/* * Copyright (C) 2013 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.util.BitSet; /** * Utility class for packing arguments and structures from Android system objects to * RenderScript objects. * * This class is only intended to be used to support the * reflected code generated by the RS tool chain. It should not * be called directly. * **/ public class FieldPacker { public FieldPacker(int len) { mPos = 0; mLen = len; mData = new byte[len]; mAlignment = new BitSet(); } public FieldPacker(byte[] data) { // Advance mPos to the end of the buffer, since we are copying in the // full data input. mPos = data.length; mLen = data.length; mData = data; mAlignment = new BitSet(); // TODO: We should either have an actual FieldPacker copy constructor // or drop support for computing alignment like this. As it stands, // subAlign() can never work correctly for copied FieldPacker objects. } public void align(int v) { if ((v <= 0) || ((v & (v - 1)) != 0)) { throw new RSIllegalArgumentException("argument must be a non-negative non-zero power of 2: " + v); } while ((mPos & (v - 1)) != 0) { mAlignment.flip(mPos); mData[mPos++] = 0; } } public void subalign(int v) { if ((v & (v - 1)) != 0) { throw new RSIllegalArgumentException("argument must be a non-negative non-zero power of 2: " + v); } while ((mPos & (v - 1)) != 0) { mPos--; } if (mPos > 0) { while (mAlignment.get(mPos - 1) == true) { mPos--; mAlignment.flip(mPos); } } } public void reset() { mPos = 0; } public void reset(int i) { if ((i < 0) || (i > mLen)) { throw new RSIllegalArgumentException("out of range argument: " + i); } mPos = i; } public void skip(int i) { int res = mPos + i; if ((res < 0) || (res > mLen)) { throw new RSIllegalArgumentException("out of range argument: " + i); } mPos = res; } public void addI8(byte v) { mData[mPos++] = v; } public byte subI8() { subalign(1); return mData[--mPos]; } public void addI16(short v) { align(2); mData[mPos++] = (byte)(v & 0xff); mData[mPos++] = (byte)(v >> 8); } public short subI16() { subalign(2); short v = 0; v = (short)((mData[--mPos] & 0xff) << 8); v = (short)(v | (short)(mData[--mPos] & 0xff)); return v; } public void addI32(int v) { align(4); mData[mPos++] = (byte)(v & 0xff); mData[mPos++] = (byte)((v >> 8) & 0xff); mData[mPos++] = (byte)((v >> 16) & 0xff); mData[mPos++] = (byte)((v >> 24) & 0xff); } public int subI32() { subalign(4); int v = 0; v = ((mData[--mPos] & 0xff) << 24); v = v | ((mData[--mPos] & 0xff) << 16); v = v | ((mData[--mPos] & 0xff) << 8); v = v | ((mData[--mPos] & 0xff)); return v; } public void addI64(long v) { align(8); mData[mPos++] = (byte)(v & 0xff); mData[mPos++] = (byte)((v >> 8) & 0xff); mData[mPos++] = (byte)((v >> 16) & 0xff); mData[mPos++] = (byte)((v >> 24) & 0xff); mData[mPos++] = (byte)((v >> 32) & 0xff); mData[mPos++] = (byte)((v >> 40) & 0xff); mData[mPos++] = (byte)((v >> 48) & 0xff); mData[mPos++] = (byte)((v >> 56) & 0xff); } public long subI64() { subalign(8); long v = 0; byte x = 0; x = ((mData[--mPos])); v = (long)(v | (((long)x) & 0xff) << 56l); x = ((mData[--mPos])); v = (long)(v | (((long)x) & 0xff) << 48l); x = ((mData[--mPos])); v = (long)(v | (((long)x) & 0xff) << 40l); x = ((mData[--mPos])); v = (long)(v | (((long)x) & 0xff) << 32l); x = ((mData[--mPos])); v = (long)(v | (((long)x) & 0xff) << 24l); x = ((mData[--mPos])); v = (long)(v | (((long)x) & 0xff) << 16l); x = ((mData[--mPos])); v = (long)(v | (((long)x) & 0xff) << 8l); x = ((mData[--mPos])); v = (long)(v | (((long)x) & 0xff)); return v; } public void addU8(short v) { if ((v < 0) || (v > 0xff)) { android.util.Log.e("rs", "FieldPacker.addU8( " + v + " )"); throw new IllegalArgumentException("Saving value out of range for type"); } mData[mPos++] = (byte)v; } public void addU16(int v) { if ((v < 0) || (v > 0xffff)) { android.util.Log.e("rs", "FieldPacker.addU16( " + v + " )"); throw new IllegalArgumentException("Saving value out of range for type"); } align(2); mData[mPos++] = (byte)(v & 0xff); mData[mPos++] = (byte)(v >> 8); } public void addU32(long v) { if ((v < 0) || (v > 0xffffffffL)) { android.util.Log.e("rs", "FieldPacker.addU32( " + v + " )"); throw new IllegalArgumentException("Saving value out of range for type"); } align(4); mData[mPos++] = (byte)(v & 0xff); mData[mPos++] = (byte)((v >> 8) & 0xff); mData[mPos++] = (byte)((v >> 16) & 0xff); mData[mPos++] = (byte)((v >> 24) & 0xff); } public void addU64(long v) { if (v < 0) { android.util.Log.e("rs", "FieldPacker.addU64( " + v + " )"); throw new IllegalArgumentException("Saving value out of range for type"); } align(8); mData[mPos++] = (byte)(v & 0xff); mData[mPos++] = (byte)((v >> 8) & 0xff); mData[mPos++] = (byte)((v >> 16) & 0xff); mData[mPos++] = (byte)((v >> 24) & 0xff); mData[mPos++] = (byte)((v >> 32) & 0xff); mData[mPos++] = (byte)((v >> 40) & 0xff); mData[mPos++] = (byte)((v >> 48) & 0xff); mData[mPos++] = (byte)((v >> 56) & 0xff); } public void addF32(float v) { addI32(Float.floatToRawIntBits(v)); } public float subF32() { return Float.intBitsToFloat(subI32()); } public void addF64(double v) { addI64(Double.doubleToRawLongBits(v)); } public double subF64() { return Double.longBitsToDouble(subI64()); } public void addObj(BaseObj obj) { if (obj != null) { if (RenderScript.sPointerSize == 8) { addI64(obj.getID(null)); addI64(0); addI64(0); addI64(0); } else { addI32((int)obj.getID(null)); } } else { if (RenderScript.sPointerSize == 8) { addI64(0); addI64(0); addI64(0); addI64(0); } else { addI32(0); } } } public void addF32(Float2 v) { addF32(v.x); addF32(v.y); } public void addF32(Float3 v) { addF32(v.x); addF32(v.y); addF32(v.z); } public void addF32(Float4 v) { addF32(v.x); addF32(v.y); addF32(v.z); addF32(v.w); } public void addF64(Double2 v) { addF64(v.x); addF64(v.y); } public void addF64(Double3 v) { addF64(v.x); addF64(v.y); addF64(v.z); } public void addF64(Double4 v) { addF64(v.x); addF64(v.y); addF64(v.z); addF64(v.w); } public void addI8(Byte2 v) { addI8(v.x); addI8(v.y); } public void addI8(Byte3 v) { addI8(v.x); addI8(v.y); addI8(v.z); } public void addI8(Byte4 v) { addI8(v.x); addI8(v.y); addI8(v.z); addI8(v.w); } public void addU8(Short2 v) { addU8(v.x); addU8(v.y); } public void addU8(Short3 v) { addU8(v.x); addU8(v.y); addU8(v.z); } public void addU8(Short4 v) { addU8(v.x); addU8(v.y); addU8(v.z); addU8(v.w); } public void addI16(Short2 v) { addI16(v.x); addI16(v.y); } public void addI16(Short3 v) { addI16(v.x); addI16(v.y); addI16(v.z); } public void addI16(Short4 v) { addI16(v.x); addI16(v.y); addI16(v.z); addI16(v.w); } public void addU16(Int2 v) { addU16(v.x); addU16(v.y); } public void addU16(Int3 v) { addU16(v.x); addU16(v.y); addU16(v.z); } public void addU16(Int4 v) { addU16(v.x); addU16(v.y); addU16(v.z); addU16(v.w); } public void addI32(Int2 v) { addI32(v.x); addI32(v.y); } public void addI32(Int3 v) { addI32(v.x); addI32(v.y); addI32(v.z); } public void addI32(Int4 v) { addI32(v.x); addI32(v.y); addI32(v.z); addI32(v.w); } public void addU32(Long2 v) { addU32(v.x); addU32(v.y); } public void addU32(Long3 v) { addU32(v.x); addU32(v.y); addU32(v.z); } public void addU32(Long4 v) { addU32(v.x); addU32(v.y); addU32(v.z); addU32(v.w); } public void addI64(Long2 v) { addI64(v.x); addI64(v.y); } public void addI64(Long3 v) { addI64(v.x); addI64(v.y); addI64(v.z); } public void addI64(Long4 v) { addI64(v.x); addI64(v.y); addI64(v.z); addI64(v.w); } public void addU64(Long2 v) { addU64(v.x); addU64(v.y); } public void addU64(Long3 v) { addU64(v.x); addU64(v.y); addU64(v.z); } public void addU64(Long4 v) { addU64(v.x); addU64(v.y); addU64(v.z); addU64(v.w); } public Float2 subFloat2() { Float2 v = new Float2(); v.y = subF32(); v.x = subF32(); return v; } public Float3 subFloat3() { Float3 v = new Float3(); v.z = subF32(); v.y = subF32(); v.x = subF32(); return v; } public Float4 subFloat4() { Float4 v = new Float4(); v.w = subF32(); v.z = subF32(); v.y = subF32(); v.x = subF32(); return v; } public Double2 subDouble2() { Double2 v = new Double2(); v.y = subF64(); v.x = subF64(); return v; } public Double3 subDouble3() { Double3 v = new Double3(); v.z = subF64(); v.y = subF64(); v.x = subF64(); return v; } public Double4 subDouble4() { Double4 v = new Double4(); v.w = subF64(); v.z = subF64(); v.y = subF64(); v.x = subF64(); return v; } public Byte2 subByte2() { Byte2 v = new Byte2(); v.y = subI8(); v.x = subI8(); return v; } public Byte3 subByte3() { Byte3 v = new Byte3(); v.z = subI8(); v.y = subI8(); v.x = subI8(); return v; } public Byte4 subByte4() { Byte4 v = new Byte4(); v.w = subI8(); v.z = subI8(); v.y = subI8(); v.x = subI8(); return v; } public Short2 subShort2() { Short2 v = new Short2(); v.y = subI16(); v.x = subI16(); return v; } public Short3 subShort3() { Short3 v = new Short3(); v.z = subI16(); v.y = subI16(); v.x = subI16(); return v; } public Short4 subShort4() { Short4 v = new Short4(); v.w = subI16(); v.z = subI16(); v.y = subI16(); v.x = subI16(); return v; } public Int2 subInt2() { Int2 v = new Int2(); v.y = subI32(); v.x = subI32(); return v; } public Int3 subInt3() { Int3 v = new Int3(); v.z = subI32(); v.y = subI32(); v.x = subI32(); return v; } public Int4 subInt4() { Int4 v = new Int4(); v.w = subI32(); v.z = subI32(); v.y = subI32(); v.x = subI32(); return v; } public Long2 subLong2() { Long2 v = new Long2(); v.y = subI64(); v.x = subI64(); return v; } public Long3 subLong3() { Long3 v = new Long3(); v.z = subI64(); v.y = subI64(); v.x = subI64(); return v; } public Long4 subLong4() { Long4 v = new Long4(); v.w = subI64(); v.z = subI64(); v.y = subI64(); v.x = subI64(); return v; } public void addMatrix(Matrix4f v) { for (int i=0; i < v.mMat.length; i++) { addF32(v.mMat[i]); } } public Matrix4f subMatrix4f() { Matrix4f v = new Matrix4f(); for (int i = v.mMat.length - 1; i >= 0; i--) { v.mMat[i] = subF32(); } return v; } public void addMatrix(Matrix3f v) { for (int i=0; i < v.mMat.length; i++) { addF32(v.mMat[i]); } } public Matrix3f subMatrix3f() { Matrix3f v = new Matrix3f(); for (int i = v.mMat.length - 1; i >= 0; i--) { v.mMat[i] = subF32(); } return v; } public void addMatrix(Matrix2f v) { for (int i=0; i < v.mMat.length; i++) { addF32(v.mMat[i]); } } public Matrix2f subMatrix2f() { Matrix2f v = new Matrix2f(); for (int i = v.mMat.length - 1; i >= 0; i--) { v.mMat[i] = subF32(); } return v; } public void addBoolean(boolean v) { addI8((byte)(v ? 1 : 0)); } public boolean subBoolean() { byte v = subI8(); if (v == 1) { return true; } return false; } public final byte[] getData() { return mData; } /** * Get the actual length used for the FieldPacker. * * @hide */ public int getPos() { return mPos; } private final byte mData[]; private int mPos; private int mLen; private BitSet mAlignment; }