tests/src/android/renderscript/cts/vector.rs - platform/cts - Git at Google

 #include "shared.rsh"

 // Testing vector types
 float2 f2 = { 1.0f, 2.0f };
 float3 f3 = { 1.0f, 2.0f, 3.0f };
 float4 f4 = { 1.0f, 2.0f, 3.0f, 4.0f };

 double2 d2 = { 1.0, 2.0 };
 double3 d3 = { 1.0, 2.0, 3.0 };
 double4 d4 = { 1.0, 2.0, 3.0, 4.0 };

 char2 i8_2 = { 1, 2 };
 char3 i8_3 = { 1, 2, 3 };
 char4 i8_4 = { 1, 2, 3, 4 };

 uchar2 u8_2 = { 1, 2 };
 uchar3 u8_3 = { 1, 2, 3 };
 uchar4 u8_4 = { 1, 2, 3, 4 };

 short2 i16_2 = { 1, 2 };
 short3 i16_3 = { 1, 2, 3 };
 short4 i16_4 = { 1, 2, 3, 4 };

 ushort2 u16_2 = { 1, 2 };
 ushort3 u16_3 = { 1, 2, 3 };
 ushort4 u16_4 = { 1, 2, 3, 4 };

 int2 i32_2 = { 1, 2 };
 int3 i32_3 = { 1, 2, 3 };
 int4 i32_4 = { 1, 2, 3, 4 };

 uint2 u32_2 = { 1, 2 };
 uint3 u32_3 = { 1, 2, 3 };
 uint4 u32_4 = { 1, 2, 3, 4 };

 long2 i64_2 = { 1, 2 };
 long3 i64_3 = { 1, 2, 3 };
 long4 i64_4 = { 1, 2, 3, 4 };

 ulong2 u64_2 = { 1, 2 };
 ulong3 u64_3 = { 1, 2, 3 };
 ulong4 u64_4 = { 1, 2, 3, 4 };

 static bool test_vector_types() {
     bool failed = false;

     rsDebug("Testing F32", 0);
     _RS_ASSERT(f2.x == 2.99f);
     _RS_ASSERT(f2.y == 3.99f);

     _RS_ASSERT(f3.x == 2.99f);
     _RS_ASSERT(f3.y == 3.99f);
     _RS_ASSERT(f3.z == 4.99f);

     _RS_ASSERT(f4.x == 2.99f);
     _RS_ASSERT(f4.y == 3.99f);
     _RS_ASSERT(f4.z == 4.99f);
     _RS_ASSERT(f4.w == 5.99f);

     rsDebug("Testing F64", 0);
     _RS_ASSERT(d2.x == 2.99);
     _RS_ASSERT(d2.y == 3.99);

     _RS_ASSERT(d3.x == 2.99);
     _RS_ASSERT(d3.y == 3.99);
     _RS_ASSERT(d3.z == 4.99);

     _RS_ASSERT(d4.x == 2.99);
     _RS_ASSERT(d4.y == 3.99);
     _RS_ASSERT(d4.z == 4.99);
     _RS_ASSERT(d4.w == 5.99);

     rsDebug("Testing I8", 0);
     _RS_ASSERT(i8_2.x == 2);
     _RS_ASSERT(i8_2.y == 3);

     _RS_ASSERT(i8_3.x == 2);
     _RS_ASSERT(i8_3.y == 3);
     _RS_ASSERT(i8_3.z == 4);

     _RS_ASSERT(i8_4.x == 2);
     _RS_ASSERT(i8_4.y == 3);
     _RS_ASSERT(i8_4.z == 4);
     _RS_ASSERT(i8_4.w == 5);

     rsDebug("Testing U8", 0);
     _RS_ASSERT(u8_2.x == 2);
     _RS_ASSERT(u8_2.y == 3);

     _RS_ASSERT(u8_3.x == 2);
     _RS_ASSERT(u8_3.y == 3);
     _RS_ASSERT(u8_3.z == 4);

     _RS_ASSERT(u8_4.x == 2);
     _RS_ASSERT(u8_4.y == 3);
     _RS_ASSERT(u8_4.z == 4);
     _RS_ASSERT(u8_4.w == 5);

     rsDebug("Testing I16", 0);
     _RS_ASSERT(i16_2.x == 2);
     _RS_ASSERT(i16_2.y == 3);

     _RS_ASSERT(i16_3.x == 2);
     _RS_ASSERT(i16_3.y == 3);
     _RS_ASSERT(i16_3.z == 4);

     _RS_ASSERT(i16_4.x == 2);
     _RS_ASSERT(i16_4.y == 3);
     _RS_ASSERT(i16_4.z == 4);
     _RS_ASSERT(i16_4.w == 5);

     rsDebug("Testing U16", 0);
     _RS_ASSERT(u16_2.x == 2);
     _RS_ASSERT(u16_2.y == 3);

     _RS_ASSERT(u16_3.x == 2);
     _RS_ASSERT(u16_3.y == 3);
     _RS_ASSERT(u16_3.z == 4);

     _RS_ASSERT(u16_4.x == 2);
     _RS_ASSERT(u16_4.y == 3);
     _RS_ASSERT(u16_4.z == 4);
     _RS_ASSERT(u16_4.w == 5);

     rsDebug("Testing I32", 0);
     _RS_ASSERT(i32_2.x == 2);
     _RS_ASSERT(i32_2.y == 3);

     _RS_ASSERT(i32_3.x == 2);
     _RS_ASSERT(i32_3.y == 3);
     _RS_ASSERT(i32_3.z == 4);

     _RS_ASSERT(i32_4.x == 2);
     _RS_ASSERT(i32_4.y == 3);
     _RS_ASSERT(i32_4.z == 4);
     _RS_ASSERT(i32_4.w == 5);

     rsDebug("Testing U32", 0);
     _RS_ASSERT(u32_2.x == 2);
     _RS_ASSERT(u32_2.y == 3);

     _RS_ASSERT(u32_3.x == 2);
     _RS_ASSERT(u32_3.y == 3);
     _RS_ASSERT(u32_3.z == 4);

     _RS_ASSERT(u32_4.x == 2);
     _RS_ASSERT(u32_4.y == 3);
     _RS_ASSERT(u32_4.z == 4);
     _RS_ASSERT(u32_4.w == 5);

     rsDebug("Testing I64", 0);
     _RS_ASSERT(i64_2.x == 2);
     _RS_ASSERT(i64_2.y == 3);

     _RS_ASSERT(i64_3.x == 2);
     _RS_ASSERT(i64_3.y == 3);
     _RS_ASSERT(i64_3.z == 4);

     _RS_ASSERT(i64_4.x == 2);
     _RS_ASSERT(i64_4.y == 3);
     _RS_ASSERT(i64_4.z == 4);
     _RS_ASSERT(i64_4.w == 5);

     rsDebug("Testing U64", 0);
     _RS_ASSERT(u64_2.x == 2);
     _RS_ASSERT(u64_2.y == 3);

     _RS_ASSERT(u64_3.x == 2);
     _RS_ASSERT(u64_3.y == 3);
     _RS_ASSERT(u64_3.z == 4);

     _RS_ASSERT(u64_4.x == 2);
     _RS_ASSERT(u64_4.y == 3);
     _RS_ASSERT(u64_4.z == 4);
     _RS_ASSERT(u64_4.w == 5);

     if (failed) {
         rsDebug("test_vector FAILED", 0);
     }
     else {
         rsDebug("test_vector PASSED", 0);
     }

     return failed;
 }

 void vector_test() {
     bool failed = false;
     failed |= test_vector_types();

     if (failed) {
         rsSendToClientBlocking(RS_MSG_TEST_FAILED);
     }
     else {
         rsSendToClientBlocking(RS_MSG_TEST_PASSED);
     }
 }
	#include "shared.rsh"

	// Testing vector types
	float2 f2 = { 1.0f, 2.0f };
	float3 f3 = { 1.0f, 2.0f, 3.0f };
	float4 f4 = { 1.0f, 2.0f, 3.0f, 4.0f };

	double2 d2 = { 1.0, 2.0 };
	double3 d3 = { 1.0, 2.0, 3.0 };
	double4 d4 = { 1.0, 2.0, 3.0, 4.0 };

	char2 i8_2 = { 1, 2 };
	char3 i8_3 = { 1, 2, 3 };
	char4 i8_4 = { 1, 2, 3, 4 };

	uchar2 u8_2 = { 1, 2 };
	uchar3 u8_3 = { 1, 2, 3 };
	uchar4 u8_4 = { 1, 2, 3, 4 };

	short2 i16_2 = { 1, 2 };
	short3 i16_3 = { 1, 2, 3 };
	short4 i16_4 = { 1, 2, 3, 4 };

	ushort2 u16_2 = { 1, 2 };
	ushort3 u16_3 = { 1, 2, 3 };
	ushort4 u16_4 = { 1, 2, 3, 4 };

	int2 i32_2 = { 1, 2 };
	int3 i32_3 = { 1, 2, 3 };
	int4 i32_4 = { 1, 2, 3, 4 };

	uint2 u32_2 = { 1, 2 };
	uint3 u32_3 = { 1, 2, 3 };
	uint4 u32_4 = { 1, 2, 3, 4 };

	long2 i64_2 = { 1, 2 };
	long3 i64_3 = { 1, 2, 3 };
	long4 i64_4 = { 1, 2, 3, 4 };

	ulong2 u64_2 = { 1, 2 };
	ulong3 u64_3 = { 1, 2, 3 };
	ulong4 u64_4 = { 1, 2, 3, 4 };

	static bool test_vector_types() {
	bool failed = false;

	rsDebug("Testing F32", 0);
	_RS_ASSERT(f2.x == 2.99f);
	_RS_ASSERT(f2.y == 3.99f);

	_RS_ASSERT(f3.x == 2.99f);
	_RS_ASSERT(f3.y == 3.99f);
	_RS_ASSERT(f3.z == 4.99f);

	_RS_ASSERT(f4.x == 2.99f);
	_RS_ASSERT(f4.y == 3.99f);
	_RS_ASSERT(f4.z == 4.99f);
	_RS_ASSERT(f4.w == 5.99f);

	rsDebug("Testing F64", 0);
	_RS_ASSERT(d2.x == 2.99);
	_RS_ASSERT(d2.y == 3.99);

	_RS_ASSERT(d3.x == 2.99);
	_RS_ASSERT(d3.y == 3.99);
	_RS_ASSERT(d3.z == 4.99);

	_RS_ASSERT(d4.x == 2.99);
	_RS_ASSERT(d4.y == 3.99);
	_RS_ASSERT(d4.z == 4.99);
	_RS_ASSERT(d4.w == 5.99);

	rsDebug("Testing I8", 0);
	_RS_ASSERT(i8_2.x == 2);
	_RS_ASSERT(i8_2.y == 3);

	_RS_ASSERT(i8_3.x == 2);
	_RS_ASSERT(i8_3.y == 3);
	_RS_ASSERT(i8_3.z == 4);

	_RS_ASSERT(i8_4.x == 2);
	_RS_ASSERT(i8_4.y == 3);
	_RS_ASSERT(i8_4.z == 4);
	_RS_ASSERT(i8_4.w == 5);

	rsDebug("Testing U8", 0);
	_RS_ASSERT(u8_2.x == 2);
	_RS_ASSERT(u8_2.y == 3);

	_RS_ASSERT(u8_3.x == 2);
	_RS_ASSERT(u8_3.y == 3);
	_RS_ASSERT(u8_3.z == 4);

	_RS_ASSERT(u8_4.x == 2);
	_RS_ASSERT(u8_4.y == 3);
	_RS_ASSERT(u8_4.z == 4);
	_RS_ASSERT(u8_4.w == 5);

	rsDebug("Testing I16", 0);
	_RS_ASSERT(i16_2.x == 2);
	_RS_ASSERT(i16_2.y == 3);

	_RS_ASSERT(i16_3.x == 2);
	_RS_ASSERT(i16_3.y == 3);
	_RS_ASSERT(i16_3.z == 4);

	_RS_ASSERT(i16_4.x == 2);
	_RS_ASSERT(i16_4.y == 3);
	_RS_ASSERT(i16_4.z == 4);
	_RS_ASSERT(i16_4.w == 5);

	rsDebug("Testing U16", 0);
	_RS_ASSERT(u16_2.x == 2);
	_RS_ASSERT(u16_2.y == 3);

	_RS_ASSERT(u16_3.x == 2);
	_RS_ASSERT(u16_3.y == 3);
	_RS_ASSERT(u16_3.z == 4);

	_RS_ASSERT(u16_4.x == 2);
	_RS_ASSERT(u16_4.y == 3);
	_RS_ASSERT(u16_4.z == 4);
	_RS_ASSERT(u16_4.w == 5);

	rsDebug("Testing I32", 0);
	_RS_ASSERT(i32_2.x == 2);
	_RS_ASSERT(i32_2.y == 3);

	_RS_ASSERT(i32_3.x == 2);
	_RS_ASSERT(i32_3.y == 3);
	_RS_ASSERT(i32_3.z == 4);

	_RS_ASSERT(i32_4.x == 2);
	_RS_ASSERT(i32_4.y == 3);
	_RS_ASSERT(i32_4.z == 4);
	_RS_ASSERT(i32_4.w == 5);

	rsDebug("Testing U32", 0);
	_RS_ASSERT(u32_2.x == 2);
	_RS_ASSERT(u32_2.y == 3);

	_RS_ASSERT(u32_3.x == 2);
	_RS_ASSERT(u32_3.y == 3);
	_RS_ASSERT(u32_3.z == 4);

	_RS_ASSERT(u32_4.x == 2);
	_RS_ASSERT(u32_4.y == 3);
	_RS_ASSERT(u32_4.z == 4);
	_RS_ASSERT(u32_4.w == 5);

	rsDebug("Testing I64", 0);
	_RS_ASSERT(i64_2.x == 2);
	_RS_ASSERT(i64_2.y == 3);

	_RS_ASSERT(i64_3.x == 2);
	_RS_ASSERT(i64_3.y == 3);
	_RS_ASSERT(i64_3.z == 4);

	_RS_ASSERT(i64_4.x == 2);
	_RS_ASSERT(i64_4.y == 3);
	_RS_ASSERT(i64_4.z == 4);
	_RS_ASSERT(i64_4.w == 5);

	rsDebug("Testing U64", 0);
	_RS_ASSERT(u64_2.x == 2);
	_RS_ASSERT(u64_2.y == 3);

	_RS_ASSERT(u64_3.x == 2);
	_RS_ASSERT(u64_3.y == 3);
	_RS_ASSERT(u64_3.z == 4);

	_RS_ASSERT(u64_4.x == 2);
	_RS_ASSERT(u64_4.y == 3);
	_RS_ASSERT(u64_4.z == 4);
	_RS_ASSERT(u64_4.w == 5);

	if (failed) {
	rsDebug("test_vector FAILED", 0);
	}
	else {
	rsDebug("test_vector PASSED", 0);
	}

	return failed;
	}

	void vector_test() {
	bool failed = false;
	failed \|= test_vector_types();

	if (failed) {
	rsSendToClientBlocking(RS_MSG_TEST_FAILED);
	}
	else {
	rsSendToClientBlocking(RS_MSG_TEST_PASSED);
	}
	}