Dokumen ini menjelaskan cara menggunakan gestur sentuh untuk menarik dan menskalakan objek di layar, menggunakan
onTouchEvent()
untuk mencegat peristiwa sentuh.
Menarik objek
Operasi umum untuk gestur sentuh adalah menggunakannya untuk menarik objek ke layar.
Dalam operasi tarik atau scroll, aplikasi harus melacak pointer asli, meskipun jari tambahan menyentuh layar. Misalnya, bayangkan bahwa saat menarik gambar, pengguna menempatkan jari kedua di layar sentuh dan mengangkat jari pertama. Jika hanya melacak setiap pointer, aplikasi akan menganggap pointer kedua sebagai default dan memindahkan gambar ke lokasi tersebut.
Untuk mencegah hal ini, aplikasi Anda perlu membedakan antara
pointer asli dan pointer berikutnya. Untuk melakukannya, fitur ini melacak peristiwa
ACTION_POINTER_DOWN
dan
ACTION_POINTER_UP
seperti yang dijelaskan dalam Menangani gestur multi-kontrol.
ACTION_POINTER_DOWN dan ACTION_POINTER_UP diteruskan
ke callback onTouchEvent() setiap kali pointer sekunder turun
atau ke atas.
Dalam kasus ACTION_POINTER_UP, Anda dapat mengekstrak indeks ini dan
memastikan bahwa ID pointer aktif tidak merujuk pada pointer yang tidak lagi
menyentuh layar. Jika ya, Anda dapat memilih pointer lain untuk aktif
dan menyimpan posisi X dan Y saat ini. Gunakan posisi tersimpan ini dalam kasus
ACTION_MOVE
untuk menghitung jarak guna memindahkan objek di layar. Dengan cara ini, aplikasi
selalu menghitung jarak untuk bergerak menggunakan data dari pointer yang benar.
Cuplikan kode berikut memungkinkan pengguna menarik objek di layar. Fitur ini merekam posisi awal pointer aktif, menghitung jarak yang ditempuh pointer, dan memindahkan objek ke posisi baru. Juga mengelola kemungkinan pointer tambahan dengan benar.
Cuplikan menggunakan
metode
getActionMasked(). Selalu gunakan metode ini untuk mengambil tindakan
MotionEvent.
Kotlin
// The "active pointer" is the one moving the object.
private var mActivePointerId = INVALID_POINTER_ID
override fun onTouchEvent(ev: MotionEvent): Boolean {
// Let the ScaleGestureDetector inspect all events.
mScaleDetector.onTouchEvent(ev)
val action = MotionEventCompat.getActionMasked(ev)
when (action) {
MotionEvent.ACTION_DOWN -> {
MotionEventCompat.getActionIndex(ev).also { pointerIndex ->
// Remember where you start for dragging.
mLastTouchX = MotionEventCompat.getX(ev, pointerIndex)
mLastTouchY = MotionEventCompat.getY(ev, pointerIndex)
}
// Save the ID of this pointer for dragging.
mActivePointerId = MotionEventCompat.getPointerId(ev, 0)
}
MotionEvent.ACTION_MOVE -> {
// Find the index of the active pointer and fetch its position.
val (x: Float, y: Float) =
MotionEventCompat.findPointerIndex(ev, mActivePointerId).let { pointerIndex ->
// Calculate the distance moved.
MotionEventCompat.getX(ev, pointerIndex) to
MotionEventCompat.getY(ev, pointerIndex)
}
mPosX += x - mLastTouchX
mPosY += y - mLastTouchY
invalidate()
// Remember this touch position for the next move event.
mLastTouchX = x
mLastTouchY = y
}
MotionEvent.ACTION_UP, MotionEvent.ACTION_CANCEL -> {
mActivePointerId = INVALID_POINTER_ID
}
MotionEvent.ACTION_POINTER_UP -> {
MotionEventCompat.getActionIndex(ev).also { pointerIndex ->
MotionEventCompat.getPointerId(ev, pointerIndex)
.takeIf { it == mActivePointerId }
?.run {
// This is the active pointer going up. Choose a new
// active pointer and adjust it accordingly.
val newPointerIndex = if (pointerIndex == 0) 1 else 0
mLastTouchX = MotionEventCompat.getX(ev, newPointerIndex)
mLastTouchY = MotionEventCompat.getY(ev, newPointerIndex)
mActivePointerId = MotionEventCompat.getPointerId(ev, newPointerIndex)
}
}
}
}
return true
}
Java
// The "active pointer" is the one moving the object.
private int mActivePointerId = INVALID_POINTER_ID;
@Override
public boolean onTouchEvent(MotionEvent ev) {
// Let the ScaleGestureDetector inspect all events.
mScaleDetector.onTouchEvent(ev);
final int action = MotionEventCompat.getActionMasked(ev);
switch (action) {
case MotionEvent.ACTION_DOWN: {
final int pointerIndex = MotionEventCompat.getActionIndex(ev);
final float x = MotionEventCompat.getX(ev, pointerIndex);
final float y = MotionEventCompat.getY(ev, pointerIndex);
// Remember the starting position of the pointer.
mLastTouchX = x;
mLastTouchY = y;
// Save the ID of this pointer for dragging.
mActivePointerId = MotionEventCompat.getPointerId(ev, 0);
break;
}
case MotionEvent.ACTION_MOVE: {
// Find the index of the active pointer and fetch its position.
final int pointerIndex =
MotionEventCompat.findPointerIndex(ev, mActivePointerId);
final float x = MotionEventCompat.getX(ev, pointerIndex);
final float y = MotionEventCompat.getY(ev, pointerIndex);
// Calculate the distance moved.
final float dx = x - mLastTouchX;
final float dy = y - mLastTouchY;
mPosX += dx;
mPosY += dy;
invalidate();
// Remember this touch position for the next move event.
mLastTouchX = x;
mLastTouchY = y;
break;
}
case MotionEvent.ACTION_UP: {
mActivePointerId = INVALID_POINTER_ID;
break;
}
case MotionEvent.ACTION_CANCEL: {
mActivePointerId = INVALID_POINTER_ID;
break;
}
case MotionEvent.ACTION_POINTER_UP: {
final int pointerIndex = MotionEventCompat.getActionIndex(ev);
final int pointerId = MotionEventCompat.getPointerId(ev, pointerIndex);
if (pointerId == mActivePointerId) {
// This is the active pointer going up. Choose a new
// active pointer and adjust it accordingly.
final int newPointerIndex = pointerIndex == 0 ? 1 : 0;
mLastTouchX = MotionEventCompat.getX(ev, newPointerIndex);
mLastTouchY = MotionEventCompat.getY(ev, newPointerIndex);
mActivePointerId = MotionEventCompat.getPointerId(ev, newPointerIndex);
}
break;
}
}
return true;
}
Tarik untuk menggeser
Bagian sebelumnya menampilkan contoh penarikan objek di layar.
Skenario umum lainnya adalah menggeser, yaitu saat gerakan tarik pengguna
menyebabkan scroll pada sumbu X dan Y. Cuplikan sebelumnya secara langsung menangkap tindakan MotionEvent untuk mengimplementasikan penarikan. Cuplikan
di bagian ini memanfaatkan dukungan bawaan platform untuk
gestur umum dengan mengganti
onScroll()
di
GestureDetector.SimpleOnGestureListener.
Untuk memberikan lebih banyak konteks, onScroll() dipanggil saat pengguna menarik
jari untuk menggeser konten. onScroll() hanya dipanggil saat
jari turun. Segera setelah jari diangkat dari layar, gestur
akan berakhir atau gestur lempar dimulai, jika jari bergerak dengan
kecepatan tertentu sebelum diangkat. Untuk informasi selengkapnya tentang men-scroll versus
mengayunkan jari, lihat Menganimasikan gestur scroll.
Berikut adalah cuplikan kode untuk onScroll():
Kotlin
// The current viewport. This rectangle represents the visible
// chart domain and range.
private val mCurrentViewport = RectF(AXIS_X_MIN, AXIS_Y_MIN, AXIS_X_MAX, AXIS_Y_MAX)
// The current destination rectangle, in pixel coordinates, into which the
// chart data must be drawn.
private val mContentRect: Rect? = null
private val mGestureListener = object : GestureDetector.SimpleOnGestureListener() {
...
override fun onScroll(
e1: MotionEvent,
e2: MotionEvent,
distanceX: Float,
distanceY: Float
): Boolean {
// Scrolling uses math based on the viewport, as opposed to math using
// pixels.
mContentRect?.apply {
// Pixel offset is the offset in screen pixels, while viewport offset is the
// offset within the current viewport.
val viewportOffsetX = distanceX * mCurrentViewport.width() / width()
val viewportOffsetY = -distanceY * mCurrentViewport.height() / height()
// Updates the viewport and refreshes the display.
setViewportBottomLeft(
mCurrentViewport.left + viewportOffsetX,
mCurrentViewport.bottom + viewportOffsetY
)
}
return true
}
}
Java
// The current viewport. This rectangle represents the visible
// chart domain and range.
private RectF mCurrentViewport =
new RectF(AXIS_X_MIN, AXIS_Y_MIN, AXIS_X_MAX, AXIS_Y_MAX);
// The current destination rectangle, in pixel coordinates, into which the
// chart data must be drawn.
private Rect mContentRect;
private final GestureDetector.SimpleOnGestureListener mGestureListener
= new GestureDetector.SimpleOnGestureListener() {
...
@Override
public boolean onScroll(MotionEvent e1, MotionEvent e2,
float distanceX, float distanceY) {
// Scrolling uses math based on the viewport, as opposed to math using
// pixels.
// Pixel offset is the offset in screen pixels, while viewport offset is the
// offset within the current viewport.
float viewportOffsetX = distanceX * mCurrentViewport.width()
/ mContentRect.width();
float viewportOffsetY = -distanceY * mCurrentViewport.height()
/ mContentRect.height();
...
// Updates the viewport, refreshes the display.
setViewportBottomLeft(
mCurrentViewport.left + viewportOffsetX,
mCurrentViewport.bottom + viewportOffsetY);
...
return true;
}
Implementasi onScroll() akan men-scroll area tampilan
sebagai respons terhadap gestur sentuh:
Kotlin
/**
* Sets the current viewport, defined by mCurrentViewport, to the given
* X and Y positions. The Y value represents the topmost pixel position,
* and thus the bottom of the mCurrentViewport rectangle.
*/
private fun setViewportBottomLeft(x: Float, y: Float) {
/*
* Constrains within the scroll range. The scroll range is the viewport
* extremes, such as AXIS_X_MAX, minus the viewport size. For example, if
* the extremes are 0 and 10 and the viewport size is 2, the scroll range
* is 0 to 8.
*/
val curWidth: Float = mCurrentViewport.width()
val curHeight: Float = mCurrentViewport.height()
val newX: Float = Math.max(AXIS_X_MIN, Math.min(x, AXIS_X_MAX - curWidth))
val newY: Float = Math.max(AXIS_Y_MIN + curHeight, Math.min(y, AXIS_Y_MAX))
mCurrentViewport.set(newX, newY - curHeight, newX + curWidth, newY)
// Invalidates the View to update the display.
ViewCompat.postInvalidateOnAnimation(this)
}
Java
/**
* Sets the current viewport (defined by mCurrentViewport) to the given
* X and Y positions. Note that the Y value represents the topmost pixel
* position, and thus the bottom of the mCurrentViewport rectangle.
*/
private void setViewportBottomLeft(float x, float y) {
/*
* Constrains within the scroll range. The scroll range is the viewport
* extremes, such as AXIS_X_MAX, minus the viewport size. For example, if
* the extremes are 0 and 10 and the viewport size is 2, the scroll range
* is 0 to 8.
*/
float curWidth = mCurrentViewport.width();
float curHeight = mCurrentViewport.height();
x = Math.max(AXIS_X_MIN, Math.min(x, AXIS_X_MAX - curWidth));
y = Math.max(AXIS_Y_MIN + curHeight, Math.min(y, AXIS_Y_MAX));
mCurrentViewport.set(x, y - curHeight, x + curWidth, y);
// Invalidates the View to update the display.
ViewCompat.postInvalidateOnAnimation(this);
}
Menggunakan sentuhan untuk melakukan penskalaan
Seperti yang dibahas dalam Mendeteksi gestur umum,
gunakan
GestureDetector
untuk mendeteksi gestur umum yang digunakan oleh Android, seperti men-scroll, mengayunkan jari, dan
menyentuh lama. Untuk penskalaan, Android menyediakan
ScaleGestureDetector.
Anda dapat menggunakan GestureDetector dan ScaleGestureDetector
secara bersamaan saat menginginkan tampilan untuk mengenali gestur tambahan.
Untuk melaporkan peristiwa gestur yang terdeteksi, pendeteksi gestur menggunakan objek pemroses
yang diteruskan ke konstruktornya. ScaleGestureDetector menggunakan
ScaleGestureDetector.OnScaleGestureListener.
Android menyediakan
ScaleGestureDetector.SimpleOnScaleGestureListener
sebagai class bantuan yang dapat Anda perluas jika Anda tidak memerlukan semua peristiwa
yang dilaporkan.
Contoh penskalaan dasar
Cuplikan berikut mengilustrasikan elemen dasar yang terlibat dalam penskalaan.
Kotlin
private var mScaleFactor = 1f
private val scaleListener = object : ScaleGestureDetector.SimpleOnScaleGestureListener() {
override fun onScale(detector: ScaleGestureDetector): Boolean {
mScaleFactor *= detector.scaleFactor
// Don't let the object get too small or too large.
mScaleFactor = Math.max(0.1f, Math.min(mScaleFactor, 5.0f))
invalidate()
return true
}
}
private val mScaleDetector = ScaleGestureDetector(context, scaleListener)
override fun onTouchEvent(ev: MotionEvent): Boolean {
// Let the ScaleGestureDetector inspect all events.
mScaleDetector.onTouchEvent(ev)
return true
}
override fun onDraw(canvas: Canvas?) {
super.onDraw(canvas)
canvas?.apply {
save()
scale(mScaleFactor, mScaleFactor)
// onDraw() code goes here.
restore()
}
}
Java
private ScaleGestureDetector mScaleDetector;
private float mScaleFactor = 1.f;
public MyCustomView(Context mContext){
...
// View code goes here.
...
mScaleDetector = new ScaleGestureDetector(context, new ScaleListener());
}
@Override
public boolean onTouchEvent(MotionEvent ev) {
// Let the ScaleGestureDetector inspect all events.
mScaleDetector.onTouchEvent(ev);
return true;
}
@Override
public void onDraw(Canvas canvas) {
super.onDraw(canvas);
canvas.save();
canvas.scale(mScaleFactor, mScaleFactor);
...
// onDraw() code goes here.
...
canvas.restore();
}
private class ScaleListener
extends ScaleGestureDetector.SimpleOnScaleGestureListener {
@Override
public boolean onScale(ScaleGestureDetector detector) {
mScaleFactor *= detector.getScaleFactor();
// Don't let the object get too small or too large.
mScaleFactor = Math.max(0.1f, Math.min(mScaleFactor, 5.0f));
invalidate();
return true;
}
}
Contoh penskalaan yang lebih kompleks
Berikut adalah contoh yang lebih kompleks dari
contoh InteractiveChart yang ditampilkan dalam
Menganimasikan gestur scroll.
Contoh
InteractiveChart mendukung scroll, geser, dan penskalaan
dengan beberapa jari, menggunakan fitur ScaleGestureDetector span
(getCurrentSpanX
dan
getCurrentSpanY)
serta "fokus"
(getFocusX
dan getFocusY).
Kotlin
private val mCurrentViewport = RectF(AXIS_X_MIN, AXIS_Y_MIN, AXIS_X_MAX, AXIS_Y_MAX)
private val mContentRect: Rect? = null
...
override fun onTouchEvent(event: MotionEvent): Boolean {
return mScaleGestureDetector.onTouchEvent(event)
|| mGestureDetector.onTouchEvent(event)
|| super.onTouchEvent(event)
}
/**
* The scale listener, used for handling multi-finger scale gestures.
*/
private val mScaleGestureListener = object : ScaleGestureDetector.SimpleOnScaleGestureListener() {
/**
* This is the active focal point in terms of the viewport. It can be a
* local variable, but keep it here to minimize per-frame allocations.
*/
private val viewportFocus = PointF()
private var lastSpanX: Float = 0f
private var lastSpanY: Float = 0f
// Detects new pointers are going down.
override fun onScaleBegin(scaleGestureDetector: ScaleGestureDetector): Boolean {
lastSpanX = scaleGestureDetector.currentSpanX
lastSpanY = scaleGestureDetector.currentSpanY
return true
}
override fun onScale(scaleGestureDetector: ScaleGestureDetector): Boolean {
val spanX: Float = scaleGestureDetector.currentSpanX
val spanY: Float = scaleGestureDetector.currentSpanY
val newWidth: Float = lastSpanX / spanX * mCurrentViewport.width()
val newHeight: Float = lastSpanY / spanY * mCurrentViewport.height()
val focusX: Float = scaleGestureDetector.focusX
val focusY: Float = scaleGestureDetector.focusY
// Ensures the chart point is within the chart region.
// See the sample for the implementation of hitTest().
hitTest(focusX, focusY, viewportFocus)
mContentRect?.apply {
mCurrentViewport.set(
viewportFocus.x - newWidth * (focusX - left) / width(),
viewportFocus.y - newHeight * (bottom - focusY) / height(),
0f,
0f
)
}
mCurrentViewport.right = mCurrentViewport.left + newWidth
mCurrentViewport.bottom = mCurrentViewport.top + newHeight
// Invalidates the View to update the display.
ViewCompat.postInvalidateOnAnimation(this@InteractiveLineGraphView)
lastSpanX = spanX
lastSpanY = spanY
return true
}
}
Java
private RectF mCurrentViewport =
new RectF(AXIS_X_MIN, AXIS_Y_MIN, AXIS_X_MAX, AXIS_Y_MAX);
private Rect mContentRect;
private ScaleGestureDetector mScaleGestureDetector;
...
@Override
public boolean onTouchEvent(MotionEvent event) {
boolean retVal = mScaleGestureDetector.onTouchEvent(event);
retVal = mGestureDetector.onTouchEvent(event) || retVal;
return retVal || super.onTouchEvent(event);
}
/**
* The scale listener, used for handling multi-finger scale gestures.
*/
private final ScaleGestureDetector.OnScaleGestureListener mScaleGestureListener
= new ScaleGestureDetector.SimpleOnScaleGestureListener() {
/**
* This is the active focal point in terms of the viewport. It can be a
* local variable, but keep it here to minimize per-frame allocations.
*/
private PointF viewportFocus = new PointF();
private float lastSpanX;
private float lastSpanY;
// Detects new pointers are going down.
@Override
public boolean onScaleBegin(ScaleGestureDetector scaleGestureDetector) {
lastSpanX = ScaleGestureDetectorCompat.
getCurrentSpanX(scaleGestureDetector);
lastSpanY = ScaleGestureDetectorCompat.
getCurrentSpanY(scaleGestureDetector);
return true;
}
@Override
public boolean onScale(ScaleGestureDetector scaleGestureDetector) {
float spanX = ScaleGestureDetectorCompat.
getCurrentSpanX(scaleGestureDetector);
float spanY = ScaleGestureDetectorCompat.
getCurrentSpanY(scaleGestureDetector);
float newWidth = lastSpanX / spanX * mCurrentViewport.width();
float newHeight = lastSpanY / spanY * mCurrentViewport.height();
float focusX = scaleGestureDetector.getFocusX();
float focusY = scaleGestureDetector.getFocusY();
// Ensures the chart point is within the chart region.
// See the sample for the implementation of hitTest().
hitTest(scaleGestureDetector.getFocusX(),
scaleGestureDetector.getFocusY(),
viewportFocus);
mCurrentViewport.set(
viewportFocus.x
- newWidth * (focusX - mContentRect.left)
/ mContentRect.width(),
viewportFocus.y
- newHeight * (mContentRect.bottom - focusY)
/ mContentRect.height(),
0,
0);
mCurrentViewport.right = mCurrentViewport.left + newWidth;
mCurrentViewport.bottom = mCurrentViewport.top + newHeight;
...
// Invalidates the View to update the display.
ViewCompat.postInvalidateOnAnimation(InteractiveLineGraphView.this);
lastSpanX = spanX;
lastSpanY = spanY;
return true;
}
};
Referensi tambahan
Lihat referensi berikut untuk informasi selengkapnya tentang peristiwa input, sensor, dan membuat tampilan kustom menjadi interaktif.