/* * Copyright (C) 2007 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; public class PathMeasure { private Path mPath; /** * Create an empty PathMeasure object. To uses this to measure the length * of a path, and/or to find the position and tangent along it, call * setPath. * * Note that once a path is associated with the measure object, it is * undefined if the path is subsequently modified and the the measure object * is used. If the path is modified, you must call setPath with the path. */ public PathMeasure() { mPath = null; native_instance = native_create(0, false); } /** * Create a PathMeasure object associated with the specified path object * (already created and specified). The meansure object can now return the * path's length, and the position and tangent of any position along the * path. * * Note that once a path is associated with the measure object, it is * undefined if the path is subsequently modified and the the measure object * is used. If the path is modified, you must call setPath with the path. * * @param path The path that will be measured by this object * @param forceClosed If true, then the path will be considered as "closed" * even if its contour was not explicitly closed. */ public PathMeasure(Path path, boolean forceClosed) { // The native implementation does not copy the path, prevent it from being GC'd mPath = path; native_instance = native_create(path != null ? path.ni() : 0, forceClosed); } /** * Assign a new path, or null to have none. */ public void setPath(Path path, boolean forceClosed) { mPath = path; native_setPath(native_instance, path != null ? path.ni() : 0, forceClosed); } /** * Return the total length of the current contour, or 0 if no path is * associated with this measure object. */ public float getLength() { return native_getLength(native_instance); } /** * Pins distance to 0 <= distance <= getLength(), and then computes the * corresponding position and tangent. Returns false if there is no path, * or a zero-length path was specified, in which case position and tangent * are unchanged. * * @param distance The distance along the current contour to sample * @param pos If not null, eturns the sampled position (x==[0], y==[1]) * @param tan If not null, returns the sampled tangent (x==[0], y==[1]) * @return false if there was no path associated with this measure object */ public boolean getPosTan(float distance, float pos[], float tan[]) { if (pos != null && pos.length < 2 || tan != null && tan.length < 2) { throw new ArrayIndexOutOfBoundsException(); } return native_getPosTan(native_instance, distance, pos, tan); } public static final int POSITION_MATRIX_FLAG = 0x01; // must match flags in SkPathMeasure.h public static final int TANGENT_MATRIX_FLAG = 0x02; // must match flags in SkPathMeasure.h /** * Pins distance to 0 <= distance <= getLength(), and then computes the * corresponding matrix. Returns false if there is no path, or a zero-length * path was specified, in which case matrix is unchanged. * * @param distance The distance along the associated path * @param matrix Allocated by the caller, this is set to the transformation * associated with the position and tangent at the specified distance * @param flags Specified what aspects should be returned in the matrix. */ public boolean getMatrix(float distance, Matrix matrix, int flags) { return native_getMatrix(native_instance, distance, matrix.native_instance, flags); } /** * Given a start and stop distance, return in dst the intervening * segment(s). If the segment is zero-length, return false, else return * true. startD and stopD are pinned to legal values (0..getLength()). * If startD <= stopD then return false (and leave dst untouched). * Begin the segment with a moveTo if startWithMoveTo is true */ public boolean getSegment(float startD, float stopD, Path dst, boolean startWithMoveTo) { return native_getSegment(native_instance, startD, stopD, dst.ni(), startWithMoveTo); } /** * Return true if the current contour is closed() */ public boolean isClosed() { return native_isClosed(native_instance); } /** * Move to the next contour in the path. Return true if one exists, or * false if we're done with the path. */ public boolean nextContour() { return native_nextContour(native_instance); } protected void finalize() throws Throwable { native_destroy(native_instance); } private static native int native_create(int native_path, boolean forceClosed); private static native void native_setPath(int native_instance, int native_path, boolean forceClosed); private static native float native_getLength(int native_instance); private static native boolean native_getPosTan(int native_instance, float distance, float pos[], float tan[]); private static native boolean native_getMatrix(int native_instance, float distance, int native_matrix, int flags); private static native boolean native_getSegment(int native_instance, float startD, float stopD, int native_path, boolean startWithMoveTo); private static native boolean native_isClosed(int native_instance); private static native boolean native_nextContour(int native_instance); private static native void native_destroy(int native_instance); /* package */private final int native_instance; }