com.badlogic.gdx.tools.hiero.unicodefont.UnicodeFont Maven / Gradle / Ivy
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/*******************************************************************************
* Copyright 2011 See AUTHORS file.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
******************************************************************************/
package com.badlogic.gdx.tools.hiero.unicodefont;
import java.awt.Font;
import java.awt.FontFormatException;
import java.awt.FontMetrics;
import java.awt.Rectangle;
import java.awt.font.GlyphVector;
import java.awt.font.TextAttribute;
import java.io.IOException;
import java.lang.reflect.Field;
import java.util.ArrayList;
import java.util.Collections;
import java.util.Comparator;
import java.util.Iterator;
import java.util.List;
import java.util.Map;
import org.lwjgl.opengl.GL11;
import com.badlogic.gdx.Gdx;
import com.badlogic.gdx.graphics.Color;
import com.badlogic.gdx.graphics.Texture;
import com.badlogic.gdx.graphics.g2d.BitmapFont;
import com.badlogic.gdx.graphics.g2d.BitmapFont.BitmapFontData;
import com.badlogic.gdx.graphics.g2d.BitmapFontCache;
import com.badlogic.gdx.graphics.g2d.GlyphLayout;
import com.badlogic.gdx.graphics.g2d.GlyphLayout.GlyphRun;
import com.badlogic.gdx.graphics.g2d.TextureRegion;
import com.badlogic.gdx.graphics.g2d.freetype.FreeTypeFontGenerator;
import com.badlogic.gdx.graphics.g2d.freetype.FreeTypeFontGenerator.FreeTypeFontParameter;
import com.badlogic.gdx.tools.hiero.HieroSettings;
import com.badlogic.gdx.tools.hiero.unicodefont.effects.Effect;
import com.badlogic.gdx.utils.Array;
import com.badlogic.gdx.utils.GdxRuntimeException;
// BOZO - Look at actual pixels to determine glyph size, current size sometimes selects blank pixels (eg Calibri, 45, 'o').
/** A bitmap font that can display unicode glyphs from a TrueTypeFont.
*
* For efficiency, glyphs are packed on to textures. Glyphs can be loaded to the textures on the fly, when they are first needed
* for display. However, it is best to load the glyphs that are known to be needed at startup.
* @author Nathan Sweet */
public class UnicodeFont {
static private final int DISPLAY_LIST_CACHE_SIZE = 200;
static private final int MAX_GLYPH_CODE = 0x10FFFF;
static private final int PAGE_SIZE = 512;
static private final int PAGES = MAX_GLYPH_CODE / PAGE_SIZE;
private Font font;
private FontMetrics metrics;
private String ttfFileRef;
private int ascent, descent, leading, spaceWidth;
private final Glyph[][] glyphs = new Glyph[PAGES][];
private final List glyphPages = new ArrayList();
private final List queuedGlyphs = new ArrayList(256);
private final List effects = new ArrayList();
private int paddingTop, paddingLeft, paddingBottom, paddingRight, paddingAdvanceX, paddingAdvanceY;
private Glyph missingGlyph;
private int glyphPageWidth = 512, glyphPageHeight = 512;
RenderType renderType;
BitmapFont bitmapFont;
private FreeTypeFontGenerator generator;
private BitmapFontCache cache;
private GlyphLayout layout;
private boolean mono;
private float gamma;
/** @param ttfFileRef The file system or classpath location of the TrueTypeFont file.
* @param hieroFileRef The file system or classpath location of the Hiero settings file. */
public UnicodeFont (String ttfFileRef, String hieroFileRef) {
this(ttfFileRef, new HieroSettings(hieroFileRef));
}
/** @param ttfFileRef The file system or classpath location of the TrueTypeFont file. */
public UnicodeFont (String ttfFileRef, HieroSettings settings) {
this.ttfFileRef = ttfFileRef;
Font font = createFont(ttfFileRef);
initializeFont(font, settings.getFontSize(), settings.isBold(), settings.isItalic());
loadSettings(settings);
}
/** @param ttfFileRef The file system or classpath location of the TrueTypeFont file. */
public UnicodeFont (String ttfFileRef, int size, boolean bold, boolean italic) {
this.ttfFileRef = ttfFileRef;
initializeFont(createFont(ttfFileRef), size, bold, italic);
}
/** Creates a new UnicodeFont.
* @param hieroFileRef The file system or classpath location of the Hiero settings file. */
public UnicodeFont (Font font, String hieroFileRef) {
this(font, new HieroSettings(hieroFileRef));
}
/** Creates a new UnicodeFont. */
public UnicodeFont (Font font, HieroSettings settings) {
initializeFont(font, settings.getFontSize(), settings.isBold(), settings.isItalic());
loadSettings(settings);
}
/** Creates a new UnicodeFont. */
public UnicodeFont (Font font) {
initializeFont(font, font.getSize(), font.isBold(), font.isItalic());
}
/** Creates a new UnicodeFont. */
public UnicodeFont (Font font, int size, boolean bold, boolean italic) {
initializeFont(font, size, bold, italic);
}
private void initializeFont (Font baseFont, int size, boolean bold, boolean italic) {
Map attributes = baseFont.getAttributes();
attributes.put(TextAttribute.SIZE, size);
attributes.put(TextAttribute.WEIGHT, bold ? TextAttribute.WEIGHT_BOLD : TextAttribute.WEIGHT_REGULAR);
attributes.put(TextAttribute.POSTURE, italic ? TextAttribute.POSTURE_OBLIQUE : TextAttribute.POSTURE_REGULAR);
try {
attributes.put(TextAttribute.class.getDeclaredField("KERNING").get(null),
TextAttribute.class.getDeclaredField("KERNING_ON").get(null));
} catch (Throwable ignored) {
}
font = baseFont.deriveFont(attributes);
metrics = GlyphPage.scratchGraphics.getFontMetrics(font);
ascent = metrics.getAscent();
descent = metrics.getDescent();
leading = metrics.getLeading();
// Determine width of space glyph (getGlyphPixelBounds gives a width of zero).
char[] chars = " ".toCharArray();
GlyphVector vector = font.layoutGlyphVector(GlyphPage.renderContext, chars, 0, chars.length, Font.LAYOUT_LEFT_TO_RIGHT);
spaceWidth = vector.getGlyphLogicalBounds(0).getBounds().width;
}
private void loadSettings (HieroSettings settings) {
paddingTop = settings.getPaddingTop();
paddingLeft = settings.getPaddingLeft();
paddingBottom = settings.getPaddingBottom();
paddingRight = settings.getPaddingRight();
paddingAdvanceX = settings.getPaddingAdvanceX();
paddingAdvanceY = settings.getPaddingAdvanceY();
glyphPageWidth = settings.getGlyphPageWidth();
glyphPageHeight = settings.getGlyphPageHeight();
effects.addAll(settings.getEffects());
}
/** Queues the glyphs in the specified codepoint range (inclusive) to be loaded. Note that the glyphs are not actually loaded
* until {@link #loadGlyphs()} is called.
*
* Some characters like combining marks and non-spacing marks can only be rendered with the context of other glyphs. In this
* case, use {@link #addGlyphs(String)}. */
public void addGlyphs (int startCodePoint, int endCodePoint) {
for (int codePoint = startCodePoint; codePoint <= endCodePoint; codePoint++)
addGlyphs(new String(Character.toChars(codePoint)));
}
/** Queues the glyphs in the specified text to be loaded. Note that the glyphs are not actually loaded until
* {@link #loadGlyphs()} is called. */
public void addGlyphs (String text) {
if (text == null) throw new IllegalArgumentException("text cannot be null.");
char[] chars = text.toCharArray();
GlyphVector vector = font.layoutGlyphVector(GlyphPage.renderContext, chars, 0, chars.length, Font.LAYOUT_LEFT_TO_RIGHT);
for (int i = 0, n = vector.getNumGlyphs(); i < n; i++) {
int codePoint = text.codePointAt(vector.getGlyphCharIndex(i));
Rectangle bounds = getGlyphBounds(vector, i, codePoint);
getGlyph(vector.getGlyphCode(i), codePoint, bounds, vector, i);
}
}
/** Queues the glyphs in the ASCII character set (codepoints 32 through 255) to be loaded. Note that the glyphs are not
* actually loaded until {@link #loadGlyphs()} is called. */
public void addAsciiGlyphs () {
addGlyphs(32, 255);
}
/** Queues the glyphs in the NEHE character set (codepoints 32 through 128) to be loaded. Note that the glyphs are not actually
* loaded until {@link #loadGlyphs()} is called. */
public void addNeheGlyphs () {
addGlyphs(32, 32 + 96);
}
/** Loads all queued glyphs to the backing textures. Glyphs that are typically displayed together should be added and loaded at
* the same time so that they are stored on the same backing texture. This reduces the number of backing texture binds required
* to draw glyphs. */
public boolean loadGlyphs () {
return loadGlyphs(-1);
}
/** Loads up to the specified number of queued glyphs to the backing textures. This is typically called from the game loop to
* load glyphs on the fly that were requested for display but have not yet been loaded. */
public boolean loadGlyphs (int maxGlyphsToLoad) {
if (queuedGlyphs.isEmpty()) return false;
if (effects.isEmpty())
throw new IllegalStateException("The UnicodeFont must have at least one effect before any glyphs can be loaded.");
for (Iterator iter = queuedGlyphs.iterator(); iter.hasNext();) {
Glyph glyph = (Glyph)iter.next();
int codePoint = glyph.getCodePoint();
// Only load the first missing glyph.
if (glyph.isMissing()) {
if (missingGlyph != null) {
if (glyph != missingGlyph) iter.remove();
continue;
}
missingGlyph = glyph;
}
}
Collections.sort(queuedGlyphs, heightComparator);
// Add to existing pages.
for (Iterator iter = glyphPages.iterator(); iter.hasNext();) {
GlyphPage glyphPage = (GlyphPage)iter.next();
maxGlyphsToLoad -= glyphPage.loadGlyphs(queuedGlyphs, maxGlyphsToLoad);
if (maxGlyphsToLoad == 0 || queuedGlyphs.isEmpty()) return true;
}
// Add to new pages.
while (!queuedGlyphs.isEmpty()) {
GlyphPage glyphPage = new GlyphPage(this, glyphPageWidth, glyphPageHeight);
glyphPages.add(glyphPage);
maxGlyphsToLoad -= glyphPage.loadGlyphs(queuedGlyphs, maxGlyphsToLoad);
if (maxGlyphsToLoad == 0) return true;
}
return true;
}
/** Releases all resources used by this UnicodeFont. This method should be called when this UnicodeFont instance is no longer
* needed. */
public void dispose () {
for (Iterator iter = glyphPages.iterator(); iter.hasNext();) {
GlyphPage page = (GlyphPage)iter.next();
page.getTexture().dispose();
}
if (bitmapFont != null) {
bitmapFont.dispose();
generator.dispose();
}
}
public void drawString (float x, float y, String text, Color color, int startIndex, int endIndex) {
if (text == null) throw new IllegalArgumentException("text cannot be null.");
if (text.length() == 0) return;
if (color == null) throw new IllegalArgumentException("color cannot be null.");
x -= paddingLeft;
y -= paddingTop;
GL11.glColor4f(color.r, color.g, color.b, color.a);
GL11.glTranslatef(x, y, 0);
if (renderType == RenderType.FreeType && bitmapFont != null)
drawBitmap(text, startIndex, endIndex);
else
drawUnicode(text, startIndex, endIndex);
GL11.glTranslatef(-x, -y, 0);
}
static private final int X = 0, Y = 1, U = 3, V = 4;
static private final int X2 = 10, Y2 = 11, U2 = 13, V2 = 14;
private void drawBitmap (String text, int startIndex, int endIndex) {
BitmapFontData data = bitmapFont.getData();
int padY = paddingTop + paddingBottom + paddingAdvanceY;
data.setLineHeight(data.lineHeight + padY);
layout.setText(bitmapFont, text);
data.setLineHeight(data.lineHeight - padY);
for (GlyphRun run : layout.runs)
for (int i = 0, n = run.xAdvances.size; i < n; i++)
run.xAdvances.incr(i, paddingAdvanceX + paddingLeft + paddingRight);
cache.setText(layout, paddingLeft, paddingRight);
Array regions = bitmapFont.getRegions();
for (int i = 0, n = regions.size; i < n; i++) {
regions.get(i).getTexture().bind();
GL11.glBegin(GL11.GL_QUADS);
float[] vertices = cache.getVertices(i);
for (int ii = 0, nn = vertices.length; ii < nn; ii += 20) {
GL11.glTexCoord2f(vertices[ii + U], vertices[ii + V]);
GL11.glVertex3f(vertices[ii + X], vertices[ii + Y], 0);
GL11.glTexCoord2f(vertices[ii + U], vertices[ii + V2]);
GL11.glVertex3f(vertices[ii + X], vertices[ii + Y2], 0);
GL11.glTexCoord2f(vertices[ii + U2], vertices[ii + V2]);
GL11.glVertex3f(vertices[ii + X2], vertices[ii + Y2], 0);
GL11.glTexCoord2f(vertices[ii + U2], vertices[ii + V]);
GL11.glVertex3f(vertices[ii + X2], vertices[ii + Y], 0);
}
GL11.glEnd();
}
}
private void drawUnicode (String text, int startIndex, int endIndex) {
char[] chars = text.substring(0, endIndex).toCharArray();
GlyphVector vector = font.layoutGlyphVector(GlyphPage.renderContext, chars, 0, chars.length, Font.LAYOUT_LEFT_TO_RIGHT);
int maxWidth = 0, totalHeight = 0, lines = 0;
int extraX = 0, extraY = ascent;
boolean startNewLine = false;
Texture lastBind = null;
int offsetX = 0;
for (int glyphIndex = 0, n = vector.getNumGlyphs(); glyphIndex < n; glyphIndex++) {
int charIndex = vector.getGlyphCharIndex(glyphIndex);
if (charIndex < startIndex) continue;
if (charIndex > endIndex) break;
int codePoint = text.codePointAt(charIndex);
Rectangle bounds = getGlyphBounds(vector, glyphIndex, codePoint);
bounds.x += offsetX;
Glyph glyph = getGlyph(vector.getGlyphCode(glyphIndex), codePoint, bounds, vector, glyphIndex);
if (startNewLine && codePoint != '\n') {
extraX = -bounds.x;
startNewLine = false;
}
if (glyph.getTexture() == null && missingGlyph != null && glyph.isMissing()) glyph = missingGlyph;
if (glyph.getTexture() != null) {
// Draw glyph, only binding a new glyph page texture when necessary.
Texture texture = glyph.getTexture();
if (lastBind != null && lastBind != texture) {
GL11.glEnd();
lastBind = null;
}
if (lastBind == null) {
texture.bind();
GL11.glBegin(GL11.GL_QUADS);
lastBind = texture;
}
int glyphX = bounds.x + extraX;
int glyphY = bounds.y + extraY;
GL11.glTexCoord2f(glyph.getU(), glyph.getV());
GL11.glVertex3f(glyphX, glyphY, 0);
GL11.glTexCoord2f(glyph.getU(), glyph.getV2());
GL11.glVertex3f(glyphX, glyphY + glyph.getHeight(), 0);
GL11.glTexCoord2f(glyph.getU2(), glyph.getV2());
GL11.glVertex3f(glyphX + glyph.getWidth(), glyphY + glyph.getHeight(), 0);
GL11.glTexCoord2f(glyph.getU2(), glyph.getV());
GL11.glVertex3f(glyphX + glyph.getWidth(), glyphY, 0);
}
if (glyphIndex > 0) extraX += paddingRight + paddingLeft + paddingAdvanceX;
maxWidth = Math.max(maxWidth, bounds.x + extraX + bounds.width);
totalHeight = Math.max(totalHeight, ascent + bounds.y + bounds.height);
if (codePoint == '\n') {
startNewLine = true; // Mac gives -1 for bounds.x of '\n', so use the bounds.x of the next glyph.
extraY += getLineHeight();
lines++;
totalHeight = 0;
} else if (renderType == RenderType.Native) offsetX += bounds.width;
}
if (lastBind != null) GL11.glEnd();
}
public void drawString (float x, float y, String text) {
drawString(x, y, text, Color.WHITE);
}
public void drawString (float x, float y, String text, Color col) {
drawString(x, y, text, col, 0, text.length());
}
/** Returns the glyph for the specified codePoint. If the glyph does not exist yet, it is created and queued to be loaded. */
public Glyph getGlyph (int glyphCode, int codePoint, Rectangle bounds, GlyphVector vector, int index) {
if (glyphCode < 0 || glyphCode >= MAX_GLYPH_CODE) {
// GlyphVector#getGlyphCode sometimes returns negative numbers on OS X!?
return new Glyph(codePoint, bounds, vector, index, this) {
public boolean isMissing () {
return true;
}
};
}
int pageIndex = glyphCode / PAGE_SIZE;
int glyphIndex = glyphCode & (PAGE_SIZE - 1);
Glyph glyph = null;
Glyph[] page = glyphs[pageIndex];
if (page != null) {
glyph = page[glyphIndex];
if (glyph != null) return glyph;
} else
page = glyphs[pageIndex] = new Glyph[PAGE_SIZE];
// Add glyph so size information is available and queue it so its image can be loaded later.
glyph = page[glyphIndex] = new Glyph(codePoint, bounds, vector, index, this);
queuedGlyphs.add(glyph);
return glyph;
}
private Rectangle getGlyphBounds (GlyphVector vector, int index, int codePoint) {
Rectangle bounds;
bounds = vector.getGlyphPixelBounds(index, GlyphPage.renderContext, 0, 0);
if (renderType == RenderType.Native) {
if (bounds.width == 0 || bounds.height == 0)
bounds = new Rectangle();
else
bounds = metrics.getStringBounds("" + (char)codePoint, GlyphPage.scratchGraphics).getBounds();
}
if (codePoint == ' ') bounds.width = spaceWidth;
return bounds;
}
public int getSpaceWidth () {
return spaceWidth;
}
public int getWidth (String text) {
if (text == null) throw new IllegalArgumentException("text cannot be null.");
if (text.length() == 0) return 0;
char[] chars = text.toCharArray();
GlyphVector vector = font.layoutGlyphVector(GlyphPage.renderContext, chars, 0, chars.length, Font.LAYOUT_LEFT_TO_RIGHT);
int width = 0;
int extraX = 0;
boolean startNewLine = false;
for (int glyphIndex = 0, n = vector.getNumGlyphs(); glyphIndex < n; glyphIndex++) {
int charIndex = vector.getGlyphCharIndex(glyphIndex);
int codePoint = text.codePointAt(charIndex);
Rectangle bounds = getGlyphBounds(vector, glyphIndex, codePoint);
if (startNewLine && codePoint != '\n') extraX = -bounds.x;
if (glyphIndex > 0) extraX += paddingLeft + paddingRight + paddingAdvanceX;
width = Math.max(width, bounds.x + extraX + bounds.width);
if (codePoint == '\n') startNewLine = true;
}
return width;
}
public int getHeight (String text) {
if (text == null) throw new IllegalArgumentException("text cannot be null.");
if (text.length() == 0) return 0;
char[] chars = text.toCharArray();
GlyphVector vector = font.layoutGlyphVector(GlyphPage.renderContext, chars, 0, chars.length, Font.LAYOUT_LEFT_TO_RIGHT);
int lines = 0, height = 0;
for (int i = 0, n = vector.getNumGlyphs(); i < n; i++) {
int charIndex = vector.getGlyphCharIndex(i);
int codePoint = text.codePointAt(charIndex);
if (codePoint == ' ') continue;
Rectangle bounds = getGlyphBounds(vector, i, codePoint);
height = Math.max(height, ascent + bounds.y + bounds.height);
if (codePoint == '\n') {
lines++;
height = 0;
}
}
return lines * getLineHeight() + height;
}
/** Returns the distance from the y drawing location to the top most pixel of the specified text. */
public int getYOffset (String text) {
if (text == null) throw new IllegalArgumentException("text cannot be null.");
if (renderType == RenderType.FreeType && bitmapFont != null) return (int)bitmapFont.getAscent();
int index = text.indexOf('\n');
if (index != -1) text = text.substring(0, index);
char[] chars = text.toCharArray();
GlyphVector vector = font.layoutGlyphVector(GlyphPage.renderContext, chars, 0, chars.length, Font.LAYOUT_LEFT_TO_RIGHT);
int yOffset = ascent + vector.getPixelBounds(null, 0, 0).y;
return yOffset;
}
/** Returns the TrueTypeFont for this UnicodeFont. */
public Font getFont () {
return font;
}
/** Returns the padding above a glyph on the GlyphPage to allow for effects to be drawn. */
public int getPaddingTop () {
return paddingTop;
}
/** Sets the padding above a glyph on the GlyphPage to allow for effects to be drawn. */
public void setPaddingTop (int paddingTop) {
this.paddingTop = paddingTop;
}
/** Returns the padding to the left of a glyph on the GlyphPage to allow for effects to be drawn. */
public int getPaddingLeft () {
return paddingLeft;
}
/** Sets the padding to the left of a glyph on the GlyphPage to allow for effects to be drawn. */
public void setPaddingLeft (int paddingLeft) {
this.paddingLeft = paddingLeft;
}
/** Returns the padding below a glyph on the GlyphPage to allow for effects to be drawn. */
public int getPaddingBottom () {
return paddingBottom;
}
/** Sets the padding below a glyph on the GlyphPage to allow for effects to be drawn. */
public void setPaddingBottom (int paddingBottom) {
this.paddingBottom = paddingBottom;
}
/** Returns the padding to the right of a glyph on the GlyphPage to allow for effects to be drawn. */
public int getPaddingRight () {
return paddingRight;
}
/** Sets the padding to the right of a glyph on the GlyphPage to allow for effects to be drawn. */
public void setPaddingRight (int paddingRight) {
this.paddingRight = paddingRight;
}
/** Gets the additional amount to offset glyphs on the x axis. */
public int getPaddingAdvanceX () {
return paddingAdvanceX;
}
/** Sets the additional amount to offset glyphs on the x axis. This is typically set to a negative number when left or right
* padding is used so that glyphs are not spaced too far apart. */
public void setPaddingAdvanceX (int paddingAdvanceX) {
this.paddingAdvanceX = paddingAdvanceX;
}
/** Gets the additional amount to offset a line of text on the y axis. */
public int getPaddingAdvanceY () {
return paddingAdvanceY;
}
/** Sets the additional amount to offset a line of text on the y axis. This is typically set to a negative number when top or
* bottom padding is used so that lines of text are not spaced too far apart. */
public void setPaddingAdvanceY (int paddingAdvanceY) {
this.paddingAdvanceY = paddingAdvanceY;
}
/** Returns the distance from one line of text to the next. This is the sum of the descent, ascent, leading, padding top,
* padding bottom, and padding advance y. To change the line height, use {@link #setPaddingAdvanceY(int)}. */
public int getLineHeight () {
return descent + ascent + leading + paddingTop + paddingBottom + paddingAdvanceY;
}
/** Gets the distance from the baseline to the y drawing location. */
public int getAscent () {
return ascent;
}
/** Gets the distance from the baseline to the bottom of most alphanumeric characters with descenders. */
public int getDescent () {
return descent;
}
/** Gets the extra distance between the descent of one line of text to the ascent of the next. */
public int getLeading () {
return leading;
}
/** Returns the width of the backing textures. */
public int getGlyphPageWidth () {
return glyphPageWidth;
}
/** Sets the width of the backing textures. Default is 512. */
public void setGlyphPageWidth (int glyphPageWidth) {
this.glyphPageWidth = glyphPageWidth;
}
/** Returns the height of the backing textures. */
public int getGlyphPageHeight () {
return glyphPageHeight;
}
/** Sets the height of the backing textures. Default is 512. */
public void setGlyphPageHeight (int glyphPageHeight) {
this.glyphPageHeight = glyphPageHeight;
}
/** Returns the GlyphPages for this UnicodeFont. */
public List getGlyphPages () {
return glyphPages;
}
/** Returns a list of {@link Effect}s that will be applied to the glyphs. */
public List getEffects () {
return effects;
}
public boolean getMono () {
return mono;
}
public void setMono (boolean mono) {
this.mono = mono;
}
public float getGamma () {
return gamma;
}
public void setGamma (float gamma) {
this.gamma = gamma;
}
public RenderType getRenderType () {
return renderType;
}
public void setRenderType (RenderType renderType) {
this.renderType = renderType;
if (renderType != RenderType.FreeType) {
if (bitmapFont != null) {
bitmapFont.dispose();
generator.dispose();
}
} else {
String fontFile = getFontFile();
if (fontFile != null) {
if (generator != null) generator.dispose();
generator = new FreeTypeFontGenerator(Gdx.files.absolute(fontFile));
FreeTypeFontParameter param = new FreeTypeFontParameter();
param.size = font.getSize();
param.incremental = true;
param.flip = true;
param.mono = mono;
param.gamma = gamma;
bitmapFont = generator.generateFont(param);
if (bitmapFont.getData().missingGlyph == null)
bitmapFont.getData().missingGlyph = bitmapFont.getData().getGlyph('\ufffd');
cache = bitmapFont.newFontCache();
layout = new GlyphLayout();
}
}
}
/** Returns the path to the TTF file for this UnicodeFont, or null. If this UnicodeFont was created without specifying the TTF
* file, it will try to determine the path using Sun classes. If this fails, null is returned. */
public String getFontFile () {
if (ttfFileRef == null) {
// Worst case if this UnicodeFont was loaded without a ttfFileRef, try to get the font file from Sun's classes.
try {
Object font2D;
try {
// Java 7+.
font2D = Class.forName("sun.font.FontUtilities").getDeclaredMethod("getFont2D", new Class[] {Font.class})
.invoke(null, new Object[] {font});
} catch (Throwable ignored) {
font2D = Class.forName("sun.font.FontManager").getDeclaredMethod("getFont2D", new Class[] {Font.class})
.invoke(null, new Object[] {font});
}
Field platNameField = Class.forName("sun.font.PhysicalFont").getDeclaredField("platName");
platNameField.setAccessible(true);
ttfFileRef = (String)platNameField.get(font2D);
} catch (Throwable ignored) {
}
if (ttfFileRef == null) ttfFileRef = "";
}
if (ttfFileRef.length() == 0) return null;
return ttfFileRef;
}
/** @param ttfFileRef The file system or classpath location of the TrueTypeFont file. */
static private Font createFont (String ttfFileRef) {
try {
return Font.createFont(Font.TRUETYPE_FONT, Gdx.files.absolute(ttfFileRef).read());
} catch (FontFormatException ex) {
throw new GdxRuntimeException("Invalid font: " + ttfFileRef, ex);
} catch (IOException ex) {
throw new GdxRuntimeException("Error reading font: " + ttfFileRef, ex);
}
}
/** Sorts glyphs by height, tallest first. */
static private final Comparator heightComparator = new Comparator() {
public int compare (Object o1, Object o2) {
return ((Glyph)o2).getHeight() - ((Glyph)o1).getHeight();
}
};
static public enum RenderType {
Java, Native, FreeType
}
}