以下源码来自于 Android P。
MeasureSpec 是 View 里的一个内部类,其用来表示 View 的测量模式和测量大小,代码如下:
public static class MeasureSpec { /** * Creates a measure specification based on the supplied size and mode. * * The mode must always be one of the following: * <ul> * <li>{@link android.view.View.MeasureSpec#UNSPECIFIED}</li> * <li>{@link android.view.View.MeasureSpec#EXACTLY}</li> * <li>{@link android.view.View.MeasureSpec#AT_MOST}</li> * </ul> * * <p><strong>Note:</strong> On API level 17 and lower, makeMeasureSpec's * implementation was such that the order of arguments did not matter * and overflow in either value could impact the resulting MeasureSpec. * {@link android.widget.RelativeLayout} was affected by this bug. * Apps targeting API levels greater than 17 will get the fixed, more strict * behavior.</p> * * @param size the size of the measure specification * @param mode the mode of the measure specification * @return the measure specification based on size and mode */ public static int makeMeasureSpec(@IntRange(from = 0, to = (1 << MeasureSpec.MODE_SHIFT) - 1) int size, @MeasureSpecMode int mode) { if (sUseBrokenMakeMeasureSpec) { return size + mode; } else { return (size & ~MODE_MASK) | (mode & MODE_MASK); } } /** * Like {@link #makeMeasureSpec(int, int)}, but any spec with a mode of UNSPECIFIED * will automatically get a size of 0\. Older apps expect this. * * @hide internal use only for compatibility with system widgets and older apps */ public static int makeSafeMeasureSpec(int size, int mode) { if (sUseZeroUnspecifiedMeasureSpec && mode == UNSPECIFIED) { return 0; } return makeMeasureSpec(size, mode); } /** * Extracts the mode from the supplied measure specification. * * @param measureSpec the measure specification to extract the mode from * @return {@link android.view.View.MeasureSpec#UNSPECIFIED}, * {@link android.view.View.MeasureSpec#AT_MOST} or * {@link android.view.View.MeasureSpec#EXACTLY} */ @MeasureSpecMode public static int getMode(int measureSpec) { //noinspection ResourceType return (measureSpec & MODE_MASK); } /** * Extracts the size from the supplied measure specification. * * @param measureSpec the measure specification to extract the size from * @return the size in pixels defined in the supplied measure specification */ public static int getSize(int measureSpec) { return (measureSpec & ~MODE_MASK); } }其拥有三种测量模式:UNSPECIFIED, EXACTLY, AT_MOST
UNSPECIFIED:父 View 没有对子 View 施加任何约束。它可以是任意大小。
EXACTLY:父 View 已经为子 View 确定了确切的大小。
AT_MOST:子 View 可以任意大,直到上限的大小(一般就是父 View 的大小)。
View 与 ViewGroup 的 measure 流程都开始于 ViewRootImpl 的 performMeasure 方法开始的,此方法中调用了 View 的 measure 方法, measure 方法内又调用了 onMeasure 方法,将 measureSpec 传递下去,从源码可见 measure 方法是 final 的,故子类不能对其进行重写,那么 View 与 ViewGroup 的区别就由 onMeasure 方法区别。
measure 代码:
/** * <p> * This is called to find out how big a view should be. The parent * supplies constraint information in the width and height parameters. * </p> * * <p> * The actual measurement work of a view is performed in * {@link #onMeasure(int, int)}, called by this method. Therefore, only * {@link #onMeasure(int, int)} can and must be overridden by subclasses. * </p> * * * @param widthMeasureSpec Horizontal space requirements as imposed by the * parent * @param heightMeasureSpec Vertical space requirements as imposed by the * parent * * @see #onMeasure(int, int) */ public final void measure(int widthMeasureSpec, int heightMeasureSpec) { boolean optical = isLayoutModeOptical(this); if (optical != isLayoutModeOptical(mParent)) { Insets insets = getOpticalInsets(); int oWidth = insets.left + insets.right; int oHeight = insets.top + insets.bottom; widthMeasureSpec = MeasureSpec.adjust(widthMeasureSpec, optical ? -oWidth : oWidth); heightMeasureSpec = MeasureSpec.adjust(heightMeasureSpec, optical ? -oHeight : oHeight); } // Suppress sign extension for the low bytes long key = (long) widthMeasureSpec << 32 | (long) heightMeasureSpec & 0xffffffffL; if (mMeasureCache == null) mMeasureCache = new LongSparseLongArray(2); final boolean forceLayout = (mPrivateFlags & PFLAG_FORCE_LAYOUT) == PFLAG_FORCE_LAYOUT; // Optimize layout by avoiding an extra EXACTLY pass when the view is // already measured as the correct size. In API 23 and below, this // extra pass is required to make LinearLayout re-distribute weight. final boolean specChanged = widthMeasureSpec != mOldWidthMeasureSpec || heightMeasureSpec != mOldHeightMeasureSpec; final boolean isSpecExactly = MeasureSpec.getMode(widthMeasureSpec) == MeasureSpec.EXACTLY && MeasureSpec.getMode(heightMeasureSpec) == MeasureSpec.EXACTLY; final boolean matchesSpecSize = getMeasuredWidth() == MeasureSpec.getSize(widthMeasureSpec) && getMeasuredHeight() == MeasureSpec.getSize(heightMeasureSpec); final boolean needsLayout = specChanged && (sAlwaysRemeasureExactly || !isSpecExactly || !matchesSpecSize); if (forceLayout || needsLayout) { // first clears the measured dimension flag mPrivateFlags &= ~PFLAG_MEASURED_DIMENSION_SET; resolveRtlPropertiesIfNeeded(); int cacheIndex = forceLayout ? -1 : mMeasureCache.indexOfKey(key); if (cacheIndex < 0 || sIgnoreMeasureCache) { // @york:measure ourselves, this should set the measured dimension flag back onMeasure(widthMeasureSpec, heightMeasureSpec); mPrivateFlags3 &= ~PFLAG3_MEASURE_NEEDED_BEFORE_LAYOUT; } else { long value = mMeasureCache.valueAt(cacheIndex); // Casting a long to int drops the high 32 bits, no mask needed setMeasuredDimensionRaw((int) (value >> 32), (int) value); mPrivateFlags3 |= PFLAG3_MEASURE_NEEDED_BEFORE_LAYOUT; } // flag not set, setMeasuredDimension() was not invoked, we raise // an exception to warn the developer if ((mPrivateFlags & PFLAG_MEASURED_DIMENSION_SET) != PFLAG_MEASURED_DIMENSION_SET) { throw new IllegalStateException("View with id " + getId() + ": " + getClass().getName() + "#onMeasure() did not set the" + " measured dimension by calling" + " setMeasuredDimension()"); } mPrivateFlags |= PFLAG_LAYOUT_REQUIRED; } mOldWidthMeasureSpec = widthMeasureSpec; mOldHeightMeasureSpec = heightMeasureSpec; mMeasureCache.put(key, ((long) mMeasuredWidth) << 32 | (long) mMeasuredHeight & 0xffffffffL); // suppress sign extension }直接查看 View#onMeasure 代码:
protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) { setMeasuredDimension(getDefaultSize(getSuggestedMinimumWidth(), widthMeasureSpec), getDefaultSize(getSuggestedMinimumHeight(), heightMeasureSpec)); }getDefaultSize 代码如下:
/** * Utility to return a default size. Uses the supplied size if the * MeasureSpec imposed no constraints. Will get larger if allowed * by the MeasureSpec. * * @param size Default size for this view * @param measureSpec Constraints imposed by the parent * @return The size this view should be. */ public static int getDefaultSize(int size, int measureSpec) { int result = size; int specMode = MeasureSpec.getMode(measureSpec); int specSize = MeasureSpec.getSize(measureSpec); switch (specMode) { case MeasureSpec.UNSPECIFIED: result = size; break; case MeasureSpec.AT_MOST: case MeasureSpec.EXACTLY: result = specSize; break; } return result; }可见其如果是 UNSPECIFIED 的话返回的是通过 getSuggestedMinimumWidth/Height 获取的值,即是设置了背景的话就是背景宽高,没设置就是 minWidth/Height 的值,AT_MOST 和 EXACTLY 都是返回之前传递进来的 measureSpec(即是父 View 的 measureSpec)。即是说,我们在自定义 View 时,直接继承 View 重写 onMeasure 方法一定要注意处理 AT_MOST 情况的大小,即在 View 设置 wrap_content 时的大小。
ViewGroup 继承于 View,但并未重写 onMeasure 方法,其交由其子类实现,那此处以 FrameLayout 为例, FrameLayout#onMeasure 代码如下:
@Override protected void onMeasure(int widthMeasureSpec, int heightMeasureSpec) { int count = getChildCount(); final boolean measureMatchParentChildren = MeasureSpec.getMode(widthMeasureSpec) != MeasureSpec.EXACTLY || MeasureSpec.getMode(heightMeasureSpec) != MeasureSpec.EXACTLY; mMatchParentChildren.clear(); int maxHeight = 0; int maxWidth = 0; int childState = 0; for (int i = 0; i < count; i++) { final View child = getChildAt(i); if (mMeasureAllChildren || child.getVisibility() != GONE) { // @york: 进行子布局的测量 measureChildWithMargins(child, widthMeasureSpec, 0, heightMeasureSpec, 0); final LayoutParams lp = (LayoutParams) child.getLayoutParams(); maxWidth = Math.max(maxWidth, child.getMeasuredWidth() + lp.leftMargin + lp.rightMargin); maxHeight = Math.max(maxHeight, child.getMeasuredHeight() + lp.topMargin + lp.bottomMargin); childState = combineMeasuredStates(childState, child.getMeasuredState()); if (measureMatchParentChildren) { if (lp.width == LayoutParams.MATCH_PARENT || lp.height == LayoutParams.MATCH_PARENT) { mMatchParentChildren.add(child); } } } } // Account for padding too maxWidth += getPaddingLeftWithForeground() + getPaddingRightWithForeground(); maxHeight += getPaddingTopWithForeground() + getPaddingBottomWithForeground(); // Check against our minimum height and width maxHeight = Math.max(maxHeight, getSuggestedMinimumHeight()); maxWidth = Math.max(maxWidth, getSuggestedMinimumWidth()); // Check against our foreground's minimum height and width final Drawable drawable = getForeground(); if (drawable != null) { maxHeight = Math.max(maxHeight, drawable.getMinimumHeight()); maxWidth = Math.max(maxWidth, drawable.getMinimumWidth()); } setMeasuredDimension(resolveSizeAndState(maxWidth, widthMeasureSpec, childState), resolveSizeAndState(maxHeight, heightMeasureSpec, childState << MEASURED_HEIGHT_STATE_SHIFT)); count = mMatchParentChildren.size(); if (count > 1) { for (int i = 0; i < count; i++) { final View child = mMatchParentChildren.get(i); final MarginLayoutParams lp = (MarginLayoutParams) child.getLayoutParams(); final int childWidthMeasureSpec; if (lp.width == LayoutParams.MATCH_PARENT) { final int width = Math.max(0, getMeasuredWidth() - getPaddingLeftWithForeground() - getPaddingRightWithForeground() - lp.leftMargin - lp.rightMargin); childWidthMeasureSpec = MeasureSpec.makeMeasureSpec( width, MeasureSpec.EXACTLY); } else { childWidthMeasureSpec = getChildMeasureSpec(widthMeasureSpec, getPaddingLeftWithForeground() + getPaddingRightWithForeground() + lp.leftMargin + lp.rightMargin, lp.width); } final int childHeightMeasureSpec; if (lp.height == LayoutParams.MATCH_PARENT) { final int height = Math.max(0, getMeasuredHeight() - getPaddingTopWithForeground() - getPaddingBottomWithForeground() - lp.topMargin - lp.bottomMargin); childHeightMeasureSpec = MeasureSpec.makeMeasureSpec( height, MeasureSpec.EXACTLY); } else { childHeightMeasureSpec = getChildMeasureSpec(heightMeasureSpec, getPaddingTopWithForeground() + getPaddingBottomWithForeground() + lp.topMargin + lp.bottomMargin, lp.height); } child.measure(childWidthMeasureSpec, childHeightMeasureSpec); } } }上面代码可看出, FrameLayout 的测量会传递给子 View 进行测量(measureChildWithMargins 方法,会执行子 view 的 measure 流程),然后由 FrameLayout 叠加的特性得出宽高最大值(setMeasuredDimension 后才可通过 getMeasuredWidth/Height 获取宽高)。
附 measureChildWithMargins 代码:
/** * Ask one of the children of this view to measure itself, taking into * account both the MeasureSpec requirements for this view and its padding * and margins. The child must have MarginLayoutParams The heavy lifting is * done in getChildMeasureSpec. * * @param child The child to measure * @param parentWidthMeasureSpec The width requirements for this view * @param widthUsed Extra space that has been used up by the parent * horizontally (possibly by other children of the parent) * @param parentHeightMeasureSpec The height requirements for this view * @param heightUsed Extra space that has been used up by the parent * vertically (possibly by other children of the parent) */ protected void measureChildWithMargins(View child, int parentWidthMeasureSpec, int widthUsed, int parentHeightMeasureSpec, int heightUsed) { final MarginLayoutParams lp = (MarginLayoutParams) child.getLayoutParams(); final int childWidthMeasureSpec = getChildMeasureSpec(parentWidthMeasureSpec, mPaddingLeft + mPaddingRight + lp.leftMargin + lp.rightMargin + widthUsed, lp.width); final int childHeightMeasureSpec = getChildMeasureSpec(parentHeightMeasureSpec, mPaddingTop + mPaddingBottom + lp.topMargin + lp.bottomMargin + heightUsed, lp.height); child.measure(childWidthMeasureSpec, childHeightMeasureSpec); }View 的 measure:
performMeasure -> measure -> onMeasure -> setMeasureDimension
ViewGroup 的 measure:
performMeasure -> measure -> onMeasure -> measureChileWithMargins -> child.measure -> measure -> … -> setMeasureDimension
onLayout 是 ViewGroup 用于确定子 View 的位置的。在使用过程中就是在 onLayout 中对子 View 进行 layout。
与 measure 类似,layout 也是从 ViewRootImpl#performLayout 开始的,其调用了 View#layout 方法,代码如下:
/** * Assign a size and position to a view and all of its * descendants * * <p>This is the second phase of the layout mechanism. * (The first is measuring). In this phase, each parent calls * layout on all of its children to position them. * This is typically done using the child measurements * that were stored in the measure pass().</p> * * <p>Derived classes should not override this method. * Derived classes with children should override * onLayout. In that method, they should * call layout on each of their children.</p> * * @param l Left position, relative to parent * @param t Top position, relative to parent * @param r Right position, relative to parent * @param b Bottom position, relative to parent */ @SuppressWarnings({"unchecked"}) public void layout(int l, int t, int r, int b) { if ((mPrivateFlags3 & PFLAG3_MEASURE_NEEDED_BEFORE_LAYOUT) != 0) { onMeasure(mOldWidthMeasureSpec, mOldHeightMeasureSpec); mPrivateFlags3 &= ~PFLAG3_MEASURE_NEEDED_BEFORE_LAYOUT; } int oldL = mLeft; int oldT = mTop; int oldB = mBottom; int oldR = mRight; boolean changed = isLayoutModeOptical(mParent) ? setOpticalFrame(l, t, r, b) : setFrame(l, t, r, b); if (changed || (mPrivateFlags & PFLAG_LAYOUT_REQUIRED) == PFLAG_LAYOUT_REQUIRED) { onLayout(changed, l, t, r, b); if (shouldDrawRoundScrollbar()) { if(mRoundScrollbarRenderer == null) { mRoundScrollbarRenderer = new RoundScrollbarRenderer(this); } } else { mRoundScrollbarRenderer = null; } mPrivateFlags &= ~PFLAG_LAYOUT_REQUIRED; ListenerInfo li = mListenerInfo; if (li != null && li.mOnLayoutChangeListeners != null) { ArrayList<OnLayoutChangeListener> listenersCopy = (ArrayList<OnLayoutChangeListener>)li.mOnLayoutChangeListeners.clone(); int numListeners = listenersCopy.size(); for (int i = 0; i < numListeners; ++i) { listenersCopy.get(i).onLayoutChange(this, l, t, r, b, oldL, oldT, oldR, oldB); } } } mPrivateFlags &= ~PFLAG_FORCE_LAYOUT; mPrivateFlags3 |= PFLAG3_IS_LAID_OUT; if ((mPrivateFlags3 & PFLAG3_NOTIFY_AUTOFILL_ENTER_ON_LAYOUT) != 0) { mPrivateFlags3 &= ~PFLAG3_NOTIFY_AUTOFILL_ENTER_ON_LAYOUT; notifyEnterOrExitForAutoFillIfNeeded(true); } }View#layout 方法传进来的参数带到了 onLayout 方法中,但是 onLayout 在 View 中是个空实现,但在 ViewGroup 中有一抽象方法:
@Override protected abstract void onLayout(boolean changed, int l, int t, int r, int b);由于 onLayot 是用于给子 View 确定位置用的,所以 View 就无需实现该方法,而 ViewGroup 中需要强制实现该方法。比如打开 FrameLayout 的代码,其 onLayout 方法就是给它的子 View 进行布局。需要注意的是,ViewGroup 的 layout 方法会一直传递给父类进行执行,代码如下:
@Override public final void layout(int l, int t, int r, int b) { if (!mSuppressLayout && (mTransition == null || !mTransition.isChangingLayout())) { if (mTransition != null) { mTransition.layoutChange(this); } super.layout(l, t, r, b); } else { // record the fact that we noop'd it; request layout when transition finishes mLayoutCalledWhileSuppressed = true; } }View:
performLayout -> layout -> setFrame -> 完成布局
ViewGroup:
performLayout -> layout -> setFrame -> onLayout -> child.onLayout -> 循环 layout -> 完成布局
View 与 ViewGroup 的 draw 过程
与 measure 与 layout 一样,draw 流程也是从 ViewRootImpl#performDraw 开始的,其里边调用了 ViewRootImpl#draw 方法,draw 方法代码如下(截取):
private void draw(boolean fullRedrawNeeded) { Surface surface = mSurface; if (!dirty.isEmpty() || mIsAnimating || accessibilityFocusDirty) { if (mAttachInfo.mThreadedRenderer != null && mAttachInfo.mThreadedRenderer.isEnabled()) { ... // GPU绘制 mAttachInfo.mThreadedRenderer.draw(mView, mAttachInfo, this); } else { ... // CPU绘制 if (!drawSoftware(surface, mAttachInfo, xOffset, yOffset, scalingRequired, dirty)) { return; } } } ... }这里用于选择使否开启硬件加速而采用哪种绘制方式,先分析 CPU 绘制,drawSoftware的代码如下:
/** * @return true if drawing was successful, false if an error occurred */ private boolean drawSoftware(Surface surface, AttachInfo attachInfo, int xoff, int yoff, boolean scalingRequired, Rect dirty) { // Draw with software renderer. final Canvas canvas; try { final int left = dirty.left; final int top = dirty.top; final int right = dirty.right; final int bottom = dirty.bottom; canvas = mSurface.lockCanvas(dirty);// 1、获取画布 // The dirty rectangle can be modified by Surface.lockCanvas() //noinspection ConstantConditions if (left != dirty.left || top != dirty.top || right != dirty.right || bottom != dirty.bottom) { attachInfo.mIgnoreDirtyState = true; } // TODO: Do this in native canvas.setDensity(mDensity); } catch (Surface.OutOfResourcesException e) { handleOutOfResourcesException(e); return false; } catch (IllegalArgumentException e) { Log.e(mTag, "Could not lock surface", e); // Don't assume this is due to out of memory, it could be // something else, and if it is something else then we could // kill stuff (or ourself) for no reason. mLayoutRequested = true; // ask wm for a new surface next time. return false; } try { if (DEBUG_ORIENTATION || DEBUG_DRAW) { Log.v(mTag, "Surface " + surface + " drawing to bitmap w=" + canvas.getWidth() + ", h=" + canvas.getHeight()); //canvas.drawARGB(255, 255, 0, 0); } // If this bitmap's format includes an alpha channel, we // need to clear it before drawing so that the child will // properly re-composite its drawing on a transparent // background. This automatically respects the clip/dirty region // or // If we are applying an offset, we need to clear the area // where the offset doesn't appear to avoid having garbage // left in the blank areas. if (!canvas.isOpaque() || yoff != 0 || xoff != 0) { canvas.drawColor(0, PorterDuff.Mode.CLEAR); } dirty.setEmpty(); mIsAnimating = false; mView.mPrivateFlags |= View.PFLAG_DRAWN; if (DEBUG_DRAW) { Context cxt = mView.getContext(); Log.i(mTag, "Drawing: package:" + cxt.getPackageName() + ", metrics=" + cxt.getResources().getDisplayMetrics() + ", compatibilityInfo=" + cxt.getResources().getCompatibilityInfo()); } try { canvas.translate(-xoff, -yoff); if (mTranslator != null) { mTranslator.translateCanvas(canvas); } canvas.setScreenDensity(scalingRequired ? mNoncompatDensity : 0); attachInfo.mSetIgnoreDirtyState = false; mView.draw(canvas); // 2、开始绘制 drawAccessibilityFocusedDrawableIfNeeded(canvas); } finally { if (!attachInfo.mSetIgnoreDirtyState) { // Only clear the flag if it was not set during the mView.draw() call attachInfo.mIgnoreDirtyState = false; } } } finally { try { surface.unlockCanvasAndPost(canvas);// 3、释放 Canvas 锁并通知 } catch (IllegalArgumentException e) { Log.e(mTag, "Could not unlock surface", e); mLayoutRequested = true; // ask wm for a new surface next time. //noinspection ReturnInsideFinallyBlock return false; } if (LOCAL_LOGV) { Log.v(mTag, "Surface " + surface + " unlockCanvasAndPost"); } } return true; }此时调用了 View#draw 方法,代码如下:
/** * Manually render this view (and all of its children) to the given Canvas. * The view must have already done a full layout before this function is * called. When implementing a view, implement * {@link #onDraw(android.graphics.Canvas)} instead of overriding this method. * If you do need to override this method, call the superclass version. * * @param canvas The Canvas to which the View is rendered. */ @CallSuper public void draw(Canvas canvas) { final int privateFlags = mPrivateFlags; final boolean dirtyOpaque = (privateFlags & PFLAG_DIRTY_MASK) == PFLAG_DIRTY_OPAQUE && (mAttachInfo == null || !mAttachInfo.mIgnoreDirtyState); mPrivateFlags = (privateFlags & ~PFLAG_DIRTY_MASK) | PFLAG_DRAWN; /* * Draw traversal performs several drawing steps which must be executed * in the appropriate order: * * 1\. Draw the background * 2\. If necessary, save the canvas' layers to prepare for fading * 3\. Draw view's content * 4\. Draw children * 5\. If necessary, draw the fading edges and restore layers * 6\. Draw decorations (scrollbars for instance) */ // Step 1, 绘制背景 int saveCount; if (!dirtyOpaque) { drawBackground(canvas); } // 如果可以跳过步骤 2 & 5 (common case) final int viewFlags = mViewFlags; boolean horizontalEdges = (viewFlags & FADING_EDGE_HORIZONTAL) != 0; boolean verticalEdges = (viewFlags & FADING_EDGE_VERTICAL) != 0; if (!verticalEdges && !horizontalEdges) { // Step 3, 绘制视图内容 if (!dirtyOpaque) onDraw(canvas); // Step 4, 绘制子view dispatchDraw(canvas); drawAutofilledHighlight(canvas); // Overlay is part of the content and draws beneath Foreground if (mOverlay != null && !mOverlay.isEmpty()) { mOverlay.getOverlayView().dispatchDraw(canvas); } // Step 6, 绘制装饰 (foreground, scrollbars) onDrawForeground(canvas); // Step 7, 绘制默认的焦点突出显示 drawDefaultFocusHighlight(canvas); if (debugDraw()) { debugDrawFocus(canvas); } // we're done... return; } /* * Here we do the full fledged routine... * (this is an uncommon case where speed matters less, * this is why we repeat some of the tests that have been * done above) */ boolean drawTop = false; boolean drawBottom = false; boolean drawLeft = false; boolean drawRight = false; float topFadeStrength = 0.0f; float bottomFadeStrength = 0.0f; float leftFadeStrength = 0.0f; float rightFadeStrength = 0.0f; // Step 2, 保存canvas图层 int paddingLeft = mPaddingLeft; final boolean offsetRequired = isPaddingOffsetRequired(); if (offsetRequired) { paddingLeft += getLeftPaddingOffset(); } int left = mScrollX + paddingLeft; int right = left + mRight - mLeft - mPaddingRight - paddingLeft; int top = mScrollY + getFadeTop(offsetRequired); int bottom = top + getFadeHeight(offsetRequired); if (offsetRequired) { right += getRightPaddingOffset(); bottom += getBottomPaddingOffset(); } final ScrollabilityCache scrollabilityCache = mScrollCache; final float fadeHeight = scrollabilityCache.fadingEdgeLength; int length = (int) fadeHeight; // clip the fade length if top and bottom fades overlap // overlapping fades produce odd-looking artifacts if (verticalEdges && (top + length > bottom - length)) { length = (bottom - top) / 2; } // also clip horizontal fades if necessary if (horizontalEdges && (left + length > right - length)) { length = (right - left) / 2; } if (verticalEdges) { topFadeStrength = Math.max(0.0f, Math.min(1.0f, getTopFadingEdgeStrength())); drawTop = topFadeStrength * fadeHeight > 1.0f; bottomFadeStrength = Math.max(0.0f, Math.min(1.0f, getBottomFadingEdgeStrength())); drawBottom = bottomFadeStrength * fadeHeight > 1.0f; } if (horizontalEdges) { leftFadeStrength = Math.max(0.0f, Math.min(1.0f, getLeftFadingEdgeStrength())); drawLeft = leftFadeStrength * fadeHeight > 1.0f; rightFadeStrength = Math.max(0.0f, Math.min(1.0f, getRightFadingEdgeStrength())); drawRight = rightFadeStrength * fadeHeight > 1.0f; } saveCount = canvas.getSaveCount(); int solidColor = getSolidColor(); if (solidColor == 0) { final int flags = Canvas.HAS_ALPHA_LAYER_SAVE_FLAG; if (drawTop) { canvas.saveLayer(left, top, right, top + length, null, flags); } if (drawBottom) { canvas.saveLayer(left, bottom - length, right, bottom, null, flags); } if (drawLeft) { canvas.saveLayer(left, top, left + length, bottom, null, flags); } if (drawRight) { canvas.saveLayer(right - length, top, right, bottom, null, flags); } } else { scrollabilityCache.setFadeColor(solidColor); } // Step 3, 绘制内容 if (!dirtyOpaque) onDraw(canvas); // Step 4, 绘制子view dispatchDraw(canvas); // Step 5, 绘制淡入效果并恢复canvas图层 final Paint p = scrollabilityCache.paint; final Matrix matrix = scrollabilityCache.matrix; final Shader fade = scrollabilityCache.shader; if (drawTop) { matrix.setScale(1, fadeHeight * topFadeStrength); matrix.postTranslate(left, top); fade.setLocalMatrix(matrix); p.setShader(fade); canvas.drawRect(left, top, right, top + length, p); } if (drawBottom) { matrix.setScale(1, fadeHeight * bottomFadeStrength); matrix.postRotate(180); matrix.postTranslate(left, bottom); fade.setLocalMatrix(matrix); p.setShader(fade); canvas.drawRect(left, bottom - length, right, bottom, p); } if (drawLeft) { matrix.setScale(1, fadeHeight * leftFadeStrength); matrix.postRotate(-90); matrix.postTranslate(left, top); fade.setLocalMatrix(matrix); p.setShader(fade); canvas.drawRect(left, top, left + length, bottom, p); } if (drawRight) { matrix.setScale(1, fadeHeight * rightFadeStrength); matrix.postRotate(90); matrix.postTranslate(right, top); fade.setLocalMatrix(matrix); p.setShader(fade); canvas.drawRect(right - length, top, right, bottom, p); } canvas.restoreToCount(saveCount); drawAutofilledHighlight(canvas); // Overlay is part of the content and draws beneath Foreground if (mOverlay != null && !mOverlay.isEmpty()) { mOverlay.getOverlayView().dispatchDraw(canvas); } // Step 6, 绘制装饰 (foreground, scrollbars) onDrawForeground(canvas); if (debugDraw()) { debugDrawFocus(canvas); } }从注释可见整个 draw 的流程,其中第3步的 onDraw 与第4步的 dispatchDraw 是绘制的重点:
onDraw:绘制自身内容
dispatchDraw:触发子 View 的 draw 方法
在 View 中, onDraw 是个空实现,可在自定义 View 的时候进行自定义绘制。而 diapatchDraw 方法则用于触发子 View 的绘制,在 View 中是个空实现,ViewGroup#dispatchDraw 代码如下:
@Override protected void dispatchDraw(Canvas canvas) { boolean usingRenderNodeProperties = canvas.isRecordingFor(mRenderNode); final int childrenCount = mChildrenCount; final View[] children = mChildren; int flags = mGroupFlags; if ((flags & FLAG_RUN_ANIMATION) != 0 && canAnimate()) { final boolean buildCache = !isHardwareAccelerated(); for (int i = 0; i < childrenCount; i++) { final View child = children[i]; if ((child.mViewFlags & VISIBILITY_MASK) == VISIBLE) { final LayoutParams params = child.getLayoutParams(); attachLayoutAnimationParameters(child, params, i, childrenCount); bindLayoutAnimation(child); } } final LayoutAnimationController controller = mLayoutAnimationController; if (controller.willOverlap()) { mGroupFlags |= FLAG_OPTIMIZE_INVALIDATE; } controller.start(); mGroupFlags &= ~FLAG_RUN_ANIMATION; mGroupFlags &= ~FLAG_ANIMATION_DONE; if (mAnimationListener != null) { mAnimationListener.onAnimationStart(controller.getAnimation()); } } int clipSaveCount = 0; final boolean clipToPadding = (flags & CLIP_TO_PADDING_MASK) == CLIP_TO_PADDING_MASK; if (clipToPadding) { clipSaveCount = canvas.save(Canvas.CLIP_SAVE_FLAG); canvas.clipRect(mScrollX + mPaddingLeft, mScrollY + mPaddingTop, mScrollX + mRight - mLeft - mPaddingRight, mScrollY + mBottom - mTop - mPaddingBottom); } // We will draw our child's animation, let's reset the flag mPrivateFlags &= ~PFLAG_DRAW_ANIMATION; mGroupFlags &= ~FLAG_INVALIDATE_REQUIRED; boolean more = false; final long drawingTime = getDrawingTime(); if (usingRenderNodeProperties) canvas.insertReorderBarrier(); final int transientCount = mTransientIndices == null ? 0 : mTransientIndices.size(); int transientIndex = transientCount != 0 ? 0 : -1; // Only use the preordered list if not HW accelerated, since the HW pipeline will do the // draw reordering internally final ArrayList<View> preorderedList = usingRenderNodeProperties ? null : buildOrderedChildList(); final boolean customOrder = preorderedList == null && isChildrenDrawingOrderEnabled(); for (int i = 0; i < childrenCount; i++) { while (transientIndex >= 0 && mTransientIndices.get(transientIndex) == i) { final View transientChild = mTransientViews.get(transientIndex); // @york: 如果可见,那么触发 drawChild 方法 if ((transientChild.mViewFlags & VISIBILITY_MASK) == VISIBLE || transientChild.getAnimation() != null) { more |= drawChild(canvas, transientChild, drawingTime); } transientIndex++; if (transientIndex >= transientCount) { transientIndex = -1; } } final int childIndex = getAndVerifyPreorderedIndex(childrenCount, i, customOrder); final View child = getAndVerifyPreorderedView(preorderedList, children, childIndex); if ((child.mViewFlags & VISIBILITY_MASK) == VISIBLE || child.getAnimation() != null) { more |= drawChild(canvas, child, drawingTime); } } while (transientIndex >= 0) { // there may be additional transient views after the normal views final View transientChild = mTransientViews.get(transientIndex); if ((transientChild.mViewFlags & VISIBILITY_MASK) == VISIBLE || transientChild.getAnimation() != null) { more |= drawChild(canvas, transientChild, drawingTime); } transientIndex++; if (transientIndex >= transientCount) { break; } } if (preorderedList != null) preorderedList.clear(); // Draw any disappearing views that have animations if (mDisappearingChildren != null) { final ArrayList<View> disappearingChildren = mDisappearingChildren; final int disappearingCount = disappearingChildren.size() - 1; // Go backwards -- we may delete as animations finish for (int i = disappearingCount; i >= 0; i--) { final View child = disappearingChildren.get(i); more |= drawChild(canvas, child, drawingTime); } } if (usingRenderNodeProperties) canvas.insertInorderBarrier(); if (debugDraw()) { onDebugDraw(canvas); } if (clipToPadding) { canvas.restoreToCount(clipSaveCount); } // mGroupFlags might have been updated by drawChild() flags = mGroupFlags; if ((flags & FLAG_INVALIDATE_REQUIRED) == FLAG_INVALIDATE_REQUIRED) { invalidate(true); } if ((flags & FLAG_ANIMATION_DONE) == 0 && (flags & FLAG_NOTIFY_ANIMATION_LISTENER) == 0 && mLayoutAnimationController.isDone() && !more) { // We want to erase the drawing cache and notify the listener after the // next frame is drawn because one extra invalidate() is caused by // drawChild() after the animation is over mGroupFlags |= FLAG_NOTIFY_ANIMATION_LISTENER; final Runnable end = new Runnable() { @Override public void run() { notifyAnimationListener(); } }; post(end); } }ViewGroup#drawChild 代码:
/** * Draw one child of this View Group. This method is responsible for getting * the canvas in the right state. This includes clipping, translating so * that the child's scrolled origin is at 0, 0, and applying any animation * transformations. * * @param canvas The canvas on which to draw the child * @param child Who to draw * @param drawingTime The time at which draw is occurring * @return True if an invalidate() was issued */ protected boolean drawChild(Canvas canvas, View child, long drawingTime) { return child.draw(canvas, this, drawingTime); }View:
ViewRootImpl#performDraw -> ViewRootImpl#draw -> ViewRootImpl#drawSoftware -> View#draw -> View#onDraw -> 完成
ViewGroup:
ViewRootImpl#performDraw -> ViewRootImpl#draw -> ViewRootImpl#drawSoftware -> View#draw -> View#onDraw -> ViewGroup#dispatchDraw -> ViewGroup#drawChild -> View#draw -> 子 View进行此步骤 -> 完成
从源码分析可在自定义 View 时得到的一些启发:
在自定义 View 时,需要注意 onMeasure 时 specMode 为 AT_MOST 情况的处理setMeasuredDimension 后才可通过 getMeasuredWidth/Height 获取宽高ViewGroup 的 onMeasure 阶段需要注意子 View 的测量,可用 ViewGroup#measureChildWithMargins 进行或调用每个子 View 的方法进行measure 方法是 final 的,子类不能重写onMeasure 要注意父 View 限制,可用 resolveSize 方法进行限制onLayout 是针对 ViewGroup 的,用于对子 View 的 layout父 view 调用子 view 的 layout 方法的时候会把之前 measure 阶段确定的位置和大小都传递给子 viewonDraw 在 ViewGroup 中启用了关闭绘制的标记位,通过 setWillNotDraw(false) 可将此标志位关闭注意实现自定义 View 时各方法的执行顺序:measure -> layout -> draw自定义 View 一般分为自绘控件、组合控件(通过 LayoutInflater 拿到布局)、继承控件onDraw 部分主要用到:Canvas、Paint最后,在这里我也分享自己收录整理的Android学习PDF,里面对 Android 源码分析自定义 View 相关知识点讲解,希望可以帮助大家学习提升进阶,也节省大家在网上搜索资料的时间来学习,可以分享给身边好友一起学习
有需要的朋友可以点赞+评论+转发,关注我,然后私信我【666】获取
也可以扫码领取:
