public byte[] decodeBMPToYUV422(Bitmap bmp) { int width = bmp.getWidth(); int height = bmp.getHeight(); boolean needUpdateAllocation = false; if (mOriginHeight2 != height || mOriginWidth2 != width) { mOriginWidth2 = width; mOriginHeight2 = height; needUpdateAllocation = true; } Type.Builder tbIn = new Type.Builder(mRS, Element.RGBA_8888(mRS)); tbIn.setX(width).setY(height); // tbIn.setX(nv21.length); Type.Builder tbOut = new Type.Builder(mRS, Element.U8(mRS)); tbOut.setX(width * height + width * height / 2); // if(mInAlloc2==null){ // mInAlloc2=Allocation.createTyped(mRS, tbIn.create(),Allocation.USAGE_SCRIPT); // } if (mOutAlloc2 == null || needUpdateAllocation) { mOutAlloc2 = Allocation.createTyped(mRS, tbOut.create(), Allocation.USAGE_SCRIPT); } mInAlloc2 = Allocation.createFromBitmap(mRS, bmp); mScript.bind_bmpInput(mInAlloc2); mScript.bind_yuvOutput(mOutAlloc2); // // mScript.bind_input(mInAlloc2); // mScript.bind_output(mOutAlloc2); mScript.set_mImageWidth(width); mScript.set_mImageHeight(height); int[] indexBuffer = new int[height]; for (int i = 0; i < indexBuffer.length; i++) { indexBuffer[i] = i; } Type.Builder tbIndex = new Type.Builder(mRS, Element.I32(mRS)); tbIndex.setX(indexBuffer.length); if (mIndexAlloc2 == null || needUpdateAllocation) { mIndexAlloc2 = Allocation.createTyped(mRS, tbIndex.create()); mOriginHeight2 = height; } mIndexAlloc2.copyFrom(indexBuffer); mScript.forEach_process_jpg2yuv(mIndexAlloc2); if (mOutput2 == null || needUpdateAllocation) { mOutputLength2 = width * height + width * height / 2; mOutput2 = new byte[mOutputLength2]; } mOutAlloc2.copyTo(mOutput2); return mOutput2; }
private void initializeGlobals(RenderScript RS, ScriptC_kernel s) { Type.Builder typeBuilder = new Type.Builder(RS, Element.I32(RS)); int X = 5; s.set_dimX(X); typeBuilder.setX(X); A = Allocation.createTyped(RS, typeBuilder.create()); s.bind_ain(A); B = Allocation.createTyped(RS, typeBuilder.create()); s.bind_aout(B); return; }
public void test_AllocationPadded_copy1DRangeToUnchecked_Byte3() { Random random = new Random(0x172d8ab9); int width = random.nextInt(512); int arr_len = width * 3; byte[] inArray = new byte[arr_len]; byte[] outArray = new byte[arr_len]; random.nextBytes(inArray); Type.Builder typeBuilder = new Type.Builder(mRS, Element.I8_3(mRS)); typeBuilder.setX(width); Allocation alloc = Allocation.createTyped(mRS, typeBuilder.create()); alloc.setAutoPadding(true); int offset = random.nextInt(width); int count = width - offset; alloc.copy1DRangeFrom(offset, count, inArray); alloc.copy1DRangeToUnchecked(offset, count, outArray); boolean result = true; for (int i = 0; i < count * 3; i++) { if (inArray[i] != outArray[i]) { result = false; break; } } for (int i = count * 3; i < arr_len; i++) { if (outArray[i] != 0) { result = false; break; } } assertTrue( "test_copy1DRangeToUnchecked_Padded_Byte Failed, output array does not match input", result); }
public void test_AllocationPadded_copy2DRangeTo_Long3() { Random random = new Random(0x172d8ab9); int width = random.nextInt(128); int height = random.nextInt(128); int xoff = random.nextInt(width); int yoff = random.nextInt(height); int xcount = width - xoff; int ycount = height - yoff; int arr_len = xcount * ycount * 3; long[] inArray = new long[arr_len]; long[] outArray = new long[arr_len]; for (int i = 0; i < arr_len; i++) { inArray[i] = random.nextLong(); } Type.Builder typeBuilder = new Type.Builder(mRS, Element.I64_3(mRS)); typeBuilder.setX(width).setY(height); Allocation alloc = Allocation.createTyped(mRS, typeBuilder.create()); alloc.setAutoPadding(true); alloc.copy2DRangeFrom(xoff, yoff, xcount, ycount, inArray); alloc.copy2DRangeTo(xoff, yoff, xcount, ycount, outArray); boolean result = true; for (int i = 0; i < arr_len; i++) { if (inArray[i] != outArray[i]) { result = false; break; } } assertTrue("test_copy2DRangeTo_Padded_Long Failed, output array does not match input", result); }
public void test_AllocationPadded_Byte3_3D() { Random random = new Random(0x172d8ab9); int w = random.nextInt(32); int h = random.nextInt(32); int d = random.nextInt(32); int arr_len = w * d * h * 3; byte[] inArray = new byte[arr_len]; byte[] outArray = new byte[arr_len]; random.nextBytes(inArray); Type.Builder typeBuilder = new Type.Builder(mRS, Element.I8_3(mRS)); typeBuilder.setX(w).setY(h).setZ(d); Allocation alloc = Allocation.createTyped(mRS, typeBuilder.create()); alloc.setAutoPadding(true); alloc.copyFrom(inArray); alloc.copyTo(outArray); boolean result = true; for (int i = 0; i < arr_len; i++) { if (inArray[i] != outArray[i]) { result = false; break; } } assertTrue( "test_AllocationCopyTo_3D_Padded_Byte Failed, output array does not match input", result); }
public void test_AllocationPadded_Long3_1D() { Random random = new Random(0x172d8ab9); int width = random.nextInt(512); int arr_len = width * 3; long[] inArray = new long[arr_len]; long[] outArray = new long[arr_len]; for (int i = 0; i < arr_len; i++) { inArray[i] = random.nextLong(); } Type.Builder typeBuilder = new Type.Builder(mRS, Element.I64_3(mRS)); typeBuilder.setX(width); Allocation alloc = Allocation.createTyped(mRS, typeBuilder.create()); alloc.setAutoPadding(true); alloc.copyFrom(inArray); alloc.copyTo(outArray); boolean result = true; for (int i = 0; i < arr_len; i++) { if (inArray[i] != outArray[i]) { result = false; break; } } assertTrue( "test_AllocationCopyTo_1D_Padded_Long Failed, output array does not match input", result); }
public void test_AllocationPadded_Double3_2D() { Random random = new Random(0x172d8ab9); int width = random.nextInt(128); int height = random.nextInt(128); int arr_len = width * height * 3; double[] inArray = new double[arr_len]; double[] outArray = new double[arr_len]; for (int i = 0; i < arr_len; i++) { inArray[i] = (double) random.nextFloat(); } Type.Builder typeBuilder = new Type.Builder(mRS, Element.F64_3(mRS)); typeBuilder.setX(width).setY(height); Allocation alloc = Allocation.createTyped(mRS, typeBuilder.create()); alloc.setAutoPadding(true); alloc.copyFrom(inArray); alloc.copyTo(outArray); boolean result = true; for (int i = 0; i < arr_len; i++) { if (inArray[i] != outArray[i]) { result = false; break; } } assertTrue( "test_AllocationCopyTo_2D_Padded_Double Failed, output array does not match input", result); }
public byte[] decodeNV21ToRGB888(byte[] nv21, int width, int height, int degree) { Type.Builder tbIn = new Type.Builder(mRS, Element.U8(mRS)); tbIn.setX(nv21.length); Type.Builder tbOut = new Type.Builder(mRS, Element.U8(mRS)); tbOut.setX(width * height * 4); if (mInAlloc == null) { mInAlloc = Allocation.createTyped(mRS, tbIn.create()); } if (mOutAlloc == null) { mOutAlloc = Allocation.createTyped(mRS, tbOut.create()); } mInAlloc.copyFrom(nv21); mScript.bind_input(mInAlloc); mScript.bind_output(mOutAlloc); mScript.set_rotateDegree(degree); mScript.set_mImageWidth(width); mScript.set_mImageHeight(height); int[] indexBuffer = new int[height]; for (int i = 0; i < indexBuffer.length; i++) { indexBuffer[i] = i; } Type.Builder tbIndex = new Type.Builder(mRS, Element.I32(mRS)); tbIndex.setX(indexBuffer.length); if (mIndexAlloc == null) { mIndexAlloc = Allocation.createTyped(mRS, tbIndex.create()); } mIndexAlloc.copyFrom(indexBuffer); mScript.forEach_process(mIndexAlloc); if (mOutput == null || mOutputLength == -1) { mOutputLength = width * height * 4; mOutput = new byte[mOutputLength]; } mOutAlloc.copyTo(mOutput); return mOutput; }
public void testScript() { Script S = new ScriptC_primitives(mRS); S.setTimeZone("America/New_York"); S.setVar(4, 9.0f); // floatTest S.setVar(5, 9.0); // doubleTest S.setVar(6, 7); // charTest S.setVar(7, 300); // shortTest S.setVar(8, 20000); // intTest S.setVar(9, 20000000000l); // longTest S.setVar(11, true); // boolTest FieldPacker fp = new FieldPacker(4); fp.addI32(3); S.setVar(12, fp); // structTest Type.Builder tb = new Type.Builder(mRS, Element.I32(mRS)); Allocation a = Allocation.createTyped(mRS, tb.create()); S.setVar(13, a); // allocationTest S.bindAllocation(a, 14); // intPtrTest }