/* * Copyright (C) 2008-2012 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 android.renderscript; import java.nio.ByteBuffer; import java.util.HashMap; import android.content.res.Resources; import android.graphics.Bitmap; import android.graphics.BitmapFactory; import android.graphics.Canvas; import android.os.Trace; import android.util.Log; import android.view.Surface; /** *

This class provides the primary method through which data is passed to * and from RenderScript kernels. An Allocation provides the backing store for * a given {@link android.renderscript.Type}.

* *

An Allocation also contains a set of usage flags that denote how the * Allocation could be used. For example, an Allocation may have usage flags * specifying that it can be used from a script as well as input to a {@link * android.renderscript.Sampler}. A developer must synchronize across these * different usages using {@link android.renderscript.Allocation#syncAll} in * order to ensure that different users of the Allocation have a consistent view * of memory. For example, in the case where an Allocation is used as the output * of one kernel and as Sampler input in a later kernel, a developer must call * {@link #syncAll syncAll(Allocation.USAGE_SCRIPT)} prior to launching the * second kernel to ensure correctness. * *

An Allocation can be populated with the {@link #copyFrom} routines. For * more complex Element types, the {@link #copyFromUnchecked} methods can be * used to copy from byte arrays or similar constructs.

* *
*

Developer Guides

*

For more information about creating an application that uses RenderScript, read the * RenderScript developer guide.

*
* * @deprecated Renderscript has been deprecated in API level 31. Please refer to the migration * guide for the proposed alternatives. **/ @Deprecated public class Allocation extends BaseObj { private static final int MAX_NUMBER_IO_INPUT_ALLOC = 16; Type mType; boolean mOwningType = false; Bitmap mBitmap; int mUsage; Allocation mAdaptedAllocation; int mSize; MipmapControl mMipmapControl; long mTimeStamp = -1; boolean mReadAllowed = true; boolean mWriteAllowed = true; boolean mAutoPadding = false; int mSelectedX; int mSelectedY; int mSelectedZ; int mSelectedLOD; int mSelectedArray[]; Type.CubemapFace mSelectedFace = Type.CubemapFace.POSITIVE_X; int mCurrentDimX; int mCurrentDimY; int mCurrentDimZ; int mCurrentCount; static HashMap mAllocationMap = new HashMap(); OnBufferAvailableListener mBufferNotifier; private Surface mGetSurfaceSurface = null; private ByteBuffer mByteBuffer = null; private long mByteBufferStride = -1; private Element.DataType validateObjectIsPrimitiveArray(Object d, boolean checkType) { final Class c = d.getClass(); if (!c.isArray()) { throw new RSIllegalArgumentException("Object passed is not an array of primitives."); } final Class cmp = c.getComponentType(); if (!cmp.isPrimitive()) { throw new RSIllegalArgumentException("Object passed is not an Array of primitives."); } if (cmp == Long.TYPE) { if (checkType) { validateIsInt64(); return mType.mElement.mType; } return Element.DataType.SIGNED_64; } if (cmp == Integer.TYPE) { if (checkType) { validateIsInt32(); return mType.mElement.mType; } return Element.DataType.SIGNED_32; } if (cmp == Short.TYPE) { if (checkType) { validateIsInt16OrFloat16(); return mType.mElement.mType; } return Element.DataType.SIGNED_16; } if (cmp == Byte.TYPE) { if (checkType) { validateIsInt8(); return mType.mElement.mType; } return Element.DataType.SIGNED_8; } if (cmp == Float.TYPE) { if (checkType) { validateIsFloat32(); } return Element.DataType.FLOAT_32; } if (cmp == Double.TYPE) { if (checkType) { validateIsFloat64(); } return Element.DataType.FLOAT_64; } throw new RSIllegalArgumentException("Parameter of type " + cmp.getSimpleName() + "[] is not compatible with data type " + mType.mElement.mType.name() + " of allocation"); } /** * The usage of the Allocation. These signal to RenderScript where to place * the Allocation in memory. * */ /** * The Allocation will be bound to and accessed by scripts. */ public static final int USAGE_SCRIPT = 0x0001; /** * The Allocation will be used as a texture source by one or more graphics * programs. * */ public static final int USAGE_GRAPHICS_TEXTURE = 0x0002; /** * The Allocation will be used as a graphics mesh. * * This was deprecated in API level 16. * */ public static final int USAGE_GRAPHICS_VERTEX = 0x0004; /** * The Allocation will be used as the source of shader constants by one or * more programs. * * This was deprecated in API level 16. * */ public static final int USAGE_GRAPHICS_CONSTANTS = 0x0008; /** * The Allocation will be used as a target for offscreen rendering * * This was deprecated in API level 16. * */ public static final int USAGE_GRAPHICS_RENDER_TARGET = 0x0010; /** * The Allocation will be used as a {@link android.view.Surface} * consumer. This usage will cause the Allocation to be created * as read-only. * */ public static final int USAGE_IO_INPUT = 0x0020; /** * The Allocation will be used as a {@link android.view.Surface} * producer. The dimensions and format of the {@link * android.view.Surface} will be forced to those of the * Allocation. * */ public static final int USAGE_IO_OUTPUT = 0x0040; /** * The Allocation's backing store will be inherited from another object * (usually a {@link android.graphics.Bitmap}); copying to or from the * original source Bitmap will cause a synchronization rather than a full * copy. {@link #syncAll} may also be used to synchronize the Allocation * and the source Bitmap. * *

This is set by default for allocations created with {@link * #createFromBitmap} in API version 18 and higher.

* */ public static final int USAGE_SHARED = 0x0080; /** * Controls mipmap behavior when using the bitmap creation and update * functions. */ public enum MipmapControl { /** * No mipmaps will be generated and the type generated from the incoming * bitmap will not contain additional LODs. */ MIPMAP_NONE(0), /** * A full mipmap chain will be created in script memory. The Type of * the Allocation will contain a full mipmap chain. On upload, the full * chain will be transferred. */ MIPMAP_FULL(1), /** * The Type of the Allocation will be the same as MIPMAP_NONE. It will * not contain mipmaps. On upload, the allocation data will contain a * full mipmap chain generated from the top level in script memory. */ MIPMAP_ON_SYNC_TO_TEXTURE(2); int mID; MipmapControl(int id) { mID = id; } } private long getIDSafe() { if (mAdaptedAllocation != null) { return mAdaptedAllocation.getID(mRS); } return getID(mRS); } /** * Get the {@link android.renderscript.Element} of the {@link * android.renderscript.Type} of the Allocation. * * @return Element * */ public Element getElement() { return mType.getElement(); } /** * Get the usage flags of the Allocation. * * @return usage this Allocation's set of the USAGE_* flags OR'd together * */ public int getUsage() { return mUsage; } /** * @hide * Get the Mipmap control flag of the Allocation. * * @return the Mipmap control flag of the Allocation * */ public MipmapControl getMipmap() { return mMipmapControl; } /** * Specifies the mapping between the Allocation's cells and an array's elements * when data is copied from the Allocation to the array, or vice-versa. * * Only applies to an Allocation whose Element is a vector of length 3 (such as * {@link Element#U8_3} or {@link Element#RGB_888}). Enabling this feature may make * copying data from the Allocation to an array or vice-versa less efficient. * *

Vec3 Element cells are stored in an Allocation as Vec4 Element cells with * the same {@link android.renderscript.Element.DataType}, with the fourth vector * component treated as padding. When this feature is enabled, only the data components, * i.e. the first 3 vector components of each cell, will be mapped between the array * and the Allocation. When disabled, explicit mapping of the padding components * is required, as described in the following example. * *

For example, when copying an integer array to an Allocation of two {@link * Element#I32_3} cells using {@link #copyFrom(int[])}: *

When disabled: * The array must have at least 8 integers, with the first 4 integers copied * to the first cell of the Allocation, and the next 4 integers copied to * the second cell. The 4th and 8th integers are mapped as the padding components. * *

When enabled: * The array just needs to have at least 6 integers, with the first 3 integers * copied to the the first cell as data components, and the next 3 copied to * the second cell. There is no mapping for the padding components. * *

Similarly, when copying a byte array to an Allocation of two {@link * Element#I32_3} cells, using {@link #copyFromUnchecked(int[])}: *

When disabled: * The array must have at least 32 bytes, with the first 16 bytes copied * to the first cell of the Allocation, and the next 16 bytes copied to * the second cell. The 13th-16th and 29th-32nd bytes are mapped as padding * components. * *

When enabled: * The array just needs to have at least 24 bytes, with the first 12 bytes copied * to the first cell of the Allocation, and the next 12 bytes copied to * the second cell. There is no mapping for the padding components. * *

Similar to copying data to an Allocation from an array, when copying data from an * Allocation to an array, the padding components for Vec3 Element cells will not be * copied/mapped to the array if AutoPadding is enabled. * *

Default: Disabled. * * @param useAutoPadding True: enable AutoPadding; False: disable AutoPadding * */ public void setAutoPadding(boolean useAutoPadding) { mAutoPadding = useAutoPadding; } /** * Get the size of the Allocation in bytes. * * @return size of the Allocation in bytes. * */ public int getBytesSize() { if (mType.mDimYuv != 0) { return (int)Math.ceil(mType.getCount() * mType.getElement().getBytesSize() * 1.5); } return mType.getCount() * mType.getElement().getBytesSize(); } private void updateCacheInfo(Type t) { mCurrentDimX = t.getX(); mCurrentDimY = t.getY(); mCurrentDimZ = t.getZ(); mCurrentCount = mCurrentDimX; if (mCurrentDimY > 1) { mCurrentCount *= mCurrentDimY; } if (mCurrentDimZ > 1) { mCurrentCount *= mCurrentDimZ; } } private void setBitmap(Bitmap b) { mBitmap = b; } Allocation(long id, RenderScript rs, Type t, int usage) { super(id, rs); if ((usage & ~(USAGE_SCRIPT | USAGE_GRAPHICS_TEXTURE | USAGE_GRAPHICS_VERTEX | USAGE_GRAPHICS_CONSTANTS | USAGE_GRAPHICS_RENDER_TARGET | USAGE_IO_INPUT | USAGE_IO_OUTPUT | USAGE_SHARED)) != 0) { throw new RSIllegalArgumentException("Unknown usage specified."); } if ((usage & USAGE_IO_INPUT) != 0) { mWriteAllowed = false; if ((usage & ~(USAGE_IO_INPUT | USAGE_GRAPHICS_TEXTURE | USAGE_SCRIPT)) != 0) { throw new RSIllegalArgumentException("Invalid usage combination."); } } mType = t; mUsage = usage; if (t != null) { // TODO: A3D doesn't have Type info during creation, so we can't // calculate the size ahead of time. We can possibly add a method // to update the size in the future if it seems reasonable. mSize = mType.getCount() * mType.getElement().getBytesSize(); updateCacheInfo(t); } try { RenderScript.registerNativeAllocation.invoke(RenderScript.sRuntime, mSize); } catch (Exception e) { Log.e(RenderScript.LOG_TAG, "Couldn't invoke registerNativeAllocation:" + e); throw new RSRuntimeException("Couldn't invoke registerNativeAllocation:" + e); } guard.open("destroy"); } Allocation(long id, RenderScript rs, Type t, boolean owningType, int usage, MipmapControl mips) { this(id, rs, t, usage); mOwningType = owningType; mMipmapControl = mips; } protected void finalize() throws Throwable { RenderScript.registerNativeFree.invoke(RenderScript.sRuntime, mSize); super.finalize(); } private void validateIsInt64() { if ((mType.mElement.mType == Element.DataType.SIGNED_64) || (mType.mElement.mType == Element.DataType.UNSIGNED_64)) { return; } throw new RSIllegalArgumentException( "64 bit integer source does not match allocation type " + mType.mElement.mType); } private void validateIsInt32() { if ((mType.mElement.mType == Element.DataType.SIGNED_32) || (mType.mElement.mType == Element.DataType.UNSIGNED_32)) { return; } throw new RSIllegalArgumentException( "32 bit integer source does not match allocation type " + mType.mElement.mType); } private void validateIsInt16OrFloat16() { if ((mType.mElement.mType == Element.DataType.SIGNED_16) || (mType.mElement.mType == Element.DataType.UNSIGNED_16) || (mType.mElement.mType == Element.DataType.FLOAT_16)) { return; } throw new RSIllegalArgumentException( "16 bit integer source does not match allocation type " + mType.mElement.mType); } private void validateIsInt8() { if ((mType.mElement.mType == Element.DataType.SIGNED_8) || (mType.mElement.mType == Element.DataType.UNSIGNED_8)) { return; } throw new RSIllegalArgumentException( "8 bit integer source does not match allocation type " + mType.mElement.mType); } private void validateIsFloat32() { if (mType.mElement.mType == Element.DataType.FLOAT_32) { return; } throw new RSIllegalArgumentException( "32 bit float source does not match allocation type " + mType.mElement.mType); } private void validateIsFloat64() { if (mType.mElement.mType == Element.DataType.FLOAT_64) { return; } throw new RSIllegalArgumentException( "64 bit float source does not match allocation type " + mType.mElement.mType); } private void validateIsObject() { if ((mType.mElement.mType == Element.DataType.RS_ELEMENT) || (mType.mElement.mType == Element.DataType.RS_TYPE) || (mType.mElement.mType == Element.DataType.RS_ALLOCATION) || (mType.mElement.mType == Element.DataType.RS_SAMPLER) || (mType.mElement.mType == Element.DataType.RS_SCRIPT) || (mType.mElement.mType == Element.DataType.RS_MESH) || (mType.mElement.mType == Element.DataType.RS_PROGRAM_FRAGMENT) || (mType.mElement.mType == Element.DataType.RS_PROGRAM_VERTEX) || (mType.mElement.mType == Element.DataType.RS_PROGRAM_RASTER) || (mType.mElement.mType == Element.DataType.RS_PROGRAM_STORE)) { return; } throw new RSIllegalArgumentException( "Object source does not match allocation type " + mType.mElement.mType); } @Override void updateFromNative() { super.updateFromNative(); long typeID = mRS.nAllocationGetType(getID(mRS)); if(typeID != 0) { mType = new Type(typeID, mRS); mType.updateFromNative(); updateCacheInfo(mType); } } /** * Get the {@link android.renderscript.Type} of the Allocation. * * @return Type * */ public Type getType() { return mType; } /** * Propagate changes from one usage of the Allocation to the * other usages of the Allocation. * */ public void syncAll(int srcLocation) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "syncAll"); switch (srcLocation) { case USAGE_GRAPHICS_TEXTURE: case USAGE_SCRIPT: if ((mUsage & USAGE_SHARED) != 0) { copyFrom(mBitmap); } break; case USAGE_GRAPHICS_CONSTANTS: case USAGE_GRAPHICS_VERTEX: break; case USAGE_SHARED: if ((mUsage & USAGE_SHARED) != 0) { copyTo(mBitmap); } break; default: throw new RSIllegalArgumentException("Source must be exactly one usage type."); } mRS.validate(); mRS.nAllocationSyncAll(getIDSafe(), srcLocation); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Send a buffer to the output stream. The contents of the Allocation will * be undefined after this operation. This operation is only valid if {@link * #USAGE_IO_OUTPUT} is set on the Allocation. * * */ public void ioSend() { try { Trace.traceBegin(RenderScript.TRACE_TAG, "ioSend"); if ((mUsage & USAGE_IO_OUTPUT) == 0) { throw new RSIllegalArgumentException( "Can only send buffer if IO_OUTPUT usage specified."); } mRS.validate(); mRS.nAllocationIoSend(getID(mRS)); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Receive the latest input into the Allocation. This operation * is only valid if {@link #USAGE_IO_INPUT} is set on the Allocation. * */ public void ioReceive() { try { Trace.traceBegin(RenderScript.TRACE_TAG, "ioReceive"); if ((mUsage & USAGE_IO_INPUT) == 0) { throw new RSIllegalArgumentException( "Can only receive if IO_INPUT usage specified."); } mRS.validate(); mTimeStamp = mRS.nAllocationIoReceive(getID(mRS)); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Copy an array of RS objects to the Allocation. * * @param d Source array. */ public void copyFrom(BaseObj[] d) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copyFrom"); mRS.validate(); validateIsObject(); if (d.length != mCurrentCount) { throw new RSIllegalArgumentException("Array size mismatch, allocation sizeX = " + mCurrentCount + ", array length = " + d.length); } if (RenderScript.sPointerSize == 8) { long i[] = new long[d.length * 4]; for (int ct=0; ct < d.length; ct++) { i[ct * 4] = d[ct].getID(mRS); } copy1DRangeFromUnchecked(0, mCurrentCount, i); } else { int i[] = new int[d.length]; for (int ct=0; ct < d.length; ct++) { i[ct] = (int) d[ct].getID(mRS); } copy1DRangeFromUnchecked(0, mCurrentCount, i); } } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } private void validateBitmapFormat(Bitmap b) { Bitmap.Config bc = b.getConfig(); if (bc == null) { throw new RSIllegalArgumentException("Bitmap has an unsupported format for this operation"); } switch (bc) { case ALPHA_8: if (mType.getElement().mKind != Element.DataKind.PIXEL_A) { throw new RSIllegalArgumentException("Allocation kind is " + mType.getElement().mKind + ", type " + mType.getElement().mType + " of " + mType.getElement().getBytesSize() + " bytes, passed bitmap was " + bc); } break; case ARGB_8888: if ((mType.getElement().mKind != Element.DataKind.PIXEL_RGBA) || (mType.getElement().getBytesSize() != 4)) { throw new RSIllegalArgumentException("Allocation kind is " + mType.getElement().mKind + ", type " + mType.getElement().mType + " of " + mType.getElement().getBytesSize() + " bytes, passed bitmap was " + bc); } break; case RGB_565: if ((mType.getElement().mKind != Element.DataKind.PIXEL_RGB) || (mType.getElement().getBytesSize() != 2)) { throw new RSIllegalArgumentException("Allocation kind is " + mType.getElement().mKind + ", type " + mType.getElement().mType + " of " + mType.getElement().getBytesSize() + " bytes, passed bitmap was " + bc); } break; case ARGB_4444: if ((mType.getElement().mKind != Element.DataKind.PIXEL_RGBA) || (mType.getElement().getBytesSize() != 2)) { throw new RSIllegalArgumentException("Allocation kind is " + mType.getElement().mKind + ", type " + mType.getElement().mType + " of " + mType.getElement().getBytesSize() + " bytes, passed bitmap was " + bc); } break; } } private void validateBitmapSize(Bitmap b) { if((mCurrentDimX != b.getWidth()) || (mCurrentDimY != b.getHeight())) { throw new RSIllegalArgumentException("Cannot update allocation from bitmap, sizes mismatch"); } } private void copyFromUnchecked(Object array, Element.DataType dt, int arrayLen) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copyFromUnchecked"); mRS.validate(); if (mCurrentDimZ > 0) { copy3DRangeFromUnchecked(0, 0, 0, mCurrentDimX, mCurrentDimY, mCurrentDimZ, array, dt, arrayLen); } else if (mCurrentDimY > 0) { copy2DRangeFromUnchecked(0, 0, mCurrentDimX, mCurrentDimY, array, dt, arrayLen); } else { copy1DRangeFromUnchecked(0, mCurrentCount, array, dt, arrayLen); } } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Copy into this Allocation from an array. This method does not guarantee * that the Allocation is compatible with the input buffer; it copies memory * without reinterpretation. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the Allocation {@link * #getBytesSize getBytesSize()}. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must not be part of the array. * * @param array The source array */ public void copyFromUnchecked(Object array) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copyFromUnchecked"); copyFromUnchecked(array, validateObjectIsPrimitiveArray(array, false), java.lang.reflect.Array.getLength(array)); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Copy into this Allocation from an array. This method does not guarantee * that the Allocation is compatible with the input buffer; it copies memory * without reinterpretation. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the Allocation {@link * #getBytesSize getBytesSize()}. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must not be part of the array. * * @param d the source array */ public void copyFromUnchecked(int[] d) { copyFromUnchecked(d, Element.DataType.SIGNED_32, d.length); } /** * Copy into this Allocation from an array. This method does not guarantee * that the Allocation is compatible with the input buffer; it copies memory * without reinterpretation. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the Allocation {@link * #getBytesSize getBytesSize()}. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must not be part of the array. * * @param d the source array */ public void copyFromUnchecked(short[] d) { copyFromUnchecked(d, Element.DataType.SIGNED_16, d.length); } /** * Copy into this Allocation from an array. This method does not guarantee * that the Allocation is compatible with the input buffer; it copies memory * without reinterpretation. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the Allocation {@link * #getBytesSize getBytesSize()}. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must not be part of the array. * * @param d the source array */ public void copyFromUnchecked(byte[] d) { copyFromUnchecked(d, Element.DataType.SIGNED_8, d.length); } /** * Copy into this Allocation from an array. This method does not guarantee * that the Allocation is compatible with the input buffer; it copies memory * without reinterpretation. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the Allocation {@link * #getBytesSize getBytesSize()}. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must not be part of the array. * * @param d the source array */ public void copyFromUnchecked(float[] d) { copyFromUnchecked(d, Element.DataType.FLOAT_32, d.length); } /** * Copy into this Allocation from an array. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} does not match the array's * primitive type. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the Allocation {@link * #getBytesSize getBytesSize()}. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must not be part of the array. * * @param array The source array */ public void copyFrom(Object array) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copyFrom"); copyFromUnchecked(array, validateObjectIsPrimitiveArray(array, true), java.lang.reflect.Array.getLength(array)); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Copy into this Allocation from an array. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is not a 32 bit integer nor a vector of 32 bit * integers {@link android.renderscript.Element.DataType}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the Allocation {@link * #getBytesSize getBytesSize()}. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must not be part of the array. * * @param d the source array */ public void copyFrom(int[] d) { validateIsInt32(); copyFromUnchecked(d, Element.DataType.SIGNED_32, d.length); } /** * Copy into this Allocation from an array. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is not a 16 bit integer nor a vector of 16 bit * integers {@link android.renderscript.Element.DataType}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the Allocation {@link * #getBytesSize getBytesSize()}. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must not be part of the array. * * @param d the source array */ public void copyFrom(short[] d) { validateIsInt16OrFloat16(); copyFromUnchecked(d, Element.DataType.SIGNED_16, d.length); } /** * Copy into this Allocation from an array. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is not an 8 bit integer nor a vector of 8 bit * integers {@link android.renderscript.Element.DataType}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the Allocation {@link * #getBytesSize getBytesSize()}. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must not be part of the array. * * @param d the source array */ public void copyFrom(byte[] d) { validateIsInt8(); copyFromUnchecked(d, Element.DataType.SIGNED_8, d.length); } /** * Copy into this Allocation from an array. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is neither a 32 bit float nor a vector of * 32 bit floats {@link android.renderscript.Element.DataType}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the Allocation {@link * #getBytesSize getBytesSize()}. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must not be part of the array. * * @param d the source array */ public void copyFrom(float[] d) { validateIsFloat32(); copyFromUnchecked(d, Element.DataType.FLOAT_32, d.length); } /** * Copy into an Allocation from a {@link android.graphics.Bitmap}. The * height, width, and format of the bitmap must match the existing * allocation. * *

If the {@link android.graphics.Bitmap} is the same as the {@link * android.graphics.Bitmap} used to create the Allocation with {@link * #createFromBitmap} and {@link #USAGE_SHARED} is set on the Allocation, * this will synchronize the Allocation with the latest data from the {@link * android.graphics.Bitmap}, potentially avoiding the actual copy.

* * @param b the source bitmap */ public void copyFrom(Bitmap b) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copyFrom"); mRS.validate(); if (b.getConfig() == null) { Bitmap newBitmap = Bitmap.createBitmap(b.getWidth(), b.getHeight(), Bitmap.Config.ARGB_8888); Canvas c = new Canvas(newBitmap); c.drawBitmap(b, 0, 0, null); copyFrom(newBitmap); return; } validateBitmapSize(b); validateBitmapFormat(b); mRS.nAllocationCopyFromBitmap(getID(mRS), b); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Copy an Allocation from an Allocation. The types of both allocations * must be identical. * * @param a the source allocation */ public void copyFrom(Allocation a) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copyFrom"); mRS.validate(); if (!mType.equals(a.getType())) { throw new RSIllegalArgumentException("Types of allocations must match."); } copy2DRangeFrom(0, 0, mCurrentDimX, mCurrentDimY, a, 0, 0); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * This is only intended to be used by auto-generated code reflected from * the RenderScript script files and should not be used by developers. * * @param xoff * @param fp */ public void setFromFieldPacker(int xoff, FieldPacker fp) { mRS.validate(); int eSize = mType.mElement.getBytesSize(); final byte[] data = fp.getData(); int data_length = fp.getPos(); int count = data_length / eSize; if ((eSize * count) != data_length) { throw new RSIllegalArgumentException("Field packer length " + data_length + " not divisible by element size " + eSize + "."); } copy1DRangeFromUnchecked(xoff, count, data); } /** * This is only intended to be used by auto-generated code reflected from * the RenderScript script files and should not be used by developers. * * @param xoff * @param component_number * @param fp */ public void setFromFieldPacker(int xoff, int component_number, FieldPacker fp) { setFromFieldPacker(xoff, 0, 0, component_number, fp); } /** * This is only intended to be used by auto-generated code reflected from * the RenderScript script files and should not be used by developers. * * @param xoff * @param yoff * @param zoff * @param component_number * @param fp */ public void setFromFieldPacker(int xoff, int yoff, int zoff, int component_number, FieldPacker fp) { mRS.validate(); if (component_number >= mType.mElement.mElements.length) { throw new RSIllegalArgumentException("Component_number " + component_number + " out of range."); } if(xoff < 0) { throw new RSIllegalArgumentException("Offset x must be >= 0."); } if(yoff < 0) { throw new RSIllegalArgumentException("Offset y must be >= 0."); } if(zoff < 0) { throw new RSIllegalArgumentException("Offset z must be >= 0."); } final byte[] data = fp.getData(); int data_length = fp.getPos(); int eSize = mType.mElement.mElements[component_number].getBytesSize(); eSize *= mType.mElement.mArraySizes[component_number]; if (data_length != eSize) { throw new RSIllegalArgumentException("Field packer sizelength " + data_length + " does not match component size " + eSize + "."); } mRS.nAllocationElementData(getIDSafe(), xoff, yoff, zoff, mSelectedLOD, component_number, data, data_length); } private void data1DChecks(int off, int count, int len, int dataSize, boolean usePadding) { mRS.validate(); if(off < 0) { throw new RSIllegalArgumentException("Offset must be >= 0."); } if(count < 1) { throw new RSIllegalArgumentException("Count must be >= 1."); } if((off + count) > mCurrentCount) { throw new RSIllegalArgumentException("Overflow, Available count " + mCurrentCount + ", got " + count + " at offset " + off + "."); } if(usePadding) { if(len < dataSize / 4 * 3) { throw new RSIllegalArgumentException("Array too small for allocation type."); } } else { if(len < dataSize) { throw new RSIllegalArgumentException("Array too small for allocation type."); } } } /** * Generate a mipmap chain. This is only valid if the Type of the Allocation * includes mipmaps. * *

This function will generate a complete set of mipmaps from the top * level LOD and place them into the script memory space.

* *

If the Allocation is also using other memory spaces, a call to {@link * #syncAll syncAll(Allocation.USAGE_SCRIPT)} is required.

*/ public void generateMipmaps() { mRS.nAllocationGenerateMipmaps(getID(mRS)); } private void copy1DRangeFromUnchecked(int off, int count, Object array, Element.DataType dt, int arrayLen) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copy1DRangeFromUnchecked"); final int dataSize = mType.mElement.getBytesSize() * count; // AutoPadding for Vec3 Element boolean usePadding = false; if (mAutoPadding && (mType.getElement().getVectorSize() == 3)) { usePadding = true; } data1DChecks(off, count, arrayLen * dt.mSize, dataSize, usePadding); mRS.nAllocationData1D(getIDSafe(), off, mSelectedLOD, count, array, dataSize, dt, mType.mElement.mType.mSize, usePadding); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Copy an array into a 1D region of this Allocation. This method does not * guarantee that the Allocation is compatible with the input buffer. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param array The source array */ public void copy1DRangeFromUnchecked(int off, int count, Object array) { copy1DRangeFromUnchecked(off, count, array, validateObjectIsPrimitiveArray(array, false), java.lang.reflect.Array.getLength(array)); } /** * Copy an array into a 1D region of this Allocation. This method does not * guarantee that the Allocation is compatible with the input buffer. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array */ public void copy1DRangeFromUnchecked(int off, int count, int[] d) { copy1DRangeFromUnchecked(off, count, (Object)d, Element.DataType.SIGNED_32, d.length); } /** * Copy an array into a 1D region of this Allocation. This method does not * guarantee that the Allocation is compatible with the input buffer. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array */ public void copy1DRangeFromUnchecked(int off, int count, short[] d) { copy1DRangeFromUnchecked(off, count, (Object)d, Element.DataType.SIGNED_16, d.length); } /** * Copy an array into a 1D region of this Allocation. This method does not * guarantee that the Allocation is compatible with the input buffer. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array */ public void copy1DRangeFromUnchecked(int off, int count, byte[] d) { copy1DRangeFromUnchecked(off, count, (Object)d, Element.DataType.SIGNED_8, d.length); } /** * Copy an array into a 1D region of this Allocation. This method does not * guarantee that the Allocation is compatible with the input buffer. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array */ public void copy1DRangeFromUnchecked(int off, int count, float[] d) { copy1DRangeFromUnchecked(off, count, (Object)d, Element.DataType.FLOAT_32, d.length); } /** * Copy an array into a 1D region of this Allocation. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} does not match the component type * of the array passed in. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param array The source array. */ public void copy1DRangeFrom(int off, int count, Object array) { copy1DRangeFromUnchecked(off, count, array, validateObjectIsPrimitiveArray(array, true), java.lang.reflect.Array.getLength(array)); } /** * Copy an array into a 1D region of this Allocation. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is not an 32 bit integer nor a vector of 32 bit * integers {@link android.renderscript.Element.DataType}. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array */ public void copy1DRangeFrom(int off, int count, int[] d) { validateIsInt32(); copy1DRangeFromUnchecked(off, count, d, Element.DataType.SIGNED_32, d.length); } /** * Copy an array into a 1D region of this Allocation. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is not an 16 bit integer nor a vector of 16 bit * integers {@link android.renderscript.Element.DataType}. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array */ public void copy1DRangeFrom(int off, int count, short[] d) { validateIsInt16OrFloat16(); copy1DRangeFromUnchecked(off, count, d, Element.DataType.SIGNED_16, d.length); } /** * Copy an array into a 1D region of this Allocation. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is not an 8 bit integer nor a vector of 8 bit * integers {@link android.renderscript.Element.DataType}. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array */ public void copy1DRangeFrom(int off, int count, byte[] d) { validateIsInt8(); copy1DRangeFromUnchecked(off, count, d, Element.DataType.SIGNED_8, d.length); } /** * Copy an array into a 1D region of this Allocation. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is neither a 32 bit float nor a vector of * 32 bit floats {@link android.renderscript.Element.DataType}. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array. */ public void copy1DRangeFrom(int off, int count, float[] d) { validateIsFloat32(); copy1DRangeFromUnchecked(off, count, d, Element.DataType.FLOAT_32, d.length); } /** * Copy part of an Allocation into this Allocation. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param data the source data allocation. * @param dataOff off The offset of the first element in data to * be copied. */ public void copy1DRangeFrom(int off, int count, Allocation data, int dataOff) { Trace.traceBegin(RenderScript.TRACE_TAG, "copy1DRangeFrom"); mRS.nAllocationData2D(getIDSafe(), off, 0, mSelectedLOD, mSelectedFace.mID, count, 1, data.getID(mRS), dataOff, 0, data.mSelectedLOD, data.mSelectedFace.mID); Trace.traceEnd(RenderScript.TRACE_TAG); } private void validate2DRange(int xoff, int yoff, int w, int h) { if (mAdaptedAllocation != null) { } else { if (xoff < 0 || yoff < 0) { throw new RSIllegalArgumentException("Offset cannot be negative."); } if (h < 0 || w < 0) { throw new RSIllegalArgumentException("Height or width cannot be negative."); } if (((xoff + w) > mCurrentDimX) || ((yoff + h) > mCurrentDimY)) { throw new RSIllegalArgumentException("Updated region larger than allocation."); } } } void copy2DRangeFromUnchecked(int xoff, int yoff, int w, int h, Object array, Element.DataType dt, int arrayLen) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copy2DRangeFromUnchecked"); mRS.validate(); validate2DRange(xoff, yoff, w, h); final int dataSize = mType.mElement.getBytesSize() * w * h; // AutoPadding for Vec3 Element boolean usePadding = false; int sizeBytes = arrayLen * dt.mSize; if (mAutoPadding && (mType.getElement().getVectorSize() == 3)) { if (dataSize / 4 * 3 > sizeBytes) { throw new RSIllegalArgumentException("Array too small for allocation type."); } usePadding = true; sizeBytes = dataSize; } else { if (dataSize > sizeBytes) { throw new RSIllegalArgumentException("Array too small for allocation type."); } } mRS.nAllocationData2D(getIDSafe(), xoff, yoff, mSelectedLOD, mSelectedFace.mID, w, h, array, sizeBytes, dt, mType.mElement.mType.mSize, usePadding); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Copy from an array into a rectangular region in this Allocation. The * array is assumed to be tightly packed. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} does not match the input data type. * *

The size of the region is: w * h * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param xoff X offset of the region to update in this Allocation * @param yoff Y offset of the region to update in this Allocation * @param w Width of the region to update * @param h Height of the region to update * @param array Data to be placed into the Allocation */ public void copy2DRangeFrom(int xoff, int yoff, int w, int h, Object array) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copy2DRangeFrom"); copy2DRangeFromUnchecked(xoff, yoff, w, h, array, validateObjectIsPrimitiveArray(array, true), java.lang.reflect.Array.getLength(array)); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Copy from an array into a rectangular region in this Allocation. The * array is assumed to be tightly packed. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is not an 8 bit integer nor a vector of 8 bit * integers {@link android.renderscript.Element.DataType}. * *

The size of the region is: w * h * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param xoff X offset of the region to update in this Allocation * @param yoff Y offset of the region to update in this Allocation * @param w Width of the region to update * @param h Height of the region to update * @param data to be placed into the Allocation */ public void copy2DRangeFrom(int xoff, int yoff, int w, int h, byte[] data) { validateIsInt8(); copy2DRangeFromUnchecked(xoff, yoff, w, h, data, Element.DataType.SIGNED_8, data.length); } /** * Copy from an array into a rectangular region in this Allocation. The * array is assumed to be tightly packed. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is not a 16 bit integer nor a vector of 16 bit * integers {@link android.renderscript.Element.DataType}. * *

The size of the region is: w * h * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param xoff X offset of the region to update in this Allocation * @param yoff Y offset of the region to update in this Allocation * @param w Width of the region to update * @param h Height of the region to update * @param data to be placed into the Allocation */ public void copy2DRangeFrom(int xoff, int yoff, int w, int h, short[] data) { validateIsInt16OrFloat16(); copy2DRangeFromUnchecked(xoff, yoff, w, h, data, Element.DataType.SIGNED_16, data.length); } /** * Copy from an array into a rectangular region in this Allocation. The * array is assumed to be tightly packed. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is not a 32 bit integer nor a vector of 32 bit * integers {@link android.renderscript.Element.DataType}. * *

The size of the region is: w * h * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param xoff X offset of the region to update in this Allocation * @param yoff Y offset of the region to update in this Allocation * @param w Width of the region to update * @param h Height of the region to update * @param data to be placed into the Allocation */ public void copy2DRangeFrom(int xoff, int yoff, int w, int h, int[] data) { validateIsInt32(); copy2DRangeFromUnchecked(xoff, yoff, w, h, data, Element.DataType.SIGNED_32, data.length); } /** * Copy from an array into a rectangular region in this Allocation. The * array is assumed to be tightly packed. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is neither a 32 bit float nor a vector of * 32 bit floats {@link android.renderscript.Element.DataType}. * *

The size of the region is: w * h * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param xoff X offset of the region to update in this Allocation * @param yoff Y offset of the region to update in this Allocation * @param w Width of the region to update * @param h Height of the region to update * @param data to be placed into the Allocation */ public void copy2DRangeFrom(int xoff, int yoff, int w, int h, float[] data) { validateIsFloat32(); copy2DRangeFromUnchecked(xoff, yoff, w, h, data, Element.DataType.FLOAT_32, data.length); } /** * Copy a rectangular region from an Allocation into a rectangular region in * this Allocation. * * @param xoff X offset of the region in this Allocation * @param yoff Y offset of the region in this Allocation * @param w Width of the region to update. * @param h Height of the region to update. * @param data source Allocation. * @param dataXoff X offset in source Allocation * @param dataYoff Y offset in source Allocation */ public void copy2DRangeFrom(int xoff, int yoff, int w, int h, Allocation data, int dataXoff, int dataYoff) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copy2DRangeFrom"); mRS.validate(); validate2DRange(xoff, yoff, w, h); mRS.nAllocationData2D(getIDSafe(), xoff, yoff, mSelectedLOD, mSelectedFace.mID, w, h, data.getID(mRS), dataXoff, dataYoff, data.mSelectedLOD, data.mSelectedFace.mID); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Copy a {@link android.graphics.Bitmap} into an Allocation. The height * and width of the update will use the height and width of the {@link * android.graphics.Bitmap}. * * @param xoff X offset of the region to update in this Allocation * @param yoff Y offset of the region to update in this Allocation * @param data the Bitmap to be copied */ public void copy2DRangeFrom(int xoff, int yoff, Bitmap data) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copy2DRangeFrom"); mRS.validate(); if (data.getConfig() == null) { Bitmap newBitmap = Bitmap.createBitmap(data.getWidth(), data.getHeight(), Bitmap.Config.ARGB_8888); Canvas c = new Canvas(newBitmap); c.drawBitmap(data, 0, 0, null); copy2DRangeFrom(xoff, yoff, newBitmap); return; } validateBitmapFormat(data); validate2DRange(xoff, yoff, data.getWidth(), data.getHeight()); mRS.nAllocationData2D(getIDSafe(), xoff, yoff, mSelectedLOD, mSelectedFace.mID, data); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } private void validate3DRange(int xoff, int yoff, int zoff, int w, int h, int d) { if (mAdaptedAllocation != null) { } else { if (xoff < 0 || yoff < 0 || zoff < 0) { throw new RSIllegalArgumentException("Offset cannot be negative."); } if (h < 0 || w < 0 || d < 0) { throw new RSIllegalArgumentException("Height or width cannot be negative."); } if (((xoff + w) > mCurrentDimX) || ((yoff + h) > mCurrentDimY) || ((zoff + d) > mCurrentDimZ)) { throw new RSIllegalArgumentException("Updated region larger than allocation."); } } } /** * Copy a rectangular region from the array into the allocation. * The array is assumed to be tightly packed. * * The data type of the array is not required to be the same as * the element data type. */ private void copy3DRangeFromUnchecked(int xoff, int yoff, int zoff, int w, int h, int d, Object array, Element.DataType dt, int arrayLen) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copy3DRangeFromUnchecked"); mRS.validate(); validate3DRange(xoff, yoff, zoff, w, h, d); final int dataSize = mType.mElement.getBytesSize() * w * h * d; // AutoPadding for Vec3 Element boolean usePadding = false; int sizeBytes = arrayLen * dt.mSize; if (mAutoPadding && (mType.getElement().getVectorSize() == 3)) { if (dataSize / 4 * 3 > sizeBytes) { throw new RSIllegalArgumentException("Array too small for allocation type."); } usePadding = true; sizeBytes = dataSize; } else { if (dataSize > sizeBytes) { throw new RSIllegalArgumentException("Array too small for allocation type."); } } mRS.nAllocationData3D(getIDSafe(), xoff, yoff, zoff, mSelectedLOD, w, h, d, array, sizeBytes, dt, mType.mElement.mType.mSize, usePadding); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Copy from an array into a 3D region in this Allocation. The * array is assumed to be tightly packed. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} does not match the input data type. * *

The size of the region is: w * h * d * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param xoff X offset of the region to update in this Allocation * @param yoff Y offset of the region to update in this Allocation * @param zoff Z offset of the region to update in this Allocation * @param w Width of the region to update * @param h Height of the region to update * @param d Depth of the region to update * @param array to be placed into the allocation */ public void copy3DRangeFrom(int xoff, int yoff, int zoff, int w, int h, int d, Object array) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copy3DRangeFrom"); copy3DRangeFromUnchecked(xoff, yoff, zoff, w, h, d, array, validateObjectIsPrimitiveArray(array, true), java.lang.reflect.Array.getLength(array)); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Copy a rectangular region into the allocation from another * allocation. * * @param xoff X offset of the region to update in this Allocation * @param yoff Y offset of the region to update in this Allocation * @param zoff Z offset of the region to update in this Allocation * @param w Width of the region to update. * @param h Height of the region to update. * @param d Depth of the region to update. * @param data source allocation. * @param dataXoff X offset of the region in the source Allocation * @param dataYoff Y offset of the region in the source Allocation * @param dataZoff Z offset of the region in the source Allocation */ public void copy3DRangeFrom(int xoff, int yoff, int zoff, int w, int h, int d, Allocation data, int dataXoff, int dataYoff, int dataZoff) { mRS.validate(); validate3DRange(xoff, yoff, zoff, w, h, d); mRS.nAllocationData3D(getIDSafe(), xoff, yoff, zoff, mSelectedLOD, w, h, d, data.getID(mRS), dataXoff, dataYoff, dataZoff, data.mSelectedLOD); } /** * Copy from the Allocation into a {@link android.graphics.Bitmap}. The * bitmap must match the dimensions of the Allocation. * * @param b The bitmap to be set from the Allocation. */ public void copyTo(Bitmap b) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copyTo"); mRS.validate(); validateBitmapFormat(b); validateBitmapSize(b); mRS.nAllocationCopyToBitmap(getID(mRS), b); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } private void copyTo(Object array, Element.DataType dt, int arrayLen) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copyTo"); mRS.validate(); boolean usePadding = false; if (mAutoPadding && (mType.getElement().getVectorSize() == 3)) { usePadding = true; } if (usePadding) { if (dt.mSize * arrayLen < mSize / 4 * 3) { throw new RSIllegalArgumentException( "Size of output array cannot be smaller than size of allocation."); } } else { if (dt.mSize * arrayLen < mSize) { throw new RSIllegalArgumentException( "Size of output array cannot be smaller than size of allocation."); } } mRS.nAllocationRead(getID(mRS), array, dt, mType.mElement.mType.mSize, usePadding); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Copy from the Allocation into an array. The method is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} does not match the input data type. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the Allocation {@link * #getBytesSize getBytesSize()}. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells will be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must not be part of the array. * * @param array The array to be set from the Allocation. */ public void copyTo(Object array) { copyTo(array, validateObjectIsPrimitiveArray(array, true), java.lang.reflect.Array.getLength(array)); } /** * Copy from the Allocation into a byte array. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is neither an 8 bit integer nor a vector of 8 bit * integers {@link android.renderscript.Element.DataType}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the Allocation {@link * #getBytesSize getBytesSize()}. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells will be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must not be part of the array. * * @param d The array to be set from the Allocation. */ public void copyTo(byte[] d) { validateIsInt8(); copyTo(d, Element.DataType.SIGNED_8, d.length); } /** * Copy from the Allocation into a short array. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is not a 16 bit integer nor a vector of 16 bit * integers {@link android.renderscript.Element.DataType}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the Allocation {@link * #getBytesSize getBytesSize()}. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells will be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must not be part of the array. * * @param d The array to be set from the Allocation. */ public void copyTo(short[] d) { validateIsInt16OrFloat16(); copyTo(d, Element.DataType.SIGNED_16, d.length); } /** * Copy from the Allocation into a int array. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is not a 32 bit integer nor a vector of 32 bit * integers {@link android.renderscript.Element.DataType}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the Allocation {@link * #getBytesSize getBytesSize()}. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells will be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must not be part of the array. * * @param d The array to be set from the Allocation. */ public void copyTo(int[] d) { validateIsInt32(); copyTo(d, Element.DataType.SIGNED_32, d.length); } /** * Copy from the Allocation into a float array. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is neither a 32 bit float nor a vector of * 32 bit floats {@link android.renderscript.Element.DataType}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the Allocation {@link * #getBytesSize getBytesSize()}. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells will be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the Allocation {@link #getBytesSize getBytesSize()}. The padding bytes for * the cells must not be part of the array. * * @param d The array to be set from the Allocation. */ public void copyTo(float[] d) { validateIsFloat32(); copyTo(d, Element.DataType.FLOAT_32, d.length); } /** * @hide * * This is only intended to be used by auto-generated code reflected from * the RenderScript script files and should not be used by developers. * * @param xoff * @param yoff * @param zoff * @param component_number * @param fp */ public void copyToFieldPacker(int xoff, int yoff, int zoff, int component_number, FieldPacker fp) { mRS.validate(); if (component_number >= mType.mElement.mElements.length) { throw new RSIllegalArgumentException("Component_number " + component_number + " out of range."); } if(xoff < 0) { throw new RSIllegalArgumentException("Offset x must be >= 0."); } if(yoff < 0) { throw new RSIllegalArgumentException("Offset y must be >= 0."); } if(zoff < 0) { throw new RSIllegalArgumentException("Offset z must be >= 0."); } final byte[] data = fp.getData(); int data_length = data.length; int eSize = mType.mElement.mElements[component_number].getBytesSize(); eSize *= mType.mElement.mArraySizes[component_number]; if (data_length != eSize) { throw new RSIllegalArgumentException("Field packer sizelength " + data_length + " does not match component size " + eSize + "."); } mRS.nAllocationElementRead(getIDSafe(), xoff, yoff, zoff, mSelectedLOD, component_number, data, data_length); } /** * Resize a 1D allocation. The contents of the allocation are preserved. * If new elements are allocated objects are created with null contents and * the new region is otherwise undefined. * *

If the new region is smaller the references of any objects outside the * new region will be released.

* *

A new type will be created with the new dimension.

* * @param dimX The new size of the allocation. * * @deprecated RenderScript objects should be immutable once created. The * replacement is to create a new allocation and copy the contents. This * function will throw an exception if API 21 or higher is used. */ public synchronized void resize(int dimX) { if (mRS.getApplicationContext().getApplicationInfo().targetSdkVersion >= 21) { throw new RSRuntimeException("Resize is not allowed in API 21+."); } if ((mType.getY() > 0)|| (mType.getZ() > 0) || mType.hasFaces() || mType.hasMipmaps()) { throw new RSInvalidStateException("Resize only support for 1D allocations at this time."); } mRS.nAllocationResize1D(getID(mRS), dimX); mRS.finish(); // Necessary because resize is fifoed and update is async. long typeID = mRS.nAllocationGetType(getID(mRS)); // Sets zero the mID so that the finalizer of the old mType value won't // destroy the native object that is being reused. mType.setID(0); mType = new Type(typeID, mRS); mType.updateFromNative(); updateCacheInfo(mType); } private void copy1DRangeToUnchecked(int off, int count, Object array, Element.DataType dt, int arrayLen) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copy1DRangeToUnchecked"); final int dataSize = mType.mElement.getBytesSize() * count; // AutoPadding for Vec3 Element boolean usePadding = false; if (mAutoPadding && (mType.getElement().getVectorSize() == 3)) { usePadding = true; } data1DChecks(off, count, arrayLen * dt.mSize, dataSize, usePadding); mRS.nAllocationRead1D(getIDSafe(), off, mSelectedLOD, count, array, dataSize, dt, mType.mElement.mType.mSize, usePadding); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Copy a 1D region of this Allocation into an array. This method does not * guarantee that the Allocation is compatible with the input buffer. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param array The dest array */ public void copy1DRangeToUnchecked(int off, int count, Object array) { copy1DRangeToUnchecked(off, count, array, validateObjectIsPrimitiveArray(array, false), java.lang.reflect.Array.getLength(array)); } /** * Copy a 1D region of this Allocation into an array. This method does not * guarantee that the Allocation is compatible with the input buffer. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array */ public void copy1DRangeToUnchecked(int off, int count, int[] d) { copy1DRangeToUnchecked(off, count, (Object)d, Element.DataType.SIGNED_32, d.length); } /** * Copy a 1D region of this Allocation into an array. This method does not * guarantee that the Allocation is compatible with the input buffer. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array */ public void copy1DRangeToUnchecked(int off, int count, short[] d) { copy1DRangeToUnchecked(off, count, (Object)d, Element.DataType.SIGNED_16, d.length); } /** * Copy a 1D region of this Allocation into an array. This method does not * guarantee that the Allocation is compatible with the input buffer. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array */ public void copy1DRangeToUnchecked(int off, int count, byte[] d) { copy1DRangeToUnchecked(off, count, (Object)d, Element.DataType.SIGNED_8, d.length); } /** * Copy a 1D region of this Allocation into an array. This method does not * guarantee that the Allocation is compatible with the input buffer. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array */ public void copy1DRangeToUnchecked(int off, int count, float[] d) { copy1DRangeToUnchecked(off, count, (Object)d, Element.DataType.FLOAT_32, d.length); } /** * Copy a 1D region of this Allocation into an array. This method is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} does not match the component type * of the array passed in. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param array The source array. */ public void copy1DRangeTo(int off, int count, Object array) { copy1DRangeToUnchecked(off, count, array, validateObjectIsPrimitiveArray(array, true), java.lang.reflect.Array.getLength(array)); } /** * Copy a 1D region of this Allocation into an array. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is neither a 32 bit integer nor a vector of 32 bit * integers {@link android.renderscript.Element.DataType}. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array */ public void copy1DRangeTo(int off, int count, int[] d) { validateIsInt32(); copy1DRangeToUnchecked(off, count, d, Element.DataType.SIGNED_32, d.length); } /** * Copy a 1D region of this Allocation into an array. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is neither a 16 bit integer nor a vector of 16 bit * integers {@link android.renderscript.Element.DataType}. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array */ public void copy1DRangeTo(int off, int count, short[] d) { validateIsInt16OrFloat16(); copy1DRangeToUnchecked(off, count, d, Element.DataType.SIGNED_16, d.length); } /** * Copy a 1D region of this Allocation into an array. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is neither an 8 bit integer nor a vector of 8 bit * integers {@link android.renderscript.Element.DataType}. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array */ public void copy1DRangeTo(int off, int count, byte[] d) { validateIsInt8(); copy1DRangeToUnchecked(off, count, d, Element.DataType.SIGNED_8, d.length); } /** * Copy a 1D region of this Allocation into an array. This variant is type checked * and will generate exceptions if the Allocation's {@link * android.renderscript.Element} is neither a 32 bit float nor a vector of * 32 bit floats {@link android.renderscript.Element.DataType}. * *

The size of the region is: count * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param off The offset of the first element to be copied. * @param count The number of elements to be copied. * @param d the source array. */ public void copy1DRangeTo(int off, int count, float[] d) { validateIsFloat32(); copy1DRangeToUnchecked(off, count, d, Element.DataType.FLOAT_32, d.length); } void copy2DRangeToUnchecked(int xoff, int yoff, int w, int h, Object array, Element.DataType dt, int arrayLen) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copy2DRangeToUnchecked"); mRS.validate(); validate2DRange(xoff, yoff, w, h); final int dataSize = mType.mElement.getBytesSize() * w * h; // AutoPadding for Vec3 Element boolean usePadding = false; int sizeBytes = arrayLen * dt.mSize; if (mAutoPadding && (mType.getElement().getVectorSize() == 3)) { if (dataSize / 4 * 3 > sizeBytes) { throw new RSIllegalArgumentException("Array too small for allocation type."); } usePadding = true; sizeBytes = dataSize; } else { if (dataSize > sizeBytes) { throw new RSIllegalArgumentException("Array too small for allocation type."); } } mRS.nAllocationRead2D(getIDSafe(), xoff, yoff, mSelectedLOD, mSelectedFace.mID, w, h, array, sizeBytes, dt, mType.mElement.mType.mSize, usePadding); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Copy from a rectangular region in this Allocation into an array. This * method is type checked and will generate exceptions if the Allocation's * {@link android.renderscript.Element} does not match the component type * of the array passed in. * *

The size of the region is: w * h * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param xoff X offset of the region to copy in this Allocation * @param yoff Y offset of the region to copy in this Allocation * @param w Width of the region to copy * @param h Height of the region to copy * @param array Dest Array to be copied into */ public void copy2DRangeTo(int xoff, int yoff, int w, int h, Object array) { copy2DRangeToUnchecked(xoff, yoff, w, h, array, validateObjectIsPrimitiveArray(array, true), java.lang.reflect.Array.getLength(array)); } /** * Copy from a rectangular region in this Allocation into an array. This * variant is type checked and will generate exceptions if the Allocation's * {@link android.renderscript.Element} is neither an 8 bit integer nor a vector * of 8 bit integers {@link android.renderscript.Element.DataType}. * *

The size of the region is: w * h * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param xoff X offset of the region to copy in this Allocation * @param yoff Y offset of the region to copy in this Allocation * @param w Width of the region to copy * @param h Height of the region to copy * @param data Dest Array to be copied into */ public void copy2DRangeTo(int xoff, int yoff, int w, int h, byte[] data) { validateIsInt8(); copy2DRangeToUnchecked(xoff, yoff, w, h, data, Element.DataType.SIGNED_8, data.length); } /** * Copy from a rectangular region in this Allocation into an array. This * variant is type checked and will generate exceptions if the Allocation's * {@link android.renderscript.Element} is neither a 16 bit integer nor a vector * of 16 bit integers {@link android.renderscript.Element.DataType}. * *

The size of the region is: w * h * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param xoff X offset of the region to copy in this Allocation * @param yoff Y offset of the region to copy in this Allocation * @param w Width of the region to copy * @param h Height of the region to copy * @param data Dest Array to be copied into */ public void copy2DRangeTo(int xoff, int yoff, int w, int h, short[] data) { validateIsInt16OrFloat16(); copy2DRangeToUnchecked(xoff, yoff, w, h, data, Element.DataType.SIGNED_16, data.length); } /** * Copy from a rectangular region in this Allocation into an array. This * variant is type checked and will generate exceptions if the Allocation's * {@link android.renderscript.Element} is neither a 32 bit integer nor a vector * of 32 bit integers {@link android.renderscript.Element.DataType}. * *

The size of the region is: w * h * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param xoff X offset of the region to copy in this Allocation * @param yoff Y offset of the region to copy in this Allocation * @param w Width of the region to copy * @param h Height of the region to copy * @param data Dest Array to be copied into */ public void copy2DRangeTo(int xoff, int yoff, int w, int h, int[] data) { validateIsInt32(); copy2DRangeToUnchecked(xoff, yoff, w, h, data, Element.DataType.SIGNED_32, data.length); } /** * Copy from a rectangular region in this Allocation into an array. This * variant is type checked and will generate exceptions if the Allocation's * {@link android.renderscript.Element} is neither a 32 bit float nor a vector * of 32 bit floats {@link android.renderscript.Element.DataType}. * *

The size of the region is: w * h * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param xoff X offset of the region to copy in this Allocation * @param yoff Y offset of the region to copy in this Allocation * @param w Width of the region to copy * @param h Height of the region to copy * @param data Dest Array to be copied into */ public void copy2DRangeTo(int xoff, int yoff, int w, int h, float[] data) { validateIsFloat32(); copy2DRangeToUnchecked(xoff, yoff, w, h, data, Element.DataType.FLOAT_32, data.length); } /** * Copy from a 3D region in this Allocation into an array. This method does * not guarantee that the Allocation is compatible with the input buffer. * The array is assumed to be tightly packed. * * The data type of the array is not required to be the same as * the element data type. */ private void copy3DRangeToUnchecked(int xoff, int yoff, int zoff, int w, int h, int d, Object array, Element.DataType dt, int arrayLen) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "copy3DRangeToUnchecked"); mRS.validate(); validate3DRange(xoff, yoff, zoff, w, h, d); final int dataSize = mType.mElement.getBytesSize() * w * h * d; // AutoPadding for Vec3 Element boolean usePadding = false; int sizeBytes = arrayLen * dt.mSize; if (mAutoPadding && (mType.getElement().getVectorSize() == 3)) { if (dataSize / 4 * 3 > sizeBytes) { throw new RSIllegalArgumentException("Array too small for allocation type."); } usePadding = true; sizeBytes = dataSize; } else { if (dataSize > sizeBytes) { throw new RSIllegalArgumentException("Array too small for allocation type."); } } mRS.nAllocationRead3D(getIDSafe(), xoff, yoff, zoff, mSelectedLOD, w, h, d, array, sizeBytes, dt, mType.mElement.mType.mSize, usePadding); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /* * Copy from a 3D region in this Allocation into an array. This * method is type checked and will generate exceptions if the Allocation's * {@link android.renderscript.Element} does not match the component type * of the array passed in. * *

The size of the region is: w * h * d * {@link #getElement}.{@link * Element#getBytesSize}. * *

If the Allocation does not have Vec3 Elements, then the size of the * array in bytes must be at least the size of the region. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is disabled, then the size of the array in bytes must be at least the size * of the region. The padding bytes for the cells must be part of the array. * *

If the Allocation has Vec3 Elements and {@link #setAutoPadding AutoPadding} * is enabled, then the size of the array in bytes must be at least 3/4 the size * of the region. The padding bytes for the cells must not be part of the array. * * @param xoff X offset of the region to copy in this Allocation * @param yoff Y offset of the region to copy in this Allocation * @param zoff Z offset of the region to copy in this Allocation * @param w Width of the region to copy * @param h Height of the region to copy * @param d Depth of the region to copy * @param array Dest Array to be copied into */ public void copy3DRangeTo(int xoff, int yoff, int zoff, int w, int h, int d, Object array) { copy3DRangeToUnchecked(xoff, yoff, zoff, w, h, d, array, validateObjectIsPrimitiveArray(array, true), java.lang.reflect.Array.getLength(array)); } // creation static BitmapFactory.Options mBitmapOptions = new BitmapFactory.Options(); static { mBitmapOptions.inScaled = false; } /** * Creates a new Allocation with the given {@link * android.renderscript.Type}, mipmap flag, and usage flags. * * @param type RenderScript type describing data layout * @param mips specifies desired mipmap behaviour for the * allocation * @param usage bit field specifying how the Allocation is * utilized */ static public Allocation createTyped(RenderScript rs, Type type, MipmapControl mips, int usage) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "createTyped"); rs.validate(); if (type.getID(rs) == 0) { throw new RSInvalidStateException("Bad Type"); } // TODO: What if there is an exception after this? The native allocation would leak. long id = rs.nAllocationCreateTyped(type.getID(rs), mips.mID, usage, 0); if (id == 0) { throw new RSRuntimeException("Allocation creation failed."); } return new Allocation(id, rs, type, false, usage, mips); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Creates an Allocation with the size specified by the type and no mipmaps * generated by default * * @param rs Context to which the allocation will belong. * @param type renderscript type describing data layout * @param usage bit field specifying how the allocation is * utilized * * @return allocation */ static public Allocation createTyped(RenderScript rs, Type type, int usage) { return createTyped(rs, type, MipmapControl.MIPMAP_NONE, usage); } /** * Creates an Allocation for use by scripts with a given {@link * android.renderscript.Type} and no mipmaps * * @param rs Context to which the Allocation will belong. * @param type RenderScript Type describing data layout * * @return allocation */ static public Allocation createTyped(RenderScript rs, Type type) { return createTyped(rs, type, MipmapControl.MIPMAP_NONE, USAGE_SCRIPT); } /** * Creates an Allocation with a specified number of given elements * * @param rs Context to which the Allocation will belong. * @param e Element to use in the Allocation * @param count the number of Elements in the Allocation * @param usage bit field specifying how the Allocation is * utilized * * @return allocation */ static public Allocation createSized(RenderScript rs, Element e, int count, int usage) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "createSized"); rs.validate(); Type.Builder b = new Type.Builder(rs, e); b.setX(count); Type t = b.create(); long id = rs.nAllocationCreateTyped(t.getID(rs), MipmapControl.MIPMAP_NONE.mID, usage, 0); if (id == 0) { throw new RSRuntimeException("Allocation creation failed."); } return new Allocation(id, rs, t, true, usage, MipmapControl.MIPMAP_NONE); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Creates an Allocation with a specified number of given elements * * @param rs Context to which the Allocation will belong. * @param e Element to use in the Allocation * @param count the number of Elements in the Allocation * * @return allocation */ static public Allocation createSized(RenderScript rs, Element e, int count) { return createSized(rs, e, count, USAGE_SCRIPT); } static Element elementFromBitmap(RenderScript rs, Bitmap b) { final Bitmap.Config bc = b.getConfig(); if (bc == Bitmap.Config.ALPHA_8) { return Element.A_8(rs); } if (bc == Bitmap.Config.ARGB_4444) { return Element.RGBA_4444(rs); } if (bc == Bitmap.Config.ARGB_8888) { return Element.RGBA_8888(rs); } if (bc == Bitmap.Config.RGB_565) { return Element.RGB_565(rs); } throw new RSInvalidStateException("Bad bitmap type: " + bc); } static Type typeFromBitmap(RenderScript rs, Bitmap b, MipmapControl mip) { Element e = elementFromBitmap(rs, b); Type.Builder tb = new Type.Builder(rs, e); tb.setX(b.getWidth()); tb.setY(b.getHeight()); tb.setMipmaps(mip == MipmapControl.MIPMAP_FULL); return tb.create(); } /** * Creates an Allocation from a {@link android.graphics.Bitmap}. * * @param rs Context to which the allocation will belong. * @param b Bitmap source for the allocation data * @param mips specifies desired mipmap behaviour for the * allocation * @param usage bit field specifying how the allocation is * utilized * * @return Allocation containing bitmap data * */ static public Allocation createFromBitmap(RenderScript rs, Bitmap b, MipmapControl mips, int usage) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "createFromBitmap"); rs.validate(); // WAR undocumented color formats if (b.getConfig() == null) { if ((usage & USAGE_SHARED) != 0) { throw new RSIllegalArgumentException("USAGE_SHARED cannot be used with a Bitmap that has a null config."); } Bitmap newBitmap = Bitmap.createBitmap(b.getWidth(), b.getHeight(), Bitmap.Config.ARGB_8888); Canvas c = new Canvas(newBitmap); c.drawBitmap(b, 0, 0, null); return createFromBitmap(rs, newBitmap, mips, usage); } Type t = typeFromBitmap(rs, b, mips); // enable optimized bitmap path only with no mipmap and script-only usage if (mips == MipmapControl.MIPMAP_NONE && t.getElement().isCompatible(Element.RGBA_8888(rs)) && usage == (USAGE_SHARED | USAGE_SCRIPT | USAGE_GRAPHICS_TEXTURE)) { long id = rs.nAllocationCreateBitmapBackedAllocation(t.getID(rs), mips.mID, b, usage); if (id == 0) { throw new RSRuntimeException("Load failed."); } // keep a reference to the Bitmap around to prevent GC Allocation alloc = new Allocation(id, rs, t, true, usage, mips); alloc.setBitmap(b); return alloc; } long id = rs.nAllocationCreateFromBitmap(t.getID(rs), mips.mID, b, usage); if (id == 0) { throw new RSRuntimeException("Load failed."); } return new Allocation(id, rs, t, true, usage, mips); } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Gets or creates a ByteBuffer that contains the raw data of the current Allocation. *

If the Allocation is created with USAGE_IO_INPUT, the returned ByteBuffer * would contain the up-to-date data as READ ONLY. * For a 2D or 3D Allocation, the raw data maybe padded so that each row of * the Allocation has certain alignment. The size of each row including padding, * called stride, can be queried using the {@link #getStride()} method. * * Note: Operating on the ByteBuffer of a destroyed Allocation will triger errors. * * @return ByteBuffer The ByteBuffer associated with raw data pointer of the Allocation. */ public ByteBuffer getByteBuffer() { // Create a new ByteBuffer if it is not initialized or using IO_INPUT. if (mType.hasFaces()) { throw new RSInvalidStateException("Cubemap is not supported for getByteBuffer()."); } if (mType.getYuv() == android.graphics.ImageFormat.NV21 || mType.getYuv() == android.graphics.ImageFormat.YV12 || mType.getYuv() == android.graphics.ImageFormat.YUV_420_888 ) { throw new RSInvalidStateException("YUV format is not supported for getByteBuffer()."); } if (mByteBuffer == null || (mUsage & USAGE_IO_INPUT) != 0) { int xBytesSize = mType.getX() * mType.getElement().getBytesSize(); long[] stride = new long[1]; mByteBuffer = mRS.nAllocationGetByteBuffer(getID(mRS), stride, xBytesSize, mType.getY(), mType.getZ()); mByteBufferStride = stride[0]; } if ((mUsage & USAGE_IO_INPUT) != 0) { return mByteBuffer.asReadOnlyBuffer(); } return mByteBuffer; } /** * Creates a new Allocation Array with the given {@link * android.renderscript.Type}, and usage flags. * Note: If the input allocation is of usage: USAGE_IO_INPUT, * the created Allocation will be sharing the same BufferQueue. * * @param rs RenderScript context * @param t RenderScript type describing data layout * @param usage bit field specifying how the Allocation is * utilized * @param numAlloc Number of Allocations in the array. * @return Allocation[] */ public static Allocation[] createAllocations(RenderScript rs, Type t, int usage, int numAlloc) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "createAllocations"); rs.validate(); if (t.getID(rs) == 0) { throw new RSInvalidStateException("Bad Type"); } Allocation[] mAllocationArray = new Allocation[numAlloc]; mAllocationArray[0] = createTyped(rs, t, usage); if ((usage & USAGE_IO_INPUT) != 0) { if (numAlloc > MAX_NUMBER_IO_INPUT_ALLOC) { mAllocationArray[0].destroy(); throw new RSIllegalArgumentException("Exceeds the max number of Allocations allowed: " + MAX_NUMBER_IO_INPUT_ALLOC); } mAllocationArray[0].setupBufferQueue(numAlloc);; } for (int i=1; i If the input allocation is of usage: USAGE_IO_INPUT, the created * Allocation will be sharing the same BufferQueue. * * @param rs Context to which the allocation will belong. * @param alloc RenderScript Allocation describing data layout. * @return Allocation sharing the same data structure. */ static Allocation createFromAllocation(RenderScript rs, Allocation alloc) { try { Trace.traceBegin(RenderScript.TRACE_TAG, "createFromAllcation"); rs.validate(); if (alloc.getID(rs) == 0) { throw new RSInvalidStateException("Bad input Allocation"); } Type type = alloc.getType(); int usage = alloc.getUsage(); MipmapControl mips = alloc.getMipmap(); long id = rs.nAllocationCreateTyped(type.getID(rs), mips.mID, usage, 0); if (id == 0) { throw new RSRuntimeException("Allocation creation failed."); } Allocation outAlloc = new Allocation(id, rs, type, false, usage, mips); if ((usage & USAGE_IO_INPUT) != 0) { outAlloc.shareBufferQueue(alloc); } return outAlloc; } finally { Trace.traceEnd(RenderScript.TRACE_TAG); } } /** * Initialize BufferQueue with specified max number of buffers. */ void setupBufferQueue(int numAlloc) { mRS.validate(); if ((mUsage & USAGE_IO_INPUT) == 0) { throw new RSInvalidStateException("Allocation is not USAGE_IO_INPUT."); } mRS.nAllocationSetupBufferQueue(getID(mRS), numAlloc); } /** * Share the BufferQueue with another {@link #USAGE_IO_INPUT} Allocation. * * @param alloc Allocation to associate with allocation */ void shareBufferQueue(Allocation alloc) { mRS.validate(); if ((mUsage & USAGE_IO_INPUT) == 0) { throw new RSInvalidStateException("Allocation is not USAGE_IO_INPUT."); } mGetSurfaceSurface = alloc.getSurface(); mRS.nAllocationShareBufferQueue(getID(mRS), alloc.getID(mRS)); } /** * Gets the stride of the Allocation. * For a 2D or 3D Allocation, the raw data maybe padded so that each row of * the Allocation has certain alignment. The size of each row including such * padding is called stride. * * @return the stride. For 1D Allocation, the stride will be the number of * bytes of this Allocation. For 2D and 3D Allocations, the stride * will be the stride in X dimension measuring in bytes. */ public long getStride() { if (mByteBufferStride == -1) { getByteBuffer(); } return mByteBufferStride; } /** * Get the timestamp for the most recent buffer held by this Allocation. * The timestamp is guaranteed to be unique and monotonically increasing. * Default value: -1. The timestamp will be updated after each {@link * #ioReceive ioReceive()} call. * * It can be used to identify the images by comparing the unique timestamps * when used with {@link android.hardware.camera2} APIs. * Example steps: * 1. Save {@link android.hardware.camera2.TotalCaptureResult} when the * capture is completed. * 2. Get the timestamp after {@link #ioReceive ioReceive()} call. * 3. Comparing totalCaptureResult.get(CaptureResult.SENSOR_TIMESTAMP) with * alloc.getTimeStamp(). * @return long Timestamp associated with the buffer held by the Allocation. */ public long getTimeStamp() { return mTimeStamp; } /** * Returns the handle to a raw buffer that is being managed by the screen * compositor. This operation is only valid for Allocations with {@link * #USAGE_IO_INPUT}. * * @return Surface object associated with allocation * */ public Surface getSurface() { if ((mUsage & USAGE_IO_INPUT) == 0) { throw new RSInvalidStateException("Allocation is not a surface texture."); } if (mGetSurfaceSurface == null) { mGetSurfaceSurface = mRS.nAllocationGetSurface(getID(mRS)); } return mGetSurfaceSurface; } /** * Associate a {@link android.view.Surface} with this Allocation. This * operation is only valid for Allocations with {@link #USAGE_IO_OUTPUT}. * * @param sur Surface to associate with allocation */ public void setSurface(Surface sur) { mRS.validate(); if ((mUsage & USAGE_IO_OUTPUT) == 0) { throw new RSInvalidStateException("Allocation is not USAGE_IO_OUTPUT."); } mRS.nAllocationSetSurface(getID(mRS), sur); } /** * Creates an Allocation from a {@link android.graphics.Bitmap}. * *

With target API version 18 or greater, this Allocation will be created * with {@link #USAGE_SHARED}, {@link #USAGE_SCRIPT}, and {@link * #USAGE_GRAPHICS_TEXTURE}. With target API version 17 or lower, this * Allocation will be created with {@link #USAGE_GRAPHICS_TEXTURE}.

* * @param rs Context to which the allocation will belong. * @param b bitmap source for the allocation data * * @return Allocation containing bitmap data * */ static public Allocation createFromBitmap(RenderScript rs, Bitmap b) { if (rs.getApplicationContext().getApplicationInfo().targetSdkVersion >= 18) { return createFromBitmap(rs, b, MipmapControl.MIPMAP_NONE, USAGE_SHARED | USAGE_SCRIPT | USAGE_GRAPHICS_TEXTURE); } return createFromBitmap(rs, b, MipmapControl.MIPMAP_NONE, USAGE_GRAPHICS_TEXTURE); } /** * Creates a cubemap Allocation from a {@link android.graphics.Bitmap} * containing the horizontal list of cube faces. Each face must be a square, * have the same size as all other faces, and have a width that is a power * of 2. * * @param rs Context to which the allocation will belong. * @param b Bitmap with cubemap faces layed out in the following * format: right, left, top, bottom, front, back * @param mips specifies desired mipmap behaviour for the cubemap * @param usage bit field specifying how the cubemap is utilized * * @return allocation containing cubemap data * */ static public Allocation createCubemapFromBitmap(RenderScript rs, Bitmap b, MipmapControl mips, int usage) { rs.validate(); int height = b.getHeight(); int width = b.getWidth(); if (width % 6 != 0) { throw new RSIllegalArgumentException("Cubemap height must be multiple of 6"); } if (width / 6 != height) { throw new RSIllegalArgumentException("Only square cube map faces supported"); } boolean isPow2 = (height & (height - 1)) == 0; if (!isPow2) { throw new RSIllegalArgumentException("Only power of 2 cube faces supported"); } Element e = elementFromBitmap(rs, b); Type.Builder tb = new Type.Builder(rs, e); tb.setX(height); tb.setY(height); tb.setFaces(true); tb.setMipmaps(mips == MipmapControl.MIPMAP_FULL); Type t = tb.create(); long id = rs.nAllocationCubeCreateFromBitmap(t.getID(rs), mips.mID, b, usage); if(id == 0) { throw new RSRuntimeException("Load failed for bitmap " + b + " element " + e); } return new Allocation(id, rs, t, true, usage, mips); } /** * Creates a non-mipmapped cubemap Allocation for use as a graphics texture * from a {@link android.graphics.Bitmap} containing the horizontal list of * cube faces. Each face must be a square, have the same size as all other * faces, and have a width that is a power of 2. * * @param rs Context to which the allocation will belong. * @param b bitmap with cubemap faces layed out in the following * format: right, left, top, bottom, front, back * * @return allocation containing cubemap data * */ static public Allocation createCubemapFromBitmap(RenderScript rs, Bitmap b) { return createCubemapFromBitmap(rs, b, MipmapControl.MIPMAP_NONE, USAGE_GRAPHICS_TEXTURE); } /** * Creates a cubemap Allocation from 6 {@link android.graphics.Bitmap} * objects containing the cube faces. Each face must be a square, have the * same size as all other faces, and have a width that is a power of 2. * * @param rs Context to which the allocation will belong. * @param xpos cubemap face in the positive x direction * @param xneg cubemap face in the negative x direction * @param ypos cubemap face in the positive y direction * @param yneg cubemap face in the negative y direction * @param zpos cubemap face in the positive z direction * @param zneg cubemap face in the negative z direction * @param mips specifies desired mipmap behaviour for the cubemap * @param usage bit field specifying how the cubemap is utilized * * @return allocation containing cubemap data * */ static public Allocation createCubemapFromCubeFaces(RenderScript rs, Bitmap xpos, Bitmap xneg, Bitmap ypos, Bitmap yneg, Bitmap zpos, Bitmap zneg, MipmapControl mips, int usage) { int height = xpos.getHeight(); if (xpos.getWidth() != height || xneg.getWidth() != height || xneg.getHeight() != height || ypos.getWidth() != height || ypos.getHeight() != height || yneg.getWidth() != height || yneg.getHeight() != height || zpos.getWidth() != height || zpos.getHeight() != height || zneg.getWidth() != height || zneg.getHeight() != height) { throw new RSIllegalArgumentException("Only square cube map faces supported"); } boolean isPow2 = (height & (height - 1)) == 0; if (!isPow2) { throw new RSIllegalArgumentException("Only power of 2 cube faces supported"); } Element e = elementFromBitmap(rs, xpos); Type.Builder tb = new Type.Builder(rs, e); tb.setX(height); tb.setY(height); tb.setFaces(true); tb.setMipmaps(mips == MipmapControl.MIPMAP_FULL); Type t = tb.create(); Allocation cubemap = Allocation.createTyped(rs, t, mips, usage); AllocationAdapter adapter = AllocationAdapter.create2D(rs, cubemap); adapter.setFace(Type.CubemapFace.POSITIVE_X); adapter.copyFrom(xpos); adapter.setFace(Type.CubemapFace.NEGATIVE_X); adapter.copyFrom(xneg); adapter.setFace(Type.CubemapFace.POSITIVE_Y); adapter.copyFrom(ypos); adapter.setFace(Type.CubemapFace.NEGATIVE_Y); adapter.copyFrom(yneg); adapter.setFace(Type.CubemapFace.POSITIVE_Z); adapter.copyFrom(zpos); adapter.setFace(Type.CubemapFace.NEGATIVE_Z); adapter.copyFrom(zneg); return cubemap; } /** * Creates a non-mipmapped cubemap Allocation for use as a sampler input * from 6 {@link android.graphics.Bitmap} objects containing the cube * faces. Each face must be a square, have the same size as all other faces, * and have a width that is a power of 2. * * @param rs Context to which the allocation will belong. * @param xpos cubemap face in the positive x direction * @param xneg cubemap face in the negative x direction * @param ypos cubemap face in the positive y direction * @param yneg cubemap face in the negative y direction * @param zpos cubemap face in the positive z direction * @param zneg cubemap face in the negative z direction * * @return allocation containing cubemap data * */ static public Allocation createCubemapFromCubeFaces(RenderScript rs, Bitmap xpos, Bitmap xneg, Bitmap ypos, Bitmap yneg, Bitmap zpos, Bitmap zneg) { return createCubemapFromCubeFaces(rs, xpos, xneg, ypos, yneg, zpos, zneg, MipmapControl.MIPMAP_NONE, USAGE_GRAPHICS_TEXTURE); } /** * Creates an Allocation from the Bitmap referenced * by resource ID. * * @param rs Context to which the allocation will belong. * @param res application resources * @param id resource id to load the data from * @param mips specifies desired mipmap behaviour for the * allocation * @param usage bit field specifying how the allocation is * utilized * * @return Allocation containing resource data * */ static public Allocation createFromBitmapResource(RenderScript rs, Resources res, int id, MipmapControl mips, int usage) { rs.validate(); if ((usage & (USAGE_SHARED | USAGE_IO_INPUT | USAGE_IO_OUTPUT)) != 0) { throw new RSIllegalArgumentException("Unsupported usage specified."); } Bitmap b = BitmapFactory.decodeResource(res, id); Allocation alloc = createFromBitmap(rs, b, mips, usage); b.recycle(); return alloc; } /** * Creates a non-mipmapped Allocation to use as a graphics texture from the * {@link android.graphics.Bitmap} referenced by resource ID. * *

With target API version 18 or greater, this allocation will be created * with {@link #USAGE_SCRIPT} and {@link #USAGE_GRAPHICS_TEXTURE}. With * target API version 17 or lower, this allocation will be created with * {@link #USAGE_GRAPHICS_TEXTURE}.

* * @param rs Context to which the allocation will belong. * @param res application resources * @param id resource id to load the data from * * @return Allocation containing resource data * */ static public Allocation createFromBitmapResource(RenderScript rs, Resources res, int id) { if (rs.getApplicationContext().getApplicationInfo().targetSdkVersion >= 18) { return createFromBitmapResource(rs, res, id, MipmapControl.MIPMAP_NONE, USAGE_SCRIPT | USAGE_GRAPHICS_TEXTURE); } return createFromBitmapResource(rs, res, id, MipmapControl.MIPMAP_NONE, USAGE_GRAPHICS_TEXTURE); } /** * Creates an Allocation containing string data encoded in UTF-8 format. * * @param rs Context to which the allocation will belong. * @param str string to create the allocation from * @param usage bit field specifying how the allocaiton is * utilized * */ static public Allocation createFromString(RenderScript rs, String str, int usage) { rs.validate(); byte[] allocArray = null; try { allocArray = str.getBytes("UTF-8"); Allocation alloc = Allocation.createSized(rs, Element.U8(rs), allocArray.length, usage); alloc.copyFrom(allocArray); return alloc; } catch (Exception e) { throw new RSRuntimeException("Could not convert string to utf-8."); } } /** * Interface to handle notification when new buffers are available via * {@link #USAGE_IO_INPUT}. An application will receive one notification * when a buffer is available. Additional buffers will not trigger new * notifications until a buffer is processed. */ public interface OnBufferAvailableListener { public void onBufferAvailable(Allocation a); } /** * Set a notification handler for {@link #USAGE_IO_INPUT}. * * @param callback instance of the OnBufferAvailableListener * class to be called when buffer arrive. */ public void setOnBufferAvailableListener(OnBufferAvailableListener callback) { synchronized(mAllocationMap) { mAllocationMap.put(new Long(getID(mRS)), this); mBufferNotifier = callback; } } static void sendBufferNotification(long id) { synchronized(mAllocationMap) { Allocation a = mAllocationMap.get(new Long(id)); if ((a != null) && (a.mBufferNotifier != null)) { a.mBufferNotifier.onBufferAvailable(a); } } } /** * For USAGE_IO_OUTPUT, destroy() implies setSurface(null). * */ @Override public void destroy() { if((mUsage & USAGE_IO_OUTPUT) != 0) { setSurface(null); } if (mType != null && mOwningType) { mType.destroy(); } super.destroy(); } }