/*
* Copyright (C) 2008 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.lang.reflect.Field;
import android.util.Log;
/**
*
The most basic data type. An element represents one cell of a memory allocation.
* Element is the basic data type of Renderscript. An element can be of two forms: Basic elements or Complex forms.
* Examples of basic elements are:
*
* - Single float value
* - 4 element float vector
* - single RGB-565 color
* - single unsigned int 16
*
* Complex elements contain a list of sub-elements and names that
* represents a structure of data. The fields can be accessed by name
* from a script or shader. The memory layout is defined and ordered. Data
* alignment is determined by the most basic primitive type. i.e. a float4
* vector will be aligned to sizeof(float) and not sizeof(float4). The
* ordering of elements in memory will be the order in which they were added
* with each component aligned as necessary. No re-ordering will be done.
*
* The primary source of elements are from scripts. A script that exports a
* bind point for a data structure generates a Renderscript element to represent the
* data exported by the script. The other common source of elements is from bitmap formats.
*
*
*
Developer Guides
*
For more information about creating an application that uses Renderscript, read the
* Renderscript developer guide.
*
**/
public class Element extends BaseObj {
int mSize;
Element[] mElements;
String[] mElementNames;
int[] mArraySizes;
int[] mOffsetInBytes;
DataType mType;
DataKind mKind;
boolean mNormalized;
int mVectorSize;
/**
* @hide
* @return element size in bytes
*/
public int getSizeBytes() {return mSize;}
/**
* DataType represents the basic type information for a basic element. The
* naming convention follows. For numeric types its FLOAT, SIGNED, UNSIGNED
* followed by the _BITS where BITS is the size of the data. BOOLEAN is a
* true / false (1,0) represented in an 8 bit container. The UNSIGNED
* variants with multiple bit definitions are for packed graphical data
* formats and represents vectors with per vector member sizes which are
* treated as a single unit for packing and alignment purposes.
*
* MATRIX the three matrix types contain FLOAT_32 elements and are treated
* as 32 bits for alignment purposes.
*
* RS_* objects. 32 bit opaque handles.
*/
public enum DataType {
//FLOAT_16 (1, 2),
FLOAT_32 (2, 4),
FLOAT_64 (3, 8),
SIGNED_8 (4, 1),
SIGNED_16 (5, 2),
SIGNED_32 (6, 4),
SIGNED_64 (7, 8),
UNSIGNED_8 (8, 1),
UNSIGNED_16 (9, 2),
UNSIGNED_32 (10, 4),
UNSIGNED_64 (11, 8),
BOOLEAN(12, 1),
UNSIGNED_5_6_5 (13, 2),
UNSIGNED_5_5_5_1 (14, 2),
UNSIGNED_4_4_4_4 (15, 2),
MATRIX_4X4 (16, 64),
MATRIX_3X3 (17, 36),
MATRIX_2X2 (18, 16),
RS_ELEMENT (1000, 4),
RS_TYPE (1001, 4),
RS_ALLOCATION (1002, 4),
RS_SAMPLER (1003, 4),
RS_SCRIPT (1004, 4),
RS_MESH (1005, 4),
RS_PROGRAM_FRAGMENT (1006, 4),
RS_PROGRAM_VERTEX (1007, 4),
RS_PROGRAM_RASTER (1008, 4),
RS_PROGRAM_STORE (1009, 4);
int mID;
int mSize;
DataType(int id, int size) {
mID = id;
mSize = size;
}
}
/**
* The special interpretation of the data if required. This is primarly
* useful for graphical data. USER indicates no special interpretation is
* expected. PIXEL is used in conjunction with the standard data types for
* representing texture formats.
*/
public enum DataKind {
USER (0),
PIXEL_L (7),
PIXEL_A (8),
PIXEL_LA (9),
PIXEL_RGB (10),
PIXEL_RGBA (11),
PIXEL_DEPTH (12);
int mID;
DataKind(int id) {
mID = id;
}
}
/**
* Return if a element is too complex for use as a data source for a Mesh or
* a Program.
*
* @return boolean
*/
public boolean isComplex() {
if (mElements == null) {
return false;
}
for (int ct=0; ct < mElements.length; ct++) {
if (mElements[ct].mElements != null) {
return true;
}
}
return false;
}
/**
* @hide
* @return number of sub-elements in this element
*/
public int getSubElementCount() {
if (mElements == null) {
return 0;
}
return mElements.length;
}
/**
* @hide
* @param index index of the sub-element to return
* @return sub-element in this element at given index
*/
public Element getSubElement(int index) {
if (mElements == null) {
throw new RSIllegalArgumentException("Element contains no sub-elements");
}
if (index < 0 || index >= mElements.length) {
throw new RSIllegalArgumentException("Illegal sub-element index");
}
return mElements[index];
}
/**
* @hide
* @param index index of the sub-element
* @return sub-element in this element at given index
*/
public String getSubElementName(int index) {
if (mElements == null) {
throw new RSIllegalArgumentException("Element contains no sub-elements");
}
if (index < 0 || index >= mElements.length) {
throw new RSIllegalArgumentException("Illegal sub-element index");
}
return mElementNames[index];
}
/**
* @hide
* @param index index of the sub-element
* @return array size of sub-element in this element at given index
*/
public int getSubElementArraySize(int index) {
if (mElements == null) {
throw new RSIllegalArgumentException("Element contains no sub-elements");
}
if (index < 0 || index >= mElements.length) {
throw new RSIllegalArgumentException("Illegal sub-element index");
}
return mArraySizes[index];
}
/**
* @hide
* @param index index of the sub-element
* @return offset in bytes of sub-element in this element at given index
*/
public int getSubElementOffsetBytes(int index) {
if (mElements == null) {
throw new RSIllegalArgumentException("Element contains no sub-elements");
}
if (index < 0 || index >= mElements.length) {
throw new RSIllegalArgumentException("Illegal sub-element index");
}
return mOffsetInBytes[index];
}
/**
* Utility function for returning an Element containing a single Boolean.
*
* @param rs Context to which the element will belong.
*
* @return Element
*/
public static Element BOOLEAN(RenderScript rs) {
if(rs.mElement_BOOLEAN == null) {
rs.mElement_BOOLEAN = createUser(rs, DataType.BOOLEAN);
}
return rs.mElement_BOOLEAN;
}
/**
* Utility function for returning an Element containing a single UNSIGNED_8.
*
* @param rs Context to which the element will belong.
*
* @return Element
*/
public static Element U8(RenderScript rs) {
if(rs.mElement_U8 == null) {
rs.mElement_U8 = createUser(rs, DataType.UNSIGNED_8);
}
return rs.mElement_U8;
}
/**
* Utility function for returning an Element containing a single SIGNED_8.
*
* @param rs Context to which the element will belong.
*
* @return Element
*/
public static Element I8(RenderScript rs) {
if(rs.mElement_I8 == null) {
rs.mElement_I8 = createUser(rs, DataType.SIGNED_8);
}
return rs.mElement_I8;
}
public static Element U16(RenderScript rs) {
if(rs.mElement_U16 == null) {
rs.mElement_U16 = createUser(rs, DataType.UNSIGNED_16);
}
return rs.mElement_U16;
}
public static Element I16(RenderScript rs) {
if(rs.mElement_I16 == null) {
rs.mElement_I16 = createUser(rs, DataType.SIGNED_16);
}
return rs.mElement_I16;
}
public static Element U32(RenderScript rs) {
if(rs.mElement_U32 == null) {
rs.mElement_U32 = createUser(rs, DataType.UNSIGNED_32);
}
return rs.mElement_U32;
}
public static Element I32(RenderScript rs) {
if(rs.mElement_I32 == null) {
rs.mElement_I32 = createUser(rs, DataType.SIGNED_32);
}
return rs.mElement_I32;
}
public static Element U64(RenderScript rs) {
if(rs.mElement_U64 == null) {
rs.mElement_U64 = createUser(rs, DataType.UNSIGNED_64);
}
return rs.mElement_U64;
}
public static Element I64(RenderScript rs) {
if(rs.mElement_I64 == null) {
rs.mElement_I64 = createUser(rs, DataType.SIGNED_64);
}
return rs.mElement_I64;
}
public static Element F32(RenderScript rs) {
if(rs.mElement_F32 == null) {
rs.mElement_F32 = createUser(rs, DataType.FLOAT_32);
}
return rs.mElement_F32;
}
public static Element F64(RenderScript rs) {
if(rs.mElement_F64 == null) {
rs.mElement_F64 = createUser(rs, DataType.FLOAT_64);
}
return rs.mElement_F64;
}
public static Element ELEMENT(RenderScript rs) {
if(rs.mElement_ELEMENT == null) {
rs.mElement_ELEMENT = createUser(rs, DataType.RS_ELEMENT);
}
return rs.mElement_ELEMENT;
}
public static Element TYPE(RenderScript rs) {
if(rs.mElement_TYPE == null) {
rs.mElement_TYPE = createUser(rs, DataType.RS_TYPE);
}
return rs.mElement_TYPE;
}
public static Element ALLOCATION(RenderScript rs) {
if(rs.mElement_ALLOCATION == null) {
rs.mElement_ALLOCATION = createUser(rs, DataType.RS_ALLOCATION);
}
return rs.mElement_ALLOCATION;
}
public static Element SAMPLER(RenderScript rs) {
if(rs.mElement_SAMPLER == null) {
rs.mElement_SAMPLER = createUser(rs, DataType.RS_SAMPLER);
}
return rs.mElement_SAMPLER;
}
public static Element SCRIPT(RenderScript rs) {
if(rs.mElement_SCRIPT == null) {
rs.mElement_SCRIPT = createUser(rs, DataType.RS_SCRIPT);
}
return rs.mElement_SCRIPT;
}
public static Element MESH(RenderScript rs) {
if(rs.mElement_MESH == null) {
rs.mElement_MESH = createUser(rs, DataType.RS_MESH);
}
return rs.mElement_MESH;
}
public static Element PROGRAM_FRAGMENT(RenderScript rs) {
if(rs.mElement_PROGRAM_FRAGMENT == null) {
rs.mElement_PROGRAM_FRAGMENT = createUser(rs, DataType.RS_PROGRAM_FRAGMENT);
}
return rs.mElement_PROGRAM_FRAGMENT;
}
public static Element PROGRAM_VERTEX(RenderScript rs) {
if(rs.mElement_PROGRAM_VERTEX == null) {
rs.mElement_PROGRAM_VERTEX = createUser(rs, DataType.RS_PROGRAM_VERTEX);
}
return rs.mElement_PROGRAM_VERTEX;
}
public static Element PROGRAM_RASTER(RenderScript rs) {
if(rs.mElement_PROGRAM_RASTER == null) {
rs.mElement_PROGRAM_RASTER = createUser(rs, DataType.RS_PROGRAM_RASTER);
}
return rs.mElement_PROGRAM_RASTER;
}
public static Element PROGRAM_STORE(RenderScript rs) {
if(rs.mElement_PROGRAM_STORE == null) {
rs.mElement_PROGRAM_STORE = createUser(rs, DataType.RS_PROGRAM_STORE);
}
return rs.mElement_PROGRAM_STORE;
}
public static Element A_8(RenderScript rs) {
if(rs.mElement_A_8 == null) {
rs.mElement_A_8 = createPixel(rs, DataType.UNSIGNED_8, DataKind.PIXEL_A);
}
return rs.mElement_A_8;
}
public static Element RGB_565(RenderScript rs) {
if(rs.mElement_RGB_565 == null) {
rs.mElement_RGB_565 = createPixel(rs, DataType.UNSIGNED_5_6_5, DataKind.PIXEL_RGB);
}
return rs.mElement_RGB_565;
}
public static Element RGB_888(RenderScript rs) {
if(rs.mElement_RGB_888 == null) {
rs.mElement_RGB_888 = createPixel(rs, DataType.UNSIGNED_8, DataKind.PIXEL_RGB);
}
return rs.mElement_RGB_888;
}
public static Element RGBA_5551(RenderScript rs) {
if(rs.mElement_RGBA_5551 == null) {
rs.mElement_RGBA_5551 = createPixel(rs, DataType.UNSIGNED_5_5_5_1, DataKind.PIXEL_RGBA);
}
return rs.mElement_RGBA_5551;
}
public static Element RGBA_4444(RenderScript rs) {
if(rs.mElement_RGBA_4444 == null) {
rs.mElement_RGBA_4444 = createPixel(rs, DataType.UNSIGNED_4_4_4_4, DataKind.PIXEL_RGBA);
}
return rs.mElement_RGBA_4444;
}
public static Element RGBA_8888(RenderScript rs) {
if(rs.mElement_RGBA_8888 == null) {
rs.mElement_RGBA_8888 = createPixel(rs, DataType.UNSIGNED_8, DataKind.PIXEL_RGBA);
}
return rs.mElement_RGBA_8888;
}
public static Element F32_2(RenderScript rs) {
if(rs.mElement_FLOAT_2 == null) {
rs.mElement_FLOAT_2 = createVector(rs, DataType.FLOAT_32, 2);
}
return rs.mElement_FLOAT_2;
}
public static Element F32_3(RenderScript rs) {
if(rs.mElement_FLOAT_3 == null) {
rs.mElement_FLOAT_3 = createVector(rs, DataType.FLOAT_32, 3);
}
return rs.mElement_FLOAT_3;
}
public static Element F32_4(RenderScript rs) {
if(rs.mElement_FLOAT_4 == null) {
rs.mElement_FLOAT_4 = createVector(rs, DataType.FLOAT_32, 4);
}
return rs.mElement_FLOAT_4;
}
public static Element F64_2(RenderScript rs) {
if(rs.mElement_DOUBLE_2 == null) {
rs.mElement_DOUBLE_2 = createVector(rs, DataType.FLOAT_64, 2);
}
return rs.mElement_DOUBLE_2;
}
public static Element F64_3(RenderScript rs) {
if(rs.mElement_DOUBLE_3 == null) {
rs.mElement_DOUBLE_3 = createVector(rs, DataType.FLOAT_64, 3);
}
return rs.mElement_DOUBLE_3;
}
public static Element F64_4(RenderScript rs) {
if(rs.mElement_DOUBLE_4 == null) {
rs.mElement_DOUBLE_4 = createVector(rs, DataType.FLOAT_64, 4);
}
return rs.mElement_DOUBLE_4;
}
public static Element U8_2(RenderScript rs) {
if(rs.mElement_UCHAR_2 == null) {
rs.mElement_UCHAR_2 = createVector(rs, DataType.UNSIGNED_8, 2);
}
return rs.mElement_UCHAR_2;
}
public static Element U8_3(RenderScript rs) {
if(rs.mElement_UCHAR_3 == null) {
rs.mElement_UCHAR_3 = createVector(rs, DataType.UNSIGNED_8, 3);
}
return rs.mElement_UCHAR_3;
}
public static Element U8_4(RenderScript rs) {
if(rs.mElement_UCHAR_4 == null) {
rs.mElement_UCHAR_4 = createVector(rs, DataType.UNSIGNED_8, 4);
}
return rs.mElement_UCHAR_4;
}
public static Element I8_2(RenderScript rs) {
if(rs.mElement_CHAR_2 == null) {
rs.mElement_CHAR_2 = createVector(rs, DataType.SIGNED_8, 2);
}
return rs.mElement_CHAR_2;
}
public static Element I8_3(RenderScript rs) {
if(rs.mElement_CHAR_3 == null) {
rs.mElement_CHAR_3 = createVector(rs, DataType.SIGNED_8, 3);
}
return rs.mElement_CHAR_3;
}
public static Element I8_4(RenderScript rs) {
if(rs.mElement_CHAR_4 == null) {
rs.mElement_CHAR_4 = createVector(rs, DataType.SIGNED_8, 4);
}
return rs.mElement_CHAR_4;
}
public static Element U16_2(RenderScript rs) {
if(rs.mElement_USHORT_2 == null) {
rs.mElement_USHORT_2 = createVector(rs, DataType.UNSIGNED_16, 2);
}
return rs.mElement_USHORT_2;
}
public static Element U16_3(RenderScript rs) {
if(rs.mElement_USHORT_3 == null) {
rs.mElement_USHORT_3 = createVector(rs, DataType.UNSIGNED_16, 3);
}
return rs.mElement_USHORT_3;
}
public static Element U16_4(RenderScript rs) {
if(rs.mElement_USHORT_4 == null) {
rs.mElement_USHORT_4 = createVector(rs, DataType.UNSIGNED_16, 4);
}
return rs.mElement_USHORT_4;
}
public static Element I16_2(RenderScript rs) {
if(rs.mElement_SHORT_2 == null) {
rs.mElement_SHORT_2 = createVector(rs, DataType.SIGNED_16, 2);
}
return rs.mElement_SHORT_2;
}
public static Element I16_3(RenderScript rs) {
if(rs.mElement_SHORT_3 == null) {
rs.mElement_SHORT_3 = createVector(rs, DataType.SIGNED_16, 3);
}
return rs.mElement_SHORT_3;
}
public static Element I16_4(RenderScript rs) {
if(rs.mElement_SHORT_4 == null) {
rs.mElement_SHORT_4 = createVector(rs, DataType.SIGNED_16, 4);
}
return rs.mElement_SHORT_4;
}
public static Element U32_2(RenderScript rs) {
if(rs.mElement_UINT_2 == null) {
rs.mElement_UINT_2 = createVector(rs, DataType.UNSIGNED_32, 2);
}
return rs.mElement_UINT_2;
}
public static Element U32_3(RenderScript rs) {
if(rs.mElement_UINT_3 == null) {
rs.mElement_UINT_3 = createVector(rs, DataType.UNSIGNED_32, 3);
}
return rs.mElement_UINT_3;
}
public static Element U32_4(RenderScript rs) {
if(rs.mElement_UINT_4 == null) {
rs.mElement_UINT_4 = createVector(rs, DataType.UNSIGNED_32, 4);
}
return rs.mElement_UINT_4;
}
public static Element I32_2(RenderScript rs) {
if(rs.mElement_INT_2 == null) {
rs.mElement_INT_2 = createVector(rs, DataType.SIGNED_32, 2);
}
return rs.mElement_INT_2;
}
public static Element I32_3(RenderScript rs) {
if(rs.mElement_INT_3 == null) {
rs.mElement_INT_3 = createVector(rs, DataType.SIGNED_32, 3);
}
return rs.mElement_INT_3;
}
public static Element I32_4(RenderScript rs) {
if(rs.mElement_INT_4 == null) {
rs.mElement_INT_4 = createVector(rs, DataType.SIGNED_32, 4);
}
return rs.mElement_INT_4;
}
public static Element U64_2(RenderScript rs) {
if(rs.mElement_ULONG_2 == null) {
rs.mElement_ULONG_2 = createVector(rs, DataType.UNSIGNED_64, 2);
}
return rs.mElement_ULONG_2;
}
public static Element U64_3(RenderScript rs) {
if(rs.mElement_ULONG_3 == null) {
rs.mElement_ULONG_3 = createVector(rs, DataType.UNSIGNED_64, 3);
}
return rs.mElement_ULONG_3;
}
public static Element U64_4(RenderScript rs) {
if(rs.mElement_ULONG_4 == null) {
rs.mElement_ULONG_4 = createVector(rs, DataType.UNSIGNED_64, 4);
}
return rs.mElement_ULONG_4;
}
public static Element I64_2(RenderScript rs) {
if(rs.mElement_LONG_2 == null) {
rs.mElement_LONG_2 = createVector(rs, DataType.SIGNED_64, 2);
}
return rs.mElement_LONG_2;
}
public static Element I64_3(RenderScript rs) {
if(rs.mElement_LONG_3 == null) {
rs.mElement_LONG_3 = createVector(rs, DataType.SIGNED_64, 3);
}
return rs.mElement_LONG_3;
}
public static Element I64_4(RenderScript rs) {
if(rs.mElement_LONG_4 == null) {
rs.mElement_LONG_4 = createVector(rs, DataType.SIGNED_64, 4);
}
return rs.mElement_LONG_4;
}
public static Element MATRIX_4X4(RenderScript rs) {
if(rs.mElement_MATRIX_4X4 == null) {
rs.mElement_MATRIX_4X4 = createUser(rs, DataType.MATRIX_4X4);
}
return rs.mElement_MATRIX_4X4;
}
public static Element MATRIX4X4(RenderScript rs) {
return MATRIX_4X4(rs);
}
public static Element MATRIX_3X3(RenderScript rs) {
if(rs.mElement_MATRIX_3X3 == null) {
rs.mElement_MATRIX_3X3 = createUser(rs, DataType.MATRIX_3X3);
}
return rs.mElement_MATRIX_3X3;
}
public static Element MATRIX_2X2(RenderScript rs) {
if(rs.mElement_MATRIX_2X2 == null) {
rs.mElement_MATRIX_2X2 = createUser(rs, DataType.MATRIX_2X2);
}
return rs.mElement_MATRIX_2X2;
}
Element(int id, RenderScript rs, Element[] e, String[] n, int[] as) {
super(id, rs);
mSize = 0;
mElements = e;
mElementNames = n;
mArraySizes = as;
mOffsetInBytes = new int[mElements.length];
for (int ct = 0; ct < mElements.length; ct++ ) {
mOffsetInBytes[ct] = mSize;
mSize += mElements[ct].mSize * mArraySizes[ct];
}
}
Element(int id, RenderScript rs, DataType dt, DataKind dk, boolean norm, int size) {
super(id, rs);
if ((dt != DataType.UNSIGNED_5_6_5) &&
(dt != DataType.UNSIGNED_4_4_4_4) &&
(dt != DataType.UNSIGNED_5_5_5_1)) {
mSize = dt.mSize * size;
} else {
mSize = dt.mSize;
}
mType = dt;
mKind = dk;
mNormalized = norm;
mVectorSize = size;
}
Element(int id, RenderScript rs) {
super(id, rs);
}
@Override
void updateFromNative() {
super.updateFromNative();
// we will pack mType; mKind; mNormalized; mVectorSize; NumSubElements
int[] dataBuffer = new int[5];
mRS.nElementGetNativeData(getID(), dataBuffer);
mNormalized = dataBuffer[2] == 1 ? true : false;
mVectorSize = dataBuffer[3];
mSize = 0;
for (DataType dt: DataType.values()) {
if(dt.mID == dataBuffer[0]){
mType = dt;
mSize = mType.mSize * mVectorSize;
}
}
for (DataKind dk: DataKind.values()) {
if(dk.mID == dataBuffer[1]){
mKind = dk;
}
}
int numSubElements = dataBuffer[4];
if(numSubElements > 0) {
mElements = new Element[numSubElements];
mElementNames = new String[numSubElements];
mArraySizes = new int[numSubElements];
mOffsetInBytes = new int[numSubElements];
int[] subElementIds = new int[numSubElements];
mRS.nElementGetSubElements(getID(), subElementIds, mElementNames, mArraySizes);
for(int i = 0; i < numSubElements; i ++) {
mElements[i] = new Element(subElementIds[i], mRS);
mElements[i].updateFromNative();
mOffsetInBytes[i] = mSize;
mSize += mElements[i].mSize * mArraySizes[i];
}
}
}
/**
* Create a custom Element of the specified DataType. The DataKind will be
* set to USER and the vector size to 1 indicating non-vector.
*
* @param rs The context associated with the new Element.
* @param dt The DataType for the new element.
* @return Element
*/
static Element createUser(RenderScript rs, DataType dt) {
DataKind dk = DataKind.USER;
boolean norm = false;
int vecSize = 1;
int id = rs.nElementCreate(dt.mID, dk.mID, norm, vecSize);
return new Element(id, rs, dt, dk, norm, vecSize);
}
/**
* Create a custom vector element of the specified DataType and vector size.
* DataKind will be set to USER.
*
* @param rs The context associated with the new Element.
* @param dt The DataType for the new element.
* @param size Vector size for the new Element. Range 2-4 inclusive
* supported.
*
* @return Element
*/
public static Element createVector(RenderScript rs, DataType dt, int size) {
if (size < 2 || size > 4) {
throw new RSIllegalArgumentException("Vector size out of range 2-4.");
}
DataKind dk = DataKind.USER;
boolean norm = false;
int id = rs.nElementCreate(dt.mID, dk.mID, norm, size);
return new Element(id, rs, dt, dk, norm, size);
}
/**
* Create a new pixel Element type. A matching DataType and DataKind must
* be provided. The DataType and DataKind must contain the same number of
* components. Vector size will be set to 1.
*
* @param rs The context associated with the new Element.
* @param dt The DataType for the new element.
* @param dk The DataKind to specify the mapping of each component in the
* DataType.
*
* @return Element
*/
public static Element createPixel(RenderScript rs, DataType dt, DataKind dk) {
if (!(dk == DataKind.PIXEL_L ||
dk == DataKind.PIXEL_A ||
dk == DataKind.PIXEL_LA ||
dk == DataKind.PIXEL_RGB ||
dk == DataKind.PIXEL_RGBA ||
dk == DataKind.PIXEL_DEPTH)) {
throw new RSIllegalArgumentException("Unsupported DataKind");
}
if (!(dt == DataType.UNSIGNED_8 ||
dt == DataType.UNSIGNED_16 ||
dt == DataType.UNSIGNED_5_6_5 ||
dt == DataType.UNSIGNED_4_4_4_4 ||
dt == DataType.UNSIGNED_5_5_5_1)) {
throw new RSIllegalArgumentException("Unsupported DataType");
}
if (dt == DataType.UNSIGNED_5_6_5 && dk != DataKind.PIXEL_RGB) {
throw new RSIllegalArgumentException("Bad kind and type combo");
}
if (dt == DataType.UNSIGNED_5_5_5_1 && dk != DataKind.PIXEL_RGBA) {
throw new RSIllegalArgumentException("Bad kind and type combo");
}
if (dt == DataType.UNSIGNED_4_4_4_4 && dk != DataKind.PIXEL_RGBA) {
throw new RSIllegalArgumentException("Bad kind and type combo");
}
if (dt == DataType.UNSIGNED_16 &&
dk != DataKind.PIXEL_DEPTH) {
throw new RSIllegalArgumentException("Bad kind and type combo");
}
int size = 1;
switch (dk) {
case PIXEL_LA:
size = 2;
break;
case PIXEL_RGB:
size = 3;
break;
case PIXEL_RGBA:
size = 4;
break;
case PIXEL_DEPTH:
size = 2;
break;
}
boolean norm = true;
int id = rs.nElementCreate(dt.mID, dk.mID, norm, size);
return new Element(id, rs, dt, dk, norm, size);
}
/**
* Check if the current Element is compatible with another Element.
* Primitive Elements are compatible if they share the same underlying
* size and type (i.e. U8 is compatible with A_8). User-defined Elements
* must be equal in order to be compatible. This requires strict name
* equivalence for all sub-Elements (in addition to structural equivalence).
*
* @param e The Element to check compatibility with.
*
* @return boolean true if the Elements are compatible, otherwise false.
*/
public boolean isCompatible(Element e) {
// Try strict BaseObj equality to start with.
if (this.equals(e)) {
return true;
}
// Ignore mKind because it is allowed to be different (user vs. pixel).
// We also ignore mNormalized because it can be different. The mType
// field must be non-null since we require name equivalence for
// user-created Elements.
return ((mSize == e.mSize) &&
(mType != null) &&
(mType == e.mType) &&
(mVectorSize == e.mVectorSize));
}
/**
* Builder class for producing complex elements with matching field and name
* pairs. The builder starts empty. The order in which elements are added
* is retained for the layout in memory.
*
*/
public static class Builder {
RenderScript mRS;
Element[] mElements;
String[] mElementNames;
int[] mArraySizes;
int mCount;
/**
* Create a builder object.
*
* @param rs
*/
public Builder(RenderScript rs) {
mRS = rs;
mCount = 0;
mElements = new Element[8];
mElementNames = new String[8];
mArraySizes = new int[8];
}
/**
* Add an array of elements to this element.
*
* @param element
* @param name
* @param arraySize
*/
public Builder add(Element element, String name, int arraySize) {
if (arraySize < 1) {
throw new RSIllegalArgumentException("Array size cannot be less than 1.");
}
if(mCount == mElements.length) {
Element[] e = new Element[mCount + 8];
String[] s = new String[mCount + 8];
int[] as = new int[mCount + 8];
System.arraycopy(mElements, 0, e, 0, mCount);
System.arraycopy(mElementNames, 0, s, 0, mCount);
System.arraycopy(mArraySizes, 0, as, 0, mCount);
mElements = e;
mElementNames = s;
mArraySizes = as;
}
mElements[mCount] = element;
mElementNames[mCount] = name;
mArraySizes[mCount] = arraySize;
mCount++;
return this;
}
/**
* Add a single element to this Element.
*
* @param element
* @param name
*/
public Builder add(Element element, String name) {
return add(element, name, 1);
}
/**
* Create the element from this builder.
*
*
* @return Element
*/
public Element create() {
mRS.validate();
Element[] ein = new Element[mCount];
String[] sin = new String[mCount];
int[] asin = new int[mCount];
java.lang.System.arraycopy(mElements, 0, ein, 0, mCount);
java.lang.System.arraycopy(mElementNames, 0, sin, 0, mCount);
java.lang.System.arraycopy(mArraySizes, 0, asin, 0, mCount);
int[] ids = new int[ein.length];
for (int ct = 0; ct < ein.length; ct++ ) {
ids[ct] = ein[ct].getID();
}
int id = mRS.nElementCreate2(ids, sin, asin);
return new Element(id, mRS, ein, sin, asin);
}
}
}