer(3, GL.GL_FLOAT, 0, 0); > } else { > if (ARBVBOAvailable) { > gl.glBindBuffer(GL.GL_ARRAY_BUFFER, 0); > } > gl.glVertexPointer(3, GL.GL_FLOAT, 0, mVertCoords); > } > > gl.glEnableClientState(GL.GL_TEXTURE_COORD_ARRAY); > > if (usingVBOs) { > gl.glBindBuffer(GL.GL_ARRAY_BUFFER, > mVBO_For_ResuableTileTexCoords); > gl.glBufferSubData(GL.GL_ARRAY_BUFFER, 0, > mOutstandingGlyphsVerticesPipeline * kSizeInBytes_OneVertices_TexData, > mTexCoords); // upload only the new stuff > gl.glTexCoordPointer(2, GL.GL_FLOAT, 0, 0); > } else { > if (ARBVBOAvailable) { > gl.glBindBuffer(GL.GL_ARRAY_BUFFER, 0); > } > gl.glTexCoordPointer(2, GL.GL_FLOAT, 0, mTexCoords); > } > > gl.glDrawArrays(GL.GL_QUADS, 0, > mOutstandingGlyphsVerticesPipeline); > > mVertCoords.rewind(); > mTexCoords.rewind(); > mOutstandingGlyphsVerticesPipeline = 0; > } > } > > private void drawIMMEDIATE() { > if (mOutstandingGlyphsVerticesPipeline > 0) { > TextureRenderer renderer = getBackingStore(); > Texture texture = renderer.getTexture(); // triggers texture uploads. Maybe this should be more obvious? > > GL gl = GLU.getCurrentGL(); > gl.glBegin(GL.GL_QUADS); > > try { > int numberOfQuads = mOutstandingGlyphsVerticesPipeline / 4; > mVertCoords.rewind(); > mTexCoords.rewind(); > > for (int i = 0; i < numberOfQuads; i++) { > gl.glTexCoord2f(mTexCoords.get(), mTexCoords.get()); > gl.glVertex3f(mVertCoords.get(), mVertCoords.get(), > mVertCoords.get()); > > gl.glTexCoord2f(mTexCoords.get(), mTexCoords.get()); > gl.glVertex3f(mVertCoords.get(), mVertCoords.get(), > mVertCoords.get()); > > gl.glTexCoord2f(mTexCoords.get(), mTexCoords.get()); > gl.glVertex3f(mVertCoords.get(), mVertCoords.get(), > mVertCoords.get()); > > gl.glTexCoord2f(mTexCoords.get(), mTexCoords.get()); > gl.glVertex3f(mVertCoords.get(), mVertCoords.get(), > mVertCoords.get()); > } > } catch (Exception e) { > e.printStackTrace(); > } finally { > gl.glEnd(); > mVertCoords.rewind(); > mTexCoords.rewind(); > mOutstandingGlyphsVerticesPipeline = 0; > } > } > } > } > > class DebugListener implements GLEventListener { > private GLU glu = new GLU(); > private Frame frame; > > DebugListener(Frame frame) { > this.frame = frame; > } > > public void display(GLAutoDrawable drawable) { > GL gl = drawable.getGL(); > gl.glClear(GL.GL_DEPTH_BUFFER_BIT | GL.GL_COLOR_BUFFER_BIT); > > if (packer == null) { > return; > } > > TextureRenderer rend = getBackingStore(); > final int w = rend.getWidth(); > final int h = rend.getHeight(); > rend.beginOrthoRendering(w, h); > rend.drawOrthoRect(0, 0); > rend.endOrthoRendering(); > > if ((frame.getWidth() != w) || (frame.getHeight() != h)) { > EventQueue.invokeLater(new Runnable() { > public void run() { > frame.setSize(w, h); > } > }); > } > } > > // Unused methods > public void init(GLAutoDrawable drawable) { > } > > public void reshape(GLAutoDrawable drawable, int x, int y, int width, > int height) { > } > > public void displayChanged(GLAutoDrawable drawable, > boolean modeChanged, boolean deviceChanged) { > } > } > > /** > * Sets whether vertex arrays are being used internally for > * rendering, or whether text is rendered using the OpenGL > * immediate mode commands. This is provided as a concession for > * certain graphics cards which have poor vertex array > * performance. Defaults to true. > */ > public void setUseVertexArrays(boolean useVertexArrays) { > this.useVertexArrays = useVertexArrays; > } > > /** > * Indicates whether vertex arrays are being used internally for > * rendering, or whether text is rendered using the OpenGL > * immediate mode commands. Defaults to true. > */ > public boolean getUseVertexArrays() { > return useVertexArrays; > } > > /** > * Sets whether smoothing (i.e., GL_LINEAR filtering) is enabled > * in the backing TextureRenderer of this TextRenderer. A few > * graphics cards do not behave well when this is enabled, > * resulting in fuzzy text. Defaults to true. > */ > public void setSmoothing(boolean smoothing) { > this.smoothing = smoothing; > getBackingStore().setSmoothing(smoothing); > } > > /** > * Indicates whether smoothing is enabled in the backing > * TextureRenderer of this TextRenderer. A few graphics cards do > * not behave well when this is enabled, resulting in fuzzy text. > * Defaults to true. > */ > public boolean getSmoothing() { > return smoothing; > } > > private boolean is15Available(GL gl) { > if (!checkFor_isExtensionAvailable_GL_VERSION_1_5) { > isExtensionAvailable_GL_VERSION_1_5 = gl.isExtensionAvailable("GL_VERSION_1_5"); > checkFor_isExtensionAvailable_GL_VERSION_1_5 = true; > } > return isExtensionAvailable_GL_VERSION_1_5; > } >} >
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