/* * Copyright (C) 2012 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 com.android.inputmethod.keyboard.internal; import com.android.inputmethod.latin.ResizableIntArray; public final class GestureStrokeWithPreviewPoints extends GestureStroke { public static final int PREVIEW_CAPACITY = 256; private final ResizableIntArray mPreviewEventTimes = new ResizableIntArray(PREVIEW_CAPACITY); private final ResizableIntArray mPreviewXCoordinates = new ResizableIntArray(PREVIEW_CAPACITY); private final ResizableIntArray mPreviewYCoordinates = new ResizableIntArray(PREVIEW_CAPACITY); private int mStrokeId; private int mLastPreviewSize; private final HermiteInterpolator mInterpolator = new HermiteInterpolator(); private int mLastInterpolatedPreviewIndex; private int mLastX; private int mLastY; private double mMinPreviewSamplingDistance; private double mDistanceFromLastSample; // TODO: Move these constants to resource. // The minimum trail distance between sample points for preview in keyWidth unit when using // interpolation. private static final float MIN_PREVIEW_SAMPLING_RATIO_TO_KEY_WIDTH = 0.2f; // The angular threshold to use interpolation in radian. PI/12 is 15 degree. private static final double INTERPOLATION_ANGULAR_THRESHOLD = Math.PI / 12.0d; private static final int MAX_INTERPOLATION_PARTITION = 4; public GestureStrokeWithPreviewPoints(final int pointerId, final GestureStrokeParams params) { super(pointerId, params); } @Override protected void reset() { super.reset(); mStrokeId++; mLastPreviewSize = 0; mLastInterpolatedPreviewIndex = 0; mPreviewEventTimes.setLength(0); mPreviewXCoordinates.setLength(0); mPreviewYCoordinates.setLength(0); } public int getGestureStrokeId() { return mStrokeId; } @Override public void setKeyboardGeometry(final int keyWidth, final int keyboardHeight) { super.setKeyboardGeometry(keyWidth, keyboardHeight); mMinPreviewSamplingDistance = keyWidth * MIN_PREVIEW_SAMPLING_RATIO_TO_KEY_WIDTH; } private boolean needsSampling(final int x, final int y) { mDistanceFromLastSample += Math.hypot(x - mLastX, y - mLastY); mLastX = x; mLastY = y; final boolean isDownEvent = (mPreviewEventTimes.getLength() == 0); if (mDistanceFromLastSample >= mMinPreviewSamplingDistance || isDownEvent) { mDistanceFromLastSample = 0.0d; return true; } return false; } @Override public boolean addPointOnKeyboard(final int x, final int y, final int time, final boolean isMajorEvent) { if (needsSampling(x, y)) { mPreviewEventTimes.add(time); mPreviewXCoordinates.add(x); mPreviewYCoordinates.add(y); } return super.addPointOnKeyboard(x, y, time, isMajorEvent); } public void appendPreviewStroke(final ResizableIntArray eventTimes, final ResizableIntArray xCoords, final ResizableIntArray yCoords) { final int length = mPreviewEventTimes.getLength() - mLastPreviewSize; if (length <= 0) { return; } eventTimes.append(mPreviewEventTimes, mLastPreviewSize, length); xCoords.append(mPreviewXCoordinates, mLastPreviewSize, length); yCoords.append(mPreviewYCoordinates, mLastPreviewSize, length); mLastPreviewSize = mPreviewEventTimes.getLength(); } /** * Calculate interpolated points between the last interpolated point and the end of the trail. * And return the start index of the last interpolated segment of input arrays because it * may need to recalculate the interpolated points in the segment if further segments are * added to this stroke. * * @param lastInterpolatedIndex the start index of the last interpolated segment of * eventTimes, xCoords, and yCoords. * @param eventTimes the event time array of gesture preview trail to be drawn. * @param xCoords the x-coordinates array of gesture preview trail to be drawn. * @param yCoords the y-coordinates array of gesture preview trail to be drawn. * @return the start index of the last interpolated segment of input arrays. */ public int interpolateStrokeAndReturnStartIndexOfLastSegment(final int lastInterpolatedIndex, final ResizableIntArray eventTimes, final ResizableIntArray xCoords, final ResizableIntArray yCoords) { final int size = mPreviewEventTimes.getLength(); final int[] pt = mPreviewEventTimes.getPrimitiveArray(); final int[] px = mPreviewXCoordinates.getPrimitiveArray(); final int[] py = mPreviewYCoordinates.getPrimitiveArray(); mInterpolator.reset(px, py, 0, size); // The last segment of gesture stroke needs to be interpolated again because the slope of // the tangent at the last point isn't determined. int lastInterpolatedDrawIndex = lastInterpolatedIndex; int d1 = lastInterpolatedIndex; for (int p2 = mLastInterpolatedPreviewIndex + 1; p2 < size; p2++) { final int p1 = p2 - 1; final int p0 = p1 - 1; final int p3 = p2 + 1; mLastInterpolatedPreviewIndex = p1; lastInterpolatedDrawIndex = d1; mInterpolator.setInterval(p0, p1, p2, p3); final double m1 = Math.atan2(mInterpolator.mSlope1Y, mInterpolator.mSlope1X); final double m2 = Math.atan2(mInterpolator.mSlope2Y, mInterpolator.mSlope2X); final double dm = Math.abs(angularDiff(m2, m1)); final int partition = Math.min((int)Math.ceil(dm / INTERPOLATION_ANGULAR_THRESHOLD), MAX_INTERPOLATION_PARTITION); final int t1 = eventTimes.get(d1); final int dt = pt[p2] - pt[p1]; d1++; for (int i = 1; i < partition; i++) { final float t = i / (float)partition; mInterpolator.interpolate(t); eventTimes.add(d1, (int)(dt * t) + t1); xCoords.add(d1, (int)mInterpolator.mInterpolatedX); yCoords.add(d1, (int)mInterpolator.mInterpolatedY); d1++; } eventTimes.add(d1, pt[p2]); xCoords.add(d1, px[p2]); yCoords.add(d1, py[p2]); } return lastInterpolatedDrawIndex; } private static final double TWO_PI = Math.PI * 2.0d; /** * Calculate the angular of rotation from a0 to a1. * * @param a1 the angular to which the rotation ends. * @param a0 the angular from which the rotation starts. * @return the angular rotation value from a0 to a1, normalized to [-PI, +PI]. */ private static double angularDiff(final double a1, final double a0) { double deltaAngle = a1 - a0; while (deltaAngle > Math.PI) { deltaAngle -= TWO_PI; } while (deltaAngle < -Math.PI) { deltaAngle += TWO_PI; } return deltaAngle; } }