1 /* 2 * Copyright (C) 2008-2012 The Android Open Source Project 3 * 4 * Licensed under the Apache License, Version 2.0 (the "License"); 5 * you may not use this file except in compliance with the License. 6 * You may obtain a copy of the License at 7 * 8 * http://www.apache.org/licenses/LICENSE-2.0 9 * 10 * Unless required by applicable law or agreed to in writing, software 11 * distributed under the License is distributed on an "AS IS" BASIS, 12 * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. 13 * See the License for the specific language governing permissions and 14 * limitations under the License. 15 */ 16 17 package android.renderscript; 18 19 import java.io.File; 20 import java.lang.reflect.Method; 21 import java.util.concurrent.locks.ReentrantReadWriteLock; 22 23 import android.content.Context; 24 import android.content.res.AssetManager; 25 import android.graphics.Bitmap; 26 import android.graphics.SurfaceTexture; 27 import android.os.Process; 28 import android.util.Log; 29 import android.view.Surface; 30 import android.os.SystemProperties; 31 import android.os.Trace; 32 33 /** 34 * This class provides access to a RenderScript context, which controls RenderScript 35 * initialization, resource management, and teardown. An instance of the RenderScript 36 * class must be created before any other RS objects can be created. 37 * 38 * <div class="special reference"> 39 * <h3>Developer Guides</h3> 40 * <p>For more information about creating an application that uses RenderScript, read the 41 * <a href="{@docRoot}guide/topics/renderscript/index.html">RenderScript</a> developer guide.</p> 42 * </div> 43 **/ 44 public class RenderScript { 45 static final long TRACE_TAG = Trace.TRACE_TAG_RS; 46 47 static final String LOG_TAG = "RenderScript_jni"; 48 static final boolean DEBUG = false; 49 @SuppressWarnings({"UnusedDeclaration", "deprecation"}) 50 static final boolean LOG_ENABLED = false; 51 52 private Context mApplicationContext; 53 54 /* 55 * We use a class initializer to allow the native code to cache some 56 * field offsets. 57 */ 58 @SuppressWarnings({"FieldCanBeLocal", "UnusedDeclaration"}) // TODO: now used locally; remove? 59 static boolean sInitialized; 60 native static void _nInit(); 61 62 static Object sRuntime; 63 static Method registerNativeAllocation; 64 static Method registerNativeFree; 65 66 /* 67 * Context creation flag that specifies a normal context. 68 */ 69 public static final int CREATE_FLAG_NONE = 0x0000; 70 71 /* 72 * Context creation flag which specifies a context optimized for low 73 * latency over peak performance. This is a hint and may have no effect 74 * on some implementations. 75 */ 76 public static final int CREATE_FLAG_LOW_LATENCY = 0x0002; 77 78 /* 79 * Context creation flag which specifies a context optimized for long 80 * battery life over peak performance. This is a hint and may have no effect 81 * on some implementations. 82 */ 83 public static final int CREATE_FLAG_LOW_POWER = 0x0004; 84 85 /* 86 * Detect the bitness of the VM to allow FieldPacker to do the right thing. 87 */ 88 static native int rsnSystemGetPointerSize(); 89 static int sPointerSize; 90 91 static { 92 sInitialized = false; 93 if (!SystemProperties.getBoolean("config.disable_renderscript", false)) { 94 try { 95 Class<?> vm_runtime = Class.forName("dalvik.system.VMRuntime"); 96 Method get_runtime = vm_runtime.getDeclaredMethod("getRuntime"); 97 sRuntime = get_runtime.invoke(null); 98 registerNativeAllocation = vm_runtime.getDeclaredMethod("registerNativeAllocation", Integer.TYPE); 99 registerNativeFree = vm_runtime.getDeclaredMethod("registerNativeFree", Integer.TYPE); 100 } catch (Exception e) { 101 Log.e(LOG_TAG, "Error loading GC methods: " + e); 102 throw new RSRuntimeException("Error loading GC methods: " + e); 103 } 104 try { 105 System.loadLibrary("rs_jni"); 106 _nInit(); 107 sInitialized = true; 108 sPointerSize = rsnSystemGetPointerSize(); 109 } catch (UnsatisfiedLinkError e) { 110 Log.e(LOG_TAG, "Error loading RS jni library: " + e); 111 throw new RSRuntimeException("Error loading RS jni library: " + e); 112 } 113 } 114 } 115 116 // Non-threadsafe functions. 117 native long nDeviceCreate(); 118 native void nDeviceDestroy(long dev); 119 native void nDeviceSetConfig(long dev, int param, int value); 120 native int nContextGetUserMessage(long con, int[] data); 121 native String nContextGetErrorMessage(long con); 122 native int nContextPeekMessage(long con, int[] subID); 123 native void nContextInitToClient(long con); 124 native void nContextDeinitToClient(long con); 125 126 static File mCacheDir; 127 128 // this should be a monotonically increasing ID 129 // used in conjunction with the API version of a device 130 static final long sMinorID = 1; 131 132 /** 133 * Returns an identifier that can be used to identify a particular 134 * minor version of RS. 135 * 136 * @hide 137 */ 138 public static long getMinorID() { 139 return sMinorID; 140 } 141 142 /** 143 * Sets the directory to use as a persistent storage for the 144 * renderscript object file cache. 145 * 146 * @hide 147 * @param cacheDir A directory the current process can write to 148 */ 149 public static void setupDiskCache(File cacheDir) { 150 if (!sInitialized) { 151 Log.e(LOG_TAG, "RenderScript.setupDiskCache() called when disabled"); 152 return; 153 } 154 155 // Defer creation of cache path to nScriptCCreate(). 156 mCacheDir = cacheDir; 157 } 158 159 /** 160 * ContextType specifies the specific type of context to be created. 161 * 162 */ 163 public enum ContextType { 164 /** 165 * NORMAL context, this is the default and what shipping apps should 166 * use. 167 */ 168 NORMAL (0), 169 170 /** 171 * DEBUG context, perform extra runtime checks to validate the 172 * kernels and APIs are being used as intended. Get and SetElementAt 173 * will be bounds checked in this mode. 174 */ 175 DEBUG (1), 176 177 /** 178 * PROFILE context, Intended to be used once the first time an 179 * application is run on a new device. This mode allows the runtime to 180 * do additional testing and performance tuning. 181 */ 182 PROFILE (2); 183 184 int mID; 185 ContextType(int id) { 186 mID = id; 187 } 188 } 189 190 ContextType mContextType; 191 ReentrantReadWriteLock mRWLock; 192 193 // Methods below are wrapped to protect the non-threadsafe 194 // lockless fifo. 195 native long rsnContextCreateGL(long dev, int ver, int sdkVer, 196 int colorMin, int colorPref, 197 int alphaMin, int alphaPref, 198 int depthMin, int depthPref, 199 int stencilMin, int stencilPref, 200 int samplesMin, int samplesPref, float samplesQ, int dpi); 201 synchronized long nContextCreateGL(long dev, int ver, int sdkVer, 202 int colorMin, int colorPref, 203 int alphaMin, int alphaPref, 204 int depthMin, int depthPref, 205 int stencilMin, int stencilPref, 206 int samplesMin, int samplesPref, float samplesQ, int dpi) { 207 return rsnContextCreateGL(dev, ver, sdkVer, colorMin, colorPref, 208 alphaMin, alphaPref, depthMin, depthPref, 209 stencilMin, stencilPref, 210 samplesMin, samplesPref, samplesQ, dpi); 211 } 212 native long rsnContextCreate(long dev, int ver, int sdkVer, int contextType); 213 synchronized long nContextCreate(long dev, int ver, int sdkVer, int contextType) { 214 return rsnContextCreate(dev, ver, sdkVer, contextType); 215 } 216 native void rsnContextDestroy(long con); 217 synchronized void nContextDestroy() { 218 validate(); 219 220 // take teardown lock 221 // teardown lock can only be taken when no objects are being destroyed 222 ReentrantReadWriteLock.WriteLock wlock = mRWLock.writeLock(); 223 wlock.lock(); 224 225 long curCon = mContext; 226 // context is considered dead as of this point 227 mContext = 0; 228 229 wlock.unlock(); 230 rsnContextDestroy(curCon); 231 } 232 native void rsnContextSetSurface(long con, int w, int h, Surface sur); 233 synchronized void nContextSetSurface(int w, int h, Surface sur) { 234 validate(); 235 rsnContextSetSurface(mContext, w, h, sur); 236 } 237 native void rsnContextSetSurfaceTexture(long con, int w, int h, SurfaceTexture sur); 238 synchronized void nContextSetSurfaceTexture(int w, int h, SurfaceTexture sur) { 239 validate(); 240 rsnContextSetSurfaceTexture(mContext, w, h, sur); 241 } 242 native void rsnContextSetPriority(long con, int p); 243 synchronized void nContextSetPriority(int p) { 244 validate(); 245 rsnContextSetPriority(mContext, p); 246 } 247 native void rsnContextDump(long con, int bits); 248 synchronized void nContextDump(int bits) { 249 validate(); 250 rsnContextDump(mContext, bits); 251 } 252 native void rsnContextFinish(long con); 253 synchronized void nContextFinish() { 254 validate(); 255 rsnContextFinish(mContext); 256 } 257 258 native void rsnContextSendMessage(long con, int id, int[] data); 259 synchronized void nContextSendMessage(int id, int[] data) { 260 validate(); 261 rsnContextSendMessage(mContext, id, data); 262 } 263 264 native void rsnContextBindRootScript(long con, long script); 265 synchronized void nContextBindRootScript(long script) { 266 validate(); 267 rsnContextBindRootScript(mContext, script); 268 } 269 native void rsnContextBindSampler(long con, int sampler, int slot); 270 synchronized void nContextBindSampler(int sampler, int slot) { 271 validate(); 272 rsnContextBindSampler(mContext, sampler, slot); 273 } 274 native void rsnContextBindProgramStore(long con, long pfs); 275 synchronized void nContextBindProgramStore(long pfs) { 276 validate(); 277 rsnContextBindProgramStore(mContext, pfs); 278 } 279 native void rsnContextBindProgramFragment(long con, long pf); 280 synchronized void nContextBindProgramFragment(long pf) { 281 validate(); 282 rsnContextBindProgramFragment(mContext, pf); 283 } 284 native void rsnContextBindProgramVertex(long con, long pv); 285 synchronized void nContextBindProgramVertex(long pv) { 286 validate(); 287 rsnContextBindProgramVertex(mContext, pv); 288 } 289 native void rsnContextBindProgramRaster(long con, long pr); 290 synchronized void nContextBindProgramRaster(long pr) { 291 validate(); 292 rsnContextBindProgramRaster(mContext, pr); 293 } 294 native void rsnContextPause(long con); 295 synchronized void nContextPause() { 296 validate(); 297 rsnContextPause(mContext); 298 } 299 native void rsnContextResume(long con); 300 synchronized void nContextResume() { 301 validate(); 302 rsnContextResume(mContext); 303 } 304 305 native void rsnAssignName(long con, long obj, byte[] name); 306 synchronized void nAssignName(long obj, byte[] name) { 307 validate(); 308 rsnAssignName(mContext, obj, name); 309 } 310 native String rsnGetName(long con, long obj); 311 synchronized String nGetName(long obj) { 312 validate(); 313 return rsnGetName(mContext, obj); 314 } 315 316 // nObjDestroy is explicitly _not_ synchronous to prevent crashes in finalizers 317 native void rsnObjDestroy(long con, long id); 318 void nObjDestroy(long id) { 319 // There is a race condition here. The calling code may be run 320 // by the gc while teardown is occuring. This protects againts 321 // deleting dead objects. 322 if (mContext != 0) { 323 rsnObjDestroy(mContext, id); 324 } 325 } 326 327 native long rsnElementCreate(long con, long type, int kind, boolean norm, int vecSize); 328 synchronized long nElementCreate(long type, int kind, boolean norm, int vecSize) { 329 validate(); 330 return rsnElementCreate(mContext, type, kind, norm, vecSize); 331 } 332 native long rsnElementCreate2(long con, long[] elements, String[] names, int[] arraySizes); 333 synchronized long nElementCreate2(long[] elements, String[] names, int[] arraySizes) { 334 validate(); 335 return rsnElementCreate2(mContext, elements, names, arraySizes); 336 } 337 native void rsnElementGetNativeData(long con, long id, int[] elementData); 338 synchronized void nElementGetNativeData(long id, int[] elementData) { 339 validate(); 340 rsnElementGetNativeData(mContext, id, elementData); 341 } 342 native void rsnElementGetSubElements(long con, long id, 343 long[] IDs, String[] names, int[] arraySizes); 344 synchronized void nElementGetSubElements(long id, long[] IDs, String[] names, int[] arraySizes) { 345 validate(); 346 rsnElementGetSubElements(mContext, id, IDs, names, arraySizes); 347 } 348 349 native long rsnTypeCreate(long con, long eid, int x, int y, int z, boolean mips, boolean faces, int yuv); 350 synchronized long nTypeCreate(long eid, int x, int y, int z, boolean mips, boolean faces, int yuv) { 351 validate(); 352 return rsnTypeCreate(mContext, eid, x, y, z, mips, faces, yuv); 353 } 354 native void rsnTypeGetNativeData(long con, long id, long[] typeData); 355 synchronized void nTypeGetNativeData(long id, long[] typeData) { 356 validate(); 357 rsnTypeGetNativeData(mContext, id, typeData); 358 } 359 360 native long rsnAllocationCreateTyped(long con, long type, int mip, int usage, long pointer); 361 synchronized long nAllocationCreateTyped(long type, int mip, int usage, long pointer) { 362 validate(); 363 return rsnAllocationCreateTyped(mContext, type, mip, usage, pointer); 364 } 365 native long rsnAllocationCreateFromBitmap(long con, long type, int mip, Bitmap bmp, int usage); 366 synchronized long nAllocationCreateFromBitmap(long type, int mip, Bitmap bmp, int usage) { 367 validate(); 368 return rsnAllocationCreateFromBitmap(mContext, type, mip, bmp, usage); 369 } 370 371 native long rsnAllocationCreateBitmapBackedAllocation(long con, long type, int mip, Bitmap bmp, int usage); 372 synchronized long nAllocationCreateBitmapBackedAllocation(long type, int mip, Bitmap bmp, int usage) { 373 validate(); 374 return rsnAllocationCreateBitmapBackedAllocation(mContext, type, mip, bmp, usage); 375 } 376 377 native long rsnAllocationCubeCreateFromBitmap(long con, long type, int mip, Bitmap bmp, int usage); 378 synchronized long nAllocationCubeCreateFromBitmap(long type, int mip, Bitmap bmp, int usage) { 379 validate(); 380 return rsnAllocationCubeCreateFromBitmap(mContext, type, mip, bmp, usage); 381 } 382 native long rsnAllocationCreateBitmapRef(long con, long type, Bitmap bmp); 383 synchronized long nAllocationCreateBitmapRef(long type, Bitmap bmp) { 384 validate(); 385 return rsnAllocationCreateBitmapRef(mContext, type, bmp); 386 } 387 native long rsnAllocationCreateFromAssetStream(long con, int mips, int assetStream, int usage); 388 synchronized long nAllocationCreateFromAssetStream(int mips, int assetStream, int usage) { 389 validate(); 390 return rsnAllocationCreateFromAssetStream(mContext, mips, assetStream, usage); 391 } 392 393 native void rsnAllocationCopyToBitmap(long con, long alloc, Bitmap bmp); 394 synchronized void nAllocationCopyToBitmap(long alloc, Bitmap bmp) { 395 validate(); 396 rsnAllocationCopyToBitmap(mContext, alloc, bmp); 397 } 398 399 400 native void rsnAllocationSyncAll(long con, long alloc, int src); 401 synchronized void nAllocationSyncAll(long alloc, int src) { 402 validate(); 403 rsnAllocationSyncAll(mContext, alloc, src); 404 } 405 native Surface rsnAllocationGetSurface(long con, long alloc); 406 synchronized Surface nAllocationGetSurface(long alloc) { 407 validate(); 408 return rsnAllocationGetSurface(mContext, alloc); 409 } 410 native void rsnAllocationSetSurface(long con, long alloc, Surface sur); 411 synchronized void nAllocationSetSurface(long alloc, Surface sur) { 412 validate(); 413 rsnAllocationSetSurface(mContext, alloc, sur); 414 } 415 native void rsnAllocationIoSend(long con, long alloc); 416 synchronized void nAllocationIoSend(long alloc) { 417 validate(); 418 rsnAllocationIoSend(mContext, alloc); 419 } 420 native void rsnAllocationIoReceive(long con, long alloc); 421 synchronized void nAllocationIoReceive(long alloc) { 422 validate(); 423 rsnAllocationIoReceive(mContext, alloc); 424 } 425 426 427 native void rsnAllocationGenerateMipmaps(long con, long alloc); 428 synchronized void nAllocationGenerateMipmaps(long alloc) { 429 validate(); 430 rsnAllocationGenerateMipmaps(mContext, alloc); 431 } 432 native void rsnAllocationCopyFromBitmap(long con, long alloc, Bitmap bmp); 433 synchronized void nAllocationCopyFromBitmap(long alloc, Bitmap bmp) { 434 validate(); 435 rsnAllocationCopyFromBitmap(mContext, alloc, bmp); 436 } 437 438 439 native void rsnAllocationData1D(long con, long id, int off, int mip, int count, Object d, int sizeBytes, int dt); 440 synchronized void nAllocationData1D(long id, int off, int mip, int count, Object d, int sizeBytes, Element.DataType dt) { 441 validate(); 442 rsnAllocationData1D(mContext, id, off, mip, count, d, sizeBytes, dt.mID); 443 } 444 445 native void rsnAllocationElementData1D(long con,long id, int xoff, int mip, int compIdx, byte[] d, int sizeBytes); 446 synchronized void nAllocationElementData1D(long id, int xoff, int mip, int compIdx, byte[] d, int sizeBytes) { 447 validate(); 448 rsnAllocationElementData1D(mContext, id, xoff, mip, compIdx, d, sizeBytes); 449 } 450 451 native void rsnAllocationData2D(long con, 452 long dstAlloc, int dstXoff, int dstYoff, 453 int dstMip, int dstFace, 454 int width, int height, 455 long srcAlloc, int srcXoff, int srcYoff, 456 int srcMip, int srcFace); 457 synchronized void nAllocationData2D(long dstAlloc, int dstXoff, int dstYoff, 458 int dstMip, int dstFace, 459 int width, int height, 460 long srcAlloc, int srcXoff, int srcYoff, 461 int srcMip, int srcFace) { 462 validate(); 463 rsnAllocationData2D(mContext, 464 dstAlloc, dstXoff, dstYoff, 465 dstMip, dstFace, 466 width, height, 467 srcAlloc, srcXoff, srcYoff, 468 srcMip, srcFace); 469 } 470 471 native void rsnAllocationData2D(long con, long id, int xoff, int yoff, int mip, int face, 472 int w, int h, Object d, int sizeBytes, int dt); 473 synchronized void nAllocationData2D(long id, int xoff, int yoff, int mip, int face, 474 int w, int h, Object d, int sizeBytes, Element.DataType dt) { 475 validate(); 476 rsnAllocationData2D(mContext, id, xoff, yoff, mip, face, w, h, d, sizeBytes, dt.mID); 477 } 478 479 native void rsnAllocationData2D(long con, long id, int xoff, int yoff, int mip, int face, Bitmap b); 480 synchronized void nAllocationData2D(long id, int xoff, int yoff, int mip, int face, Bitmap b) { 481 validate(); 482 rsnAllocationData2D(mContext, id, xoff, yoff, mip, face, b); 483 } 484 485 native void rsnAllocationData3D(long con, 486 long dstAlloc, int dstXoff, int dstYoff, int dstZoff, 487 int dstMip, 488 int width, int height, int depth, 489 long srcAlloc, int srcXoff, int srcYoff, int srcZoff, 490 int srcMip); 491 synchronized void nAllocationData3D(long dstAlloc, int dstXoff, int dstYoff, int dstZoff, 492 int dstMip, 493 int width, int height, int depth, 494 long srcAlloc, int srcXoff, int srcYoff, int srcZoff, 495 int srcMip) { 496 validate(); 497 rsnAllocationData3D(mContext, 498 dstAlloc, dstXoff, dstYoff, dstZoff, 499 dstMip, width, height, depth, 500 srcAlloc, srcXoff, srcYoff, srcZoff, srcMip); 501 } 502 503 native void rsnAllocationData3D(long con, long id, int xoff, int yoff, int zoff, int mip, 504 int w, int h, int depth, Object d, int sizeBytes, int dt); 505 synchronized void nAllocationData3D(long id, int xoff, int yoff, int zoff, int mip, 506 int w, int h, int depth, Object d, int sizeBytes, Element.DataType dt) { 507 validate(); 508 rsnAllocationData3D(mContext, id, xoff, yoff, zoff, mip, w, h, depth, d, sizeBytes, dt.mID); 509 } 510 511 native void rsnAllocationRead(long con, long id, Object d, int dt); 512 synchronized void nAllocationRead(long id, Object d, Element.DataType dt) { 513 validate(); 514 rsnAllocationRead(mContext, id, d, dt.mID); 515 } 516 517 native void rsnAllocationRead1D(long con, long id, int off, int mip, int count, Object d, 518 int sizeBytes, int dt); 519 synchronized void nAllocationRead1D(long id, int off, int mip, int count, Object d, 520 int sizeBytes, Element.DataType dt) { 521 validate(); 522 rsnAllocationRead1D(mContext, id, off, mip, count, d, sizeBytes, dt.mID); 523 } 524 525 native void rsnAllocationRead2D(long con, long id, int xoff, int yoff, int mip, int face, 526 int w, int h, Object d, int sizeBytes, int dt); 527 synchronized void nAllocationRead2D(long id, int xoff, int yoff, int mip, int face, 528 int w, int h, Object d, int sizeBytes, Element.DataType dt) { 529 validate(); 530 rsnAllocationRead2D(mContext, id, xoff, yoff, mip, face, w, h, d, sizeBytes, dt.mID); 531 } 532 533 native long rsnAllocationGetType(long con, long id); 534 synchronized long nAllocationGetType(long id) { 535 validate(); 536 return rsnAllocationGetType(mContext, id); 537 } 538 539 native void rsnAllocationResize1D(long con, long id, int dimX); 540 synchronized void nAllocationResize1D(long id, int dimX) { 541 validate(); 542 rsnAllocationResize1D(mContext, id, dimX); 543 } 544 545 native long rsnFileA3DCreateFromAssetStream(long con, long assetStream); 546 synchronized long nFileA3DCreateFromAssetStream(long assetStream) { 547 validate(); 548 return rsnFileA3DCreateFromAssetStream(mContext, assetStream); 549 } 550 native long rsnFileA3DCreateFromFile(long con, String path); 551 synchronized long nFileA3DCreateFromFile(String path) { 552 validate(); 553 return rsnFileA3DCreateFromFile(mContext, path); 554 } 555 native long rsnFileA3DCreateFromAsset(long con, AssetManager mgr, String path); 556 synchronized long nFileA3DCreateFromAsset(AssetManager mgr, String path) { 557 validate(); 558 return rsnFileA3DCreateFromAsset(mContext, mgr, path); 559 } 560 native int rsnFileA3DGetNumIndexEntries(long con, long fileA3D); 561 synchronized int nFileA3DGetNumIndexEntries(long fileA3D) { 562 validate(); 563 return rsnFileA3DGetNumIndexEntries(mContext, fileA3D); 564 } 565 native void rsnFileA3DGetIndexEntries(long con, long fileA3D, int numEntries, int[] IDs, String[] names); 566 synchronized void nFileA3DGetIndexEntries(long fileA3D, int numEntries, int[] IDs, String[] names) { 567 validate(); 568 rsnFileA3DGetIndexEntries(mContext, fileA3D, numEntries, IDs, names); 569 } 570 native long rsnFileA3DGetEntryByIndex(long con, long fileA3D, int index); 571 synchronized long nFileA3DGetEntryByIndex(long fileA3D, int index) { 572 validate(); 573 return rsnFileA3DGetEntryByIndex(mContext, fileA3D, index); 574 } 575 576 native long rsnFontCreateFromFile(long con, String fileName, float size, int dpi); 577 synchronized long nFontCreateFromFile(String fileName, float size, int dpi) { 578 validate(); 579 return rsnFontCreateFromFile(mContext, fileName, size, dpi); 580 } 581 native long rsnFontCreateFromAssetStream(long con, String name, float size, int dpi, long assetStream); 582 synchronized long nFontCreateFromAssetStream(String name, float size, int dpi, long assetStream) { 583 validate(); 584 return rsnFontCreateFromAssetStream(mContext, name, size, dpi, assetStream); 585 } 586 native long rsnFontCreateFromAsset(long con, AssetManager mgr, String path, float size, int dpi); 587 synchronized long nFontCreateFromAsset(AssetManager mgr, String path, float size, int dpi) { 588 validate(); 589 return rsnFontCreateFromAsset(mContext, mgr, path, size, dpi); 590 } 591 592 593 native void rsnScriptBindAllocation(long con, long script, long alloc, int slot); 594 synchronized void nScriptBindAllocation(long script, long alloc, int slot) { 595 validate(); 596 rsnScriptBindAllocation(mContext, script, alloc, slot); 597 } 598 native void rsnScriptSetTimeZone(long con, long script, byte[] timeZone); 599 synchronized void nScriptSetTimeZone(long script, byte[] timeZone) { 600 validate(); 601 rsnScriptSetTimeZone(mContext, script, timeZone); 602 } 603 native void rsnScriptInvoke(long con, long id, int slot); 604 synchronized void nScriptInvoke(long id, int slot) { 605 validate(); 606 rsnScriptInvoke(mContext, id, slot); 607 } 608 native void rsnScriptForEach(long con, long id, int slot, long ain, long aout, byte[] params); 609 native void rsnScriptForEach(long con, long id, int slot, long ain, long aout); 610 native void rsnScriptForEachClipped(long con, long id, int slot, long ain, long aout, byte[] params, 611 int xstart, int xend, int ystart, int yend, int zstart, int zend); 612 native void rsnScriptForEachClipped(long con, long id, int slot, long ain, long aout, 613 int xstart, int xend, int ystart, int yend, int zstart, int zend); 614 synchronized void nScriptForEach(long id, int slot, long ain, long aout, byte[] params) { 615 validate(); 616 if (params == null) { 617 rsnScriptForEach(mContext, id, slot, ain, aout); 618 } else { 619 rsnScriptForEach(mContext, id, slot, ain, aout, params); 620 } 621 } 622 623 synchronized void nScriptForEachClipped(long id, int slot, long ain, long aout, byte[] params, 624 int xstart, int xend, int ystart, int yend, int zstart, int zend) { 625 validate(); 626 if (params == null) { 627 rsnScriptForEachClipped(mContext, id, slot, ain, aout, xstart, xend, ystart, yend, zstart, zend); 628 } else { 629 rsnScriptForEachClipped(mContext, id, slot, ain, aout, params, xstart, xend, ystart, yend, zstart, zend); 630 } 631 } 632 633 /** 634 * Multi-input code. 635 * 636 */ 637 638 // @hide 639 native void rsnScriptForEachMultiClipped(long con, long id, int slot, long[] ains, long aout, byte[] params, 640 int xstart, int xend, int ystart, int yend, int zstart, int zend); 641 // @hide 642 native void rsnScriptForEachMultiClipped(long con, long id, int slot, long[] ains, long aout, 643 int xstart, int xend, int ystart, int yend, int zstart, int zend); 644 645 // @hide 646 synchronized void nScriptForEachMultiClipped(long id, int slot, long[] ains, long aout, byte[] params, 647 int xstart, int xend, int ystart, int yend, int zstart, int zend) { 648 validate(); 649 if (params == null) { 650 rsnScriptForEachMultiClipped(mContext, id, slot, ains, aout, xstart, xend, ystart, yend, zstart, zend); 651 } else { 652 rsnScriptForEachMultiClipped(mContext, id, slot, ains, aout, params, xstart, xend, ystart, yend, zstart, zend); 653 } 654 } 655 656 native void rsnScriptInvokeV(long con, long id, int slot, byte[] params); 657 synchronized void nScriptInvokeV(long id, int slot, byte[] params) { 658 validate(); 659 rsnScriptInvokeV(mContext, id, slot, params); 660 } 661 662 native void rsnScriptSetVarI(long con, long id, int slot, int val); 663 synchronized void nScriptSetVarI(long id, int slot, int val) { 664 validate(); 665 rsnScriptSetVarI(mContext, id, slot, val); 666 } 667 native int rsnScriptGetVarI(long con, long id, int slot); 668 synchronized int nScriptGetVarI(long id, int slot) { 669 validate(); 670 return rsnScriptGetVarI(mContext, id, slot); 671 } 672 673 native void rsnScriptSetVarJ(long con, long id, int slot, long val); 674 synchronized void nScriptSetVarJ(long id, int slot, long val) { 675 validate(); 676 rsnScriptSetVarJ(mContext, id, slot, val); 677 } 678 native long rsnScriptGetVarJ(long con, long id, int slot); 679 synchronized long nScriptGetVarJ(long id, int slot) { 680 validate(); 681 return rsnScriptGetVarJ(mContext, id, slot); 682 } 683 684 native void rsnScriptSetVarF(long con, long id, int slot, float val); 685 synchronized void nScriptSetVarF(long id, int slot, float val) { 686 validate(); 687 rsnScriptSetVarF(mContext, id, slot, val); 688 } 689 native float rsnScriptGetVarF(long con, long id, int slot); 690 synchronized float nScriptGetVarF(long id, int slot) { 691 validate(); 692 return rsnScriptGetVarF(mContext, id, slot); 693 } 694 native void rsnScriptSetVarD(long con, long id, int slot, double val); 695 synchronized void nScriptSetVarD(long id, int slot, double val) { 696 validate(); 697 rsnScriptSetVarD(mContext, id, slot, val); 698 } 699 native double rsnScriptGetVarD(long con, long id, int slot); 700 synchronized double nScriptGetVarD(long id, int slot) { 701 validate(); 702 return rsnScriptGetVarD(mContext, id, slot); 703 } 704 native void rsnScriptSetVarV(long con, long id, int slot, byte[] val); 705 synchronized void nScriptSetVarV(long id, int slot, byte[] val) { 706 validate(); 707 rsnScriptSetVarV(mContext, id, slot, val); 708 } 709 native void rsnScriptGetVarV(long con, long id, int slot, byte[] val); 710 synchronized void nScriptGetVarV(long id, int slot, byte[] val) { 711 validate(); 712 rsnScriptGetVarV(mContext, id, slot, val); 713 } 714 native void rsnScriptSetVarVE(long con, long id, int slot, byte[] val, 715 long e, int[] dims); 716 synchronized void nScriptSetVarVE(long id, int slot, byte[] val, 717 long e, int[] dims) { 718 validate(); 719 rsnScriptSetVarVE(mContext, id, slot, val, e, dims); 720 } 721 native void rsnScriptSetVarObj(long con, long id, int slot, long val); 722 synchronized void nScriptSetVarObj(long id, int slot, long val) { 723 validate(); 724 rsnScriptSetVarObj(mContext, id, slot, val); 725 } 726 727 native long rsnScriptCCreate(long con, String resName, String cacheDir, 728 byte[] script, int length); 729 synchronized long nScriptCCreate(String resName, String cacheDir, byte[] script, int length) { 730 validate(); 731 return rsnScriptCCreate(mContext, resName, cacheDir, script, length); 732 } 733 734 native long rsnScriptIntrinsicCreate(long con, int id, long eid); 735 synchronized long nScriptIntrinsicCreate(int id, long eid) { 736 validate(); 737 return rsnScriptIntrinsicCreate(mContext, id, eid); 738 } 739 740 native long rsnScriptKernelIDCreate(long con, long sid, int slot, int sig); 741 synchronized long nScriptKernelIDCreate(long sid, int slot, int sig) { 742 validate(); 743 return rsnScriptKernelIDCreate(mContext, sid, slot, sig); 744 } 745 746 native long rsnScriptFieldIDCreate(long con, long sid, int slot); 747 synchronized long nScriptFieldIDCreate(long sid, int slot) { 748 validate(); 749 return rsnScriptFieldIDCreate(mContext, sid, slot); 750 } 751 752 native long rsnScriptGroupCreate(long con, long[] kernels, long[] src, long[] dstk, long[] dstf, long[] types); 753 synchronized long nScriptGroupCreate(long[] kernels, long[] src, long[] dstk, long[] dstf, long[] types) { 754 validate(); 755 return rsnScriptGroupCreate(mContext, kernels, src, dstk, dstf, types); 756 } 757 758 native void rsnScriptGroupSetInput(long con, long group, long kernel, long alloc); 759 synchronized void nScriptGroupSetInput(long group, long kernel, long alloc) { 760 validate(); 761 rsnScriptGroupSetInput(mContext, group, kernel, alloc); 762 } 763 764 native void rsnScriptGroupSetOutput(long con, long group, long kernel, long alloc); 765 synchronized void nScriptGroupSetOutput(long group, long kernel, long alloc) { 766 validate(); 767 rsnScriptGroupSetOutput(mContext, group, kernel, alloc); 768 } 769 770 native void rsnScriptGroupExecute(long con, long group); 771 synchronized void nScriptGroupExecute(long group) { 772 validate(); 773 rsnScriptGroupExecute(mContext, group); 774 } 775 776 native long rsnSamplerCreate(long con, int magFilter, int minFilter, 777 int wrapS, int wrapT, int wrapR, float aniso); 778 synchronized long nSamplerCreate(int magFilter, int minFilter, 779 int wrapS, int wrapT, int wrapR, float aniso) { 780 validate(); 781 return rsnSamplerCreate(mContext, magFilter, minFilter, wrapS, wrapT, wrapR, aniso); 782 } 783 784 native long rsnProgramStoreCreate(long con, boolean r, boolean g, boolean b, boolean a, 785 boolean depthMask, boolean dither, 786 int srcMode, int dstMode, int depthFunc); 787 synchronized long nProgramStoreCreate(boolean r, boolean g, boolean b, boolean a, 788 boolean depthMask, boolean dither, 789 int srcMode, int dstMode, int depthFunc) { 790 validate(); 791 return rsnProgramStoreCreate(mContext, r, g, b, a, depthMask, dither, srcMode, 792 dstMode, depthFunc); 793 } 794 795 native long rsnProgramRasterCreate(long con, boolean pointSprite, int cullMode); 796 synchronized long nProgramRasterCreate(boolean pointSprite, int cullMode) { 797 validate(); 798 return rsnProgramRasterCreate(mContext, pointSprite, cullMode); 799 } 800 801 native void rsnProgramBindConstants(long con, long pv, int slot, long mID); 802 synchronized void nProgramBindConstants(long pv, int slot, long mID) { 803 validate(); 804 rsnProgramBindConstants(mContext, pv, slot, mID); 805 } 806 native void rsnProgramBindTexture(long con, long vpf, int slot, long a); 807 synchronized void nProgramBindTexture(long vpf, int slot, long a) { 808 validate(); 809 rsnProgramBindTexture(mContext, vpf, slot, a); 810 } 811 native void rsnProgramBindSampler(long con, long vpf, int slot, long s); 812 synchronized void nProgramBindSampler(long vpf, int slot, long s) { 813 validate(); 814 rsnProgramBindSampler(mContext, vpf, slot, s); 815 } 816 native long rsnProgramFragmentCreate(long con, String shader, String[] texNames, long[] params); 817 synchronized long nProgramFragmentCreate(String shader, String[] texNames, long[] params) { 818 validate(); 819 return rsnProgramFragmentCreate(mContext, shader, texNames, params); 820 } 821 native long rsnProgramVertexCreate(long con, String shader, String[] texNames, long[] params); 822 synchronized long nProgramVertexCreate(String shader, String[] texNames, long[] params) { 823 validate(); 824 return rsnProgramVertexCreate(mContext, shader, texNames, params); 825 } 826 827 native long rsnMeshCreate(long con, long[] vtx, long[] idx, int[] prim); 828 synchronized long nMeshCreate(long[] vtx, long[] idx, int[] prim) { 829 validate(); 830 return rsnMeshCreate(mContext, vtx, idx, prim); 831 } 832 native int rsnMeshGetVertexBufferCount(long con, long id); 833 synchronized int nMeshGetVertexBufferCount(long id) { 834 validate(); 835 return rsnMeshGetVertexBufferCount(mContext, id); 836 } 837 native int rsnMeshGetIndexCount(long con, long id); 838 synchronized int nMeshGetIndexCount(long id) { 839 validate(); 840 return rsnMeshGetIndexCount(mContext, id); 841 } 842 native void rsnMeshGetVertices(long con, long id, long[] vtxIds, int vtxIdCount); 843 synchronized void nMeshGetVertices(long id, long[] vtxIds, int vtxIdCount) { 844 validate(); 845 rsnMeshGetVertices(mContext, id, vtxIds, vtxIdCount); 846 } 847 native void rsnMeshGetIndices(long con, long id, long[] idxIds, int[] primitives, int vtxIdCount); 848 synchronized void nMeshGetIndices(long id, long[] idxIds, int[] primitives, int vtxIdCount) { 849 validate(); 850 rsnMeshGetIndices(mContext, id, idxIds, primitives, vtxIdCount); 851 } 852 853 native long rsnPathCreate(long con, int prim, boolean isStatic, long vtx, long loop, float q); 854 synchronized long nPathCreate(int prim, boolean isStatic, long vtx, long loop, float q) { 855 validate(); 856 return rsnPathCreate(mContext, prim, isStatic, vtx, loop, q); 857 } 858 859 long mDev; 860 long mContext; 861 @SuppressWarnings({"FieldCanBeLocal"}) 862 MessageThread mMessageThread; 863 864 Element mElement_U8; 865 Element mElement_I8; 866 Element mElement_U16; 867 Element mElement_I16; 868 Element mElement_U32; 869 Element mElement_I32; 870 Element mElement_U64; 871 Element mElement_I64; 872 Element mElement_F32; 873 Element mElement_F64; 874 Element mElement_BOOLEAN; 875 876 Element mElement_ELEMENT; 877 Element mElement_TYPE; 878 Element mElement_ALLOCATION; 879 Element mElement_SAMPLER; 880 Element mElement_SCRIPT; 881 Element mElement_MESH; 882 Element mElement_PROGRAM_FRAGMENT; 883 Element mElement_PROGRAM_VERTEX; 884 Element mElement_PROGRAM_RASTER; 885 Element mElement_PROGRAM_STORE; 886 Element mElement_FONT; 887 888 Element mElement_A_8; 889 Element mElement_RGB_565; 890 Element mElement_RGB_888; 891 Element mElement_RGBA_5551; 892 Element mElement_RGBA_4444; 893 Element mElement_RGBA_8888; 894 895 Element mElement_FLOAT_2; 896 Element mElement_FLOAT_3; 897 Element mElement_FLOAT_4; 898 899 Element mElement_DOUBLE_2; 900 Element mElement_DOUBLE_3; 901 Element mElement_DOUBLE_4; 902 903 Element mElement_UCHAR_2; 904 Element mElement_UCHAR_3; 905 Element mElement_UCHAR_4; 906 907 Element mElement_CHAR_2; 908 Element mElement_CHAR_3; 909 Element mElement_CHAR_4; 910 911 Element mElement_USHORT_2; 912 Element mElement_USHORT_3; 913 Element mElement_USHORT_4; 914 915 Element mElement_SHORT_2; 916 Element mElement_SHORT_3; 917 Element mElement_SHORT_4; 918 919 Element mElement_UINT_2; 920 Element mElement_UINT_3; 921 Element mElement_UINT_4; 922 923 Element mElement_INT_2; 924 Element mElement_INT_3; 925 Element mElement_INT_4; 926 927 Element mElement_ULONG_2; 928 Element mElement_ULONG_3; 929 Element mElement_ULONG_4; 930 931 Element mElement_LONG_2; 932 Element mElement_LONG_3; 933 Element mElement_LONG_4; 934 935 Element mElement_YUV; 936 937 Element mElement_MATRIX_4X4; 938 Element mElement_MATRIX_3X3; 939 Element mElement_MATRIX_2X2; 940 941 Sampler mSampler_CLAMP_NEAREST; 942 Sampler mSampler_CLAMP_LINEAR; 943 Sampler mSampler_CLAMP_LINEAR_MIP_LINEAR; 944 Sampler mSampler_WRAP_NEAREST; 945 Sampler mSampler_WRAP_LINEAR; 946 Sampler mSampler_WRAP_LINEAR_MIP_LINEAR; 947 Sampler mSampler_MIRRORED_REPEAT_NEAREST; 948 Sampler mSampler_MIRRORED_REPEAT_LINEAR; 949 Sampler mSampler_MIRRORED_REPEAT_LINEAR_MIP_LINEAR; 950 951 ProgramStore mProgramStore_BLEND_NONE_DEPTH_TEST; 952 ProgramStore mProgramStore_BLEND_NONE_DEPTH_NO_DEPTH; 953 ProgramStore mProgramStore_BLEND_ALPHA_DEPTH_TEST; 954 ProgramStore mProgramStore_BLEND_ALPHA_DEPTH_NO_DEPTH; 955 956 ProgramRaster mProgramRaster_CULL_BACK; 957 ProgramRaster mProgramRaster_CULL_FRONT; 958 ProgramRaster mProgramRaster_CULL_NONE; 959 960 /////////////////////////////////////////////////////////////////////////////////// 961 // 962 963 /** 964 * The base class from which an application should derive in order 965 * to receive RS messages from scripts. When a script calls {@code 966 * rsSendToClient}, the data fields will be filled, and the run 967 * method will be called on a separate thread. This will occur 968 * some time after {@code rsSendToClient} completes in the script, 969 * as {@code rsSendToClient} is asynchronous. Message handlers are 970 * not guaranteed to have completed when {@link 971 * android.renderscript.RenderScript#finish} returns. 972 * 973 */ 974 public static class RSMessageHandler implements Runnable { 975 protected int[] mData; 976 protected int mID; 977 protected int mLength; 978 public void run() { 979 } 980 } 981 /** 982 * If an application is expecting messages, it should set this 983 * field to an instance of {@link RSMessageHandler}. This 984 * instance will receive all the user messages sent from {@code 985 * sendToClient} by scripts from this context. 986 * 987 */ 988 RSMessageHandler mMessageCallback = null; 989 990 public void setMessageHandler(RSMessageHandler msg) { 991 mMessageCallback = msg; 992 } 993 public RSMessageHandler getMessageHandler() { 994 return mMessageCallback; 995 } 996 997 /** 998 * Place a message into the message queue to be sent back to the message 999 * handler once all previous commands have been executed. 1000 * 1001 * @param id 1002 * @param data 1003 */ 1004 public void sendMessage(int id, int[] data) { 1005 nContextSendMessage(id, data); 1006 } 1007 1008 /** 1009 * The runtime error handler base class. An application should derive from this class 1010 * if it wishes to install an error handler. When errors occur at runtime, 1011 * the fields in this class will be filled, and the run method will be called. 1012 * 1013 */ 1014 public static class RSErrorHandler implements Runnable { 1015 protected String mErrorMessage; 1016 protected int mErrorNum; 1017 public void run() { 1018 } 1019 } 1020 1021 /** 1022 * Application Error handler. All runtime errors will be dispatched to the 1023 * instance of RSAsyncError set here. If this field is null a 1024 * {@link RSRuntimeException} will instead be thrown with details about the error. 1025 * This will cause program termaination. 1026 * 1027 */ 1028 RSErrorHandler mErrorCallback = null; 1029 1030 public void setErrorHandler(RSErrorHandler msg) { 1031 mErrorCallback = msg; 1032 } 1033 public RSErrorHandler getErrorHandler() { 1034 return mErrorCallback; 1035 } 1036 1037 /** 1038 * RenderScript worker thread priority enumeration. The default value is 1039 * NORMAL. Applications wishing to do background processing should set 1040 * their priority to LOW to avoid starving forground processes. 1041 */ 1042 public enum Priority { 1043 LOW (Process.THREAD_PRIORITY_BACKGROUND + (5 * Process.THREAD_PRIORITY_LESS_FAVORABLE)), 1044 NORMAL (Process.THREAD_PRIORITY_DISPLAY); 1045 1046 int mID; 1047 Priority(int id) { 1048 mID = id; 1049 } 1050 } 1051 1052 void validateObject(BaseObj o) { 1053 if (o != null) { 1054 if (o.mRS != this) { 1055 throw new RSIllegalArgumentException("Attempting to use an object across contexts."); 1056 } 1057 } 1058 } 1059 1060 void validate() { 1061 if (mContext == 0) { 1062 throw new RSInvalidStateException("Calling RS with no Context active."); 1063 } 1064 } 1065 1066 1067 /** 1068 * Change the priority of the worker threads for this context. 1069 * 1070 * @param p New priority to be set. 1071 */ 1072 public void setPriority(Priority p) { 1073 validate(); 1074 nContextSetPriority(p.mID); 1075 } 1076 1077 static class MessageThread extends Thread { 1078 RenderScript mRS; 1079 boolean mRun = true; 1080 int[] mAuxData = new int[2]; 1081 1082 static final int RS_MESSAGE_TO_CLIENT_NONE = 0; 1083 static final int RS_MESSAGE_TO_CLIENT_EXCEPTION = 1; 1084 static final int RS_MESSAGE_TO_CLIENT_RESIZE = 2; 1085 static final int RS_MESSAGE_TO_CLIENT_ERROR = 3; 1086 static final int RS_MESSAGE_TO_CLIENT_USER = 4; 1087 static final int RS_MESSAGE_TO_CLIENT_NEW_BUFFER = 5; 1088 1089 static final int RS_ERROR_FATAL_DEBUG = 0x0800; 1090 static final int RS_ERROR_FATAL_UNKNOWN = 0x1000; 1091 1092 MessageThread(RenderScript rs) { 1093 super("RSMessageThread"); 1094 mRS = rs; 1095 1096 } 1097 1098 public void run() { 1099 // This function is a temporary solution. The final solution will 1100 // used typed allocations where the message id is the type indicator. 1101 int[] rbuf = new int[16]; 1102 mRS.nContextInitToClient(mRS.mContext); 1103 while(mRun) { 1104 rbuf[0] = 0; 1105 int msg = mRS.nContextPeekMessage(mRS.mContext, mAuxData); 1106 int size = mAuxData[1]; 1107 int subID = mAuxData[0]; 1108 1109 if (msg == RS_MESSAGE_TO_CLIENT_USER) { 1110 if ((size>>2) >= rbuf.length) { 1111 rbuf = new int[(size + 3) >> 2]; 1112 } 1113 if (mRS.nContextGetUserMessage(mRS.mContext, rbuf) != 1114 RS_MESSAGE_TO_CLIENT_USER) { 1115 throw new RSDriverException("Error processing message from RenderScript."); 1116 } 1117 1118 if(mRS.mMessageCallback != null) { 1119 mRS.mMessageCallback.mData = rbuf; 1120 mRS.mMessageCallback.mID = subID; 1121 mRS.mMessageCallback.mLength = size; 1122 mRS.mMessageCallback.run(); 1123 } else { 1124 throw new RSInvalidStateException("Received a message from the script with no message handler installed."); 1125 } 1126 continue; 1127 } 1128 1129 if (msg == RS_MESSAGE_TO_CLIENT_ERROR) { 1130 String e = mRS.nContextGetErrorMessage(mRS.mContext); 1131 1132 // Throw RSRuntimeException under the following conditions: 1133 // 1134 // 1) It is an unknown fatal error. 1135 // 2) It is a debug fatal error, and we are not in a 1136 // debug context. 1137 // 3) It is a debug fatal error, and we do not have an 1138 // error callback. 1139 if (subID >= RS_ERROR_FATAL_UNKNOWN || 1140 (subID >= RS_ERROR_FATAL_DEBUG && 1141 (mRS.mContextType != ContextType.DEBUG || 1142 mRS.mErrorCallback == null))) { 1143 throw new RSRuntimeException("Fatal error " + subID + ", details: " + e); 1144 } 1145 1146 if(mRS.mErrorCallback != null) { 1147 mRS.mErrorCallback.mErrorMessage = e; 1148 mRS.mErrorCallback.mErrorNum = subID; 1149 mRS.mErrorCallback.run(); 1150 } else { 1151 android.util.Log.e(LOG_TAG, "non fatal RS error, " + e); 1152 // Do not throw here. In these cases, we do not have 1153 // a fatal error. 1154 } 1155 continue; 1156 } 1157 1158 if (msg == RS_MESSAGE_TO_CLIENT_NEW_BUFFER) { 1159 if (mRS.nContextGetUserMessage(mRS.mContext, rbuf) != 1160 RS_MESSAGE_TO_CLIENT_NEW_BUFFER) { 1161 throw new RSDriverException("Error processing message from RenderScript."); 1162 } 1163 long bufferID = ((long)rbuf[1] << 32L) + ((long)rbuf[0] & 0xffffffffL); 1164 Allocation.sendBufferNotification(bufferID); 1165 continue; 1166 } 1167 1168 // 2: teardown. 1169 // But we want to avoid starving other threads during 1170 // teardown by yielding until the next line in the destructor 1171 // can execute to set mRun = false 1172 try { 1173 sleep(1, 0); 1174 } catch(InterruptedException e) { 1175 } 1176 } 1177 //Log.d(LOG_TAG, "MessageThread exiting."); 1178 } 1179 } 1180 1181 RenderScript(Context ctx) { 1182 mContextType = ContextType.NORMAL; 1183 if (ctx != null) { 1184 mApplicationContext = ctx.getApplicationContext(); 1185 } 1186 mRWLock = new ReentrantReadWriteLock(); 1187 } 1188 1189 /** 1190 * Gets the application context associated with the RenderScript context. 1191 * 1192 * @return The application context. 1193 */ 1194 public final Context getApplicationContext() { 1195 return mApplicationContext; 1196 } 1197 1198 /** 1199 * @hide 1200 */ 1201 public static RenderScript create(Context ctx, int sdkVersion) { 1202 return create(ctx, sdkVersion, ContextType.NORMAL, CREATE_FLAG_NONE); 1203 } 1204 1205 /** 1206 * Create a RenderScript context. 1207 * 1208 * @hide 1209 * @param ctx The context. 1210 * @return RenderScript 1211 */ 1212 public static RenderScript create(Context ctx, int sdkVersion, ContextType ct, int flags) { 1213 if (!sInitialized) { 1214 Log.e(LOG_TAG, "RenderScript.create() called when disabled; someone is likely to crash"); 1215 return null; 1216 } 1217 1218 if ((flags & ~(CREATE_FLAG_LOW_LATENCY | CREATE_FLAG_LOW_POWER)) != 0) { 1219 throw new RSIllegalArgumentException("Invalid flags passed."); 1220 } 1221 1222 RenderScript rs = new RenderScript(ctx); 1223 1224 rs.mDev = rs.nDeviceCreate(); 1225 rs.mContext = rs.nContextCreate(rs.mDev, flags, sdkVersion, ct.mID); 1226 rs.mContextType = ct; 1227 if (rs.mContext == 0) { 1228 throw new RSDriverException("Failed to create RS context."); 1229 } 1230 rs.mMessageThread = new MessageThread(rs); 1231 rs.mMessageThread.start(); 1232 return rs; 1233 } 1234 1235 /** 1236 * Create a RenderScript context. 1237 * 1238 * @param ctx The context. 1239 * @return RenderScript 1240 */ 1241 public static RenderScript create(Context ctx) { 1242 return create(ctx, ContextType.NORMAL); 1243 } 1244 1245 /** 1246 * Create a RenderScript context. 1247 * 1248 * 1249 * @param ctx The context. 1250 * @param ct The type of context to be created. 1251 * @return RenderScript 1252 */ 1253 public static RenderScript create(Context ctx, ContextType ct) { 1254 int v = ctx.getApplicationInfo().targetSdkVersion; 1255 return create(ctx, v, ct, CREATE_FLAG_NONE); 1256 } 1257 1258 /** 1259 * Create a RenderScript context. 1260 * 1261 * 1262 * @param ctx The context. 1263 * @param ct The type of context to be created. 1264 * @param flags The OR of the CREATE_FLAG_* options desired 1265 * @return RenderScript 1266 */ 1267 public static RenderScript create(Context ctx, ContextType ct, int flags) { 1268 int v = ctx.getApplicationInfo().targetSdkVersion; 1269 return create(ctx, v, ct, flags); 1270 } 1271 1272 /** 1273 * Print the currently available debugging information about the state of 1274 * the RS context to the log. 1275 * 1276 */ 1277 public void contextDump() { 1278 validate(); 1279 nContextDump(0); 1280 } 1281 1282 /** 1283 * Wait for any pending asynchronous opeations (such as copies to a RS 1284 * allocation or RS script executions) to complete. 1285 * 1286 */ 1287 public void finish() { 1288 nContextFinish(); 1289 } 1290 1291 /** 1292 * Destroys this RenderScript context. Once this function is called, 1293 * using this context or any objects belonging to this context is 1294 * illegal. 1295 * 1296 */ 1297 public void destroy() { 1298 validate(); 1299 nContextFinish(); 1300 1301 nContextDeinitToClient(mContext); 1302 mMessageThread.mRun = false; 1303 try { 1304 mMessageThread.join(); 1305 } catch(InterruptedException e) { 1306 } 1307 1308 nContextDestroy(); 1309 1310 nDeviceDestroy(mDev); 1311 mDev = 0; 1312 } 1313 1314 boolean isAlive() { 1315 return mContext != 0; 1316 } 1317 1318 long safeID(BaseObj o) { 1319 if(o != null) { 1320 return o.getID(this); 1321 } 1322 return 0; 1323 } 1324 } 1325