/* * Copyright (C) 2010 The Android Open Source Project * * 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 android.graphics; import com.android.ide.common.rendering.api.LayoutLog; import com.android.layoutlib.bridge.Bridge; import com.android.layoutlib.bridge.impl.DelegateManager; import com.android.tools.layoutlib.annotations.LayoutlibDelegate; import android.graphics.Paint.FontMetrics; import android.graphics.Paint.FontMetricsInt; import android.text.TextUtils; import java.awt.BasicStroke; import java.awt.Font; import java.awt.Shape; import java.awt.Stroke; import java.awt.Toolkit; import java.awt.font.FontRenderContext; import java.awt.geom.AffineTransform; import java.awt.geom.Rectangle2D; import java.util.ArrayList; import java.util.Collections; import java.util.List; /** * Delegate implementing the native methods of android.graphics.Paint * * Through the layoutlib_create tool, the original native methods of Paint have been replaced * by calls to methods of the same name in this delegate class. * * This class behaves like the original native implementation, but in Java, keeping previously * native data into its own objects and mapping them to int that are sent back and forth between * it and the original Paint class. * * @see DelegateManager * */ public class Paint_Delegate { /** * Class associating a {@link Font} and it's {@link java.awt.FontMetrics}. */ /*package*/ static final class FontInfo { Font mFont; java.awt.FontMetrics mMetrics; } // ---- delegate manager ---- private static final DelegateManager sManager = new DelegateManager(Paint_Delegate.class); // ---- delegate helper data ---- private List mFonts; private final FontRenderContext mFontContext = new FontRenderContext( new AffineTransform(), true, true); // ---- delegate data ---- private int mFlags; private int mColor; private int mStyle; private int mCap; private int mJoin; private int mTextAlign; private Typeface_Delegate mTypeface; private float mStrokeWidth; private float mStrokeMiter; private float mTextSize; private float mTextScaleX; private float mTextSkewX; private int mHintingMode = Paint.HINTING_ON; private Xfermode_Delegate mXfermode; private ColorFilter_Delegate mColorFilter; private Shader_Delegate mShader; private PathEffect_Delegate mPathEffect; private MaskFilter_Delegate mMaskFilter; private Rasterizer_Delegate mRasterizer; // ---- Public Helper methods ---- public static Paint_Delegate getDelegate(int native_paint) { return sManager.getDelegate(native_paint); } /** * Returns the list of {@link Font} objects. The first item is the main font, the rest * are fall backs for characters not present in the main font. */ public List getFonts() { return mFonts; } public boolean isAntiAliased() { return (mFlags & Paint.ANTI_ALIAS_FLAG) != 0; } public boolean isFilterBitmap() { return (mFlags & Paint.FILTER_BITMAP_FLAG) != 0; } public int getStyle() { return mStyle; } public int getColor() { return mColor; } public int getAlpha() { return mColor >>> 24; } public void setAlpha(int alpha) { mColor = (alpha << 24) | (mColor & 0x00FFFFFF); } public int getTextAlign() { return mTextAlign; } public float getStrokeWidth() { return mStrokeWidth; } /** * returns the value of stroke miter needed by the java api. */ public float getJavaStrokeMiter() { float miter = mStrokeMiter * mStrokeWidth; if (miter < 1.f) { miter = 1.f; } return miter; } public int getJavaCap() { switch (Paint.sCapArray[mCap]) { case BUTT: return BasicStroke.CAP_BUTT; case ROUND: return BasicStroke.CAP_ROUND; default: case SQUARE: return BasicStroke.CAP_SQUARE; } } public int getJavaJoin() { switch (Paint.sJoinArray[mJoin]) { default: case MITER: return BasicStroke.JOIN_MITER; case ROUND: return BasicStroke.JOIN_ROUND; case BEVEL: return BasicStroke.JOIN_BEVEL; } } public Stroke getJavaStroke() { if (mPathEffect != null) { if (mPathEffect.isSupported()) { Stroke stroke = mPathEffect.getStroke(this); assert stroke != null; if (stroke != null) { return stroke; } } else { Bridge.getLog().fidelityWarning(LayoutLog.TAG_PATHEFFECT, mPathEffect.getSupportMessage(), null, null /*data*/); } } // if no custom stroke as been set, set the default one. return new BasicStroke( getStrokeWidth(), getJavaCap(), getJavaJoin(), getJavaStrokeMiter()); } /** * Returns the {@link Xfermode} delegate or null if none have been set * * @return the delegate or null. */ public Xfermode_Delegate getXfermode() { return mXfermode; } /** * Returns the {@link ColorFilter} delegate or null if none have been set * * @return the delegate or null. */ public ColorFilter_Delegate getColorFilter() { return mColorFilter; } /** * Returns the {@link Shader} delegate or null if none have been set * * @return the delegate or null. */ public Shader_Delegate getShader() { return mShader; } /** * Returns the {@link MaskFilter} delegate or null if none have been set * * @return the delegate or null. */ public MaskFilter_Delegate getMaskFilter() { return mMaskFilter; } /** * Returns the {@link Rasterizer} delegate or null if none have been set * * @return the delegate or null. */ public Rasterizer_Delegate getRasterizer() { return mRasterizer; } // ---- native methods ---- @LayoutlibDelegate /*package*/ static int getFlags(Paint thisPaint) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return 0; } return delegate.mFlags; } @LayoutlibDelegate /*package*/ static void setFlags(Paint thisPaint, int flags) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return; } delegate.mFlags = flags; } @LayoutlibDelegate /*package*/ static void setFilterBitmap(Paint thisPaint, boolean filter) { setFlag(thisPaint, Paint.FILTER_BITMAP_FLAG, filter); } @LayoutlibDelegate /*package*/ static int getHinting(Paint thisPaint) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return Paint.HINTING_ON; } return delegate.mHintingMode; } @LayoutlibDelegate /*package*/ static void setHinting(Paint thisPaint, int mode) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return; } delegate.mHintingMode = mode; } @LayoutlibDelegate /*package*/ static void setAntiAlias(Paint thisPaint, boolean aa) { setFlag(thisPaint, Paint.ANTI_ALIAS_FLAG, aa); } @LayoutlibDelegate /*package*/ static void setSubpixelText(Paint thisPaint, boolean subpixelText) { setFlag(thisPaint, Paint.SUBPIXEL_TEXT_FLAG, subpixelText); } @LayoutlibDelegate /*package*/ static void setUnderlineText(Paint thisPaint, boolean underlineText) { setFlag(thisPaint, Paint.UNDERLINE_TEXT_FLAG, underlineText); } @LayoutlibDelegate /*package*/ static void setStrikeThruText(Paint thisPaint, boolean strikeThruText) { setFlag(thisPaint, Paint.STRIKE_THRU_TEXT_FLAG, strikeThruText); } @LayoutlibDelegate /*package*/ static void setFakeBoldText(Paint thisPaint, boolean fakeBoldText) { setFlag(thisPaint, Paint.FAKE_BOLD_TEXT_FLAG, fakeBoldText); } @LayoutlibDelegate /*package*/ static void setDither(Paint thisPaint, boolean dither) { setFlag(thisPaint, Paint.DITHER_FLAG, dither); } @LayoutlibDelegate /*package*/ static void setLinearText(Paint thisPaint, boolean linearText) { setFlag(thisPaint, Paint.LINEAR_TEXT_FLAG, linearText); } @LayoutlibDelegate /*package*/ static int getColor(Paint thisPaint) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return 0; } return delegate.mColor; } @LayoutlibDelegate /*package*/ static void setColor(Paint thisPaint, int color) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return; } delegate.mColor = color; } @LayoutlibDelegate /*package*/ static int getAlpha(Paint thisPaint) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return 0; } return delegate.getAlpha(); } @LayoutlibDelegate /*package*/ static void setAlpha(Paint thisPaint, int a) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return; } delegate.setAlpha(a); } @LayoutlibDelegate /*package*/ static float getStrokeWidth(Paint thisPaint) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return 1.f; } return delegate.mStrokeWidth; } @LayoutlibDelegate /*package*/ static void setStrokeWidth(Paint thisPaint, float width) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return; } delegate.mStrokeWidth = width; } @LayoutlibDelegate /*package*/ static float getStrokeMiter(Paint thisPaint) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return 1.f; } return delegate.mStrokeMiter; } @LayoutlibDelegate /*package*/ static void setStrokeMiter(Paint thisPaint, float miter) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return; } delegate.mStrokeMiter = miter; } @LayoutlibDelegate /*package*/ static void nSetShadowLayer(Paint thisPaint, float radius, float dx, float dy, int color) { // FIXME Bridge.getLog().fidelityWarning(LayoutLog.TAG_UNSUPPORTED, "Paint.setShadowLayer is not supported.", null, null /*data*/); } @LayoutlibDelegate /*package*/ static float getTextSize(Paint thisPaint) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return 1.f; } return delegate.mTextSize; } @LayoutlibDelegate /*package*/ static void setTextSize(Paint thisPaint, float textSize) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return; } delegate.mTextSize = textSize; delegate.updateFontObject(); } @LayoutlibDelegate /*package*/ static float getTextScaleX(Paint thisPaint) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return 1.f; } return delegate.mTextScaleX; } @LayoutlibDelegate /*package*/ static void setTextScaleX(Paint thisPaint, float scaleX) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return; } delegate.mTextScaleX = scaleX; delegate.updateFontObject(); } @LayoutlibDelegate /*package*/ static float getTextSkewX(Paint thisPaint) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return 1.f; } return delegate.mTextSkewX; } @LayoutlibDelegate /*package*/ static void setTextSkewX(Paint thisPaint, float skewX) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return; } delegate.mTextSkewX = skewX; delegate.updateFontObject(); } @LayoutlibDelegate /*package*/ static float ascent(Paint thisPaint) { // get the delegate Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return 0; } if (delegate.mFonts.size() > 0) { java.awt.FontMetrics javaMetrics = delegate.mFonts.get(0).mMetrics; // Android expects negative ascent so we invert the value from Java. return - javaMetrics.getAscent(); } return 0; } @LayoutlibDelegate /*package*/ static float descent(Paint thisPaint) { // get the delegate Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return 0; } if (delegate.mFonts.size() > 0) { java.awt.FontMetrics javaMetrics = delegate.mFonts.get(0).mMetrics; return javaMetrics.getDescent(); } return 0; } @LayoutlibDelegate /*package*/ static float getFontMetrics(Paint thisPaint, FontMetrics metrics) { // get the delegate Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return 0; } return delegate.getFontMetrics(metrics); } @LayoutlibDelegate /*package*/ static int getFontMetricsInt(Paint thisPaint, FontMetricsInt fmi) { // get the delegate Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return 0; } if (delegate.mFonts.size() > 0) { java.awt.FontMetrics javaMetrics = delegate.mFonts.get(0).mMetrics; if (fmi != null) { // Android expects negative ascent so we invert the value from Java. fmi.top = - javaMetrics.getMaxAscent(); fmi.ascent = - javaMetrics.getAscent(); fmi.descent = javaMetrics.getDescent(); fmi.bottom = javaMetrics.getMaxDescent(); fmi.leading = javaMetrics.getLeading(); } return javaMetrics.getHeight(); } return 0; } @LayoutlibDelegate /*package*/ static float native_measureText(Paint thisPaint, char[] text, int index, int count) { // get the delegate Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return 0; } return delegate.measureText(text, index, count); } @LayoutlibDelegate /*package*/ static float native_measureText(Paint thisPaint, String text, int start, int end) { return native_measureText(thisPaint, text.toCharArray(), start, end - start); } @LayoutlibDelegate /*package*/ static float native_measureText(Paint thisPaint, String text) { return native_measureText(thisPaint, text.toCharArray(), 0, text.length()); } @LayoutlibDelegate /*package*/ static int native_breakText(Paint thisPaint, char[] text, int index, int count, float maxWidth, float[] measuredWidth) { // get the delegate Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return 0; } int inc = count > 0 ? 1 : -1; int measureIndex = 0; float measureAcc = 0; for (int i = index; i != index + count; i += inc, measureIndex++) { int start, end; if (i < index) { start = i; end = index; } else { start = index; end = i; } // measure from start to end float res = delegate.measureText(text, start, end - start + 1); if (measuredWidth != null) { measuredWidth[measureIndex] = res; } measureAcc += res; if (res > maxWidth) { // we should not return this char index, but since it's 0-based // and we need to return a count, we simply return measureIndex; return measureIndex; } } return measureIndex; } @LayoutlibDelegate /*package*/ static int native_breakText(Paint thisPaint, String text, boolean measureForwards, float maxWidth, float[] measuredWidth) { return native_breakText(thisPaint, text.toCharArray(), 0, text.length(), maxWidth, measuredWidth); } @LayoutlibDelegate /*package*/ static int native_init() { Paint_Delegate newDelegate = new Paint_Delegate(); return sManager.addNewDelegate(newDelegate); } @LayoutlibDelegate /*package*/ static int native_initWithPaint(int paint) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(paint); if (delegate == null) { return 0; } Paint_Delegate newDelegate = new Paint_Delegate(delegate); return sManager.addNewDelegate(newDelegate); } @LayoutlibDelegate /*package*/ static void native_reset(int native_object) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return; } delegate.reset(); } @LayoutlibDelegate /*package*/ static void native_set(int native_dst, int native_src) { // get the delegate from the native int. Paint_Delegate delegate_dst = sManager.getDelegate(native_dst); if (delegate_dst == null) { return; } // get the delegate from the native int. Paint_Delegate delegate_src = sManager.getDelegate(native_src); if (delegate_src == null) { return; } delegate_dst.set(delegate_src); } @LayoutlibDelegate /*package*/ static int native_getStyle(int native_object) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return 0; } return delegate.mStyle; } @LayoutlibDelegate /*package*/ static void native_setStyle(int native_object, int style) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return; } delegate.mStyle = style; } @LayoutlibDelegate /*package*/ static int native_getStrokeCap(int native_object) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return 0; } return delegate.mCap; } @LayoutlibDelegate /*package*/ static void native_setStrokeCap(int native_object, int cap) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return; } delegate.mCap = cap; } @LayoutlibDelegate /*package*/ static int native_getStrokeJoin(int native_object) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return 0; } return delegate.mJoin; } @LayoutlibDelegate /*package*/ static void native_setStrokeJoin(int native_object, int join) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return; } delegate.mJoin = join; } @LayoutlibDelegate /*package*/ static boolean native_getFillPath(int native_object, int src, int dst) { Paint_Delegate paint = sManager.getDelegate(native_object); if (paint == null) { return false; } Path_Delegate srcPath = Path_Delegate.getDelegate(src); if (srcPath == null) { return true; } Path_Delegate dstPath = Path_Delegate.getDelegate(dst); if (dstPath == null) { return true; } Stroke stroke = paint.getJavaStroke(); Shape strokeShape = stroke.createStrokedShape(srcPath.getJavaShape()); dstPath.setJavaShape(strokeShape); // FIXME figure out the return value? return true; } @LayoutlibDelegate /*package*/ static int native_setShader(int native_object, int shader) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return shader; } delegate.mShader = Shader_Delegate.getDelegate(shader); return shader; } @LayoutlibDelegate /*package*/ static int native_setColorFilter(int native_object, int filter) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return filter; } delegate.mColorFilter = ColorFilter_Delegate.getDelegate(filter);; // since none of those are supported, display a fidelity warning right away if (delegate.mColorFilter != null && delegate.mColorFilter.isSupported() == false) { Bridge.getLog().fidelityWarning(LayoutLog.TAG_COLORFILTER, delegate.mColorFilter.getSupportMessage(), null, null /*data*/); } return filter; } @LayoutlibDelegate /*package*/ static int native_setXfermode(int native_object, int xfermode) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return xfermode; } delegate.mXfermode = Xfermode_Delegate.getDelegate(xfermode); return xfermode; } @LayoutlibDelegate /*package*/ static int native_setPathEffect(int native_object, int effect) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return effect; } delegate.mPathEffect = PathEffect_Delegate.getDelegate(effect); return effect; } @LayoutlibDelegate /*package*/ static int native_setMaskFilter(int native_object, int maskfilter) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return maskfilter; } delegate.mMaskFilter = MaskFilter_Delegate.getDelegate(maskfilter); // since none of those are supported, display a fidelity warning right away if (delegate.mMaskFilter != null && delegate.mMaskFilter.isSupported() == false) { Bridge.getLog().fidelityWarning(LayoutLog.TAG_MASKFILTER, delegate.mMaskFilter.getSupportMessage(), null, null /*data*/); } return maskfilter; } @LayoutlibDelegate /*package*/ static int native_setTypeface(int native_object, int typeface) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return 0; } delegate.mTypeface = Typeface_Delegate.getDelegate(typeface); delegate.updateFontObject(); return typeface; } @LayoutlibDelegate /*package*/ static int native_setRasterizer(int native_object, int rasterizer) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return rasterizer; } delegate.mRasterizer = Rasterizer_Delegate.getDelegate(rasterizer); // since none of those are supported, display a fidelity warning right away if (delegate.mRasterizer != null && delegate.mRasterizer.isSupported() == false) { Bridge.getLog().fidelityWarning(LayoutLog.TAG_RASTERIZER, delegate.mRasterizer.getSupportMessage(), null, null /*data*/); } return rasterizer; } @LayoutlibDelegate /*package*/ static int native_getTextAlign(int native_object) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return 0; } return delegate.mTextAlign; } @LayoutlibDelegate /*package*/ static void native_setTextAlign(int native_object, int align) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return; } delegate.mTextAlign = align; } @LayoutlibDelegate /*package*/ static float native_getFontMetrics(int native_paint, FontMetrics metrics) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_paint); if (delegate == null) { return 0.f; } return delegate.getFontMetrics(metrics); } @LayoutlibDelegate /*package*/ static int native_getTextWidths(int native_object, char[] text, int index, int count, float[] widths) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return 0; } if (delegate.mFonts.size() > 0) { // FIXME: handle multi-char characters (see measureText) float totalAdvance = 0; for (int i = 0; i < count; i++) { char c = text[i + index]; boolean found = false; for (FontInfo info : delegate.mFonts) { if (info.mFont.canDisplay(c)) { float adv = info.mMetrics.charWidth(c); totalAdvance += adv; if (widths != null) { widths[i] = adv; } found = true; break; } } if (found == false) { // no advance for this char. if (widths != null) { widths[i] = 0.f; } } } return (int) totalAdvance; } return 0; } @LayoutlibDelegate /*package*/ static int native_getTextWidths(int native_object, String text, int start, int end, float[] widths) { return native_getTextWidths(native_object, text.toCharArray(), start, end - start, widths); } @LayoutlibDelegate /* package */static int native_getTextGlyphs(int native_object, String text, int start, int end, int contextStart, int contextEnd, int flags, char[] glyphs) { // FIXME return 0; } @LayoutlibDelegate /*package*/ static float native_getTextRunAdvances(int native_object, char[] text, int index, int count, int contextIndex, int contextCount, int flags, float[] advances, int advancesIndex, int reserved) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(native_object); if (delegate == null) { return 0.f; } if (delegate.mFonts.size() > 0) { // FIXME: handle multi-char characters (see measureText) float totalAdvance = 0; for (int i = 0; i < count; i++) { char c = text[i + index]; boolean found = false; for (FontInfo info : delegate.mFonts) { if (info.mFont.canDisplay(c)) { float adv = info.mMetrics.charWidth(c); totalAdvance += adv; if (advances != null) { advances[i] = adv; } found = true; break; } } if (found == false) { // no advance for this char. if (advances != null) { advances[i] = 0.f; } } } return totalAdvance; } return 0; } @LayoutlibDelegate /*package*/ static float native_getTextRunAdvances(int native_object, String text, int start, int end, int contextStart, int contextEnd, int flags, float[] advances, int advancesIndex, int reserved) { // FIXME: support contextStart, contextEnd and direction flag int count = end - start; char[] buffer = TemporaryBuffer.obtain(count); TextUtils.getChars(text, start, end, buffer, 0); return native_getTextRunAdvances(native_object, buffer, 0, count, contextStart, contextEnd - contextStart, flags, advances, advancesIndex, reserved); } @LayoutlibDelegate /*package*/ static int native_getTextRunCursor(Paint thisPaint, int native_object, char[] text, int contextStart, int contextLength, int flags, int offset, int cursorOpt) { // FIXME Bridge.getLog().fidelityWarning(LayoutLog.TAG_UNSUPPORTED, "Paint.getTextRunCursor is not supported.", null, null /*data*/); return 0; } @LayoutlibDelegate /*package*/ static int native_getTextRunCursor(Paint thisPaint, int native_object, String text, int contextStart, int contextEnd, int flags, int offset, int cursorOpt) { // FIXME Bridge.getLog().fidelityWarning(LayoutLog.TAG_UNSUPPORTED, "Paint.getTextRunCursor is not supported.", null, null /*data*/); return 0; } @LayoutlibDelegate /*package*/ static void native_getTextPath(int native_object, int bidiFlags, char[] text, int index, int count, float x, float y, int path) { // FIXME Bridge.getLog().fidelityWarning(LayoutLog.TAG_UNSUPPORTED, "Paint.getTextPath is not supported.", null, null /*data*/); } @LayoutlibDelegate /*package*/ static void native_getTextPath(int native_object, int bidiFlags, String text, int start, int end, float x, float y, int path) { // FIXME Bridge.getLog().fidelityWarning(LayoutLog.TAG_UNSUPPORTED, "Paint.getTextPath is not supported.", null, null /*data*/); } @LayoutlibDelegate /*package*/ static void nativeGetStringBounds(int nativePaint, String text, int start, int end, Rect bounds) { nativeGetCharArrayBounds(nativePaint, text.toCharArray(), start, end - start, bounds); } @LayoutlibDelegate /*package*/ static void nativeGetCharArrayBounds(int nativePaint, char[] text, int index, int count, Rect bounds) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(nativePaint); if (delegate == null) { return; } // FIXME should test if the main font can display all those characters. // See MeasureText if (delegate.mFonts.size() > 0) { FontInfo mainInfo = delegate.mFonts.get(0); Rectangle2D rect = mainInfo.mFont.getStringBounds(text, index, index + count, delegate.mFontContext); bounds.set(0, 0, (int) rect.getWidth(), (int) rect.getHeight()); } } @LayoutlibDelegate /*package*/ static void finalizer(int nativePaint) { sManager.removeJavaReferenceFor(nativePaint); } // ---- Private delegate/helper methods ---- /*package*/ Paint_Delegate() { reset(); } private Paint_Delegate(Paint_Delegate paint) { set(paint); } private void set(Paint_Delegate paint) { mFlags = paint.mFlags; mColor = paint.mColor; mStyle = paint.mStyle; mCap = paint.mCap; mJoin = paint.mJoin; mTextAlign = paint.mTextAlign; mTypeface = paint.mTypeface; mStrokeWidth = paint.mStrokeWidth; mStrokeMiter = paint.mStrokeMiter; mTextSize = paint.mTextSize; mTextScaleX = paint.mTextScaleX; mTextSkewX = paint.mTextSkewX; mXfermode = paint.mXfermode; mColorFilter = paint.mColorFilter; mShader = paint.mShader; mPathEffect = paint.mPathEffect; mMaskFilter = paint.mMaskFilter; mRasterizer = paint.mRasterizer; mHintingMode = paint.mHintingMode; updateFontObject(); } private void reset() { mFlags = Paint.DEFAULT_PAINT_FLAGS; mColor = 0xFF000000; mStyle = Paint.Style.FILL.nativeInt; mCap = Paint.Cap.BUTT.nativeInt; mJoin = Paint.Join.MITER.nativeInt; mTextAlign = 0; mTypeface = Typeface_Delegate.getDelegate(Typeface.sDefaults[0].native_instance); mStrokeWidth = 1.f; mStrokeMiter = 4.f; mTextSize = 20.f; mTextScaleX = 1.f; mTextSkewX = 0.f; mXfermode = null; mColorFilter = null; mShader = null; mPathEffect = null; mMaskFilter = null; mRasterizer = null; updateFontObject(); mHintingMode = Paint.HINTING_ON; } /** * Update the {@link Font} object from the typeface, text size and scaling */ @SuppressWarnings("deprecation") private void updateFontObject() { if (mTypeface != null) { // Get the fonts from the TypeFace object. List fonts = mTypeface.getFonts(); // create new font objects as well as FontMetrics, based on the current text size // and skew info. ArrayList infoList = new ArrayList(fonts.size()); for (Font font : fonts) { FontInfo info = new FontInfo(); info.mFont = font.deriveFont(mTextSize); if (mTextScaleX != 1.0 || mTextSkewX != 0) { // TODO: support skew info.mFont = info.mFont.deriveFont(new AffineTransform( mTextScaleX, mTextSkewX, 0, 1, 0, 0)); } info.mMetrics = Toolkit.getDefaultToolkit().getFontMetrics(info.mFont); infoList.add(info); } mFonts = Collections.unmodifiableList(infoList); } } /*package*/ float measureText(char[] text, int index, int count) { // WARNING: the logic in this method is similar to Canvas_Delegate.native_drawText // Any change to this method should be reflected there as well if (mFonts.size() > 0) { FontInfo mainFont = mFonts.get(0); int i = index; int lastIndex = index + count; float total = 0f; while (i < lastIndex) { // always start with the main font. int upTo = mainFont.mFont.canDisplayUpTo(text, i, lastIndex); if (upTo == -1) { // shortcut to exit return total + mainFont.mMetrics.charsWidth(text, i, lastIndex - i); } else if (upTo > 0) { total += mainFont.mMetrics.charsWidth(text, i, upTo - i); i = upTo; // don't call continue at this point. Since it is certain the main font // cannot display the font a index upTo (now ==i), we move on to the // fallback fonts directly. } // no char supported, attempt to read the next char(s) with the // fallback font. In this case we only test the first character // and then go back to test with the main font. // Special test for 2-char characters. boolean foundFont = false; for (int f = 1 ; f < mFonts.size() ; f++) { FontInfo fontInfo = mFonts.get(f); // need to check that the font can display the character. We test // differently if the char is a high surrogate. int charCount = Character.isHighSurrogate(text[i]) ? 2 : 1; upTo = fontInfo.mFont.canDisplayUpTo(text, i, i + charCount); if (upTo == -1) { total += fontInfo.mMetrics.charsWidth(text, i, charCount); i += charCount; foundFont = true; break; } } // in case no font can display the char, measure it with the main font. if (foundFont == false) { int size = Character.isHighSurrogate(text[i]) ? 2 : 1; total += mainFont.mMetrics.charsWidth(text, i, size); i += size; } } return total; } return 0; } private float getFontMetrics(FontMetrics metrics) { if (mFonts.size() > 0) { java.awt.FontMetrics javaMetrics = mFonts.get(0).mMetrics; if (metrics != null) { // Android expects negative ascent so we invert the value from Java. metrics.top = - javaMetrics.getMaxAscent(); metrics.ascent = - javaMetrics.getAscent(); metrics.descent = javaMetrics.getDescent(); metrics.bottom = javaMetrics.getMaxDescent(); metrics.leading = javaMetrics.getLeading(); } return javaMetrics.getHeight(); } return 0; } private static void setFlag(Paint thisPaint, int flagMask, boolean flagValue) { // get the delegate from the native int. Paint_Delegate delegate = sManager.getDelegate(thisPaint.mNativePaint); if (delegate == null) { return; } if (flagValue) { delegate.mFlags |= flagMask; } else { delegate.mFlags &= ~flagMask; } } }