tests/lldb/cpp/Allocations/Allocations.cpp - platform/frameworks/rs - Git at Google

 #include <RenderScript.h>

 #include "ScriptC_allocs.h"

 using namespace android;
 using namespace RSC;

 sp<RS> mRS;
 sp<Allocation> mBoolAllocation;  // boolean

 sp<Allocation> mCharAllocation;  // char
 sp<Allocation> mChar2Allocation;   // char2
 sp<Allocation> mChar3Allocation;   // char3
 sp<Allocation> mChar4Allocation;   // char4

 sp<Allocation> mUCharAllocation;   // uchar
 sp<Allocation> mUChar2Allocation;  // uchar2
 sp<Allocation> mUChar3Allocation;  // uchar3
 sp<Allocation> mUChar4Allocation;  // uchar4

 sp<Allocation> mShortAllocation;   // short
 sp<Allocation> mShort2Allocation;  // short2
 sp<Allocation> mShort3Allocation;  // short3
 sp<Allocation> mShort4Allocation;  // short4

 sp<Allocation> mUShortAllocation;  // ushort
 sp<Allocation> mUShort2Allocation; // ushort2
 sp<Allocation> mUShort3Allocation; // ushort3
 sp<Allocation> mUShort4Allocation; // ushort4

 sp<Allocation> mIntAllocation;   // int
 sp<Allocation> mInt2Allocation;  // int2
 sp<Allocation> mInt3Allocation;  // int3
 sp<Allocation> mInt4Allocation;  // int4

 sp<Allocation> mUIntAllocation;  // uint
 sp<Allocation> mUInt2Allocation;   // uint2
 sp<Allocation> mUInt3Allocation;   // uint3
 sp<Allocation> mUInt4Allocation;   // uint4

 sp<Allocation> mLongAllocation;  // long
 sp<Allocation> mLong2Allocation;   // long2
 sp<Allocation> mLong3Allocation;   // long3
 sp<Allocation> mLong4Allocation;   // long4

 sp<Allocation> mULongAllocation;   // ulong
 sp<Allocation> mULong2Allocation;  // ulong2
 sp<Allocation> mULong3Allocation;  // ulong3
 sp<Allocation> mULong4Allocation;  // ulong4

 sp<Allocation> mHalfAllocation;  // half
 sp<Allocation> mHalf2Allocation;   // half2
 sp<Allocation> mHalf3Allocation;   // half3
 sp<Allocation> mHalf4Allocation;   // half4

 sp<Allocation> mFloatAllocation;   // float
 sp<Allocation> mFloat2Allocation;  // float2
 sp<Allocation> mFloat3Allocation;  // float3
 sp<Allocation> mFloat4Allocation;  // float4

 sp<Allocation> mDoubleAllocation;  // double
 sp<Allocation> mDouble2Allocation; // double2
 sp<Allocation> mDouble3Allocation; // double3
 sp<Allocation> mDouble4Allocation; // double4

 const int mAllocSize = 24; // Needs to be < CHAR_MAX and divisible by 4.
 const int mBitmapSize = 64;

 void createSignedAllocations() {
     Type::Builder typeI8Builder(mRS, Element::I8(mRS));
     typeI8Builder.setX(1); // One element here to test 16 byte memory alignment
     typeI8Builder.setY(3);
     typeI8Builder.setZ(8);

     mCharAllocation = Allocation::createTyped(mRS, typeI8Builder.create());
     mChar2Allocation = Allocation::createSized(mRS, Element::I8_2(mRS), mAllocSize / 2);
     mChar3Allocation = Allocation::createSized(mRS, Element::I8_3(mRS), mAllocSize / 4);
     mChar4Allocation = Allocation::createSized(mRS, Element::I8_4(mRS), mAllocSize / 4);

     Type::Builder typeI16_2Builder(mRS, Element::I16_2(mRS));
     typeI16_2Builder.setX(6);
     typeI16_2Builder.setY(1);
     typeI16_2Builder.setZ(2);

     mShortAllocation = Allocation::createSized(mRS, Element::I16(mRS), mAllocSize);
     mShort2Allocation = Allocation::createTyped(mRS, typeI16_2Builder.create());
     mShort3Allocation = Allocation::createSized(mRS, Element::I16_3(mRS), mAllocSize / 4);
     mShort4Allocation = Allocation::createSized(mRS, Element::I16_4(mRS), mAllocSize / 4);

     Type::Builder typeI32_3Builder(mRS, Element::I32_3(mRS));
     typeI32_3Builder.setX(3);
     typeI32_3Builder.setY(2);

     mIntAllocation = Allocation::createSized(mRS, Element::I32(mRS), mAllocSize);
     mInt2Allocation = Allocation::createSized(mRS, Element::I32_2(mRS), mAllocSize / 2);
     mInt3Allocation = Allocation::createTyped(mRS, typeI32_3Builder.create());
     mInt4Allocation = Allocation::createSized(mRS, Element::I32_4(mRS), mAllocSize / 4);

     Type::Builder typeI64_4Builder(mRS, Element::I64_4(mRS));
     typeI64_4Builder.setX(1);
     typeI64_4Builder.setY(6);

     mLongAllocation = Allocation::createSized(mRS, Element::I64(mRS), mAllocSize);
     mLong2Allocation = Allocation::createSized(mRS, Element::I64_2(mRS), mAllocSize / 2);
     mLong3Allocation = Allocation::createSized(mRS, Element::I64_3(mRS), mAllocSize / 4);
     mLong4Allocation = Allocation::createTyped(mRS, typeI64_4Builder.create());

     mBoolAllocation = Allocation::createSized(mRS, Element::BOOLEAN(mRS), mAllocSize);
 }

 void initSignedAllocations() {
     char *buffer_char = new char[mAllocSize];
     short *buffer_short = new short[mAllocSize];
     int *buffer_int = new int[mAllocSize];
     int64_t *buffer_long = new int64_t[mAllocSize];
     char *buffer_bool = new char[mAllocSize];

     for(int i = 0; i < mAllocSize; ++i) {
         buffer_char[i] = (char) i;
         buffer_short[i] = (short) i;
         buffer_int[i] = (int) i;
         buffer_long[i] = (int64_t) i;
         buffer_bool[i] =  (char) (0x01 & i);
     }

     mCharAllocation->copy3DRangeFrom(0, 0, 0, 1, 3, 8, buffer_char);
     mChar2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_char);
     mChar3Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_char);
     mChar4Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_char);

     delete [] buffer_char;

     mShortAllocation->copy1DRangeFrom(0, mAllocSize, buffer_short);
     mShort2Allocation->copy3DRangeFrom(0, 0, 0, 6, 1, 2, buffer_short);
     mShort3Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_short);
     mShort4Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_short);

     delete [] buffer_short;

     mIntAllocation->copy1DRangeFrom(0, mAllocSize, buffer_int);
     mInt2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_int);
     mInt3Allocation->copy2DRangeFrom(0, 0, 3, 2, buffer_int);
     mInt4Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_int);

     delete [] buffer_int;

     mLongAllocation->copy1DRangeFrom(0, mAllocSize, buffer_long);
     mLong2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_long);
     mLong3Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_long);
     mLong4Allocation->copy2DRangeFrom(0, 0, 1, 6, buffer_long);

     delete [] buffer_long;

     mBoolAllocation->copy1DRangeFrom(0, mAllocSize, buffer_bool);

     delete [] buffer_bool;
 }

 void createUnsignedAllocations() {
     Type::Builder typeU8_2Builder(mRS, Element::U8_2(mRS));
     typeU8_2Builder.setX(2);
     typeU8_2Builder.setY(6);

     mUCharAllocation = Allocation::createSized(mRS, Element::U8(mRS), mAllocSize);
     mUChar2Allocation = Allocation::createTyped(mRS, typeU8_2Builder.create());
     mUChar3Allocation = Allocation::createSized(mRS, Element::U8_3(mRS), mAllocSize / 4);
     mUChar4Allocation = Allocation::createSized(mRS, Element::U8_4(mRS), mAllocSize / 4);

     Type::Builder typeU16_3Builder(mRS, Element::U16_3(mRS));
     typeU16_3Builder.setX(1);
     typeU16_3Builder.setY(6);

     mUShortAllocation = Allocation::createSized(mRS, Element::U16(mRS), mAllocSize);
     mUShort2Allocation = Allocation::createSized(mRS, Element::U16_2(mRS), mAllocSize / 2);
     mUShort3Allocation = Allocation::createTyped(mRS, typeU16_3Builder.create());
     mUShort4Allocation = Allocation::createSized(mRS, Element::U16_4(mRS), mAllocSize / 4);

     Type::Builder typeU32_4Builder(mRS, Element::U32_4(mRS));
     typeU32_4Builder.setX(1);
     typeU32_4Builder.setY(1);
     typeU32_4Builder.setZ(6);

     mUIntAllocation = Allocation::createSized(mRS, Element::U32(mRS), mAllocSize);
     mUInt2Allocation = Allocation::createSized(mRS, Element::U32_2(mRS), mAllocSize / 2);
     mUInt3Allocation = Allocation::createSized(mRS, Element::U32_3(mRS), mAllocSize / 4);
     mUInt4Allocation = Allocation::createTyped(mRS, typeU32_4Builder.create());

     Type::Builder typeU64Builder(mRS, Element::U64(mRS));
     typeU64Builder.setX(4);
     typeU64Builder.setY(3);
     typeU64Builder.setZ(2);

     mULongAllocation = Allocation::createTyped(mRS, typeU64Builder.create());
     mULong2Allocation = Allocation::createSized(mRS, Element::U64_2(mRS), mAllocSize / 2);
     mULong3Allocation = Allocation::createSized(mRS, Element::U64_3(mRS), mAllocSize / 4);
     mULong4Allocation = Allocation::createSized(mRS, Element::U64_4(mRS), mAllocSize / 4);
 }

 void initUnsignedAllocations() {
     char *buffer_char = new char[mAllocSize];
     short *buffer_short = new short[mAllocSize];
     int *buffer_int = new int[mAllocSize];
     uint64_t *buffer_long = new uint64_t[mAllocSize];

     for(int i = 0; i < mAllocSize; ++i) {
         buffer_char[i] = (char) i;
         buffer_short[i] = (short) i;
         buffer_int[i] = (int) i;
         buffer_long[i] = (uint64_t) i;
     }

     mUCharAllocation->copy1DRangeFrom(0, mAllocSize, buffer_char);
     mUChar2Allocation->copy2DRangeFrom(0, 0, 2, 6, buffer_char);
     mUChar3Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_char);
     mUChar4Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_char);

     delete [] buffer_char;

     mUShortAllocation->copy1DRangeFrom(0, mAllocSize, buffer_short);
     mUShort2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_short);
     mUShort3Allocation->copy2DRangeFrom(0, 0, 1, 6, buffer_short);
     mUShort4Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_short);

     delete [] buffer_short;

     mUIntAllocation->copy1DRangeFrom(0, mAllocSize, buffer_int);
     mUInt2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_int);
     mUInt3Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_int);
     mUInt4Allocation->copy3DRangeFrom(0, 0, 0, 1, 1, 6, buffer_int);

     delete [] buffer_int;

     mULongAllocation->copy3DRangeFrom(0, 0, 0, 4, 3, 2, buffer_long);
     mULong2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_long);
     mULong3Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_long);
     mULong4Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_long);

     delete [] buffer_long;
 }

 void createFloatAllocations() {
     Type::Builder typeF16_3Builder(mRS, Element::F16_3(mRS));
     typeF16_3Builder.setX(1);
     typeF16_3Builder.setY(6);

     mHalfAllocation = Allocation::createSized(mRS, Element::F16(mRS), mAllocSize);
     mHalf2Allocation = Allocation::createSized(mRS, Element::F16_2(mRS), mAllocSize / 2);
     mHalf3Allocation = Allocation::createTyped(mRS, typeF16_3Builder.create());
     mHalf4Allocation = Allocation::createSized(mRS, Element::F16_4(mRS), mAllocSize / 4);

     Type::Builder typeF32_4Builder(mRS, Element::F32_4(mRS));
     typeF32_4Builder.setX(3);
     typeF32_4Builder.setY(2);

     mFloatAllocation = Allocation::createSized(mRS, Element::F32(mRS), mAllocSize);
     mFloat2Allocation = Allocation::createSized(mRS, Element::F32_2(mRS), mAllocSize / 2);
     mFloat3Allocation = Allocation::createSized(mRS, Element::F32_3(mRS), mAllocSize / 4);
     mFloat4Allocation = Allocation::createTyped(mRS, typeF32_4Builder.create());

     Type::Builder typeF64_2Builder(mRS, Element::F64_2(mRS));
     typeF64_2Builder.setX(4);
     typeF64_2Builder.setY(1);
     typeF64_2Builder.setZ(3);

     mDoubleAllocation = Allocation::createSized(mRS, Element::F64(mRS), mAllocSize);
     mDouble2Allocation = Allocation::createTyped(mRS, typeF64_2Builder.create());

     Type::Builder typeF64_3Builder(mRS, Element::F64_3(mRS));
     typeF64_3Builder.setX(1);
     typeF64_3Builder.setY(2);
     typeF64_3Builder.setZ(3);

     Type::Builder typeF64_4Builder(mRS, Element::F64_4(mRS));
     typeF64_4Builder.setX(1);
     typeF64_4Builder.setY(2);
     typeF64_4Builder.setZ(3);

     mDouble3Allocation = Allocation::createTyped(mRS, typeF64_3Builder.create());
     mDouble4Allocation = Allocation::createTyped(mRS, typeF64_4Builder.create());
 }

 void initFloatAllocations() {
     __fp16 *buffer_half = new __fp16[mAllocSize];
     float *buffer_float = new float[mAllocSize];
     double *buffer_double = new double[mAllocSize];

     for(int i = 0; i < mAllocSize; ++i) {
         buffer_half[i] = (__fp16) 1 / i;
         buffer_float[i] = (float) 1 / i;
         buffer_double[i] = (double) 1 / i;
     }

     mHalfAllocation->copy1DRangeFrom(0, mAllocSize, buffer_half);
     mHalf2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_half);
     mHalf3Allocation->copy2DRangeFrom(0, 0, 1, 6, buffer_half);
     mHalf4Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_half);

     delete [] buffer_half;

     mFloatAllocation->copy1DRangeFrom(0, mAllocSize, buffer_float);
     mFloat2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_float);
     mFloat3Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_float);
     mFloat4Allocation->copy2DRangeFrom(0, 0, 3, 2, buffer_float);

     delete [] buffer_float;

     mDoubleAllocation->copy1DRangeFrom(0, mAllocSize, buffer_double);
     mDouble2Allocation->copy3DRangeFrom(0, 0, 0, 4, 1, 3, buffer_double);
     mDouble3Allocation->copy3DRangeFrom(0, 0, 0, 1, 2, 3, buffer_double);
     mDouble4Allocation->copy3DRangeFrom(0, 0, 0, 1, 2, 3, buffer_double);

     delete [] buffer_double;
 }

 int main()
 {
     mRS = new RS();

     mRS->init("/data/rscache", RS_INIT_LOW_LATENCY | RS_INIT_WAIT_FOR_ATTACH);

     sp<ScriptC_allocs> mScript = new ScriptC_allocs(mRS);

     Type::Builder typeRGBA_888Builder(mRS, Element::RGBA_8888(mRS));
     typeRGBA_888Builder.setX(mBitmapSize);
     typeRGBA_888Builder.setY(mBitmapSize);

     sp<Allocation> mInAllocation = Allocation::createTyped(mRS, typeRGBA_888Builder.create());

     const int image_area = mBitmapSize*mBitmapSize;
     const int image_size = image_area*sizeof(int);

     char *zero_buffer = new char[image_size];
     memset(zero_buffer, 0, image_size);
     mInAllocation->copy1DRangeFrom(0, image_area, zero_buffer);
     delete [] zero_buffer;

     sp<Allocation> mOutAllocation = Allocation::createTyped(mRS, typeRGBA_888Builder.create());
     createSignedAllocations();
     initSignedAllocations();

     mRS->finish();
     mScript->forEach_swizzle_kernel(mInAllocation, mOutAllocation);
     mRS->finish();

     mCharAllocation.clear();
     mChar2Allocation.clear();
     mChar3Allocation.clear();
     mChar4Allocation.clear();

     mShort2Allocation.clear();
     mShort3Allocation.clear();
     mShort4Allocation.clear();

     mIntAllocation.clear();
     mInt2Allocation.clear();
     mInt3Allocation.clear();
     mInt4Allocation.clear();

     mLongAllocation.clear();
     mLong2Allocation.clear();
     mLong3Allocation.clear();
     mLong4Allocation.clear();

     mBoolAllocation.clear();

     createUnsignedAllocations();
     initUnsignedAllocations();

     mInAllocation = mUShortAllocation; // Host side assignment

     mRS->finish();
     mScript->forEach_square_kernel(mInAllocation, mUIntAllocation);
     mRS->finish();

     mUCharAllocation.clear();
     mUChar2Allocation.clear();
     mUChar3Allocation.clear();
     mUChar4Allocation.clear();

     mUShortAllocation.clear();
     mUShort2Allocation.clear();
     mUShort3Allocation.clear();
     mUShort4Allocation.clear();

     mUInt2Allocation.clear();
     mUInt3Allocation.clear();
     mUInt4Allocation.clear();

     mULongAllocation.clear();
     mULong2Allocation.clear();
     mULong3Allocation.clear();
     mULong4Allocation.clear();

     createFloatAllocations();
     initFloatAllocations();

     mRS->finish();
     mScript->forEach_add_half_kernel(mDouble4Allocation, mDouble3Allocation);
     mRS->finish();

     return 0;
 }
	#include <RenderScript.h>

	#include "ScriptC_allocs.h"

	using namespace android;
	using namespace RSC;

	sp<RS> mRS;
	sp<Allocation> mBoolAllocation; // boolean

	sp<Allocation> mCharAllocation; // char
	sp<Allocation> mChar2Allocation; // char2
	sp<Allocation> mChar3Allocation; // char3
	sp<Allocation> mChar4Allocation; // char4

	sp<Allocation> mUCharAllocation; // uchar
	sp<Allocation> mUChar2Allocation; // uchar2
	sp<Allocation> mUChar3Allocation; // uchar3
	sp<Allocation> mUChar4Allocation; // uchar4

	sp<Allocation> mShortAllocation; // short
	sp<Allocation> mShort2Allocation; // short2
	sp<Allocation> mShort3Allocation; // short3
	sp<Allocation> mShort4Allocation; // short4

	sp<Allocation> mUShortAllocation; // ushort
	sp<Allocation> mUShort2Allocation; // ushort2
	sp<Allocation> mUShort3Allocation; // ushort3
	sp<Allocation> mUShort4Allocation; // ushort4

	sp<Allocation> mIntAllocation; // int
	sp<Allocation> mInt2Allocation; // int2
	sp<Allocation> mInt3Allocation; // int3
	sp<Allocation> mInt4Allocation; // int4

	sp<Allocation> mUIntAllocation; // uint
	sp<Allocation> mUInt2Allocation; // uint2
	sp<Allocation> mUInt3Allocation; // uint3
	sp<Allocation> mUInt4Allocation; // uint4

	sp<Allocation> mLongAllocation; // long
	sp<Allocation> mLong2Allocation; // long2
	sp<Allocation> mLong3Allocation; // long3
	sp<Allocation> mLong4Allocation; // long4

	sp<Allocation> mULongAllocation; // ulong
	sp<Allocation> mULong2Allocation; // ulong2
	sp<Allocation> mULong3Allocation; // ulong3
	sp<Allocation> mULong4Allocation; // ulong4

	sp<Allocation> mHalfAllocation; // half
	sp<Allocation> mHalf2Allocation; // half2
	sp<Allocation> mHalf3Allocation; // half3
	sp<Allocation> mHalf4Allocation; // half4

	sp<Allocation> mFloatAllocation; // float
	sp<Allocation> mFloat2Allocation; // float2
	sp<Allocation> mFloat3Allocation; // float3
	sp<Allocation> mFloat4Allocation; // float4

	sp<Allocation> mDoubleAllocation; // double
	sp<Allocation> mDouble2Allocation; // double2
	sp<Allocation> mDouble3Allocation; // double3
	sp<Allocation> mDouble4Allocation; // double4

	const int mAllocSize = 24; // Needs to be < CHAR_MAX and divisible by 4.
	const int mBitmapSize = 64;

	void createSignedAllocations() {
	Type::Builder typeI8Builder(mRS, Element::I8(mRS));
	typeI8Builder.setX(1); // One element here to test 16 byte memory alignment
	typeI8Builder.setY(3);
	typeI8Builder.setZ(8);

	mCharAllocation = Allocation::createTyped(mRS, typeI8Builder.create());
	mChar2Allocation = Allocation::createSized(mRS, Element::I8_2(mRS), mAllocSize / 2);
	mChar3Allocation = Allocation::createSized(mRS, Element::I8_3(mRS), mAllocSize / 4);
	mChar4Allocation = Allocation::createSized(mRS, Element::I8_4(mRS), mAllocSize / 4);

	Type::Builder typeI16_2Builder(mRS, Element::I16_2(mRS));
	typeI16_2Builder.setX(6);
	typeI16_2Builder.setY(1);
	typeI16_2Builder.setZ(2);

	mShortAllocation = Allocation::createSized(mRS, Element::I16(mRS), mAllocSize);
	mShort2Allocation = Allocation::createTyped(mRS, typeI16_2Builder.create());
	mShort3Allocation = Allocation::createSized(mRS, Element::I16_3(mRS), mAllocSize / 4);
	mShort4Allocation = Allocation::createSized(mRS, Element::I16_4(mRS), mAllocSize / 4);

	Type::Builder typeI32_3Builder(mRS, Element::I32_3(mRS));
	typeI32_3Builder.setX(3);
	typeI32_3Builder.setY(2);

	mIntAllocation = Allocation::createSized(mRS, Element::I32(mRS), mAllocSize);
	mInt2Allocation = Allocation::createSized(mRS, Element::I32_2(mRS), mAllocSize / 2);
	mInt3Allocation = Allocation::createTyped(mRS, typeI32_3Builder.create());
	mInt4Allocation = Allocation::createSized(mRS, Element::I32_4(mRS), mAllocSize / 4);

	Type::Builder typeI64_4Builder(mRS, Element::I64_4(mRS));
	typeI64_4Builder.setX(1);
	typeI64_4Builder.setY(6);

	mLongAllocation = Allocation::createSized(mRS, Element::I64(mRS), mAllocSize);
	mLong2Allocation = Allocation::createSized(mRS, Element::I64_2(mRS), mAllocSize / 2);
	mLong3Allocation = Allocation::createSized(mRS, Element::I64_3(mRS), mAllocSize / 4);
	mLong4Allocation = Allocation::createTyped(mRS, typeI64_4Builder.create());

	mBoolAllocation = Allocation::createSized(mRS, Element::BOOLEAN(mRS), mAllocSize);
	}

	void initSignedAllocations() {
	char *buffer_char = new char[mAllocSize];
	short *buffer_short = new short[mAllocSize];
	int *buffer_int = new int[mAllocSize];
	int64_t *buffer_long = new int64_t[mAllocSize];
	char *buffer_bool = new char[mAllocSize];

	for(int i = 0; i < mAllocSize; ++i) {
	buffer_char[i] = (char) i;
	buffer_short[i] = (short) i;
	buffer_int[i] = (int) i;
	buffer_long[i] = (int64_t) i;
	buffer_bool[i] = (char) (0x01 & i);
	}

	mCharAllocation->copy3DRangeFrom(0, 0, 0, 1, 3, 8, buffer_char);
	mChar2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_char);
	mChar3Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_char);
	mChar4Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_char);

	delete [] buffer_char;

	mShortAllocation->copy1DRangeFrom(0, mAllocSize, buffer_short);
	mShort2Allocation->copy3DRangeFrom(0, 0, 0, 6, 1, 2, buffer_short);
	mShort3Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_short);
	mShort4Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_short);

	delete [] buffer_short;

	mIntAllocation->copy1DRangeFrom(0, mAllocSize, buffer_int);
	mInt2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_int);
	mInt3Allocation->copy2DRangeFrom(0, 0, 3, 2, buffer_int);
	mInt4Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_int);

	delete [] buffer_int;

	mLongAllocation->copy1DRangeFrom(0, mAllocSize, buffer_long);
	mLong2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_long);
	mLong3Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_long);
	mLong4Allocation->copy2DRangeFrom(0, 0, 1, 6, buffer_long);

	delete [] buffer_long;

	mBoolAllocation->copy1DRangeFrom(0, mAllocSize, buffer_bool);

	delete [] buffer_bool;
	}

	void createUnsignedAllocations() {
	Type::Builder typeU8_2Builder(mRS, Element::U8_2(mRS));
	typeU8_2Builder.setX(2);
	typeU8_2Builder.setY(6);

	mUCharAllocation = Allocation::createSized(mRS, Element::U8(mRS), mAllocSize);
	mUChar2Allocation = Allocation::createTyped(mRS, typeU8_2Builder.create());
	mUChar3Allocation = Allocation::createSized(mRS, Element::U8_3(mRS), mAllocSize / 4);
	mUChar4Allocation = Allocation::createSized(mRS, Element::U8_4(mRS), mAllocSize / 4);

	Type::Builder typeU16_3Builder(mRS, Element::U16_3(mRS));
	typeU16_3Builder.setX(1);
	typeU16_3Builder.setY(6);

	mUShortAllocation = Allocation::createSized(mRS, Element::U16(mRS), mAllocSize);
	mUShort2Allocation = Allocation::createSized(mRS, Element::U16_2(mRS), mAllocSize / 2);
	mUShort3Allocation = Allocation::createTyped(mRS, typeU16_3Builder.create());
	mUShort4Allocation = Allocation::createSized(mRS, Element::U16_4(mRS), mAllocSize / 4);

	Type::Builder typeU32_4Builder(mRS, Element::U32_4(mRS));
	typeU32_4Builder.setX(1);
	typeU32_4Builder.setY(1);
	typeU32_4Builder.setZ(6);

	mUIntAllocation = Allocation::createSized(mRS, Element::U32(mRS), mAllocSize);
	mUInt2Allocation = Allocation::createSized(mRS, Element::U32_2(mRS), mAllocSize / 2);
	mUInt3Allocation = Allocation::createSized(mRS, Element::U32_3(mRS), mAllocSize / 4);
	mUInt4Allocation = Allocation::createTyped(mRS, typeU32_4Builder.create());

	Type::Builder typeU64Builder(mRS, Element::U64(mRS));
	typeU64Builder.setX(4);
	typeU64Builder.setY(3);
	typeU64Builder.setZ(2);

	mULongAllocation = Allocation::createTyped(mRS, typeU64Builder.create());
	mULong2Allocation = Allocation::createSized(mRS, Element::U64_2(mRS), mAllocSize / 2);
	mULong3Allocation = Allocation::createSized(mRS, Element::U64_3(mRS), mAllocSize / 4);
	mULong4Allocation = Allocation::createSized(mRS, Element::U64_4(mRS), mAllocSize / 4);
	}

	void initUnsignedAllocations() {
	char *buffer_char = new char[mAllocSize];
	short *buffer_short = new short[mAllocSize];
	int *buffer_int = new int[mAllocSize];
	uint64_t *buffer_long = new uint64_t[mAllocSize];

	for(int i = 0; i < mAllocSize; ++i) {
	buffer_char[i] = (char) i;
	buffer_short[i] = (short) i;
	buffer_int[i] = (int) i;
	buffer_long[i] = (uint64_t) i;
	}

	mUCharAllocation->copy1DRangeFrom(0, mAllocSize, buffer_char);
	mUChar2Allocation->copy2DRangeFrom(0, 0, 2, 6, buffer_char);
	mUChar3Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_char);
	mUChar4Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_char);

	delete [] buffer_char;

	mUShortAllocation->copy1DRangeFrom(0, mAllocSize, buffer_short);
	mUShort2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_short);
	mUShort3Allocation->copy2DRangeFrom(0, 0, 1, 6, buffer_short);
	mUShort4Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_short);

	delete [] buffer_short;

	mUIntAllocation->copy1DRangeFrom(0, mAllocSize, buffer_int);
	mUInt2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_int);
	mUInt3Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_int);
	mUInt4Allocation->copy3DRangeFrom(0, 0, 0, 1, 1, 6, buffer_int);

	delete [] buffer_int;

	mULongAllocation->copy3DRangeFrom(0, 0, 0, 4, 3, 2, buffer_long);
	mULong2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_long);
	mULong3Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_long);
	mULong4Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_long);

	delete [] buffer_long;
	}

	void createFloatAllocations() {
	Type::Builder typeF16_3Builder(mRS, Element::F16_3(mRS));
	typeF16_3Builder.setX(1);
	typeF16_3Builder.setY(6);

	mHalfAllocation = Allocation::createSized(mRS, Element::F16(mRS), mAllocSize);
	mHalf2Allocation = Allocation::createSized(mRS, Element::F16_2(mRS), mAllocSize / 2);
	mHalf3Allocation = Allocation::createTyped(mRS, typeF16_3Builder.create());
	mHalf4Allocation = Allocation::createSized(mRS, Element::F16_4(mRS), mAllocSize / 4);

	Type::Builder typeF32_4Builder(mRS, Element::F32_4(mRS));
	typeF32_4Builder.setX(3);
	typeF32_4Builder.setY(2);

	mFloatAllocation = Allocation::createSized(mRS, Element::F32(mRS), mAllocSize);
	mFloat2Allocation = Allocation::createSized(mRS, Element::F32_2(mRS), mAllocSize / 2);
	mFloat3Allocation = Allocation::createSized(mRS, Element::F32_3(mRS), mAllocSize / 4);
	mFloat4Allocation = Allocation::createTyped(mRS, typeF32_4Builder.create());

	Type::Builder typeF64_2Builder(mRS, Element::F64_2(mRS));
	typeF64_2Builder.setX(4);
	typeF64_2Builder.setY(1);
	typeF64_2Builder.setZ(3);

	mDoubleAllocation = Allocation::createSized(mRS, Element::F64(mRS), mAllocSize);
	mDouble2Allocation = Allocation::createTyped(mRS, typeF64_2Builder.create());

	Type::Builder typeF64_3Builder(mRS, Element::F64_3(mRS));
	typeF64_3Builder.setX(1);
	typeF64_3Builder.setY(2);
	typeF64_3Builder.setZ(3);

	Type::Builder typeF64_4Builder(mRS, Element::F64_4(mRS));
	typeF64_4Builder.setX(1);
	typeF64_4Builder.setY(2);
	typeF64_4Builder.setZ(3);

	mDouble3Allocation = Allocation::createTyped(mRS, typeF64_3Builder.create());
	mDouble4Allocation = Allocation::createTyped(mRS, typeF64_4Builder.create());
	}

	void initFloatAllocations() {
	__fp16 *buffer_half = new __fp16[mAllocSize];
	float *buffer_float = new float[mAllocSize];
	double *buffer_double = new double[mAllocSize];

	for(int i = 0; i < mAllocSize; ++i) {
	buffer_half[i] = (__fp16) 1 / i;
	buffer_float[i] = (float) 1 / i;
	buffer_double[i] = (double) 1 / i;
	}

	mHalfAllocation->copy1DRangeFrom(0, mAllocSize, buffer_half);
	mHalf2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_half);
	mHalf3Allocation->copy2DRangeFrom(0, 0, 1, 6, buffer_half);
	mHalf4Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_half);

	delete [] buffer_half;

	mFloatAllocation->copy1DRangeFrom(0, mAllocSize, buffer_float);
	mFloat2Allocation->copy1DRangeFrom(0, mAllocSize/2, buffer_float);
	mFloat3Allocation->copy1DRangeFrom(0, mAllocSize/4, buffer_float);
	mFloat4Allocation->copy2DRangeFrom(0, 0, 3, 2, buffer_float);

	delete [] buffer_float;

	mDoubleAllocation->copy1DRangeFrom(0, mAllocSize, buffer_double);
	mDouble2Allocation->copy3DRangeFrom(0, 0, 0, 4, 1, 3, buffer_double);
	mDouble3Allocation->copy3DRangeFrom(0, 0, 0, 1, 2, 3, buffer_double);
	mDouble4Allocation->copy3DRangeFrom(0, 0, 0, 1, 2, 3, buffer_double);

	delete [] buffer_double;
	}

	int main()
	{
	mRS = new RS();

	mRS->init("/data/rscache", RS_INIT_LOW_LATENCY \| RS_INIT_WAIT_FOR_ATTACH);

	sp<ScriptC_allocs> mScript = new ScriptC_allocs(mRS);

	Type::Builder typeRGBA_888Builder(mRS, Element::RGBA_8888(mRS));
	typeRGBA_888Builder.setX(mBitmapSize);
	typeRGBA_888Builder.setY(mBitmapSize);

	sp<Allocation> mInAllocation = Allocation::createTyped(mRS, typeRGBA_888Builder.create());

	const int image_area = mBitmapSize*mBitmapSize;
	const int image_size = image_area*sizeof(int);

	char *zero_buffer = new char[image_size];
	memset(zero_buffer, 0, image_size);
	mInAllocation->copy1DRangeFrom(0, image_area, zero_buffer);
	delete [] zero_buffer;

	sp<Allocation> mOutAllocation = Allocation::createTyped(mRS, typeRGBA_888Builder.create());
	createSignedAllocations();
	initSignedAllocations();

	mRS->finish();
	mScript->forEach_swizzle_kernel(mInAllocation, mOutAllocation);
	mRS->finish();

	mCharAllocation.clear();
	mChar2Allocation.clear();
	mChar3Allocation.clear();
	mChar4Allocation.clear();

	mShort2Allocation.clear();
	mShort3Allocation.clear();
	mShort4Allocation.clear();

	mIntAllocation.clear();
	mInt2Allocation.clear();
	mInt3Allocation.clear();
	mInt4Allocation.clear();

	mLongAllocation.clear();
	mLong2Allocation.clear();
	mLong3Allocation.clear();
	mLong4Allocation.clear();

	mBoolAllocation.clear();

	createUnsignedAllocations();
	initUnsignedAllocations();

	mInAllocation = mUShortAllocation; // Host side assignment

	mRS->finish();
	mScript->forEach_square_kernel(mInAllocation, mUIntAllocation);
	mRS->finish();

	mUCharAllocation.clear();
	mUChar2Allocation.clear();
	mUChar3Allocation.clear();
	mUChar4Allocation.clear();

	mUShortAllocation.clear();
	mUShort2Allocation.clear();
	mUShort3Allocation.clear();
	mUShort4Allocation.clear();

	mUInt2Allocation.clear();
	mUInt3Allocation.clear();
	mUInt4Allocation.clear();

	mULongAllocation.clear();
	mULong2Allocation.clear();
	mULong3Allocation.clear();
	mULong4Allocation.clear();

	createFloatAllocations();
	initFloatAllocations();

	mRS->finish();
	mScript->forEach_add_half_kernel(mDouble4Allocation, mDouble3Allocation);
	mRS->finish();

	return 0;
	}