#define LOG_TAG "GraphicsJNI" #include #include #include "jni.h" #include "JNIHelp.h" #include "GraphicsJNI.h" #include "Canvas.h" #include "SkCanvas.h" #include "SkDevice.h" #include "SkMath.h" #include "SkRegion.h" #include #include #include #include void doThrowNPE(JNIEnv* env) { jniThrowNullPointerException(env, NULL); } void doThrowAIOOBE(JNIEnv* env) { jniThrowException(env, "java/lang/ArrayIndexOutOfBoundsException", NULL); } void doThrowRE(JNIEnv* env, const char* msg) { jniThrowRuntimeException(env, msg); } void doThrowIAE(JNIEnv* env, const char* msg) { jniThrowException(env, "java/lang/IllegalArgumentException", msg); } void doThrowISE(JNIEnv* env, const char* msg) { jniThrowException(env, "java/lang/IllegalStateException", msg); } void doThrowOOME(JNIEnv* env, const char* msg) { jniThrowException(env, "java/lang/OutOfMemoryError", msg); } void doThrowIOE(JNIEnv* env, const char* msg) { jniThrowException(env, "java/io/IOException", msg); } bool GraphicsJNI::hasException(JNIEnv *env) { if (env->ExceptionCheck() != 0) { ALOGE("*** Uncaught exception returned from Java call!\n"); env->ExceptionDescribe(); return true; } return false; } /////////////////////////////////////////////////////////////////////////////// AutoJavaFloatArray::AutoJavaFloatArray(JNIEnv* env, jfloatArray array, int minLength, JNIAccess access) : fEnv(env), fArray(array), fPtr(NULL), fLen(0) { SkASSERT(env); if (array) { fLen = env->GetArrayLength(array); if (fLen < minLength) { sk_throw(); } fPtr = env->GetFloatArrayElements(array, NULL); } fReleaseMode = (access == kRO_JNIAccess) ? JNI_ABORT : 0; } AutoJavaFloatArray::~AutoJavaFloatArray() { if (fPtr) { fEnv->ReleaseFloatArrayElements(fArray, fPtr, fReleaseMode); } } AutoJavaIntArray::AutoJavaIntArray(JNIEnv* env, jintArray array, int minLength) : fEnv(env), fArray(array), fPtr(NULL), fLen(0) { SkASSERT(env); if (array) { fLen = env->GetArrayLength(array); if (fLen < minLength) { sk_throw(); } fPtr = env->GetIntArrayElements(array, NULL); } } AutoJavaIntArray::~AutoJavaIntArray() { if (fPtr) { fEnv->ReleaseIntArrayElements(fArray, fPtr, 0); } } AutoJavaShortArray::AutoJavaShortArray(JNIEnv* env, jshortArray array, int minLength, JNIAccess access) : fEnv(env), fArray(array), fPtr(NULL), fLen(0) { SkASSERT(env); if (array) { fLen = env->GetArrayLength(array); if (fLen < minLength) { sk_throw(); } fPtr = env->GetShortArrayElements(array, NULL); } fReleaseMode = (access == kRO_JNIAccess) ? JNI_ABORT : 0; } AutoJavaShortArray::~AutoJavaShortArray() { if (fPtr) { fEnv->ReleaseShortArrayElements(fArray, fPtr, fReleaseMode); } } AutoJavaByteArray::AutoJavaByteArray(JNIEnv* env, jbyteArray array, int minLength) : fEnv(env), fArray(array), fPtr(NULL), fLen(0) { SkASSERT(env); if (array) { fLen = env->GetArrayLength(array); if (fLen < minLength) { sk_throw(); } fPtr = env->GetByteArrayElements(array, NULL); } } AutoJavaByteArray::~AutoJavaByteArray() { if (fPtr) { fEnv->ReleaseByteArrayElements(fArray, fPtr, 0); } } /////////////////////////////////////////////////////////////////////////////// static jclass gRect_class; static jfieldID gRect_leftFieldID; static jfieldID gRect_topFieldID; static jfieldID gRect_rightFieldID; static jfieldID gRect_bottomFieldID; static jclass gRectF_class; static jfieldID gRectF_leftFieldID; static jfieldID gRectF_topFieldID; static jfieldID gRectF_rightFieldID; static jfieldID gRectF_bottomFieldID; static jclass gPoint_class; static jfieldID gPoint_xFieldID; static jfieldID gPoint_yFieldID; static jclass gPointF_class; static jfieldID gPointF_xFieldID; static jfieldID gPointF_yFieldID; static jclass gBitmap_class; static jfieldID gBitmap_nativePtr; static jmethodID gBitmap_constructorMethodID; static jmethodID gBitmap_reinitMethodID; static jmethodID gBitmap_getAllocationByteCountMethodID; static jclass gBitmapConfig_class; static jfieldID gBitmapConfig_nativeInstanceID; static jclass gBitmapRegionDecoder_class; static jmethodID gBitmapRegionDecoder_constructorMethodID; static jclass gCanvas_class; static jfieldID gCanvas_nativeInstanceID; static jclass gPicture_class; static jfieldID gPicture_nativeInstanceID; static jclass gRegion_class; static jfieldID gRegion_nativeInstanceID; static jmethodID gRegion_constructorMethodID; static jclass gByte_class; static jobject gVMRuntime; static jclass gVMRuntime_class; static jmethodID gVMRuntime_newNonMovableArray; static jmethodID gVMRuntime_addressOf; /////////////////////////////////////////////////////////////////////////////// void GraphicsJNI::get_jrect(JNIEnv* env, jobject obj, int* L, int* T, int* R, int* B) { SkASSERT(env->IsInstanceOf(obj, gRect_class)); *L = env->GetIntField(obj, gRect_leftFieldID); *T = env->GetIntField(obj, gRect_topFieldID); *R = env->GetIntField(obj, gRect_rightFieldID); *B = env->GetIntField(obj, gRect_bottomFieldID); } void GraphicsJNI::set_jrect(JNIEnv* env, jobject obj, int L, int T, int R, int B) { SkASSERT(env->IsInstanceOf(obj, gRect_class)); env->SetIntField(obj, gRect_leftFieldID, L); env->SetIntField(obj, gRect_topFieldID, T); env->SetIntField(obj, gRect_rightFieldID, R); env->SetIntField(obj, gRect_bottomFieldID, B); } SkIRect* GraphicsJNI::jrect_to_irect(JNIEnv* env, jobject obj, SkIRect* ir) { SkASSERT(env->IsInstanceOf(obj, gRect_class)); ir->set(env->GetIntField(obj, gRect_leftFieldID), env->GetIntField(obj, gRect_topFieldID), env->GetIntField(obj, gRect_rightFieldID), env->GetIntField(obj, gRect_bottomFieldID)); return ir; } void GraphicsJNI::irect_to_jrect(const SkIRect& ir, JNIEnv* env, jobject obj) { SkASSERT(env->IsInstanceOf(obj, gRect_class)); env->SetIntField(obj, gRect_leftFieldID, ir.fLeft); env->SetIntField(obj, gRect_topFieldID, ir.fTop); env->SetIntField(obj, gRect_rightFieldID, ir.fRight); env->SetIntField(obj, gRect_bottomFieldID, ir.fBottom); } SkRect* GraphicsJNI::jrectf_to_rect(JNIEnv* env, jobject obj, SkRect* r) { SkASSERT(env->IsInstanceOf(obj, gRectF_class)); r->set(env->GetFloatField(obj, gRectF_leftFieldID), env->GetFloatField(obj, gRectF_topFieldID), env->GetFloatField(obj, gRectF_rightFieldID), env->GetFloatField(obj, gRectF_bottomFieldID)); return r; } SkRect* GraphicsJNI::jrect_to_rect(JNIEnv* env, jobject obj, SkRect* r) { SkASSERT(env->IsInstanceOf(obj, gRect_class)); r->set(SkIntToScalar(env->GetIntField(obj, gRect_leftFieldID)), SkIntToScalar(env->GetIntField(obj, gRect_topFieldID)), SkIntToScalar(env->GetIntField(obj, gRect_rightFieldID)), SkIntToScalar(env->GetIntField(obj, gRect_bottomFieldID))); return r; } void GraphicsJNI::rect_to_jrectf(const SkRect& r, JNIEnv* env, jobject obj) { SkASSERT(env->IsInstanceOf(obj, gRectF_class)); env->SetFloatField(obj, gRectF_leftFieldID, SkScalarToFloat(r.fLeft)); env->SetFloatField(obj, gRectF_topFieldID, SkScalarToFloat(r.fTop)); env->SetFloatField(obj, gRectF_rightFieldID, SkScalarToFloat(r.fRight)); env->SetFloatField(obj, gRectF_bottomFieldID, SkScalarToFloat(r.fBottom)); } SkIPoint* GraphicsJNI::jpoint_to_ipoint(JNIEnv* env, jobject obj, SkIPoint* point) { SkASSERT(env->IsInstanceOf(obj, gPoint_class)); point->set(env->GetIntField(obj, gPoint_xFieldID), env->GetIntField(obj, gPoint_yFieldID)); return point; } void GraphicsJNI::ipoint_to_jpoint(const SkIPoint& ir, JNIEnv* env, jobject obj) { SkASSERT(env->IsInstanceOf(obj, gPoint_class)); env->SetIntField(obj, gPoint_xFieldID, ir.fX); env->SetIntField(obj, gPoint_yFieldID, ir.fY); } SkPoint* GraphicsJNI::jpointf_to_point(JNIEnv* env, jobject obj, SkPoint* point) { SkASSERT(env->IsInstanceOf(obj, gPointF_class)); point->set(env->GetIntField(obj, gPointF_xFieldID), env->GetIntField(obj, gPointF_yFieldID)); return point; } void GraphicsJNI::point_to_jpointf(const SkPoint& r, JNIEnv* env, jobject obj) { SkASSERT(env->IsInstanceOf(obj, gPointF_class)); env->SetFloatField(obj, gPointF_xFieldID, SkScalarToFloat(r.fX)); env->SetFloatField(obj, gPointF_yFieldID, SkScalarToFloat(r.fY)); } // This enum must keep these int values, to match the int values // in the java Bitmap.Config enum. enum LegacyBitmapConfig { kNo_LegacyBitmapConfig = 0, kA8_LegacyBitmapConfig = 1, kIndex8_LegacyBitmapConfig = 2, kRGB_565_LegacyBitmapConfig = 3, kARGB_4444_LegacyBitmapConfig = 4, kARGB_8888_LegacyBitmapConfig = 5, kLastEnum_LegacyBitmapConfig = kARGB_8888_LegacyBitmapConfig }; jint GraphicsJNI::colorTypeToLegacyBitmapConfig(SkColorType colorType) { switch (colorType) { case kN32_SkColorType: return kARGB_8888_LegacyBitmapConfig; case kARGB_4444_SkColorType: return kARGB_4444_LegacyBitmapConfig; case kRGB_565_SkColorType: return kRGB_565_LegacyBitmapConfig; case kIndex_8_SkColorType: return kIndex8_LegacyBitmapConfig; case kAlpha_8_SkColorType: return kA8_LegacyBitmapConfig; case kUnknown_SkColorType: default: break; } return kNo_LegacyBitmapConfig; } SkColorType GraphicsJNI::legacyBitmapConfigToColorType(jint legacyConfig) { const uint8_t gConfig2ColorType[] = { kUnknown_SkColorType, kAlpha_8_SkColorType, kIndex_8_SkColorType, kRGB_565_SkColorType, kARGB_4444_SkColorType, kN32_SkColorType }; if (legacyConfig < 0 || legacyConfig > kLastEnum_LegacyBitmapConfig) { legacyConfig = kNo_LegacyBitmapConfig; } return static_cast(gConfig2ColorType[legacyConfig]); } android::Bitmap* GraphicsJNI::getBitmap(JNIEnv* env, jobject bitmap) { SkASSERT(env); SkASSERT(bitmap); SkASSERT(env->IsInstanceOf(bitmap, gBitmap_class)); jlong bitmapHandle = env->GetLongField(bitmap, gBitmap_nativePtr); android::Bitmap* b = reinterpret_cast(bitmapHandle); SkASSERT(b); return b; } void GraphicsJNI::getSkBitmap(JNIEnv* env, jobject bitmap, SkBitmap* outBitmap) { getBitmap(env, bitmap)->getSkBitmap(outBitmap); } SkPixelRef* GraphicsJNI::refSkPixelRef(JNIEnv* env, jobject bitmap) { return getBitmap(env, bitmap)->refPixelRef(); } SkColorType GraphicsJNI::getNativeBitmapColorType(JNIEnv* env, jobject jconfig) { SkASSERT(env); if (NULL == jconfig) { return kUnknown_SkColorType; } SkASSERT(env->IsInstanceOf(jconfig, gBitmapConfig_class)); int c = env->GetIntField(jconfig, gBitmapConfig_nativeInstanceID); return legacyBitmapConfigToColorType(c); } android::Canvas* GraphicsJNI::getNativeCanvas(JNIEnv* env, jobject canvas) { SkASSERT(env); SkASSERT(canvas); SkASSERT(env->IsInstanceOf(canvas, gCanvas_class)); jlong canvasHandle = env->GetLongField(canvas, gCanvas_nativeInstanceID); if (!canvasHandle) { return NULL; } return reinterpret_cast(canvasHandle); } SkRegion* GraphicsJNI::getNativeRegion(JNIEnv* env, jobject region) { SkASSERT(env); SkASSERT(region); SkASSERT(env->IsInstanceOf(region, gRegion_class)); jlong regionHandle = env->GetLongField(region, gRegion_nativeInstanceID); SkRegion* r = reinterpret_cast(regionHandle); SkASSERT(r); return r; } /////////////////////////////////////////////////////////////////////////////////////////// // Assert that bitmap's SkAlphaType is consistent with isPremultiplied. static void assert_premultiplied(const SkImageInfo& info, bool isPremultiplied) { // kOpaque_SkAlphaType and kIgnore_SkAlphaType mean that isPremultiplied is // irrelevant. This just tests to ensure that the SkAlphaType is not // opposite of isPremultiplied. if (isPremultiplied) { SkASSERT(info.alphaType() != kUnpremul_SkAlphaType); } else { SkASSERT(info.alphaType() != kPremul_SkAlphaType); } } jobject GraphicsJNI::createBitmap(JNIEnv* env, android::Bitmap* bitmap, int bitmapCreateFlags, jbyteArray ninePatchChunk, jobject ninePatchInsets, int density) { bool isMutable = bitmapCreateFlags & kBitmapCreateFlag_Mutable; bool isPremultiplied = bitmapCreateFlags & kBitmapCreateFlag_Premultiplied; // The caller needs to have already set the alpha type properly, so the // native SkBitmap stays in sync with the Java Bitmap. assert_premultiplied(bitmap->info(), isPremultiplied); jobject obj = env->NewObject(gBitmap_class, gBitmap_constructorMethodID, reinterpret_cast(bitmap), bitmap->javaByteArray(), bitmap->width(), bitmap->height(), density, isMutable, isPremultiplied, ninePatchChunk, ninePatchInsets); hasException(env); // For the side effect of logging. return obj; } void GraphicsJNI::reinitBitmap(JNIEnv* env, jobject javaBitmap, const SkImageInfo& info, bool isPremultiplied) { // The caller needs to have already set the alpha type properly, so the // native SkBitmap stays in sync with the Java Bitmap. assert_premultiplied(info, isPremultiplied); env->CallVoidMethod(javaBitmap, gBitmap_reinitMethodID, info.width(), info.height(), isPremultiplied); } int GraphicsJNI::getBitmapAllocationByteCount(JNIEnv* env, jobject javaBitmap) { return env->CallIntMethod(javaBitmap, gBitmap_getAllocationByteCountMethodID); } jobject GraphicsJNI::createBitmapRegionDecoder(JNIEnv* env, SkBitmapRegionDecoder* bitmap) { SkASSERT(bitmap != NULL); jobject obj = env->NewObject(gBitmapRegionDecoder_class, gBitmapRegionDecoder_constructorMethodID, reinterpret_cast(bitmap)); hasException(env); // For the side effect of logging. return obj; } jobject GraphicsJNI::createRegion(JNIEnv* env, SkRegion* region) { SkASSERT(region != NULL); jobject obj = env->NewObject(gRegion_class, gRegion_constructorMethodID, reinterpret_cast(region), 0); hasException(env); // For the side effect of logging. return obj; } static JNIEnv* vm2env(JavaVM* vm) { JNIEnv* env = NULL; if (vm->GetEnv((void**)&env, JNI_VERSION_1_4) != JNI_OK || NULL == env) { SkDebugf("------- [%p] vm->GetEnv() failed\n", vm); sk_throw(); } return env; } /////////////////////////////////////////////////////////////////////////////// static bool computeAllocationSize(const SkBitmap& bitmap, size_t* size) { int32_t rowBytes32 = SkToS32(bitmap.rowBytes()); int64_t bigSize = (int64_t)bitmap.height() * rowBytes32; if (rowBytes32 < 0 || !sk_64_isS32(bigSize)) { return false; // allocation will be too large } *size = sk_64_asS32(bigSize); return true; } android::Bitmap* GraphicsJNI::allocateJavaPixelRef(JNIEnv* env, SkBitmap* bitmap, SkColorTable* ctable) { const SkImageInfo& info = bitmap->info(); if (info.fColorType == kUnknown_SkColorType) { doThrowIAE(env, "unknown bitmap configuration"); return NULL; } size_t size; if (!computeAllocationSize(*bitmap, &size)) { return NULL; } // we must respect the rowBytes value already set on the bitmap instead of // attempting to compute our own. const size_t rowBytes = bitmap->rowBytes(); jbyteArray arrayObj = (jbyteArray) env->CallObjectMethod(gVMRuntime, gVMRuntime_newNonMovableArray, gByte_class, size); if (env->ExceptionCheck() != 0) { return NULL; } SkASSERT(arrayObj); jbyte* addr = (jbyte*) env->CallLongMethod(gVMRuntime, gVMRuntime_addressOf, arrayObj); if (env->ExceptionCheck() != 0) { return NULL; } SkASSERT(addr); android::Bitmap* wrapper = new android::Bitmap(env, arrayObj, (void*) addr, info, rowBytes, ctable); wrapper->getSkBitmap(bitmap); // since we're already allocated, we lockPixels right away // HeapAllocator behaves this way too bitmap->lockPixels(); return wrapper; } struct AndroidPixelRefContext { int32_t stableID; }; static void allocatePixelsReleaseProc(void* ptr, void* ctx) { AndroidPixelRefContext* context = (AndroidPixelRefContext*)ctx; if (android::uirenderer::Caches::hasInstance()) { android::uirenderer::Caches::getInstance().textureCache.releaseTexture(context->stableID); } sk_free(ptr); delete context; } bool GraphicsJNI::allocatePixels(JNIEnv* env, SkBitmap* bitmap, SkColorTable* ctable) { const SkImageInfo& info = bitmap->info(); if (info.fColorType == kUnknown_SkColorType) { doThrowIAE(env, "unknown bitmap configuration"); return NULL; } size_t size; if (!computeAllocationSize(*bitmap, &size)) { return false; } // we must respect the rowBytes value already set on the bitmap instead of // attempting to compute our own. const size_t rowBytes = bitmap->rowBytes(); void* addr = sk_malloc_flags(size, 0); if (NULL == addr) { return false; } AndroidPixelRefContext* context = new AndroidPixelRefContext; SkMallocPixelRef* pr = SkMallocPixelRef::NewWithProc(info, rowBytes, ctable, addr, &allocatePixelsReleaseProc, context); if (!pr) { delete context; return false; } // set the stableID in the context so that it can be used later in // allocatePixelsReleaseProc to remove the texture from the cache. context->stableID = pr->getStableID(); bitmap->setPixelRef(pr)->unref(); // since we're already allocated, we can lockPixels right away bitmap->lockPixels(); return true; } android::Bitmap* GraphicsJNI::allocateAshmemPixelRef(JNIEnv* env, SkBitmap* bitmap, SkColorTable* ctable) { int fd; const SkImageInfo& info = bitmap->info(); if (info.fColorType == kUnknown_SkColorType) { doThrowIAE(env, "unknown bitmap configuration"); return nullptr; } size_t size; if (!computeAllocationSize(*bitmap, &size)) { return nullptr; } // we must respect the rowBytes value already set on the bitmap instead of // attempting to compute our own. const size_t rowBytes = bitmap->rowBytes(); // Create new ashmem region with read/write priv fd = ashmem_create_region("bitmap", size); if (fd < 0) { return nullptr; } void* addr = mmap(NULL, size, PROT_READ | PROT_WRITE, MAP_SHARED, fd, 0); if (addr == MAP_FAILED) { close(fd); return nullptr; } if (ashmem_set_prot_region(fd, PROT_READ) < 0) { munmap(addr, size); close(fd); return nullptr; } android::Bitmap* wrapper = new android::Bitmap(addr, fd, info, rowBytes, ctable); wrapper->getSkBitmap(bitmap); // since we're already allocated, we lockPixels right away // HeapAllocator behaves this way too bitmap->lockPixels(); return wrapper; } android::Bitmap* GraphicsJNI::mapAshmemPixelRef(JNIEnv* env, SkBitmap* bitmap, SkColorTable* ctable, int fd, void* addr, bool readOnly) { const SkImageInfo& info = bitmap->info(); if (info.fColorType == kUnknown_SkColorType) { doThrowIAE(env, "unknown bitmap configuration"); return nullptr; } if (!addr) { // Map existing ashmem region if not already mapped. int flags = readOnly ? (PROT_READ) : (PROT_READ | PROT_WRITE); addr = mmap(NULL, ashmem_get_size_region(fd), flags, MAP_SHARED, fd, 0); if (addr == MAP_FAILED) { return nullptr; } } // we must respect the rowBytes value already set on the bitmap instead of // attempting to compute our own. const size_t rowBytes = bitmap->rowBytes(); android::Bitmap* wrapper = new android::Bitmap(addr, fd, info, rowBytes, ctable); wrapper->getSkBitmap(bitmap); if (readOnly) { bitmap->pixelRef()->setImmutable(); } // since we're already allocated, we lockPixels right away // HeapAllocator behaves this way too bitmap->lockPixels(); return wrapper; } /////////////////////////////////////////////////////////////////////////////// JavaPixelAllocator::JavaPixelAllocator(JNIEnv* env) { LOG_ALWAYS_FATAL_IF(env->GetJavaVM(&mJavaVM) != JNI_OK, "env->GetJavaVM failed"); } JavaPixelAllocator::~JavaPixelAllocator() { if (mStorage) { mStorage->detachFromJava(); } } bool JavaPixelAllocator::allocPixelRef(SkBitmap* bitmap, SkColorTable* ctable) { JNIEnv* env = vm2env(mJavaVM); mStorage = GraphicsJNI::allocateJavaPixelRef(env, bitmap, ctable); return mStorage != nullptr; } //////////////////////////////////////////////////////////////////////////////// AshmemPixelAllocator::AshmemPixelAllocator(JNIEnv *env) { LOG_ALWAYS_FATAL_IF(env->GetJavaVM(&mJavaVM) != JNI_OK, "env->GetJavaVM failed"); } AshmemPixelAllocator::~AshmemPixelAllocator() { if (mStorage) { mStorage->detachFromJava(); } } bool AshmemPixelAllocator::allocPixelRef(SkBitmap* bitmap, SkColorTable* ctable) { JNIEnv* env = vm2env(mJavaVM); mStorage = GraphicsJNI::allocateAshmemPixelRef(env, bitmap, ctable); return mStorage != nullptr; } //////////////////////////////////////////////////////////////////////////////// static jclass make_globalref(JNIEnv* env, const char classname[]) { jclass c = env->FindClass(classname); SkASSERT(c); return (jclass) env->NewGlobalRef(c); } static jfieldID getFieldIDCheck(JNIEnv* env, jclass clazz, const char fieldname[], const char type[]) { jfieldID id = env->GetFieldID(clazz, fieldname, type); SkASSERT(id); return id; } int register_android_graphics_Graphics(JNIEnv* env) { jmethodID m; jclass c; gRect_class = make_globalref(env, "android/graphics/Rect"); gRect_leftFieldID = getFieldIDCheck(env, gRect_class, "left", "I"); gRect_topFieldID = getFieldIDCheck(env, gRect_class, "top", "I"); gRect_rightFieldID = getFieldIDCheck(env, gRect_class, "right", "I"); gRect_bottomFieldID = getFieldIDCheck(env, gRect_class, "bottom", "I"); gRectF_class = make_globalref(env, "android/graphics/RectF"); gRectF_leftFieldID = getFieldIDCheck(env, gRectF_class, "left", "F"); gRectF_topFieldID = getFieldIDCheck(env, gRectF_class, "top", "F"); gRectF_rightFieldID = getFieldIDCheck(env, gRectF_class, "right", "F"); gRectF_bottomFieldID = getFieldIDCheck(env, gRectF_class, "bottom", "F"); gPoint_class = make_globalref(env, "android/graphics/Point"); gPoint_xFieldID = getFieldIDCheck(env, gPoint_class, "x", "I"); gPoint_yFieldID = getFieldIDCheck(env, gPoint_class, "y", "I"); gPointF_class = make_globalref(env, "android/graphics/PointF"); gPointF_xFieldID = getFieldIDCheck(env, gPointF_class, "x", "F"); gPointF_yFieldID = getFieldIDCheck(env, gPointF_class, "y", "F"); gBitmap_class = make_globalref(env, "android/graphics/Bitmap"); gBitmap_nativePtr = getFieldIDCheck(env, gBitmap_class, "mNativePtr", "J"); gBitmap_constructorMethodID = env->GetMethodID(gBitmap_class, "", "(J[BIIIZZ[BLandroid/graphics/NinePatch$InsetStruct;)V"); gBitmap_reinitMethodID = env->GetMethodID(gBitmap_class, "reinit", "(IIZ)V"); gBitmap_getAllocationByteCountMethodID = env->GetMethodID(gBitmap_class, "getAllocationByteCount", "()I"); gBitmapRegionDecoder_class = make_globalref(env, "android/graphics/BitmapRegionDecoder"); gBitmapRegionDecoder_constructorMethodID = env->GetMethodID(gBitmapRegionDecoder_class, "", "(J)V"); gBitmapConfig_class = make_globalref(env, "android/graphics/Bitmap$Config"); gBitmapConfig_nativeInstanceID = getFieldIDCheck(env, gBitmapConfig_class, "nativeInt", "I"); gCanvas_class = make_globalref(env, "android/graphics/Canvas"); gCanvas_nativeInstanceID = getFieldIDCheck(env, gCanvas_class, "mNativeCanvasWrapper", "J"); gPicture_class = make_globalref(env, "android/graphics/Picture"); gPicture_nativeInstanceID = getFieldIDCheck(env, gPicture_class, "mNativePicture", "J"); gRegion_class = make_globalref(env, "android/graphics/Region"); gRegion_nativeInstanceID = getFieldIDCheck(env, gRegion_class, "mNativeRegion", "J"); gRegion_constructorMethodID = env->GetMethodID(gRegion_class, "", "(JI)V"); c = env->FindClass("java/lang/Byte"); gByte_class = (jclass) env->NewGlobalRef( env->GetStaticObjectField(c, env->GetStaticFieldID(c, "TYPE", "Ljava/lang/Class;"))); gVMRuntime_class = make_globalref(env, "dalvik/system/VMRuntime"); m = env->GetStaticMethodID(gVMRuntime_class, "getRuntime", "()Ldalvik/system/VMRuntime;"); gVMRuntime = env->NewGlobalRef(env->CallStaticObjectMethod(gVMRuntime_class, m)); gVMRuntime_newNonMovableArray = env->GetMethodID(gVMRuntime_class, "newNonMovableArray", "(Ljava/lang/Class;I)Ljava/lang/Object;"); gVMRuntime_addressOf = env->GetMethodID(gVMRuntime_class, "addressOf", "(Ljava/lang/Object;)J"); return 0; }