external/vulkancts/modules/vulkan/sparse_resources/vktSparseResourcesShaderIntrinsicsStorage.cpp \
external/vulkancts/modules/vulkan/sparse_resources/vktSparseResourcesTests.cpp \
external/vulkancts/modules/vulkan/sparse_resources/vktSparseResourcesTestsUtil.cpp \
+ external/vulkancts/modules/vulkan/spirv_assembly/vktSpvAsm16bitStorageTests.cpp \
external/vulkancts/modules/vulkan/spirv_assembly/vktSpvAsmComputeShaderCase.cpp \
external/vulkancts/modules/vulkan/spirv_assembly/vktSpvAsmComputeShaderTestUtil.cpp \
external/vulkancts/modules/vulkan/spirv_assembly/vktSpvAsmGraphicsShaderTestUtil.cpp \
dEQP-VK.spirv_assembly.instruction.compute.shader_default_output.uint.uninitialized
dEQP-VK.spirv_assembly.instruction.compute.shader_default_output.float.initialized
dEQP-VK.spirv_assembly.instruction.compute.shader_default_output.float.uninitialized
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+dEQP-VK.spirv_assembly.instruction.compute.16bit_storage.push_constant_16_to_32.scalar_float
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+dEQP-VK.spirv_assembly.instruction.compute.16bit_storage.push_constant_16_to_32.vector_uint
dEQP-VK.spirv_assembly.instruction.graphics.opnop.opnop_vert
dEQP-VK.spirv_assembly.instruction.graphics.opnop.opnop_tessc
dEQP-VK.spirv_assembly.instruction.graphics.opnop.opnop_tesse
dEQP-VK.spirv_assembly.instruction.graphics.frem.frem_tesse
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dEQP-VK.spirv_assembly.instruction.graphics.frem.frem_frag
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+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint0_tesse
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint0_geom
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint0_frag
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint1_vert
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint1_tessc
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint1_tesse
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint1_geom
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint1_frag
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint2_vert
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint2_tessc
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint2_tesse
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint2_geom
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint2_frag
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint3_vert
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint3_tessc
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint3_tesse
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint3_geom
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_sint3_frag
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint0_vert
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint0_tessc
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint0_tesse
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint0_geom
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint0_frag
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint1_vert
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint1_tessc
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint1_tesse
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint1_geom
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint1_frag
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint2_vert
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint2_tessc
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint2_tesse
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint2_geom
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint2_frag
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint3_vert
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint3_tessc
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint3_tesse
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint3_geom
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.input_output_int_16_to_32.vector_uint3_frag
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_float_16_to_32.scalar_vert
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_float_16_to_32.scalar_tessc
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_float_16_to_32.scalar_tesse
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_float_16_to_32.scalar_geom
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_float_16_to_32.scalar_frag
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_float_16_to_32.vector_vert
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_float_16_to_32.vector_tessc
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_float_16_to_32.vector_tesse
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_float_16_to_32.vector_geom
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_float_16_to_32.vector_frag
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_float_16_to_32.matrix_vert
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_float_16_to_32.matrix_tessc
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_float_16_to_32.matrix_tesse
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_float_16_to_32.matrix_geom
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_float_16_to_32.matrix_frag
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.sint_scalar_vert
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.sint_scalar_tessc
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.sint_scalar_tesse
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.sint_scalar_geom
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.sint_scalar_frag
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.uint_scalar_vert
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.uint_scalar_tessc
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.uint_scalar_tesse
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.uint_scalar_geom
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.uint_scalar_frag
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.sint_vector_vert
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.sint_vector_tessc
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.sint_vector_tesse
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.sint_vector_geom
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.sint_vector_frag
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.uint_vector_vert
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.uint_vector_tessc
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.uint_vector_tesse
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.uint_vector_geom
+dEQP-VK.spirv_assembly.instruction.graphics.16bit_storage.push_constant_int_16_to_32.uint_vector_frag
dEQP-VK.glsl.arrays.constructor.float3_vertex
dEQP-VK.glsl.arrays.constructor.float3_fragment
dEQP-VK.glsl.arrays.constructor.float4_vertex
"VK_KHR_incremental_present",
"VK_KHR_shared_presentable_image",
"VK_KHR_storage_buffer_storage_class",
+ "VK_KHR_16bit_storage",
};
checkKhrExtensions(results, extensions, DE_LENGTH_OF_ARRAY(s_allowedDeviceKhrExtensions), s_allowedDeviceKhrExtensions);
include_directories(..)
set(DEQP_VK_SPIRV_ASSEMBLY_SRCS
+ vktSpvAsm16bitStorageTests.cpp
+ vktSpvAsm16bitStorageTests.hpp
vktSpvAsmComputeShaderCase.cpp
vktSpvAsmComputeShaderCase.hpp
vktSpvAsmComputeShaderTestUtil.cpp
--- /dev/null
+/*-------------------------------------------------------------------------
+ * Vulkan Conformance Tests
+ * ------------------------
+ *
+ * Copyright (c) 2017 Google Inc.
+ *
+ * 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.
+ *
+ *//*!
+ * \file
+ * \brief SPIR-V Assembly Tests for the VK_KHR_16bit_storage
+ *//*--------------------------------------------------------------------*/
+
+// VK_KHR_16bit_storage
+//
+// \todo [2017-02-08 antiagainst] Additional corner cases to check:
+//
+// * Test OpAccessChain with subword types
+// * For newly enabled types T:
+// * For composite types: vector, matrix, structures, array over T:
+// 1. Use OpAccessChain to form a pointer to a subword type.
+// 2. Load the subword value X16.
+// 3. Convert X16 to X32.
+// 4. Store X32 to BufferBlock.
+// 5. Host inspects X32.
+// * Test {StorageInputOutput16} 16-to-16:
+// * For newly enabled types T:
+// 1. Host creates X16 stream values of type T.
+// 2. Shaders have corresponding capability.
+// 3. For each viable shader stage:
+// 3a. Load X16 Input variable.
+// 3b. Store X16 to Output variable.
+// 4. Host inspects resulting values.
+// * Test {StorageInputOutput16} 16-to-16 one value to two:
+// Like the previous test, but write X16 to two different output variables.
+// (Checks that the 16-bit intermediate value can be used twice.)
+
+#include "vktSpvAsm16bitStorageTests.hpp"
+
+#include "tcuFloat.hpp"
+#include "tcuRGBA.hpp"
+#include "tcuStringTemplate.hpp"
+#include "tcuTestLog.hpp"
+#include "tcuVectorUtil.hpp"
+
+#include "vkDefs.hpp"
+#include "vkDeviceUtil.hpp"
+#include "vkMemUtil.hpp"
+#include "vkPlatform.hpp"
+#include "vkPrograms.hpp"
+#include "vkQueryUtil.hpp"
+#include "vkRef.hpp"
+#include "vkRefUtil.hpp"
+#include "vkStrUtil.hpp"
+#include "vkTypeUtil.hpp"
+
+#include "deRandom.hpp"
+#include "deStringUtil.hpp"
+#include "deUniquePtr.hpp"
+#include "deMath.h"
+
+#include "vktSpvAsmComputeShaderCase.hpp"
+#include "vktSpvAsmComputeShaderTestUtil.hpp"
+#include "vktSpvAsmGraphicsShaderTestUtil.hpp"
+#include "vktTestCaseUtil.hpp"
+#include "vktTestGroupUtil.hpp"
+
+#include <limits>
+#include <map>
+#include <string>
+#include <sstream>
+#include <utility>
+
+namespace vkt
+{
+namespace SpirVAssembly
+{
+
+using namespace vk;
+using std::map;
+using std::string;
+using std::vector;
+using tcu::IVec3;
+using tcu::IVec4;
+using tcu::RGBA;
+using tcu::TestLog;
+using tcu::TestStatus;
+using tcu::Vec4;
+using de::UniquePtr;
+using tcu::StringTemplate;
+using tcu::Vec4;
+
+namespace
+{
+
+struct Capability
+{
+ const char* name;
+ const char* cap;
+ const char* decor;
+ vk::VkDescriptorType dtype;
+};
+
+static const Capability CAPABILITIES[] =
+{
+ {"uniform_buffer_block", "StorageUniformBufferBlock16", "BufferBlock", VK_DESCRIPTOR_TYPE_STORAGE_BUFFER},
+ {"uniform", "StorageUniform16", "Block", VK_DESCRIPTOR_TYPE_UNIFORM_BUFFER},
+};
+
+ExtensionFeatures get16BitStorageFeatures (const char* cap)
+{
+ if (string(cap) == "uniform_buffer_block")
+ return ExtensionFeatures(EXT16BITSTORAGEFEATURES_UNIFORM_BUFFER_BLOCK);
+
+ if (string(cap) == "uniform")
+ return ExtensionFeatures(EXT16BITSTORAGEFEATURES_UNIFORM);
+
+ DE_ASSERT(false && "not supported");
+ return ExtensionFeatures(0);
+}
+
+
+// Batch function to check arrays of 16-bit floats.
+//
+// For comparing 16-bit floats, we need to consider both RTZ and RTE. So we can only recalculate
+// the expected values here instead of get the expected values directly from the test case.
+// Thus we need original floats here but not expected outputs.
+template<RoundingModeFlags RoundingMode>
+bool graphicsCheck16BitFloats (const std::vector<Resource>& originalFloats,
+ const vector<AllocationSp>& outputAllocs,
+ const std::vector<Resource>& /* expectedOutputs */,
+ tcu::TestLog& log)
+{
+ if (outputAllocs.size() != originalFloats.size())
+ return false;
+
+ for (deUint32 outputNdx = 0; outputNdx < outputAllocs.size(); ++outputNdx)
+ {
+ const deUint16* returned = static_cast<const deUint16*>(outputAllocs[outputNdx]->getHostPtr());
+ const float* original = static_cast<const float*>(originalFloats[outputNdx].second->data());
+ const deUint32 count = static_cast<deUint32>(originalFloats[outputNdx].second->getNumBytes() / sizeof(float));
+
+ for (deUint32 numNdx = 0; numNdx < count; ++numNdx)
+ if (!compare16BitFloat(original[numNdx], returned[numNdx], RoundingMode, log))
+ return false;
+ }
+
+ return true;
+}
+
+template<RoundingModeFlags RoundingMode>
+bool computeCheck16BitFloats (const std::vector<BufferSp>& originalFloats,
+ const vector<AllocationSp>& outputAllocs,
+ const std::vector<BufferSp>& /* expectedOutputs */,
+ tcu::TestLog& log)
+{
+ if (outputAllocs.size() != originalFloats.size())
+ return false;
+
+ for (deUint32 outputNdx = 0; outputNdx < outputAllocs.size(); ++outputNdx)
+ {
+ const deUint16* returned = static_cast<const deUint16*>(outputAllocs[outputNdx]->getHostPtr());
+ const float* original = static_cast<const float*>(originalFloats[outputNdx]->data());
+ const deUint32 count = static_cast<deUint32>(originalFloats[outputNdx]->getNumBytes() / sizeof(float));
+
+ for (deUint32 numNdx = 0; numNdx < count; ++numNdx)
+ if (!compare16BitFloat(original[numNdx], returned[numNdx], RoundingMode, log))
+ return false;
+ }
+
+ return true;
+}
+
+
+// Batch function to check arrays of 32-bit floats.
+//
+// For comparing 32-bit floats, we just need the expected value precomputed in the test case.
+// So we need expected outputs here but not original floats.
+bool check32BitFloats (const std::vector<Resource>& /* originalFloats */,
+ const std::vector<AllocationSp>& outputAllocs,
+ const std::vector<Resource>& expectedOutputs,
+ tcu::TestLog& log)
+{
+ if (outputAllocs.size() != expectedOutputs.size())
+ return false;
+
+ for (deUint32 outputNdx = 0; outputNdx < outputAllocs.size(); ++outputNdx)
+ {
+ const float* returnedAsFloat = static_cast<const float*>(outputAllocs[outputNdx]->getHostPtr());
+ const float* expectedAsFloat = static_cast<const float*>(expectedOutputs[outputNdx].second->data());
+ const deUint32 count = static_cast<deUint32>(expectedOutputs[outputNdx].second->getNumBytes() / sizeof(float));
+
+ for (deUint32 numNdx = 0; numNdx < count; ++numNdx)
+ if (!compare32BitFloat(expectedAsFloat[numNdx], returnedAsFloat[numNdx], log))
+ return false;
+ }
+
+ return true;
+}
+
+// Overload for compute pipeline
+bool check32BitFloats (const std::vector<BufferSp>& /* originalFloats */,
+ const std::vector<AllocationSp>& outputAllocs,
+ const std::vector<BufferSp>& expectedOutputs,
+ tcu::TestLog& log)
+{
+ if (outputAllocs.size() != expectedOutputs.size())
+ return false;
+
+ for (deUint32 outputNdx = 0; outputNdx < outputAllocs.size(); ++outputNdx)
+ {
+ const float* returnedAsFloat = static_cast<const float*>(outputAllocs[outputNdx]->getHostPtr());
+ const float* expectedAsFloat = static_cast<const float*>(expectedOutputs[outputNdx]->data());
+ const deUint32 count = static_cast<deUint32>(expectedOutputs[outputNdx]->getNumBytes() / sizeof(float));
+
+ for (deUint32 numNdx = 0; numNdx < count; ++numNdx)
+ if (!compare32BitFloat(expectedAsFloat[numNdx], returnedAsFloat[numNdx], log))
+ return false;
+ }
+
+ return true;
+}
+
+// Generate and return 32-bit integers.
+//
+// Expected count to be at least 16.
+vector<deInt32> getInt32s (de::Random& rnd, const deUint32 count)
+{
+ vector<deInt32> data;
+
+ data.reserve(count);
+
+ // Make sure we have boundary numbers.
+ data.push_back(deInt32(0x00000000)); // 0
+ data.push_back(deInt32(0x00000001)); // 1
+ data.push_back(deInt32(0x0000002a)); // 42
+ data.push_back(deInt32(0x00007fff)); // 32767
+ data.push_back(deInt32(0x00008000)); // 32768
+ data.push_back(deInt32(0x0000ffff)); // 65535
+ data.push_back(deInt32(0x00010000)); // 65536
+ data.push_back(deInt32(0x7fffffff)); // 2147483647
+ data.push_back(deInt32(0x80000000)); // -2147483648
+ data.push_back(deInt32(0x80000001)); // -2147483647
+ data.push_back(deInt32(0xffff0000)); // -65536
+ data.push_back(deInt32(0xffff0001)); // -65535
+ data.push_back(deInt32(0xffff8000)); // -32768
+ data.push_back(deInt32(0xffff8001)); // -32767
+ data.push_back(deInt32(0xffffffd6)); // -42
+ data.push_back(deInt32(0xffffffff)); // -1
+
+ DE_ASSERT(count >= data.size());
+
+ for (deUint32 numNdx = static_cast<deUint32>(data.size()); numNdx < count; ++numNdx)
+ data.push_back(static_cast<deInt32>(rnd.getUint32()));
+
+ return data;
+}
+
+// Generate and return 16-bit integers.
+//
+// Expected count to be at least 8.
+vector<deInt16> getInt16s (de::Random& rnd, const deUint32 count)
+{
+ vector<deInt16> data;
+
+ data.reserve(count);
+
+ // Make sure we have boundary numbers.
+ data.push_back(deInt16(0x0000)); // 0
+ data.push_back(deInt16(0x0001)); // 1
+ data.push_back(deInt16(0x002a)); // 42
+ data.push_back(deInt16(0x7fff)); // 32767
+ data.push_back(deInt16(0x8000)); // -32868
+ data.push_back(deInt16(0x8001)); // -32767
+ data.push_back(deInt16(0xffd6)); // -42
+ data.push_back(deInt16(0xffff)); // -1
+
+ DE_ASSERT(count >= data.size());
+
+ for (deUint32 numNdx = static_cast<deUint32>(data.size()); numNdx < count; ++numNdx)
+ data.push_back(static_cast<deInt16>(rnd.getUint16()));
+
+ return data;
+}
+
+// IEEE-754 floating point numbers:
+// +--------+------+----------+-------------+
+// | binary | sign | exponent | significand |
+// +--------+------+----------+-------------+
+// | 16-bit | 1 | 5 | 10 |
+// +--------+------+----------+-------------+
+// | 32-bit | 1 | 8 | 23 |
+// +--------+------+----------+-------------+
+//
+// 16-bit floats:
+//
+// 0 000 00 00 0000 0001 (0x0001: 2e-24: minimum positive denormalized)
+// 0 000 00 11 1111 1111 (0x03ff: 2e-14 - 2e-24: maximum positive denormalized)
+// 0 000 01 00 0000 0000 (0x0400: 2e-14: minimum positive normalized)
+//
+// 32-bit floats:
+//
+// 0 011 1110 1 001 0000 0000 0000 0000 0000 (0x3e900000: 0.28125: with exact match in 16-bit normalized)
+// 0 011 1000 1 000 0000 0011 0000 0000 0000 (0x38803000: exact half way within two 16-bit normalized; round to zero: 0x0401)
+// 1 011 1000 1 000 0000 0011 0000 0000 0000 (0xb8803000: exact half way within two 16-bit normalized; round to zero: 0x8402)
+// 0 011 1000 1 000 0000 1111 1111 0000 0000 (0x3880ff00: not exact half way within two 16-bit normalized; round to zero: 0x0403)
+// 1 011 1000 1 000 0000 1111 1111 0000 0000 (0xb880ff00: not exact half way within two 16-bit normalized; round to zero: 0x8404)
+
+
+// Generate and return 32-bit floats
+//
+// The first 24 number pairs are manually picked, while the rest are randomly generated.
+// Expected count to be at least 24 (numPicks).
+vector<float> getFloat32s (de::Random& rnd, deUint32 count)
+{
+ vector<float> float32;
+
+ float32.reserve(count);
+
+ // Zero
+ float32.push_back(0.f);
+ float32.push_back(-0.f);
+ // Infinity
+ float32.push_back(std::numeric_limits<float>::infinity());
+ float32.push_back(-std::numeric_limits<float>::infinity());
+ // SNaN
+ float32.push_back(std::numeric_limits<float>::signaling_NaN());
+ float32.push_back(-std::numeric_limits<float>::signaling_NaN());
+ // QNaN
+ float32.push_back(std::numeric_limits<float>::quiet_NaN());
+ float32.push_back(-std::numeric_limits<float>::quiet_NaN());
+
+ // Denormalized 32-bit float matching 0 in 16-bit
+ float32.push_back(deFloatLdExp(1.f, -127));
+ float32.push_back(-deFloatLdExp(1.f, -127));
+
+ // Normalized 32-bit float matching 0 in 16-bit
+ float32.push_back(deFloatLdExp(1.f, -100));
+ float32.push_back(-deFloatLdExp(1.f, -100));
+ // Normalized 32-bit float with exact denormalized match in 16-bit
+ float32.push_back(deFloatLdExp(1.f, -24)); // 2e-24: minimum 16-bit positive denormalized
+ float32.push_back(-deFloatLdExp(1.f, -24)); // 2e-24: maximum 16-bit negative denormalized
+ // Normalized 32-bit float with exact normalized match in 16-bit
+ float32.push_back(deFloatLdExp(1.f, -14)); // 2e-14: minimum 16-bit positive normalized
+ float32.push_back(-deFloatLdExp(1.f, -14)); // 2e-14: maximum 16-bit negative normalized
+ // Normalized 32-bit float falling above half way within two 16-bit normalized
+ float32.push_back(bitwiseCast<float>(deUint32(0x3880ff00)));
+ float32.push_back(bitwiseCast<float>(deUint32(0xb880ff00)));
+ // Normalized 32-bit float falling exact half way within two 16-bit normalized
+ float32.push_back(bitwiseCast<float>(deUint32(0x38803000)));
+ float32.push_back(bitwiseCast<float>(deUint32(0xb8803000)));
+ // Some number
+ float32.push_back(0.28125f);
+ float32.push_back(-0.28125f);
+ // Normalized 32-bit float matching infinity in 16-bit
+ float32.push_back(deFloatLdExp(1.f, 100));
+ float32.push_back(-deFloatLdExp(1.f, 100));
+
+ const deUint32 numPicks = static_cast<deUint32>(float32.size());
+
+ DE_ASSERT(count >= numPicks);
+ count -= numPicks;
+
+ for (deUint32 numNdx = 0; numNdx < count; ++numNdx)
+ float32.push_back(rnd.getFloat());
+
+ return float32;
+}
+
+// IEEE-754 floating point numbers:
+// +--------+------+----------+-------------+
+// | binary | sign | exponent | significand |
+// +--------+------+----------+-------------+
+// | 16-bit | 1 | 5 | 10 |
+// +--------+------+----------+-------------+
+// | 32-bit | 1 | 8 | 23 |
+// +--------+------+----------+-------------+
+//
+// 16-bit floats:
+//
+// 0 000 00 00 0000 0001 (0x0001: 2e-24: minimum positive denormalized)
+// 0 000 00 11 1111 1111 (0x03ff: 2e-14 - 2e-24: maximum positive denormalized)
+// 0 000 01 00 0000 0000 (0x0400: 2e-14: minimum positive normalized)
+//
+// 0 000 00 00 0000 0000 (0x0000: +0)
+// 0 111 11 00 0000 0000 (0x7c00: +Inf)
+// 0 000 00 11 1111 0000 (0x03f0: +Denorm)
+// 0 000 01 00 0000 0001 (0x0401: +Norm)
+// 0 111 11 00 0000 1111 (0x7c0f: +SNaN)
+// 0 111 11 00 1111 0000 (0x7c0f: +QNaN)
+
+
+// Generate and return 16-bit floats and their corresponding 32-bit values.
+//
+// The first 14 number pairs are manually picked, while the rest are randomly generated.
+// Expected count to be at least 14 (numPicks).
+vector<deFloat16> getFloat16s (de::Random& rnd, deUint32 count)
+{
+ vector<deFloat16> float16;
+
+ float16.reserve(count);
+
+ // Zero
+ float16.push_back(deUint16(0x0000));
+ float16.push_back(deUint16(0x8000));
+ // Infinity
+ float16.push_back(deUint16(0x7c00));
+ float16.push_back(deUint16(0xfc00));
+ // SNaN
+ float16.push_back(deUint16(0x7c0f));
+ float16.push_back(deUint16(0xfc0f));
+ // QNaN
+ float16.push_back(deUint16(0x7cf0));
+ float16.push_back(deUint16(0xfcf0));
+
+ // Denormalized
+ float16.push_back(deUint16(0x03f0));
+ float16.push_back(deUint16(0x83f0));
+ // Normalized
+ float16.push_back(deUint16(0x0401));
+ float16.push_back(deUint16(0x8401));
+ // Some normal number
+ float16.push_back(deUint16(0x14cb));
+ float16.push_back(deUint16(0x94cb));
+
+ const deUint32 numPicks = static_cast<deUint32>(float16.size());
+
+ DE_ASSERT(count >= numPicks);
+ count -= numPicks;
+
+ for (deUint32 numIdx = 0; numIdx < count; ++numIdx)
+ float16.push_back(rnd.getUint16());
+
+ return float16;
+}
+
+void addCompute16bitStorageUniform16To32Group (tcu::TestCaseGroup* group)
+{
+ tcu::TestContext& testCtx = group->getTestContext();
+ de::Random rnd (deStringHash(group->getName()));
+ const int numElements = 128;
+
+ const StringTemplate shaderTemplate (
+ "OpCapability Shader\n"
+ "OpCapability ${capability}\n"
+ "OpExtension \"SPV_KHR_16bit_storage\"\n"
+ "OpMemoryModel Logical GLSL450\n"
+ "OpEntryPoint GLCompute %main \"main\" %id\n"
+ "OpExecutionMode %main LocalSize 1 1 1\n"
+ "OpDecorate %id BuiltIn GlobalInvocationId\n"
+
+ "${stride}"
+
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpMemberDecorate %SSBO16 0 Offset 0\n"
+ "OpDecorate %SSBO32 BufferBlock\n"
+ "OpDecorate %SSBO16 ${storage}\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo16 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 1\n"
+ "OpDecorate %ssbo16 Binding 0\n"
+
+ "${matrix_decor:opt}\n"
+
+ "%bool = OpTypeBool\n"
+ "%void = OpTypeVoid\n"
+ "%voidf = OpTypeFunction %void\n"
+ "%u32 = OpTypeInt 32 0\n"
+ "%i32 = OpTypeInt 32 1\n"
+ "%f32 = OpTypeFloat 32\n"
+ "%uvec3 = OpTypeVector %u32 3\n"
+ "%fvec3 = OpTypeVector %f32 3\n"
+ "%uvec3ptr = OpTypePointer Input %uvec3\n"
+ "%i32ptr = OpTypePointer Uniform %i32\n"
+ "%f32ptr = OpTypePointer Uniform %f32\n"
+
+ "%zero = OpConstant %i32 0\n"
+ "%c_i32_1 = OpConstant %i32 1\n"
+ "%c_i32_2 = OpConstant %i32 2\n"
+ "%c_i32_3 = OpConstant %i32 3\n"
+ "%c_i32_16 = OpConstant %i32 16\n"
+ "%c_i32_32 = OpConstant %i32 32\n"
+ "%c_i32_64 = OpConstant %i32 64\n"
+ "%c_i32_128 = OpConstant %i32 128\n"
+
+ "%i32arr = OpTypeArray %i32 %c_i32_128\n"
+ "%f32arr = OpTypeArray %f32 %c_i32_128\n"
+
+ "${types}\n"
+ "${matrix_types:opt}\n"
+
+ "%SSBO32 = OpTypeStruct %${matrix_prefix:opt}${base32}arr\n"
+ "%SSBO16 = OpTypeStruct %${matrix_prefix:opt}${base16}arr\n"
+ "%up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ "%up_SSBO16 = OpTypePointer Uniform %SSBO16\n"
+ "%ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ "%ssbo16 = OpVariable %up_SSBO16 Uniform\n"
+
+ "%id = OpVariable %uvec3ptr Input\n"
+
+ "%main = OpFunction %void None %voidf\n"
+ "%label = OpLabel\n"
+ "%idval = OpLoad %uvec3 %id\n"
+ "%x = OpCompositeExtract %u32 %idval 0\n"
+ "%inloc = OpAccessChain %${base16}ptr %ssbo16 %zero %x ${index0:opt}\n"
+ "%val16 = OpLoad %${base16} %inloc\n"
+ "%val32 = ${convert} %${base32} %val16\n"
+ "%outloc = OpAccessChain %${base32}ptr %ssbo32 %zero %x ${index0:opt}\n"
+ " OpStore %outloc %val32\n"
+ "${matrix_store:opt}\n"
+ " OpReturn\n"
+ " OpFunctionEnd\n");
+
+ { // floats
+ const char floatTypes[] =
+ "%f16 = OpTypeFloat 16\n"
+ "%f16ptr = OpTypePointer Uniform %f16\n"
+ "%f16arr = OpTypeArray %f16 %c_i32_128\n"
+ "%v2f16 = OpTypeVector %f16 2\n"
+ "%v2f32 = OpTypeVector %f32 2\n"
+ "%v2f16ptr = OpTypePointer Uniform %v2f16\n"
+ "%v2f32ptr = OpTypePointer Uniform %v2f32\n"
+ "%v2f16arr = OpTypeArray %v2f16 %c_i32_64\n"
+ "%v2f32arr = OpTypeArray %v2f32 %c_i32_64\n";
+
+ struct CompositeType
+ {
+ const char* name;
+ const char* base32;
+ const char* base16;
+ const char* stride;
+ unsigned count;
+ };
+
+ const CompositeType cTypes[] =
+ {
+ {"scalar", "f32", "f16", "OpDecorate %f32arr ArrayStride 4\nOpDecorate %f16arr ArrayStride 2\n", numElements},
+ {"vector", "v2f32", "v2f16", "OpDecorate %v2f32arr ArrayStride 8\nOpDecorate %v2f16arr ArrayStride 4\n", numElements / 2},
+ {"matrix", "v2f32", "v2f16", "OpDecorate %m4v2f32arr ArrayStride 32\nOpDecorate %m4v2f16arr ArrayStride 16\n", numElements / 8},
+ };
+
+ vector<deFloat16> float16Data = getFloat16s(rnd, numElements);
+ vector<float> float32Data;
+
+ float32Data.reserve(numElements);
+ for (deUint32 numIdx = 0; numIdx < numElements; ++numIdx)
+ float32Data.push_back(deFloat16To32(float16Data[numIdx]));
+
+ for (deUint32 capIdx = 0; capIdx < DE_LENGTH_OF_ARRAY(CAPABILITIES); ++capIdx)
+ for (deUint32 tyIdx = 0; tyIdx < DE_LENGTH_OF_ARRAY(cTypes); ++tyIdx)
+ {
+ ComputeShaderSpec spec;
+ map<string, string> specs;
+ string testName = string(CAPABILITIES[capIdx].name) + "_" + cTypes[tyIdx].name + "_float";
+
+ specs["capability"] = CAPABILITIES[capIdx].cap;
+ specs["storage"] = CAPABILITIES[capIdx].decor;
+ specs["stride"] = cTypes[tyIdx].stride;
+ specs["base32"] = cTypes[tyIdx].base32;
+ specs["base16"] = cTypes[tyIdx].base16;
+ specs["types"] = floatTypes;
+ specs["convert"] = "OpFConvert";
+
+ if (strcmp(cTypes[tyIdx].name, "matrix") == 0)
+ {
+ specs["index0"] = "%zero";
+ specs["matrix_prefix"] = "m4";
+ specs["matrix_types"] =
+ "%m4v2f16 = OpTypeMatrix %v2f16 4\n"
+ "%m4v2f32 = OpTypeMatrix %v2f32 4\n"
+ "%m4v2f16arr = OpTypeArray %m4v2f16 %c_i32_16\n"
+ "%m4v2f32arr = OpTypeArray %m4v2f32 %c_i32_16\n";
+ specs["matrix_decor"] =
+ "OpMemberDecorate %SSBO32 0 ColMajor\n"
+ "OpMemberDecorate %SSBO32 0 MatrixStride 8\n"
+ "OpMemberDecorate %SSBO16 0 ColMajor\n"
+ "OpMemberDecorate %SSBO16 0 MatrixStride 4\n";
+ specs["matrix_store"] =
+ "%inloc_1 = OpAccessChain %v2f16ptr %ssbo16 %zero %x %c_i32_1\n"
+ "%val16_1 = OpLoad %v2f16 %inloc_1\n"
+ "%val32_1 = OpFConvert %v2f32 %val16_1\n"
+ "%outloc_1 = OpAccessChain %v2f32ptr %ssbo32 %zero %x %c_i32_1\n"
+ " OpStore %outloc_1 %val32_1\n"
+
+ "%inloc_2 = OpAccessChain %v2f16ptr %ssbo16 %zero %x %c_i32_2\n"
+ "%val16_2 = OpLoad %v2f16 %inloc_2\n"
+ "%val32_2 = OpFConvert %v2f32 %val16_2\n"
+ "%outloc_2 = OpAccessChain %v2f32ptr %ssbo32 %zero %x %c_i32_2\n"
+ " OpStore %outloc_2 %val32_2\n"
+
+ "%inloc_3 = OpAccessChain %v2f16ptr %ssbo16 %zero %x %c_i32_3\n"
+ "%val16_3 = OpLoad %v2f16 %inloc_3\n"
+ "%val32_3 = OpFConvert %v2f32 %val16_3\n"
+ "%outloc_3 = OpAccessChain %v2f32ptr %ssbo32 %zero %x %c_i32_3\n"
+ " OpStore %outloc_3 %val32_3\n";
+ }
+
+ spec.assembly = shaderTemplate.specialize(specs);
+ spec.numWorkGroups = IVec3(cTypes[tyIdx].count, 1, 1);
+ spec.verifyIO = check32BitFloats;
+ spec.inputTypes[0] = CAPABILITIES[capIdx].dtype;
+
+ spec.inputs.push_back(BufferSp(new Float16Buffer(float16Data)));
+ spec.outputs.push_back(BufferSp(new Float32Buffer(float32Data)));
+ spec.extensions.push_back("VK_KHR_16bit_storage");
+ spec.requestedExtensionFeatures = get16BitStorageFeatures(CAPABILITIES[capIdx].name);
+
+ group->addChild(new SpvAsmComputeShaderCase(testCtx, testName.c_str(), testName.c_str(), spec));
+ }
+ }
+
+ { // Integers
+ const char sintTypes[] =
+ "%i16 = OpTypeInt 16 1\n"
+ "%i16ptr = OpTypePointer Uniform %i16\n"
+ "%i16arr = OpTypeArray %i16 %c_i32_128\n"
+ "%v4i16 = OpTypeVector %i16 4\n"
+ "%v4i32 = OpTypeVector %i32 4\n"
+ "%v4i16ptr = OpTypePointer Uniform %v4i16\n"
+ "%v4i32ptr = OpTypePointer Uniform %v4i32\n"
+ "%v4i16arr = OpTypeArray %v4i16 %c_i32_32\n"
+ "%v4i32arr = OpTypeArray %v4i32 %c_i32_32\n";
+
+ const char uintTypes[] =
+ "%u16 = OpTypeInt 16 0\n"
+ "%u16ptr = OpTypePointer Uniform %u16\n"
+ "%u32ptr = OpTypePointer Uniform %u32\n"
+ "%u16arr = OpTypeArray %u16 %c_i32_128\n"
+ "%u32arr = OpTypeArray %u32 %c_i32_128\n"
+ "%v4u16 = OpTypeVector %u16 4\n"
+ "%v4u32 = OpTypeVector %u32 4\n"
+ "%v4u16ptr = OpTypePointer Uniform %v4u16\n"
+ "%v4u32ptr = OpTypePointer Uniform %v4u32\n"
+ "%v4u16arr = OpTypeArray %v4u16 %c_i32_32\n"
+ "%v4u32arr = OpTypeArray %v4u32 %c_i32_32\n";
+
+ struct CompositeType
+ {
+ const char* name;
+ bool isSigned;
+ const char* types;
+ const char* base32;
+ const char* base16;
+ const char* opcode;
+ const char* stride;
+ unsigned count;
+ };
+
+ const CompositeType cTypes[] =
+ {
+ {"scalar_sint", true, sintTypes, "i32", "i16", "OpSConvert", "OpDecorate %i32arr ArrayStride 4\nOpDecorate %i16arr ArrayStride 2\n", numElements},
+ {"scalar_uint", false, uintTypes, "u32", "u16", "OpUConvert", "OpDecorate %u32arr ArrayStride 4\nOpDecorate %u16arr ArrayStride 2\n", numElements},
+ {"vector_sint", true, sintTypes, "v4i32", "v4i16", "OpSConvert", "OpDecorate %v4i32arr ArrayStride 16\nOpDecorate %v4i16arr ArrayStride 8\n", numElements / 4},
+ {"vector_uint", false, uintTypes, "v4u32", "v4u16", "OpUConvert", "OpDecorate %v4u32arr ArrayStride 16\nOpDecorate %v4u16arr ArrayStride 8\n", numElements / 4},
+ };
+
+ vector<deInt16> inputs = getInt16s(rnd, numElements);
+ vector<deInt32> sOutputs;
+ vector<deInt32> uOutputs;
+ const deUint16 signBitMask = 0x8000;
+ const deUint32 signExtendMask = 0xffff0000;
+
+ sOutputs.reserve(inputs.size());
+ uOutputs.reserve(inputs.size());
+
+ for (deUint32 numNdx = 0; numNdx < inputs.size(); ++numNdx)
+ {
+ uOutputs.push_back(static_cast<deUint16>(inputs[numNdx]));
+ if (inputs[numNdx] & signBitMask)
+ sOutputs.push_back(static_cast<deInt32>(inputs[numNdx] | signExtendMask));
+ else
+ sOutputs.push_back(static_cast<deInt32>(inputs[numNdx]));
+ }
+
+ for (deUint32 capIdx = 0; capIdx < DE_LENGTH_OF_ARRAY(CAPABILITIES); ++capIdx)
+ for (deUint32 tyIdx = 0; tyIdx < DE_LENGTH_OF_ARRAY(cTypes); ++tyIdx)
+ {
+ ComputeShaderSpec spec;
+ map<string, string> specs;
+ string testName = string(CAPABILITIES[capIdx].name) + "_" + cTypes[tyIdx].name;
+
+ specs["capability"] = CAPABILITIES[capIdx].cap;
+ specs["storage"] = CAPABILITIES[capIdx].decor;
+ specs["stride"] = cTypes[tyIdx].stride;
+ specs["base32"] = cTypes[tyIdx].base32;
+ specs["base16"] = cTypes[tyIdx].base16;
+ specs["types"] = cTypes[tyIdx].types;
+ specs["convert"] = cTypes[tyIdx].opcode;
+
+ spec.assembly = shaderTemplate.specialize(specs);
+ spec.numWorkGroups = IVec3(cTypes[tyIdx].count, 1, 1);
+ spec.inputTypes[0] = CAPABILITIES[capIdx].dtype;
+
+ spec.inputs.push_back(BufferSp(new Int16Buffer(inputs)));
+ if (cTypes[tyIdx].isSigned)
+ spec.outputs.push_back(BufferSp(new Int32Buffer(sOutputs)));
+ else
+ spec.outputs.push_back(BufferSp(new Int32Buffer(uOutputs)));
+ spec.extensions.push_back("VK_KHR_16bit_storage");
+ spec.requestedExtensionFeatures = get16BitStorageFeatures(CAPABILITIES[capIdx].name);
+
+ group->addChild(new SpvAsmComputeShaderCase(testCtx, testName.c_str(), testName.c_str(), spec));
+ }
+ }
+}
+
+void addCompute16bitStoragePushConstant16To32Group (tcu::TestCaseGroup* group)
+{
+ tcu::TestContext& testCtx = group->getTestContext();
+ de::Random rnd (deStringHash(group->getName()));
+ const int numElements = 64;
+
+ const StringTemplate shaderTemplate (
+ "OpCapability Shader\n"
+ "OpCapability StoragePushConstant16\n"
+ "OpExtension \"SPV_KHR_16bit_storage\"\n"
+ "OpMemoryModel Logical GLSL450\n"
+ "OpEntryPoint GLCompute %main \"main\" %id\n"
+ "OpExecutionMode %main LocalSize 1 1 1\n"
+ "OpDecorate %id BuiltIn GlobalInvocationId\n"
+
+ "${stride}"
+
+ "OpDecorate %PC16 Block\n"
+ "OpMemberDecorate %PC16 0 Offset 0\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpDecorate %SSBO32 BufferBlock\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 0\n"
+
+ "${matrix_decor:opt}\n"
+
+ "%bool = OpTypeBool\n"
+ "%void = OpTypeVoid\n"
+ "%voidf = OpTypeFunction %void\n"
+ "%u32 = OpTypeInt 32 0\n"
+ "%i32 = OpTypeInt 32 1\n"
+ "%f32 = OpTypeFloat 32\n"
+ "%uvec3 = OpTypeVector %u32 3\n"
+ "%fvec3 = OpTypeVector %f32 3\n"
+ "%uvec3ptr = OpTypePointer Input %uvec3\n"
+ "%i32ptr = OpTypePointer Uniform %i32\n"
+ "%f32ptr = OpTypePointer Uniform %f32\n"
+
+ "%zero = OpConstant %i32 0\n"
+ "%c_i32_1 = OpConstant %i32 1\n"
+ "%c_i32_8 = OpConstant %i32 8\n"
+ "%c_i32_16 = OpConstant %i32 16\n"
+ "%c_i32_32 = OpConstant %i32 32\n"
+ "%c_i32_64 = OpConstant %i32 64\n"
+
+ "%i32arr = OpTypeArray %i32 %c_i32_64\n"
+ "%f32arr = OpTypeArray %f32 %c_i32_64\n"
+
+ "${types}\n"
+ "${matrix_types:opt}\n"
+
+ "%PC16 = OpTypeStruct %${matrix_prefix:opt}${base16}arr\n"
+ "%pp_PC16 = OpTypePointer PushConstant %PC16\n"
+ "%pc16 = OpVariable %pp_PC16 PushConstant\n"
+ "%SSBO32 = OpTypeStruct %${matrix_prefix:opt}${base32}arr\n"
+ "%up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ "%ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+
+ "%id = OpVariable %uvec3ptr Input\n"
+
+ "%main = OpFunction %void None %voidf\n"
+ "%label = OpLabel\n"
+ "%idval = OpLoad %uvec3 %id\n"
+ "%x = OpCompositeExtract %u32 %idval 0\n"
+ "%inloc = OpAccessChain %${base16}ptr %pc16 %zero %x ${index0:opt}\n"
+ "%val16 = OpLoad %${base16} %inloc\n"
+ "%val32 = ${convert} %${base32} %val16\n"
+ "%outloc = OpAccessChain %${base32}ptr %ssbo32 %zero %x ${index0:opt}\n"
+ " OpStore %outloc %val32\n"
+ "${matrix_store:opt}\n"
+ " OpReturn\n"
+ " OpFunctionEnd\n");
+
+ { // floats
+ const char floatTypes[] =
+ "%f16 = OpTypeFloat 16\n"
+ "%f16ptr = OpTypePointer PushConstant %f16\n"
+ "%f16arr = OpTypeArray %f16 %c_i32_64\n"
+ "%v4f16 = OpTypeVector %f16 4\n"
+ "%v4f32 = OpTypeVector %f32 4\n"
+ "%v4f16ptr = OpTypePointer PushConstant %v4f16\n"
+ "%v4f32ptr = OpTypePointer Uniform %v4f32\n"
+ "%v4f16arr = OpTypeArray %v4f16 %c_i32_16\n"
+ "%v4f32arr = OpTypeArray %v4f32 %c_i32_16\n";
+
+ struct CompositeType
+ {
+ const char* name;
+ const char* base32;
+ const char* base16;
+ const char* stride;
+ unsigned count;
+ };
+
+ const CompositeType cTypes[] =
+ {
+ {"scalar", "f32", "f16", "OpDecorate %f32arr ArrayStride 4\nOpDecorate %f16arr ArrayStride 2\n", numElements},
+ {"vector", "v4f32", "v4f16", "OpDecorate %v4f32arr ArrayStride 16\nOpDecorate %v4f16arr ArrayStride 8\n", numElements / 4},
+ {"matrix", "v4f32", "v4f16", "OpDecorate %m2v4f32arr ArrayStride 32\nOpDecorate %m2v4f16arr ArrayStride 16\n", numElements / 8},
+ };
+
+ vector<deFloat16> float16Data = getFloat16s(rnd, numElements);
+ vector<float> float32Data;
+
+ float32Data.reserve(numElements);
+ for (deUint32 numIdx = 0; numIdx < numElements; ++numIdx)
+ float32Data.push_back(deFloat16To32(float16Data[numIdx]));
+
+ for (deUint32 tyIdx = 0; tyIdx < DE_LENGTH_OF_ARRAY(cTypes); ++tyIdx)
+ {
+ ComputeShaderSpec spec;
+ map<string, string> specs;
+ string testName = string(cTypes[tyIdx].name) + "_float";
+
+ specs["stride"] = cTypes[tyIdx].stride;
+ specs["base32"] = cTypes[tyIdx].base32;
+ specs["base16"] = cTypes[tyIdx].base16;
+ specs["types"] = floatTypes;
+ specs["convert"] = "OpFConvert";
+
+ if (strcmp(cTypes[tyIdx].name, "matrix") == 0)
+ {
+ specs["index0"] = "%zero";
+ specs["matrix_prefix"] = "m2";
+ specs["matrix_types"] =
+ "%m2v4f16 = OpTypeMatrix %v4f16 2\n"
+ "%m2v4f32 = OpTypeMatrix %v4f32 2\n"
+ "%m2v4f16arr = OpTypeArray %m2v4f16 %c_i32_8\n"
+ "%m2v4f32arr = OpTypeArray %m2v4f32 %c_i32_8\n";
+ specs["matrix_decor"] =
+ "OpMemberDecorate %SSBO32 0 ColMajor\n"
+ "OpMemberDecorate %SSBO32 0 MatrixStride 16\n"
+ "OpMemberDecorate %PC16 0 ColMajor\n"
+ "OpMemberDecorate %PC16 0 MatrixStride 8\n";
+ specs["matrix_store"] =
+ "%inloc_1 = OpAccessChain %v4f16ptr %pc16 %zero %x %c_i32_1\n"
+ "%val16_1 = OpLoad %v4f16 %inloc_1\n"
+ "%val32_1 = OpFConvert %v4f32 %val16_1\n"
+ "%outloc_1 = OpAccessChain %v4f32ptr %ssbo32 %zero %x %c_i32_1\n"
+ " OpStore %outloc_1 %val32_1\n";
+ }
+
+ spec.assembly = shaderTemplate.specialize(specs);
+ spec.numWorkGroups = IVec3(cTypes[tyIdx].count, 1, 1);
+ spec.verifyIO = check32BitFloats;
+ spec.pushConstants = BufferSp(new Float16Buffer(float16Data));
+
+ spec.outputs.push_back(BufferSp(new Float32Buffer(float32Data)));
+ spec.extensions.push_back("VK_KHR_16bit_storage");
+ spec.requestedExtensionFeatures.ext16BitStorage = EXT16BITSTORAGEFEATURES_PUSH_CONSTANT;
+
+ group->addChild(new SpvAsmComputeShaderCase(testCtx, testName.c_str(), testName.c_str(), spec));
+ }
+ }
+ { // integers
+ const char sintTypes[] =
+ "%i16 = OpTypeInt 16 1\n"
+ "%i16ptr = OpTypePointer PushConstant %i16\n"
+ "%i16arr = OpTypeArray %i16 %c_i32_64\n"
+ "%v2i16 = OpTypeVector %i16 2\n"
+ "%v2i32 = OpTypeVector %i32 2\n"
+ "%v2i16ptr = OpTypePointer PushConstant %v2i16\n"
+ "%v2i32ptr = OpTypePointer Uniform %v2i32\n"
+ "%v2i16arr = OpTypeArray %v2i16 %c_i32_32\n"
+ "%v2i32arr = OpTypeArray %v2i32 %c_i32_32\n";
+
+ const char uintTypes[] =
+ "%u16 = OpTypeInt 16 0\n"
+ "%u16ptr = OpTypePointer PushConstant %u16\n"
+ "%u32ptr = OpTypePointer Uniform %u32\n"
+ "%u16arr = OpTypeArray %u16 %c_i32_64\n"
+ "%u32arr = OpTypeArray %u32 %c_i32_64\n"
+ "%v2u16 = OpTypeVector %u16 2\n"
+ "%v2u32 = OpTypeVector %u32 2\n"
+ "%v2u16ptr = OpTypePointer PushConstant %v2u16\n"
+ "%v2u32ptr = OpTypePointer Uniform %v2u32\n"
+ "%v2u16arr = OpTypeArray %v2u16 %c_i32_32\n"
+ "%v2u32arr = OpTypeArray %v2u32 %c_i32_32\n";
+
+ struct CompositeType
+ {
+ const char* name;
+ bool isSigned;
+ const char* types;
+ const char* base32;
+ const char* base16;
+ const char* opcode;
+ const char* stride;
+ unsigned count;
+ };
+
+ const CompositeType cTypes[] =
+ {
+ {"scalar_sint", true, sintTypes, "i32", "i16", "OpSConvert", "OpDecorate %i32arr ArrayStride 4\nOpDecorate %i16arr ArrayStride 2\n", numElements},
+ {"scalar_uint", false, uintTypes, "u32", "u16", "OpUConvert", "OpDecorate %u32arr ArrayStride 4\nOpDecorate %u16arr ArrayStride 2\n", numElements},
+ {"vector_sint", true, sintTypes, "v2i32", "v2i16", "OpSConvert", "OpDecorate %v2i32arr ArrayStride 8\nOpDecorate %v2i16arr ArrayStride 4\n", numElements / 2},
+ {"vector_uint", false, uintTypes, "v2u32", "v2u16", "OpUConvert", "OpDecorate %v2u32arr ArrayStride 8\nOpDecorate %v2u16arr ArrayStride 4\n", numElements / 2},
+ };
+
+ vector<deInt16> inputs = getInt16s(rnd, numElements);
+ vector<deInt32> sOutputs;
+ vector<deInt32> uOutputs;
+ const deUint16 signBitMask = 0x8000;
+ const deUint32 signExtendMask = 0xffff0000;
+
+ sOutputs.reserve(inputs.size());
+ uOutputs.reserve(inputs.size());
+
+ for (deUint32 numNdx = 0; numNdx < inputs.size(); ++numNdx)
+ {
+ uOutputs.push_back(static_cast<deUint16>(inputs[numNdx]));
+ if (inputs[numNdx] & signBitMask)
+ sOutputs.push_back(static_cast<deInt32>(inputs[numNdx] | signExtendMask));
+ else
+ sOutputs.push_back(static_cast<deInt32>(inputs[numNdx]));
+ }
+
+ for (deUint32 tyIdx = 0; tyIdx < DE_LENGTH_OF_ARRAY(cTypes); ++tyIdx)
+ {
+ ComputeShaderSpec spec;
+ map<string, string> specs;
+ const char* testName = cTypes[tyIdx].name;
+
+ specs["stride"] = cTypes[tyIdx].stride;
+ specs["base32"] = cTypes[tyIdx].base32;
+ specs["base16"] = cTypes[tyIdx].base16;
+ specs["types"] = cTypes[tyIdx].types;
+ specs["convert"] = cTypes[tyIdx].opcode;
+
+ spec.assembly = shaderTemplate.specialize(specs);
+ spec.numWorkGroups = IVec3(numElements, 1, 1);
+ spec.pushConstants = BufferSp(new Int16Buffer(inputs));
+
+ if (cTypes[tyIdx].isSigned)
+ spec.outputs.push_back(BufferSp(new Int32Buffer(sOutputs)));
+ else
+ spec.outputs.push_back(BufferSp(new Int32Buffer(uOutputs)));
+ spec.extensions.push_back("VK_KHR_16bit_storage");
+ spec.requestedExtensionFeatures.ext16BitStorage = EXT16BITSTORAGEFEATURES_PUSH_CONSTANT;
+
+ group->addChild(new SpvAsmComputeShaderCase(testCtx, testName, testName, spec));
+ }
+ }
+}
+
+void addGraphics16BitStorageUniformInt32To16Group (tcu::TestCaseGroup* testGroup)
+{
+ de::Random rnd (deStringHash(testGroup->getName()));
+ map<string, string> fragments;
+ const deUint32 numDataPoints = 256;
+ RGBA defaultColors[4];
+ GraphicsResources resources;
+ vector<string> extensions;
+ const StringTemplate capabilities ("OpCapability ${cap}\n");
+ // inputs and outputs are declared to be vectors of signed integers.
+ // However, depending on the test, they may be interpreted as unsiged
+ // integers. That won't be a problem as long as we passed the bits
+ // in faithfully to the pipeline.
+ vector<deInt32> inputs = getInt32s(rnd, numDataPoints);
+ vector<deInt16> outputs;
+
+ outputs.reserve(inputs.size());
+ for (deUint32 numNdx = 0; numNdx < inputs.size(); ++numNdx)
+ outputs.push_back(static_cast<deInt16>(0xffff & inputs[numNdx]));
+
+ resources.inputs.push_back(std::make_pair(VK_DESCRIPTOR_TYPE_STORAGE_BUFFER, BufferSp(new Int32Buffer(inputs))));
+ resources.outputs.push_back(std::make_pair(VK_DESCRIPTOR_TYPE_STORAGE_BUFFER, BufferSp(new Int16Buffer(outputs))));
+
+ extensions.push_back("VK_KHR_16bit_storage");
+ fragments["extension"] = "OpExtension \"SPV_KHR_16bit_storage\"";
+
+ getDefaultColors(defaultColors);
+
+ struct IntegerFacts
+ {
+ const char* name;
+ const char* type32;
+ const char* type16;
+ const char* opcode;
+ const char* isSigned;
+ };
+
+ const IntegerFacts intFacts[] =
+ {
+ {"sint", "%i32", "%i16", "OpSConvert", "1"},
+ {"uint", "%u32", "%u16", "OpUConvert", "0"},
+ };
+
+ const StringTemplate scalarPreMain(
+ "${itype16} = OpTypeInt 16 ${signed}\n"
+ "%c_i32_256 = OpConstant %i32 256\n"
+ " %up_i32 = OpTypePointer Uniform ${itype32}\n"
+ " %up_i16 = OpTypePointer Uniform ${itype16}\n"
+ " %ra_i32 = OpTypeArray ${itype32} %c_i32_256\n"
+ " %ra_i16 = OpTypeArray ${itype16} %c_i32_256\n"
+ " %SSBO32 = OpTypeStruct %ra_i32\n"
+ " %SSBO16 = OpTypeStruct %ra_i16\n"
+ "%up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ "%up_SSBO16 = OpTypePointer Uniform %SSBO16\n"
+ " %ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ " %ssbo16 = OpVariable %up_SSBO16 Uniform\n");
+
+ const StringTemplate scalarDecoration(
+ "OpDecorate %ra_i32 ArrayStride 4\n"
+ "OpDecorate %ra_i16 ArrayStride 2\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpMemberDecorate %SSBO16 0 Offset 0\n"
+ "OpDecorate %SSBO32 ${indecor}\n"
+ "OpDecorate %SSBO16 BufferBlock\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo16 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 0\n"
+ "OpDecorate %ssbo16 Binding 1\n");
+
+ const StringTemplate scalarTestFunc(
+ "%test_code = OpFunction %v4f32 None %v4f32_function\n"
+ " %param = OpFunctionParameter %v4f32\n"
+
+ "%entry = OpLabel\n"
+ " %i = OpVariable %fp_i32 Function\n"
+ " OpStore %i %c_i32_0\n"
+ " OpBranch %loop\n"
+
+ " %loop = OpLabel\n"
+ " %15 = OpLoad %i32 %i\n"
+ " %lt = OpSLessThan %bool %15 %c_i32_256\n"
+ " OpLoopMerge %merge %inc None\n"
+ " OpBranchConditional %lt %write %merge\n"
+
+ "%write = OpLabel\n"
+ " %30 = OpLoad %i32 %i\n"
+ " %src = OpAccessChain %up_i32 %ssbo32 %c_i32_0 %30\n"
+ "%val32 = OpLoad ${itype32} %src\n"
+ "%val16 = ${convert} ${itype16} %val32\n"
+ " %dst = OpAccessChain %up_i16 %ssbo16 %c_i32_0 %30\n"
+ " OpStore %dst %val16\n"
+ " OpBranch %inc\n"
+
+ " %inc = OpLabel\n"
+ " %37 = OpLoad %i32 %i\n"
+ " %39 = OpIAdd %i32 %37 %c_i32_1\n"
+ " OpStore %i %39\n"
+ " OpBranch %loop\n"
+
+ "%merge = OpLabel\n"
+ " OpReturnValue %param\n"
+
+ "OpFunctionEnd\n");
+
+ const StringTemplate vecPreMain(
+ "${itype16} = OpTypeInt 16 ${signed}\n"
+ " %c_i32_64 = OpConstant %i32 64\n"
+ "%v4itype32 = OpTypeVector ${itype32} 4\n"
+ "%v4itype16 = OpTypeVector ${itype16} 4\n"
+ " %up_v4i32 = OpTypePointer Uniform %v4itype32\n"
+ " %up_v4i16 = OpTypePointer Uniform %v4itype16\n"
+ " %ra_v4i32 = OpTypeArray %v4itype32 %c_i32_64\n"
+ " %ra_v4i16 = OpTypeArray %v4itype16 %c_i32_64\n"
+ " %SSBO32 = OpTypeStruct %ra_v4i32\n"
+ " %SSBO16 = OpTypeStruct %ra_v4i16\n"
+ "%up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ "%up_SSBO16 = OpTypePointer Uniform %SSBO16\n"
+ " %ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ " %ssbo16 = OpVariable %up_SSBO16 Uniform\n");
+
+ const StringTemplate vecDecoration(
+ "OpDecorate %ra_v4i32 ArrayStride 16\n"
+ "OpDecorate %ra_v4i16 ArrayStride 8\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpMemberDecorate %SSBO16 0 Offset 0\n"
+ "OpDecorate %SSBO32 ${indecor}\n"
+ "OpDecorate %SSBO16 BufferBlock\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo16 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 0\n"
+ "OpDecorate %ssbo16 Binding 1\n");
+
+ const StringTemplate vecTestFunc(
+ "%test_code = OpFunction %v4f32 None %v4f32_function\n"
+ " %param = OpFunctionParameter %v4f32\n"
+
+ "%entry = OpLabel\n"
+ " %i = OpVariable %fp_i32 Function\n"
+ " OpStore %i %c_i32_0\n"
+ " OpBranch %loop\n"
+
+ " %loop = OpLabel\n"
+ " %15 = OpLoad %i32 %i\n"
+ " %lt = OpSLessThan %bool %15 %c_i32_64\n"
+ " OpLoopMerge %merge %inc None\n"
+ " OpBranchConditional %lt %write %merge\n"
+
+ "%write = OpLabel\n"
+ " %30 = OpLoad %i32 %i\n"
+ " %src = OpAccessChain %up_v4i32 %ssbo32 %c_i32_0 %30\n"
+ "%val32 = OpLoad %v4itype32 %src\n"
+ "%val16 = ${convert} %v4itype16 %val32\n"
+ " %dst = OpAccessChain %up_v4i16 %ssbo16 %c_i32_0 %30\n"
+ " OpStore %dst %val16\n"
+ " OpBranch %inc\n"
+
+ " %inc = OpLabel\n"
+ " %37 = OpLoad %i32 %i\n"
+ " %39 = OpIAdd %i32 %37 %c_i32_1\n"
+ " OpStore %i %39\n"
+ " OpBranch %loop\n"
+
+ "%merge = OpLabel\n"
+ " OpReturnValue %param\n"
+
+ "OpFunctionEnd\n");
+
+ struct Category
+ {
+ const char* name;
+ const StringTemplate& preMain;
+ const StringTemplate& decoration;
+ const StringTemplate& testFunction;
+ };
+
+ const Category categories[] =
+ {
+ {"scalar", scalarPreMain, scalarDecoration, scalarTestFunc},
+ {"vector", vecPreMain, vecDecoration, vecTestFunc},
+ };
+
+ for (deUint32 catIdx = 0; catIdx < DE_LENGTH_OF_ARRAY(categories); ++catIdx)
+ for (deUint32 capIdx = 0; capIdx < DE_LENGTH_OF_ARRAY(CAPABILITIES); ++capIdx)
+ for (deUint32 factIdx = 0; factIdx < DE_LENGTH_OF_ARRAY(intFacts); ++factIdx)
+ {
+ map<string, string> specs;
+ string name = string(CAPABILITIES[capIdx].name) + "_" + categories[catIdx].name + "_" + intFacts[factIdx].name;
+
+ specs["cap"] = CAPABILITIES[capIdx].cap;
+ specs["indecor"] = CAPABILITIES[capIdx].decor;
+ specs["itype32"] = intFacts[factIdx].type32;
+ specs["itype16"] = intFacts[factIdx].type16;
+ specs["signed"] = intFacts[factIdx].isSigned;
+ specs["convert"] = intFacts[factIdx].opcode;
+
+ fragments["pre_main"] = categories[catIdx].preMain.specialize(specs);
+ fragments["testfun"] = categories[catIdx].testFunction.specialize(specs);
+ fragments["capability"] = capabilities.specialize(specs);
+ fragments["decoration"] = categories[catIdx].decoration.specialize(specs);
+
+ resources.inputs.back().first = CAPABILITIES[capIdx].dtype;
+
+ createTestsForAllStages(name, defaultColors, defaultColors, fragments, resources, extensions, testGroup, get16BitStorageFeatures(CAPABILITIES[capIdx].name));
+ }
+}
+
+void addCompute16bitStorageUniform32To16Group (tcu::TestCaseGroup* group)
+{
+ tcu::TestContext& testCtx = group->getTestContext();
+ de::Random rnd (deStringHash(group->getName()));
+ const int numElements = 128;
+
+ const StringTemplate shaderTemplate (
+ "OpCapability Shader\n"
+ "OpCapability ${capability}\n"
+ "OpExtension \"SPV_KHR_16bit_storage\"\n"
+ "OpMemoryModel Logical GLSL450\n"
+ "OpEntryPoint GLCompute %main \"main\" %id\n"
+ "OpExecutionMode %main LocalSize 1 1 1\n"
+ "OpDecorate %id BuiltIn GlobalInvocationId\n"
+
+ "${stride}"
+
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpMemberDecorate %SSBO16 0 Offset 0\n"
+ "OpDecorate %SSBO32 ${storage}\n"
+ "OpDecorate %SSBO16 BufferBlock\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo16 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 0\n"
+ "OpDecorate %ssbo16 Binding 1\n"
+
+ "${matrix_decor:opt}\n"
+
+ "${rounding:opt}\n"
+
+ "%bool = OpTypeBool\n"
+ "%void = OpTypeVoid\n"
+ "%voidf = OpTypeFunction %void\n"
+ "%u32 = OpTypeInt 32 0\n"
+ "%i32 = OpTypeInt 32 1\n"
+ "%f32 = OpTypeFloat 32\n"
+ "%uvec3 = OpTypeVector %u32 3\n"
+ "%fvec3 = OpTypeVector %f32 3\n"
+ "%uvec3ptr = OpTypePointer Input %uvec3\n"
+ "%i32ptr = OpTypePointer Uniform %i32\n"
+ "%f32ptr = OpTypePointer Uniform %f32\n"
+
+ "%zero = OpConstant %i32 0\n"
+ "%c_i32_1 = OpConstant %i32 1\n"
+ "%c_i32_16 = OpConstant %i32 16\n"
+ "%c_i32_32 = OpConstant %i32 32\n"
+ "%c_i32_64 = OpConstant %i32 64\n"
+ "%c_i32_128 = OpConstant %i32 128\n"
+
+ "%i32arr = OpTypeArray %i32 %c_i32_128\n"
+ "%f32arr = OpTypeArray %f32 %c_i32_128\n"
+
+ "${types}\n"
+ "${matrix_types:opt}\n"
+
+ "%SSBO32 = OpTypeStruct %${matrix_prefix:opt}${base32}arr\n"
+ "%SSBO16 = OpTypeStruct %${matrix_prefix:opt}${base16}arr\n"
+ "%up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ "%up_SSBO16 = OpTypePointer Uniform %SSBO16\n"
+ "%ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ "%ssbo16 = OpVariable %up_SSBO16 Uniform\n"
+
+ "%id = OpVariable %uvec3ptr Input\n"
+
+ "%main = OpFunction %void None %voidf\n"
+ "%label = OpLabel\n"
+ "%idval = OpLoad %uvec3 %id\n"
+ "%x = OpCompositeExtract %u32 %idval 0\n"
+ "%inloc = OpAccessChain %${base32}ptr %ssbo32 %zero %x ${index0:opt}\n"
+ "%val32 = OpLoad %${base32} %inloc\n"
+ "%val16 = ${convert} %${base16} %val32\n"
+ "%outloc = OpAccessChain %${base16}ptr %ssbo16 %zero %x ${index0:opt}\n"
+ " OpStore %outloc %val16\n"
+ "${matrix_store:opt}\n"
+ " OpReturn\n"
+ " OpFunctionEnd\n");
+
+ { // Floats
+ const char floatTypes[] =
+ "%f16 = OpTypeFloat 16\n"
+ "%f16ptr = OpTypePointer Uniform %f16\n"
+ "%f16arr = OpTypeArray %f16 %c_i32_128\n"
+ "%v4f16 = OpTypeVector %f16 4\n"
+ "%v4f32 = OpTypeVector %f32 4\n"
+ "%v4f16ptr = OpTypePointer Uniform %v4f16\n"
+ "%v4f32ptr = OpTypePointer Uniform %v4f32\n"
+ "%v4f16arr = OpTypeArray %v4f16 %c_i32_32\n"
+ "%v4f32arr = OpTypeArray %v4f32 %c_i32_32\n";
+
+ struct RndMode
+ {
+ const char* name;
+ const char* decor;
+ ComputeVerifyIOFunc func;
+ };
+
+ const RndMode rndModes[] =
+ {
+ {"rtz", "OpDecorate %val16 FPRoundingMode RTZ", computeCheck16BitFloats<ROUNDINGMODE_RTZ>},
+ {"rte", "OpDecorate %val16 FPRoundingMode RTE", computeCheck16BitFloats<ROUNDINGMODE_RTE>},
+ {"unspecified_rnd_mode", "", computeCheck16BitFloats<RoundingModeFlags(ROUNDINGMODE_RTE | ROUNDINGMODE_RTZ)>},
+ };
+
+ struct CompositeType
+ {
+ const char* name;
+ const char* base32;
+ const char* base16;
+ const char* stride;
+ unsigned count;
+ };
+
+ const CompositeType cTypes[] =
+ {
+ {"scalar", "f32", "f16", "OpDecorate %f32arr ArrayStride 4\nOpDecorate %f16arr ArrayStride 2\n", numElements},
+ {"vector", "v4f32", "v4f16", "OpDecorate %v4f32arr ArrayStride 16\nOpDecorate %v4f16arr ArrayStride 8\n", numElements / 4},
+ {"matrix", "v4f32", "v4f16", "OpDecorate %m2v4f32arr ArrayStride 32\nOpDecorate %m2v4f16arr ArrayStride 16\n", numElements / 8},
+ };
+
+ vector<float> float32Data = getFloat32s(rnd, numElements);
+ vector<deFloat16> float16DummyData (numElements, 0);
+
+ for (deUint32 capIdx = 0; capIdx < DE_LENGTH_OF_ARRAY(CAPABILITIES); ++capIdx)
+ for (deUint32 tyIdx = 0; tyIdx < DE_LENGTH_OF_ARRAY(cTypes); ++tyIdx)
+ for (deUint32 rndModeIdx = 0; rndModeIdx < DE_LENGTH_OF_ARRAY(rndModes); ++rndModeIdx)
+ {
+ ComputeShaderSpec spec;
+ map<string, string> specs;
+ string testName = string(CAPABILITIES[capIdx].name) + "_" + cTypes[tyIdx].name + "_float_" + rndModes[rndModeIdx].name;
+
+ specs["capability"] = CAPABILITIES[capIdx].cap;
+ specs["storage"] = CAPABILITIES[capIdx].decor;
+ specs["stride"] = cTypes[tyIdx].stride;
+ specs["base32"] = cTypes[tyIdx].base32;
+ specs["base16"] = cTypes[tyIdx].base16;
+ specs["rounding"] = rndModes[rndModeIdx].decor;
+ specs["types"] = floatTypes;
+ specs["convert"] = "OpFConvert";
+
+ if (strcmp(cTypes[tyIdx].name, "matrix") == 0)
+ {
+ if (strcmp(rndModes[rndModeIdx].name, "rtz") == 0)
+ specs["rounding"] += "\nOpDecorate %val16_1 FPRoundingMode RTZ\n";
+ else if (strcmp(rndModes[rndModeIdx].name, "rte") == 0)
+ specs["rounding"] += "\nOpDecorate %val16_1 FPRoundingMode RTE\n";
+
+ specs["index0"] = "%zero";
+ specs["matrix_prefix"] = "m2";
+ specs["matrix_types"] =
+ "%m2v4f16 = OpTypeMatrix %v4f16 2\n"
+ "%m2v4f32 = OpTypeMatrix %v4f32 2\n"
+ "%m2v4f16arr = OpTypeArray %m2v4f16 %c_i32_16\n"
+ "%m2v4f32arr = OpTypeArray %m2v4f32 %c_i32_16\n";
+ specs["matrix_decor"] =
+ "OpMemberDecorate %SSBO32 0 ColMajor\n"
+ "OpMemberDecorate %SSBO32 0 MatrixStride 16\n"
+ "OpMemberDecorate %SSBO16 0 ColMajor\n"
+ "OpMemberDecorate %SSBO16 0 MatrixStride 8\n";
+ specs["matrix_store"] =
+ "%inloc_1 = OpAccessChain %v4f32ptr %ssbo32 %zero %x %c_i32_1\n"
+ "%val32_1 = OpLoad %v4f32 %inloc_1\n"
+ "%val16_1 = OpFConvert %v4f16 %val32_1\n"
+ "%outloc_1 = OpAccessChain %v4f16ptr %ssbo16 %zero %x %c_i32_1\n"
+ " OpStore %outloc_1 %val16_1\n";
+ }
+
+ spec.assembly = shaderTemplate.specialize(specs);
+ spec.numWorkGroups = IVec3(cTypes[tyIdx].count, 1, 1);
+ spec.verifyIO = rndModes[rndModeIdx].func;
+ spec.inputTypes[0] = CAPABILITIES[capIdx].dtype;
+
+ spec.inputs.push_back(BufferSp(new Float32Buffer(float32Data)));
+ // We provided a custom verifyIO in the above in which inputs will be used for checking.
+ // So put dummy data in the expected values.
+ spec.outputs.push_back(BufferSp(new Float16Buffer(float16DummyData)));
+ spec.extensions.push_back("VK_KHR_16bit_storage");
+ spec.requestedExtensionFeatures = get16BitStorageFeatures(CAPABILITIES[capIdx].name);
+
+ group->addChild(new SpvAsmComputeShaderCase(testCtx, testName.c_str(), testName.c_str(), spec));
+ }
+ }
+
+ { // Integers
+ const char sintTypes[] =
+ "%i16 = OpTypeInt 16 1\n"
+ "%i16ptr = OpTypePointer Uniform %i16\n"
+ "%i16arr = OpTypeArray %i16 %c_i32_128\n"
+ "%v2i16 = OpTypeVector %i16 2\n"
+ "%v2i32 = OpTypeVector %i32 2\n"
+ "%v2i16ptr = OpTypePointer Uniform %v2i16\n"
+ "%v2i32ptr = OpTypePointer Uniform %v2i32\n"
+ "%v2i16arr = OpTypeArray %v2i16 %c_i32_64\n"
+ "%v2i32arr = OpTypeArray %v2i32 %c_i32_64\n";
+
+ const char uintTypes[] =
+ "%u16 = OpTypeInt 16 0\n"
+ "%u16ptr = OpTypePointer Uniform %u16\n"
+ "%u32ptr = OpTypePointer Uniform %u32\n"
+ "%u16arr = OpTypeArray %u16 %c_i32_128\n"
+ "%u32arr = OpTypeArray %u32 %c_i32_128\n"
+ "%v2u16 = OpTypeVector %u16 2\n"
+ "%v2u32 = OpTypeVector %u32 2\n"
+ "%v2u16ptr = OpTypePointer Uniform %v2u16\n"
+ "%v2u32ptr = OpTypePointer Uniform %v2u32\n"
+ "%v2u16arr = OpTypeArray %v2u16 %c_i32_64\n"
+ "%v2u32arr = OpTypeArray %v2u32 %c_i32_64\n";
+
+ struct CompositeType
+ {
+ const char* name;
+ const char* types;
+ const char* base32;
+ const char* base16;
+ const char* opcode;
+ const char* stride;
+ unsigned count;
+ };
+
+ const CompositeType cTypes[] =
+ {
+ {"scalar_sint", sintTypes, "i32", "i16", "OpSConvert", "OpDecorate %i32arr ArrayStride 4\nOpDecorate %i16arr ArrayStride 2\n", numElements},
+ {"scalar_uint", uintTypes, "u32", "u16", "OpUConvert", "OpDecorate %u32arr ArrayStride 4\nOpDecorate %u16arr ArrayStride 2\n", numElements},
+ {"vector_sint", sintTypes, "v2i32", "v2i16", "OpSConvert", "OpDecorate %v2i32arr ArrayStride 8\nOpDecorate %v2i16arr ArrayStride 4\n", numElements / 2},
+ {"vector_uint", uintTypes, "v2u32", "v2u16", "OpUConvert", "OpDecorate %v2u32arr ArrayStride 8\nOpDecorate %v2u16arr ArrayStride 4\n", numElements / 2},
+ };
+
+ vector<deInt32> inputs = getInt32s(rnd, numElements);
+ vector<deInt16> outputs;
+
+ outputs.reserve(inputs.size());
+ for (deUint32 numNdx = 0; numNdx < inputs.size(); ++numNdx)
+ outputs.push_back(static_cast<deInt16>(0xffff & inputs[numNdx]));
+
+ for (deUint32 capIdx = 0; capIdx < DE_LENGTH_OF_ARRAY(CAPABILITIES); ++capIdx)
+ for (deUint32 tyIdx = 0; tyIdx < DE_LENGTH_OF_ARRAY(cTypes); ++tyIdx)
+ {
+ ComputeShaderSpec spec;
+ map<string, string> specs;
+ string testName = string(CAPABILITIES[capIdx].name) + "_" + cTypes[tyIdx].name;
+
+ specs["capability"] = CAPABILITIES[capIdx].cap;
+ specs["storage"] = CAPABILITIES[capIdx].decor;
+ specs["stride"] = cTypes[tyIdx].stride;
+ specs["base32"] = cTypes[tyIdx].base32;
+ specs["base16"] = cTypes[tyIdx].base16;
+ specs["types"] = cTypes[tyIdx].types;
+ specs["convert"] = cTypes[tyIdx].opcode;
+
+ spec.assembly = shaderTemplate.specialize(specs);
+ spec.numWorkGroups = IVec3(cTypes[tyIdx].count, 1, 1);
+ spec.inputTypes[0] = CAPABILITIES[capIdx].dtype;
+
+ spec.inputs.push_back(BufferSp(new Int32Buffer(inputs)));
+ spec.outputs.push_back(BufferSp(new Int16Buffer(outputs)));
+ spec.extensions.push_back("VK_KHR_16bit_storage");
+ spec.requestedExtensionFeatures = get16BitStorageFeatures(CAPABILITIES[capIdx].name);
+
+ group->addChild(new SpvAsmComputeShaderCase(testCtx, testName.c_str(), testName.c_str(), spec));
+ }
+ }
+}
+
+void addGraphics16BitStorageUniformFloat32To16Group (tcu::TestCaseGroup* testGroup)
+{
+ de::Random rnd (deStringHash(testGroup->getName()));
+ map<string, string> fragments;
+ GraphicsResources resources;
+ vector<string> extensions;
+ const deUint32 numDataPoints = 256;
+ RGBA defaultColors[4];
+ vector<float> float32Data = getFloat32s(rnd, numDataPoints);
+ vector<deFloat16> float16DummyData (numDataPoints, 0);
+ const StringTemplate capabilities ("OpCapability ${cap}\n");
+
+ resources.inputs.push_back(std::make_pair(VK_DESCRIPTOR_TYPE_STORAGE_BUFFER, BufferSp(new Float32Buffer(float32Data))));
+ // We use a custom verifyIO to check the result via computing directly from inputs; the contents in outputs do not matter.
+ resources.outputs.push_back(std::make_pair(VK_DESCRIPTOR_TYPE_STORAGE_BUFFER, BufferSp(new Float16Buffer(float16DummyData))));
+
+ extensions.push_back("VK_KHR_16bit_storage");
+ fragments["extension"] = "OpExtension \"SPV_KHR_16bit_storage\"";
+
+ struct RndMode
+ {
+ const char* name;
+ const char* decor;
+ GraphicsVerifyIOFunc f;
+ };
+
+ getDefaultColors(defaultColors);
+
+ { // scalar cases
+ fragments["pre_main"] =
+ " %f16 = OpTypeFloat 16\n"
+ "%c_i32_256 = OpConstant %i32 256\n"
+ " %up_f32 = OpTypePointer Uniform %f32\n"
+ " %up_f16 = OpTypePointer Uniform %f16\n"
+ " %ra_f32 = OpTypeArray %f32 %c_i32_256\n"
+ " %ra_f16 = OpTypeArray %f16 %c_i32_256\n"
+ " %SSBO32 = OpTypeStruct %ra_f32\n"
+ " %SSBO16 = OpTypeStruct %ra_f16\n"
+ "%up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ "%up_SSBO16 = OpTypePointer Uniform %SSBO16\n"
+ " %ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ " %ssbo16 = OpVariable %up_SSBO16 Uniform\n";
+
+ const StringTemplate decoration (
+ "OpDecorate %ra_f32 ArrayStride 4\n"
+ "OpDecorate %ra_f16 ArrayStride 2\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpMemberDecorate %SSBO16 0 Offset 0\n"
+ "OpDecorate %SSBO32 ${indecor}\n"
+ "OpDecorate %SSBO16 BufferBlock\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo16 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 0\n"
+ "OpDecorate %ssbo16 Binding 1\n"
+ "${rounddecor}\n");
+
+ fragments["testfun"] =
+ "%test_code = OpFunction %v4f32 None %v4f32_function\n"
+ " %param = OpFunctionParameter %v4f32\n"
+
+ "%entry = OpLabel\n"
+ " %i = OpVariable %fp_i32 Function\n"
+ " OpStore %i %c_i32_0\n"
+ " OpBranch %loop\n"
+
+ " %loop = OpLabel\n"
+ " %15 = OpLoad %i32 %i\n"
+ " %lt = OpSLessThan %bool %15 %c_i32_256\n"
+ " OpLoopMerge %merge %inc None\n"
+ " OpBranchConditional %lt %write %merge\n"
+
+ "%write = OpLabel\n"
+ " %30 = OpLoad %i32 %i\n"
+ " %src = OpAccessChain %up_f32 %ssbo32 %c_i32_0 %30\n"
+ "%val32 = OpLoad %f32 %src\n"
+ "%val16 = OpFConvert %f16 %val32\n"
+ " %dst = OpAccessChain %up_f16 %ssbo16 %c_i32_0 %30\n"
+ " OpStore %dst %val16\n"
+ " OpBranch %inc\n"
+
+ " %inc = OpLabel\n"
+ " %37 = OpLoad %i32 %i\n"
+ " %39 = OpIAdd %i32 %37 %c_i32_1\n"
+ " OpStore %i %39\n"
+ " OpBranch %loop\n"
+
+ "%merge = OpLabel\n"
+ " OpReturnValue %param\n"
+
+ "OpFunctionEnd\n";
+
+ const RndMode rndModes[] =
+ {
+ {"rtz", "OpDecorate %val16 FPRoundingMode RTZ", graphicsCheck16BitFloats<ROUNDINGMODE_RTZ>},
+ {"rte", "OpDecorate %val16 FPRoundingMode RTE", graphicsCheck16BitFloats<ROUNDINGMODE_RTE>},
+ {"unspecified_rnd_mode", "", graphicsCheck16BitFloats<RoundingModeFlags(ROUNDINGMODE_RTE | ROUNDINGMODE_RTZ)>},
+ };
+
+ for (deUint32 capIdx = 0; capIdx < DE_LENGTH_OF_ARRAY(CAPABILITIES); ++capIdx)
+ for (deUint32 rndModeIdx = 0; rndModeIdx < DE_LENGTH_OF_ARRAY(rndModes); ++rndModeIdx)
+ {
+ map<string, string> specs;
+ string testName = string(CAPABILITIES[capIdx].name) + "_scalar_float_" + rndModes[rndModeIdx].name;
+
+ specs["cap"] = CAPABILITIES[capIdx].cap;
+ specs["indecor"] = CAPABILITIES[capIdx].decor;
+ specs["rounddecor"] = rndModes[rndModeIdx].decor;
+
+ fragments["capability"] = capabilities.specialize(specs);
+ fragments["decoration"] = decoration.specialize(specs);
+
+ resources.inputs.back().first = CAPABILITIES[capIdx].dtype;
+ resources.verifyIO = rndModes[rndModeIdx].f;
+
+
+ createTestsForAllStages(testName, defaultColors, defaultColors, fragments, resources, extensions, testGroup, get16BitStorageFeatures(CAPABILITIES[capIdx].name));
+ }
+ }
+
+ { // vector cases
+ fragments["pre_main"] =
+ " %f16 = OpTypeFloat 16\n"
+ " %c_i32_64 = OpConstant %i32 64\n"
+ " %v4f16 = OpTypeVector %f16 4\n"
+ " %up_v4f32 = OpTypePointer Uniform %v4f32\n"
+ " %up_v4f16 = OpTypePointer Uniform %v4f16\n"
+ " %ra_v4f32 = OpTypeArray %v4f32 %c_i32_64\n"
+ " %ra_v4f16 = OpTypeArray %v4f16 %c_i32_64\n"
+ " %SSBO32 = OpTypeStruct %ra_v4f32\n"
+ " %SSBO16 = OpTypeStruct %ra_v4f16\n"
+ "%up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ "%up_SSBO16 = OpTypePointer Uniform %SSBO16\n"
+ " %ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ " %ssbo16 = OpVariable %up_SSBO16 Uniform\n";
+
+ const StringTemplate decoration (
+ "OpDecorate %ra_v4f32 ArrayStride 16\n"
+ "OpDecorate %ra_v4f16 ArrayStride 8\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpMemberDecorate %SSBO16 0 Offset 0\n"
+ "OpDecorate %SSBO32 ${indecor}\n"
+ "OpDecorate %SSBO16 BufferBlock\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo16 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 0\n"
+ "OpDecorate %ssbo16 Binding 1\n"
+ "${rounddecor}\n");
+
+ // ssbo16[] <- convert ssbo32[] to 16bit float
+ fragments["testfun"] =
+ "%test_code = OpFunction %v4f32 None %v4f32_function\n"
+ " %param = OpFunctionParameter %v4f32\n"
+
+ "%entry = OpLabel\n"
+ " %i = OpVariable %fp_i32 Function\n"
+ " OpStore %i %c_i32_0\n"
+ " OpBranch %loop\n"
+
+ " %loop = OpLabel\n"
+ " %15 = OpLoad %i32 %i\n"
+ " %lt = OpSLessThan %bool %15 %c_i32_64\n"
+ " OpLoopMerge %merge %inc None\n"
+ " OpBranchConditional %lt %write %merge\n"
+
+ "%write = OpLabel\n"
+ " %30 = OpLoad %i32 %i\n"
+ " %src = OpAccessChain %up_v4f32 %ssbo32 %c_i32_0 %30\n"
+ "%val32 = OpLoad %v4f32 %src\n"
+ "%val16 = OpFConvert %v4f16 %val32\n"
+ " %dst = OpAccessChain %up_v4f16 %ssbo16 %c_i32_0 %30\n"
+ " OpStore %dst %val16\n"
+ " OpBranch %inc\n"
+
+ " %inc = OpLabel\n"
+ " %37 = OpLoad %i32 %i\n"
+ " %39 = OpIAdd %i32 %37 %c_i32_1\n"
+ " OpStore %i %39\n"
+ " OpBranch %loop\n"
+
+ "%merge = OpLabel\n"
+ " OpReturnValue %param\n"
+
+ "OpFunctionEnd\n";
+
+ const RndMode rndModes[] =
+ {
+ {"rtz", "OpDecorate %val16 FPRoundingMode RTZ", graphicsCheck16BitFloats<ROUNDINGMODE_RTZ>},
+ {"rte", "OpDecorate %val16 FPRoundingMode RTE", graphicsCheck16BitFloats<ROUNDINGMODE_RTE>},
+ {"unspecified_rnd_mode", "", graphicsCheck16BitFloats<RoundingModeFlags(ROUNDINGMODE_RTE | ROUNDINGMODE_RTZ)>},
+ };
+
+ for (deUint32 capIdx = 0; capIdx < DE_LENGTH_OF_ARRAY(CAPABILITIES); ++capIdx)
+ for (deUint32 rndModeIdx = 0; rndModeIdx < DE_LENGTH_OF_ARRAY(rndModes); ++rndModeIdx)
+ {
+ map<string, string> specs;
+ string testName = string(CAPABILITIES[capIdx].name) + "_vector_float_" + rndModes[rndModeIdx].name;
+
+ specs["cap"] = CAPABILITIES[capIdx].cap;
+ specs["indecor"] = CAPABILITIES[capIdx].decor;
+ specs["rounddecor"] = rndModes[rndModeIdx].decor;
+
+ fragments["capability"] = capabilities.specialize(specs);
+ fragments["decoration"] = decoration.specialize(specs);
+
+ resources.inputs.back().first = CAPABILITIES[capIdx].dtype;
+ resources.verifyIO = rndModes[rndModeIdx].f;
+
+
+ createTestsForAllStages(testName, defaultColors, defaultColors, fragments, resources, extensions, testGroup, get16BitStorageFeatures(CAPABILITIES[capIdx].name));
+ }
+ }
+
+ { // matrix cases
+ fragments["pre_main"] =
+ " %f16 = OpTypeFloat 16\n"
+ " %c_i32_16 = OpConstant %i32 16\n"
+ " %v4f16 = OpTypeVector %f16 4\n"
+ " %m4x4f32 = OpTypeMatrix %v4f32 4\n"
+ " %m4x4f16 = OpTypeMatrix %v4f16 4\n"
+ " %up_v4f32 = OpTypePointer Uniform %v4f32\n"
+ " %up_v4f16 = OpTypePointer Uniform %v4f16\n"
+ "%a16m4x4f32 = OpTypeArray %m4x4f32 %c_i32_16\n"
+ "%a16m4x4f16 = OpTypeArray %m4x4f16 %c_i32_16\n"
+ " %SSBO32 = OpTypeStruct %a16m4x4f32\n"
+ " %SSBO16 = OpTypeStruct %a16m4x4f16\n"
+ " %up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ " %up_SSBO16 = OpTypePointer Uniform %SSBO16\n"
+ " %ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ " %ssbo16 = OpVariable %up_SSBO16 Uniform\n";
+
+ const StringTemplate decoration (
+ "OpDecorate %a16m4x4f32 ArrayStride 64\n"
+ "OpDecorate %a16m4x4f16 ArrayStride 32\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpMemberDecorate %SSBO32 0 ColMajor\n"
+ "OpMemberDecorate %SSBO32 0 MatrixStride 16\n"
+ "OpMemberDecorate %SSBO16 0 Offset 0\n"
+ "OpMemberDecorate %SSBO16 0 ColMajor\n"
+ "OpMemberDecorate %SSBO16 0 MatrixStride 8\n"
+ "OpDecorate %SSBO32 ${indecor}\n"
+ "OpDecorate %SSBO16 BufferBlock\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo16 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 0\n"
+ "OpDecorate %ssbo16 Binding 1\n"
+ "${rounddecor}\n");
+
+ fragments["testfun"] =
+ "%test_code = OpFunction %v4f32 None %v4f32_function\n"
+ " %param = OpFunctionParameter %v4f32\n"
+
+ "%entry = OpLabel\n"
+ " %i = OpVariable %fp_i32 Function\n"
+ " OpStore %i %c_i32_0\n"
+ " OpBranch %loop\n"
+
+ " %loop = OpLabel\n"
+ " %15 = OpLoad %i32 %i\n"
+ " %lt = OpSLessThan %bool %15 %c_i32_16\n"
+ " OpLoopMerge %merge %inc None\n"
+ " OpBranchConditional %lt %write %merge\n"
+
+ " %write = OpLabel\n"
+ " %30 = OpLoad %i32 %i\n"
+ " %src_0 = OpAccessChain %up_v4f32 %ssbo32 %c_i32_0 %30 %c_i32_0\n"
+ " %src_1 = OpAccessChain %up_v4f32 %ssbo32 %c_i32_0 %30 %c_i32_1\n"
+ " %src_2 = OpAccessChain %up_v4f32 %ssbo32 %c_i32_0 %30 %c_i32_2\n"
+ " %src_3 = OpAccessChain %up_v4f32 %ssbo32 %c_i32_0 %30 %c_i32_3\n"
+ "%val32_0 = OpLoad %v4f32 %src_0\n"
+ "%val32_1 = OpLoad %v4f32 %src_1\n"
+ "%val32_2 = OpLoad %v4f32 %src_2\n"
+ "%val32_3 = OpLoad %v4f32 %src_3\n"
+ "%val16_0 = OpFConvert %v4f16 %val32_0\n"
+ "%val16_1 = OpFConvert %v4f16 %val32_1\n"
+ "%val16_2 = OpFConvert %v4f16 %val32_2\n"
+ "%val16_3 = OpFConvert %v4f16 %val32_3\n"
+ " %dst_0 = OpAccessChain %up_v4f16 %ssbo16 %c_i32_0 %30 %c_i32_0\n"
+ " %dst_1 = OpAccessChain %up_v4f16 %ssbo16 %c_i32_0 %30 %c_i32_1\n"
+ " %dst_2 = OpAccessChain %up_v4f16 %ssbo16 %c_i32_0 %30 %c_i32_2\n"
+ " %dst_3 = OpAccessChain %up_v4f16 %ssbo16 %c_i32_0 %30 %c_i32_3\n"
+ " OpStore %dst_0 %val16_0\n"
+ " OpStore %dst_1 %val16_1\n"
+ " OpStore %dst_2 %val16_2\n"
+ " OpStore %dst_3 %val16_3\n"
+ " OpBranch %inc\n"
+
+ " %inc = OpLabel\n"
+ " %37 = OpLoad %i32 %i\n"
+ " %39 = OpIAdd %i32 %37 %c_i32_1\n"
+ " OpStore %i %39\n"
+ " OpBranch %loop\n"
+
+ "%merge = OpLabel\n"
+ " OpReturnValue %param\n"
+
+ "OpFunctionEnd\n";
+
+ const RndMode rndModes[] =
+ {
+ {"rte", "OpDecorate %val16_0 FPRoundingMode RTE\nOpDecorate %val16_1 FPRoundingMode RTE\nOpDecorate %val16_2 FPRoundingMode RTE\nOpDecorate %val16_3 FPRoundingMode RTE", graphicsCheck16BitFloats<ROUNDINGMODE_RTE>},
+ {"rtz", "OpDecorate %val16_0 FPRoundingMode RTZ\nOpDecorate %val16_1 FPRoundingMode RTZ\nOpDecorate %val16_2 FPRoundingMode RTZ\nOpDecorate %val16_3 FPRoundingMode RTZ", graphicsCheck16BitFloats<ROUNDINGMODE_RTZ>},
+ {"unspecified_rnd_mode", "", graphicsCheck16BitFloats<RoundingModeFlags(ROUNDINGMODE_RTE | ROUNDINGMODE_RTZ)>},
+ };
+
+ for (deUint32 capIdx = 0; capIdx < DE_LENGTH_OF_ARRAY(CAPABILITIES); ++capIdx)
+ for (deUint32 rndModeIdx = 0; rndModeIdx < DE_LENGTH_OF_ARRAY(rndModes); ++rndModeIdx)
+ {
+ map<string, string> specs;
+ string testName = string(CAPABILITIES[capIdx].name) + "_matrix_float_" + rndModes[rndModeIdx].name;
+
+ specs["cap"] = CAPABILITIES[capIdx].cap;
+ specs["indecor"] = CAPABILITIES[capIdx].decor;
+ specs["rounddecor"] = rndModes[rndModeIdx].decor;
+
+ fragments["capability"] = capabilities.specialize(specs);
+ fragments["decoration"] = decoration.specialize(specs);
+
+ resources.inputs.back().first = CAPABILITIES[capIdx].dtype;
+ resources.verifyIO = rndModes[rndModeIdx].f;
+
+
+ createTestsForAllStages(testName, defaultColors, defaultColors, fragments, resources, extensions, testGroup, get16BitStorageFeatures(CAPABILITIES[capIdx].name));
+ }
+ }
+}
+
+void addGraphics16BitStorageInputOutputFloat32To16Group (tcu::TestCaseGroup* testGroup)
+{
+ de::Random rnd (deStringHash(testGroup->getName()));
+ RGBA defaultColors[4];
+ vector<string> extensions;
+ map<string, string> fragments = passthruFragments();
+ const deUint32 numDataPoints = 64;
+ vector<float> float32Data = getFloat32s(rnd, numDataPoints);
+
+ extensions.push_back("VK_KHR_16bit_storage");
+
+ fragments["capability"] = "OpCapability StorageInputOutput16\n";
+ fragments["extension"] = "OpExtension \"SPV_KHR_16bit_storage\"\n";
+
+ getDefaultColors(defaultColors);
+
+ struct RndMode
+ {
+ const char* name;
+ const char* decor;
+ RoundingModeFlags flags;
+ };
+
+ const RndMode rndModes[] =
+ {
+ {"rtz", "OpDecorate %ret FPRoundingMode RTZ", ROUNDINGMODE_RTZ},
+ {"rte", "OpDecorate %ret FPRoundingMode RTE", ROUNDINGMODE_RTE},
+ {"unspecified_rnd_mode", "", RoundingModeFlags(ROUNDINGMODE_RTE | ROUNDINGMODE_RTZ)},
+ };
+
+ struct Case
+ {
+ const char* name;
+ const char* interfaceOpFunc;
+ const char* preMain;
+ const char* inputType;
+ const char* outputType;
+ deUint32 numPerCase;
+ deUint32 numElements;
+ };
+
+ const Case cases[] =
+ {
+ { // Scalar cases
+ "scalar",
+
+ "%interface_op_func = OpFunction %f16 None %f16_f32_function\n"
+ " %io_param1 = OpFunctionParameter %f32\n"
+ " %entry = OpLabel\n"
+ " %ret = OpFConvert %f16 %io_param1\n"
+ " OpReturnValue %ret\n"
+ " OpFunctionEnd\n",
+
+ " %f16 = OpTypeFloat 16\n"
+ " %op_f16 = OpTypePointer Output %f16\n"
+ " %a3f16 = OpTypeArray %f16 %c_i32_3\n"
+ " %op_a3f16 = OpTypePointer Output %a3f16\n"
+ "%f16_f32_function = OpTypeFunction %f16 %f32\n"
+ " %a3f32 = OpTypeArray %f32 %c_i32_3\n"
+ " %ip_a3f32 = OpTypePointer Input %a3f32\n",
+
+ "f32",
+ "f16",
+ 4,
+ 1,
+ },
+ { // Vector cases
+ "vector",
+
+ "%interface_op_func = OpFunction %v2f16 None %v2f16_v2f32_function\n"
+ " %io_param1 = OpFunctionParameter %v2f32\n"
+ " %entry = OpLabel\n"
+ " %ret = OpFConvert %v2f16 %io_param1\n"
+ " OpReturnValue %ret\n"
+ " OpFunctionEnd\n",
+
+ " %f16 = OpTypeFloat 16\n"
+ " %v2f16 = OpTypeVector %f16 2\n"
+ " %op_v2f16 = OpTypePointer Output %v2f16\n"
+ " %a3v2f16 = OpTypeArray %v2f16 %c_i32_3\n"
+ " %op_a3v2f16 = OpTypePointer Output %a3v2f16\n"
+ "%v2f16_v2f32_function = OpTypeFunction %v2f16 %v2f32\n"
+ " %a3v2f32 = OpTypeArray %v2f32 %c_i32_3\n"
+ " %ip_a3v2f32 = OpTypePointer Input %a3v2f32\n",
+
+ "v2f32",
+ "v2f16",
+ 2 * 4,
+ 2,
+ }
+ };
+
+ ExtensionFeatures extensionFeatures;
+ extensionFeatures.ext16BitStorage = EXT16BITSTORAGEFEATURES_INPUT_OUTPUT;
+
+ for (deUint32 caseIdx = 0; caseIdx < DE_LENGTH_OF_ARRAY(cases); ++caseIdx)
+ for (deUint32 rndModeIdx = 0; rndModeIdx < DE_LENGTH_OF_ARRAY(rndModes); ++rndModeIdx)
+ {
+ fragments["interface_op_func"] = cases[caseIdx].interfaceOpFunc;
+ fragments["pre_main"] = cases[caseIdx].preMain;
+ fragments["decoration"] = rndModes[rndModeIdx].decor;
+
+ fragments["input_type"] = cases[caseIdx].inputType;
+ fragments["output_type"] = cases[caseIdx].outputType;
+
+ GraphicsInterfaces interfaces;
+ const deUint32 numPerCase = cases[caseIdx].numPerCase;
+ vector<float> subInputs (numPerCase);
+ vector<deFloat16> subOutputs (numPerCase);
+
+ // The pipeline need this to call compare16BitFloat() when checking the result.
+ interfaces.setRoundingMode(rndModes[rndModeIdx].flags);
+
+ for (deUint32 caseNdx = 0; caseNdx < numDataPoints / numPerCase; ++caseNdx)
+ {
+ string testName = string(cases[caseIdx].name) + numberToString(caseNdx) + "_" + rndModes[rndModeIdx].name;
+
+ for (deUint32 numNdx = 0; numNdx < numPerCase; ++numNdx)
+ {
+ subInputs[numNdx] = float32Data[caseNdx * numPerCase + numNdx];
+ // We derive the expected result from inputs directly in the graphics pipeline.
+ subOutputs[numNdx] = 0;
+ }
+ interfaces.setInputOutput(std::make_pair(IFDataType(cases[caseIdx].numElements, NUMBERTYPE_FLOAT32), BufferSp(new Float32Buffer(subInputs))),
+ std::make_pair(IFDataType(cases[caseIdx].numElements, NUMBERTYPE_FLOAT16), BufferSp(new Float16Buffer(subOutputs))));
+ createTestsForAllStages(testName, defaultColors, defaultColors, fragments, interfaces, extensions, testGroup, extensionFeatures);
+ }
+ }
+}
+
+void addGraphics16BitStorageInputOutputFloat16To32Group (tcu::TestCaseGroup* testGroup)
+{
+ de::Random rnd (deStringHash(testGroup->getName()));
+ RGBA defaultColors[4];
+ vector<string> extensions;
+ map<string, string> fragments = passthruFragments();
+ const deUint32 numDataPoints = 64;
+ vector<deFloat16> float16Data (getFloat16s(rnd, numDataPoints));
+ vector<float> float32Data;
+
+ float32Data.reserve(numDataPoints);
+ for (deUint32 numIdx = 0; numIdx < numDataPoints; ++numIdx)
+ float32Data.push_back(deFloat16To32(float16Data[numIdx]));
+
+ extensions.push_back("VK_KHR_16bit_storage");
+
+ fragments["capability"] = "OpCapability StorageInputOutput16\n";
+ fragments["extension"] = "OpExtension \"SPV_KHR_16bit_storage\"\n";
+
+ getDefaultColors(defaultColors);
+
+ struct Case
+ {
+ const char* name;
+ const char* interfaceOpFunc;
+ const char* preMain;
+ const char* inputType;
+ const char* outputType;
+ deUint32 numPerCase;
+ deUint32 numElements;
+ };
+
+ Case cases[] =
+ {
+ { // Scalar cases
+ "scalar",
+
+ "%interface_op_func = OpFunction %f32 None %f32_f16_function\n"
+ " %io_param1 = OpFunctionParameter %f16\n"
+ " %entry = OpLabel\n"
+ " %ret = OpFConvert %f32 %io_param1\n"
+ " OpReturnValue %ret\n"
+ " OpFunctionEnd\n",
+
+ " %f16 = OpTypeFloat 16\n"
+ " %ip_f16 = OpTypePointer Input %f16\n"
+ " %a3f16 = OpTypeArray %f16 %c_i32_3\n"
+ " %ip_a3f16 = OpTypePointer Input %a3f16\n"
+ "%f32_f16_function = OpTypeFunction %f32 %f16\n"
+ " %a3f32 = OpTypeArray %f32 %c_i32_3\n"
+ " %op_a3f32 = OpTypePointer Output %a3f32\n",
+
+ "f16",
+ "f32",
+ 4,
+ 1,
+ },
+ { // Vector cases
+ "vector",
+
+ "%interface_op_func = OpFunction %v2f32 None %v2f32_v2f16_function\n"
+ " %io_param1 = OpFunctionParameter %v2f16\n"
+ " %entry = OpLabel\n"
+ " %ret = OpFConvert %v2f32 %io_param1\n"
+ " OpReturnValue %ret\n"
+ " OpFunctionEnd\n",
+
+ " %f16 = OpTypeFloat 16\n"
+ " %v2f16 = OpTypeVector %f16 2\n"
+ " %ip_v2f16 = OpTypePointer Input %v2f16\n"
+ " %a3v2f16 = OpTypeArray %v2f16 %c_i32_3\n"
+ " %ip_a3v2f16 = OpTypePointer Input %a3v2f16\n"
+ "%v2f32_v2f16_function = OpTypeFunction %v2f32 %v2f16\n"
+ " %a3v2f32 = OpTypeArray %v2f32 %c_i32_3\n"
+ " %op_a3v2f32 = OpTypePointer Output %a3v2f32\n",
+
+ "v2f16",
+ "v2f32",
+ 2 * 4,
+ 2,
+ }
+ };
+
+ ExtensionFeatures extensionFeatures;
+ extensionFeatures.ext16BitStorage = EXT16BITSTORAGEFEATURES_INPUT_OUTPUT;
+
+ for (deUint32 caseIdx = 0; caseIdx < DE_LENGTH_OF_ARRAY(cases); ++caseIdx)
+ {
+ fragments["interface_op_func"] = cases[caseIdx].interfaceOpFunc;
+ fragments["pre_main"] = cases[caseIdx].preMain;
+
+ fragments["input_type"] = cases[caseIdx].inputType;
+ fragments["output_type"] = cases[caseIdx].outputType;
+
+ GraphicsInterfaces interfaces;
+ const deUint32 numPerCase = cases[caseIdx].numPerCase;
+ vector<deFloat16> subInputs (numPerCase);
+ vector<float> subOutputs (numPerCase);
+
+ for (deUint32 caseNdx = 0; caseNdx < numDataPoints / numPerCase; ++caseNdx)
+ {
+ string testName = string(cases[caseIdx].name) + numberToString(caseNdx);
+
+ for (deUint32 numNdx = 0; numNdx < numPerCase; ++numNdx)
+ {
+ subInputs[numNdx] = float16Data[caseNdx * numPerCase + numNdx];
+ subOutputs[numNdx] = float32Data[caseNdx * numPerCase + numNdx];
+ }
+ interfaces.setInputOutput(std::make_pair(IFDataType(cases[caseIdx].numElements, NUMBERTYPE_FLOAT16), BufferSp(new Float16Buffer(subInputs))),
+ std::make_pair(IFDataType(cases[caseIdx].numElements, NUMBERTYPE_FLOAT32), BufferSp(new Float32Buffer(subOutputs))));
+ createTestsForAllStages(testName, defaultColors, defaultColors, fragments, interfaces, extensions, testGroup, extensionFeatures);
+ }
+ }
+}
+
+void addGraphics16BitStorageInputOutputInt32To16Group (tcu::TestCaseGroup* testGroup)
+{
+ de::Random rnd (deStringHash(testGroup->getName()));
+ RGBA defaultColors[4];
+ vector<string> extensions;
+ map<string, string> fragments = passthruFragments();
+ const deUint32 numDataPoints = 64;
+ // inputs and outputs are declared to be vectors of signed integers.
+ // However, depending on the test, they may be interpreted as unsiged
+ // integers. That won't be a problem as long as we passed the bits
+ // in faithfully to the pipeline.
+ vector<deInt32> inputs = getInt32s(rnd, numDataPoints);
+ vector<deInt16> outputs;
+
+ outputs.reserve(inputs.size());
+ for (deUint32 numNdx = 0; numNdx < inputs.size(); ++numNdx)
+ outputs.push_back(static_cast<deInt16>(0xffff & inputs[numNdx]));
+
+ extensions.push_back("VK_KHR_16bit_storage");
+
+ fragments["capability"] = "OpCapability StorageInputOutput16\n";
+ fragments["extension"] = "OpExtension \"SPV_KHR_16bit_storage\"\n";
+
+ getDefaultColors(defaultColors);
+
+ const StringTemplate scalarInterfaceOpFunc(
+ "%interface_op_func = OpFunction %${type16} None %${type16}_${type32}_function\n"
+ " %io_param1 = OpFunctionParameter %${type32}\n"
+ " %entry = OpLabel\n"
+ " %ret = ${convert} %${type16} %io_param1\n"
+ " OpReturnValue %ret\n"
+ " OpFunctionEnd\n");
+
+ const StringTemplate scalarPreMain(
+ " %${type16} = OpTypeInt 16 ${signed}\n"
+ " %op_${type16} = OpTypePointer Output %${type16}\n"
+ " %a3${type16} = OpTypeArray %${type16} %c_i32_3\n"
+ " %op_a3${type16} = OpTypePointer Output %a3${type16}\n"
+ "%${type16}_${type32}_function = OpTypeFunction %${type16} %${type32}\n"
+ " %a3${type32} = OpTypeArray %${type32} %c_i32_3\n"
+ " %ip_a3${type32} = OpTypePointer Input %a3${type32}\n");
+
+ const StringTemplate vecInterfaceOpFunc(
+ "%interface_op_func = OpFunction %${type16} None %${type16}_${type32}_function\n"
+ " %io_param1 = OpFunctionParameter %${type32}\n"
+ " %entry = OpLabel\n"
+ " %ret = ${convert} %${type16} %io_param1\n"
+ " OpReturnValue %ret\n"
+ " OpFunctionEnd\n");
+
+ const StringTemplate vecPreMain(
+ " %i16 = OpTypeInt 16 1\n"
+ " %u16 = OpTypeInt 16 0\n"
+ " %v4i16 = OpTypeVector %i16 4\n"
+ " %v4u16 = OpTypeVector %u16 4\n"
+ " %op_${type16} = OpTypePointer Output %${type16}\n"
+ " %a3${type16} = OpTypeArray %${type16} %c_i32_3\n"
+ " %op_a3${type16} = OpTypePointer Output %a3${type16}\n"
+ "%${type16}_${type32}_function = OpTypeFunction %${type16} %${type32}\n"
+ " %a3${type32} = OpTypeArray %${type32} %c_i32_3\n"
+ " %ip_a3${type32} = OpTypePointer Input %a3${type32}\n");
+
+ struct Case
+ {
+ const char* name;
+ const StringTemplate& interfaceOpFunc;
+ const StringTemplate& preMain;
+ const char* type32;
+ const char* type16;
+ const char* sign;
+ const char* opcode;
+ deUint32 numPerCase;
+ deUint32 numElements;
+ };
+
+ Case cases[] =
+ {
+ {"scalar_sint", scalarInterfaceOpFunc, scalarPreMain, "i32", "i16", "1", "OpSConvert", 4, 1},
+ {"scalar_uint", scalarInterfaceOpFunc, scalarPreMain, "u32", "u16", "0", "OpUConvert", 4, 1},
+ {"vector_sint", vecInterfaceOpFunc, vecPreMain, "v4i32", "v4i16", "1", "OpSConvert", 4 * 4, 4},
+ {"vector_uint", vecInterfaceOpFunc, vecPreMain, "v4u32", "v4u16", "0", "OpUConvert", 4 * 4, 4},
+ };
+
+ ExtensionFeatures extensionFeatures;
+ extensionFeatures.ext16BitStorage = EXT16BITSTORAGEFEATURES_INPUT_OUTPUT;
+
+ for (deUint32 caseIdx = 0; caseIdx < DE_LENGTH_OF_ARRAY(cases); ++caseIdx)
+ {
+ map<string, string> specs;
+
+ specs["type32"] = cases[caseIdx].type32;
+ specs["type16"] = cases[caseIdx].type16;
+ specs["signed"] = cases[caseIdx].sign;
+ specs["convert"] = cases[caseIdx].opcode;
+
+ fragments["pre_main"] = cases[caseIdx].preMain.specialize(specs);
+ fragments["interface_op_func"] = cases[caseIdx].interfaceOpFunc.specialize(specs);
+ fragments["input_type"] = cases[caseIdx].type32;
+ fragments["output_type"] = cases[caseIdx].type16;
+
+ GraphicsInterfaces interfaces;
+ const deUint32 numPerCase = cases[caseIdx].numPerCase;
+ vector<deInt32> subInputs (numPerCase);
+ vector<deInt16> subOutputs (numPerCase);
+
+ for (deUint32 caseNdx = 0; caseNdx < numDataPoints / numPerCase; ++caseNdx)
+ {
+ string testName = string(cases[caseIdx].name) + numberToString(caseNdx);
+
+ for (deUint32 numNdx = 0; numNdx < numPerCase; ++numNdx)
+ {
+ subInputs[numNdx] = inputs[caseNdx * numPerCase + numNdx];
+ subOutputs[numNdx] = outputs[caseNdx * numPerCase + numNdx];
+ }
+ if (strcmp(cases[caseIdx].sign, "1") == 0)
+ {
+ interfaces.setInputOutput(std::make_pair(IFDataType(cases[caseIdx].numElements, NUMBERTYPE_INT32), BufferSp(new Int32Buffer(subInputs))),
+ std::make_pair(IFDataType(cases[caseIdx].numElements, NUMBERTYPE_INT16), BufferSp(new Int16Buffer(subOutputs))));
+ }
+ else
+ {
+ interfaces.setInputOutput(std::make_pair(IFDataType(cases[caseIdx].numElements, NUMBERTYPE_UINT32), BufferSp(new Int32Buffer(subInputs))),
+ std::make_pair(IFDataType(cases[caseIdx].numElements, NUMBERTYPE_UINT16), BufferSp(new Int16Buffer(subOutputs))));
+ }
+ createTestsForAllStages(testName, defaultColors, defaultColors, fragments, interfaces, extensions, testGroup, extensionFeatures);
+ }
+ }
+}
+
+void addGraphics16BitStorageInputOutputInt16To32Group (tcu::TestCaseGroup* testGroup)
+{
+ de::Random rnd (deStringHash(testGroup->getName()));
+ RGBA defaultColors[4];
+ vector<string> extensions;
+ map<string, string> fragments = passthruFragments();
+ const deUint32 numDataPoints = 64;
+ // inputs and outputs are declared to be vectors of signed integers.
+ // However, depending on the test, they may be interpreted as unsiged
+ // integers. That won't be a problem as long as we passed the bits
+ // in faithfully to the pipeline.
+ vector<deInt16> inputs = getInt16s(rnd, numDataPoints);
+ vector<deInt32> sOutputs;
+ vector<deInt32> uOutputs;
+ const deUint16 signBitMask = 0x8000;
+ const deUint32 signExtendMask = 0xffff0000;
+
+ sOutputs.reserve(inputs.size());
+ uOutputs.reserve(inputs.size());
+
+ for (deUint32 numNdx = 0; numNdx < inputs.size(); ++numNdx)
+ {
+ uOutputs.push_back(static_cast<deUint16>(inputs[numNdx]));
+ if (inputs[numNdx] & signBitMask)
+ sOutputs.push_back(static_cast<deInt32>(inputs[numNdx] | signExtendMask));
+ else
+ sOutputs.push_back(static_cast<deInt32>(inputs[numNdx]));
+ }
+
+ extensions.push_back("VK_KHR_16bit_storage");
+
+ fragments["capability"] = "OpCapability StorageInputOutput16\n";
+ fragments["extension"] = "OpExtension \"SPV_KHR_16bit_storage\"\n";
+
+ getDefaultColors(defaultColors);
+
+ const StringTemplate scalarIfOpFunc (
+ "%interface_op_func = OpFunction %${type32} None %${type32}_${type16}_function\n"
+ " %io_param1 = OpFunctionParameter %${type16}\n"
+ " %entry = OpLabel\n"
+ " %ret = ${convert} %${type32} %io_param1\n"
+ " OpReturnValue %ret\n"
+ " OpFunctionEnd\n");
+
+ const StringTemplate scalarPreMain (
+ " %${type16} = OpTypeInt 16 ${signed}\n"
+ " %ip_${type16} = OpTypePointer Input %${type16}\n"
+ " %a3${type16} = OpTypeArray %${type16} %c_i32_3\n"
+ " %ip_a3${type16} = OpTypePointer Input %a3${type16}\n"
+ "%${type32}_${type16}_function = OpTypeFunction %${type32} %${type16}\n"
+ " %a3${type32} = OpTypeArray %${type32} %c_i32_3\n"
+ " %op_a3${type32} = OpTypePointer Output %a3${type32}\n");
+
+ const StringTemplate vecIfOpFunc (
+ "%interface_op_func = OpFunction %${type32} None %${type32}_${type16}_function\n"
+ " %io_param1 = OpFunctionParameter %${type16}\n"
+ " %entry = OpLabel\n"
+ " %ret = ${convert} %${type32} %io_param1\n"
+ " OpReturnValue %ret\n"
+ " OpFunctionEnd\n");
+
+ const StringTemplate vecPreMain (
+ " %i16 = OpTypeInt 16 1\n"
+ " %u16 = OpTypeInt 16 0\n"
+ " %v4i16 = OpTypeVector %i16 4\n"
+ " %v4u16 = OpTypeVector %u16 4\n"
+ " %ip_${type16} = OpTypePointer Input %${type16}\n"
+ " %a3${type16} = OpTypeArray %${type16} %c_i32_3\n"
+ " %ip_a3${type16} = OpTypePointer Input %a3${type16}\n"
+ "%${type32}_${type16}_function = OpTypeFunction %${type32} %${type16}\n"
+ " %a3${type32} = OpTypeArray %${type32} %c_i32_3\n"
+ " %op_a3${type32} = OpTypePointer Output %a3${type32}\n");
+
+ struct Case
+ {
+ const char* name;
+ const StringTemplate& interfaceOpFunc;
+ const StringTemplate& preMain;
+ const char* type32;
+ const char* type16;
+ const char* sign;
+ const char* opcode;
+ deUint32 numPerCase;
+ deUint32 numElements;
+ };
+
+ Case cases[] =
+ {
+ {"scalar_sint", scalarIfOpFunc, scalarPreMain, "i32", "i16", "1", "OpSConvert", 4, 1},
+ {"scalar_uint", scalarIfOpFunc, scalarPreMain, "u32", "u16", "0", "OpUConvert", 4, 1},
+ {"vector_sint", vecIfOpFunc, vecPreMain, "v4i32", "v4i16", "1", "OpSConvert", 4 * 4, 4},
+ {"vector_uint", vecIfOpFunc, vecPreMain, "v4u32", "v4u16", "0", "OpUConvert", 4 * 4, 4},
+ };
+
+ ExtensionFeatures extensionFeatures;
+ extensionFeatures.ext16BitStorage = EXT16BITSTORAGEFEATURES_INPUT_OUTPUT;
+
+ for (deUint32 caseIdx = 0; caseIdx < DE_LENGTH_OF_ARRAY(cases); ++caseIdx)
+ {
+ map<string, string> specs;
+
+ specs["type32"] = cases[caseIdx].type32;
+ specs["type16"] = cases[caseIdx].type16;
+ specs["signed"] = cases[caseIdx].sign;
+ specs["convert"] = cases[caseIdx].opcode;
+
+ fragments["pre_main"] = cases[caseIdx].preMain.specialize(specs);
+ fragments["interface_op_func"] = cases[caseIdx].interfaceOpFunc.specialize(specs);
+ fragments["input_type"] = cases[caseIdx].type16;
+ fragments["output_type"] = cases[caseIdx].type32;
+
+ GraphicsInterfaces interfaces;
+ const deUint32 numPerCase = cases[caseIdx].numPerCase;
+ vector<deInt16> subInputs (numPerCase);
+ vector<deInt32> subOutputs (numPerCase);
+
+ for (deUint32 caseNdx = 0; caseNdx < numDataPoints / numPerCase; ++caseNdx)
+ {
+ string testName = string(cases[caseIdx].name) + numberToString(caseNdx);
+
+ for (deUint32 numNdx = 0; numNdx < numPerCase; ++numNdx)
+ {
+ subInputs[numNdx] = inputs[caseNdx * numPerCase + numNdx];
+ if (cases[caseIdx].sign[0] == '1')
+ subOutputs[numNdx] = sOutputs[caseNdx * numPerCase + numNdx];
+ else
+ subOutputs[numNdx] = uOutputs[caseNdx * numPerCase + numNdx];
+ }
+ if (strcmp(cases[caseIdx].sign, "1") == 0)
+ {
+ interfaces.setInputOutput(std::make_pair(IFDataType(cases[caseIdx].numElements, NUMBERTYPE_INT16), BufferSp(new Int16Buffer(subInputs))),
+ std::make_pair(IFDataType(cases[caseIdx].numElements, NUMBERTYPE_INT32), BufferSp(new Int32Buffer(subOutputs))));
+ }
+ else
+ {
+ interfaces.setInputOutput(std::make_pair(IFDataType(cases[caseIdx].numElements, NUMBERTYPE_UINT16), BufferSp(new Int16Buffer(subInputs))),
+ std::make_pair(IFDataType(cases[caseIdx].numElements, NUMBERTYPE_UINT32), BufferSp(new Int32Buffer(subOutputs))));
+ }
+ createTestsForAllStages(testName, defaultColors, defaultColors, fragments, interfaces, extensions, testGroup, extensionFeatures);
+ }
+ }
+}
+
+void addGraphics16BitStoragePushConstantFloat16To32Group (tcu::TestCaseGroup* testGroup)
+{
+ de::Random rnd (deStringHash(testGroup->getName()));
+ map<string, string> fragments;
+ RGBA defaultColors[4];
+ vector<string> extensions;
+ GraphicsResources resources;
+ PushConstants pcs;
+ const deUint32 numDataPoints = 64;
+ vector<deFloat16> float16Data (getFloat16s(rnd, numDataPoints));
+ vector<float> float32Data;
+ ExtensionFeatures extensionFeatures;
+
+ float32Data.reserve(numDataPoints);
+ for (deUint32 numIdx = 0; numIdx < numDataPoints; ++numIdx)
+ float32Data.push_back(deFloat16To32(float16Data[numIdx]));
+
+ extensions.push_back("VK_KHR_16bit_storage");
+ extensionFeatures.ext16BitStorage = EXT16BITSTORAGEFEATURES_PUSH_CONSTANT;
+
+ fragments["capability"] = "OpCapability StoragePushConstant16\n";
+ fragments["extension"] = "OpExtension \"SPV_KHR_16bit_storage\"";
+
+ pcs.setPushConstant(BufferSp(new Float16Buffer(float16Data)));
+ resources.outputs.push_back(std::make_pair(VK_DESCRIPTOR_TYPE_STORAGE_BUFFER, BufferSp(new Float32Buffer(float32Data))));
+ resources.verifyIO = check32BitFloats;
+
+ getDefaultColors(defaultColors);
+
+ const StringTemplate testFun (
+ "%test_code = OpFunction %v4f32 None %v4f32_function\n"
+ " %param = OpFunctionParameter %v4f32\n"
+
+ "%entry = OpLabel\n"
+ " %i = OpVariable %fp_i32 Function\n"
+ " OpStore %i %c_i32_0\n"
+ " OpBranch %loop\n"
+
+ " %loop = OpLabel\n"
+ " %15 = OpLoad %i32 %i\n"
+ " %lt = OpSLessThan %bool %15 ${count}\n"
+ " OpLoopMerge %merge %inc None\n"
+ " OpBranchConditional %lt %write %merge\n"
+
+ "%write = OpLabel\n"
+ " %30 = OpLoad %i32 %i\n"
+ " %src = OpAccessChain ${pp_type16} %pc16 %c_i32_0 %30 ${index0:opt}\n"
+ "%val16 = OpLoad ${f_type16} %src\n"
+ "%val32 = OpFConvert ${f_type32} %val16\n"
+ " %dst = OpAccessChain ${up_type32} %ssbo32 %c_i32_0 %30 ${index0:opt}\n"
+ " OpStore %dst %val32\n"
+
+ "${store:opt}\n"
+
+ " OpBranch %inc\n"
+
+ " %inc = OpLabel\n"
+ " %37 = OpLoad %i32 %i\n"
+ " %39 = OpIAdd %i32 %37 %c_i32_1\n"
+ " OpStore %i %39\n"
+ " OpBranch %loop\n"
+
+ "%merge = OpLabel\n"
+ " OpReturnValue %param\n"
+
+ "OpFunctionEnd\n");
+
+ { // Scalar cases
+ fragments["pre_main"] =
+ " %f16 = OpTypeFloat 16\n"
+ " %c_i32_64 = OpConstant %i32 64\n" // Should be the same as numDataPoints
+ " %a64f16 = OpTypeArray %f16 %c_i32_64\n"
+ " %a64f32 = OpTypeArray %f32 %c_i32_64\n"
+ " %pp_f16 = OpTypePointer PushConstant %f16\n"
+ " %up_f32 = OpTypePointer Uniform %f32\n"
+ " %SSBO32 = OpTypeStruct %a64f32\n"
+ "%up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ " %ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ " %PC16 = OpTypeStruct %a64f16\n"
+ " %pp_PC16 = OpTypePointer PushConstant %PC16\n"
+ " %pc16 = OpVariable %pp_PC16 PushConstant\n";
+
+ fragments["decoration"] =
+ "OpDecorate %a64f16 ArrayStride 2\n"
+ "OpDecorate %a64f32 ArrayStride 4\n"
+ "OpDecorate %SSBO32 BufferBlock\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpDecorate %PC16 Block\n"
+ "OpMemberDecorate %PC16 0 Offset 0\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 0\n";
+
+ map<string, string> specs;
+
+ specs["count"] = "%c_i32_64";
+ specs["pp_type16"] = "%pp_f16";
+ specs["f_type16"] = "%f16";
+ specs["f_type32"] = "%f32";
+ specs["up_type32"] = "%up_f32";
+
+ fragments["testfun"] = testFun.specialize(specs);
+
+ createTestsForAllStages("scalar", defaultColors, defaultColors, fragments, pcs, resources, extensions, testGroup, extensionFeatures);
+ }
+
+ { // Vector cases
+ fragments["pre_main"] =
+ " %f16 = OpTypeFloat 16\n"
+ " %v4f16 = OpTypeVector %f16 4\n"
+ " %c_i32_16 = OpConstant %i32 16\n"
+ " %a16v4f16 = OpTypeArray %v4f16 %c_i32_16\n"
+ " %a16v4f32 = OpTypeArray %v4f32 %c_i32_16\n"
+ " %pp_v4f16 = OpTypePointer PushConstant %v4f16\n"
+ " %up_v4f32 = OpTypePointer Uniform %v4f32\n"
+ " %SSBO32 = OpTypeStruct %a16v4f32\n"
+ "%up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ " %ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ " %PC16 = OpTypeStruct %a16v4f16\n"
+ " %pp_PC16 = OpTypePointer PushConstant %PC16\n"
+ " %pc16 = OpVariable %pp_PC16 PushConstant\n";
+
+ fragments["decoration"] =
+ "OpDecorate %a16v4f16 ArrayStride 8\n"
+ "OpDecorate %a16v4f32 ArrayStride 16\n"
+ "OpDecorate %SSBO32 BufferBlock\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpDecorate %PC16 Block\n"
+ "OpMemberDecorate %PC16 0 Offset 0\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 0\n";
+
+ map<string, string> specs;
+
+ specs["count"] = "%c_i32_16";
+ specs["pp_type16"] = "%pp_v4f16";
+ specs["f_type16"] = "%v4f16";
+ specs["f_type32"] = "%v4f32";
+ specs["up_type32"] = "%up_v4f32";
+
+ fragments["testfun"] = testFun.specialize(specs);
+
+ createTestsForAllStages("vector", defaultColors, defaultColors, fragments, pcs, resources, extensions, testGroup, extensionFeatures);
+ }
+
+ { // Matrix cases
+ fragments["pre_main"] =
+ " %c_i32_8 = OpConstant %i32 8\n"
+ " %f16 = OpTypeFloat 16\n"
+ " %v4f16 = OpTypeVector %f16 4\n"
+ " %m2v4f16 = OpTypeMatrix %v4f16 2\n"
+ " %m2v4f32 = OpTypeMatrix %v4f32 2\n"
+ "%a8m2v4f16 = OpTypeArray %m2v4f16 %c_i32_8\n"
+ "%a8m2v4f32 = OpTypeArray %m2v4f32 %c_i32_8\n"
+ " %pp_v4f16 = OpTypePointer PushConstant %v4f16\n"
+ " %up_v4f32 = OpTypePointer Uniform %v4f32\n"
+ " %SSBO32 = OpTypeStruct %a8m2v4f32\n"
+ "%up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ " %ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ " %PC16 = OpTypeStruct %a8m2v4f16\n"
+ " %pp_PC16 = OpTypePointer PushConstant %PC16\n"
+ " %pc16 = OpVariable %pp_PC16 PushConstant\n";
+
+ fragments["decoration"] =
+ "OpDecorate %a8m2v4f16 ArrayStride 16\n"
+ "OpDecorate %a8m2v4f32 ArrayStride 32\n"
+ "OpDecorate %SSBO32 BufferBlock\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpMemberDecorate %SSBO32 0 ColMajor\n"
+ "OpMemberDecorate %SSBO32 0 MatrixStride 16\n"
+ "OpDecorate %PC16 Block\n"
+ "OpMemberDecorate %PC16 0 Offset 0\n"
+ "OpMemberDecorate %PC16 0 ColMajor\n"
+ "OpMemberDecorate %PC16 0 MatrixStride 8\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 0\n";
+
+ map<string, string> specs;
+
+ specs["count"] = "%c_i32_8";
+ specs["pp_type16"] = "%pp_v4f16";
+ specs["up_type32"] = "%up_v4f32";
+ specs["f_type16"] = "%v4f16";
+ specs["f_type32"] = "%v4f32";
+ specs["index0"] = "%c_i32_0";
+ specs["store"] =
+ " %src_1 = OpAccessChain %pp_v4f16 %pc16 %c_i32_0 %30 %c_i32_1\n"
+ "%val16_1 = OpLoad %v4f16 %src_1\n"
+ "%val32_1 = OpFConvert %v4f32 %val16_1\n"
+ " %dst_1 = OpAccessChain %up_v4f32 %ssbo32 %c_i32_0 %30 %c_i32_1\n"
+ " OpStore %dst_1 %val32_1\n";
+
+ fragments["testfun"] = testFun.specialize(specs);
+
+ createTestsForAllStages("matrix", defaultColors, defaultColors, fragments, pcs, resources, extensions, testGroup, extensionFeatures);
+ }
+}
+
+void addGraphics16BitStoragePushConstantInt16To32Group (tcu::TestCaseGroup* testGroup)
+{
+ de::Random rnd (deStringHash(testGroup->getName()));
+ map<string, string> fragments;
+ RGBA defaultColors[4];
+ const deUint32 numDataPoints = 64;
+ vector<deInt16> inputs = getInt16s(rnd, numDataPoints);
+ vector<deInt32> sOutputs;
+ vector<deInt32> uOutputs;
+ PushConstants pcs;
+ GraphicsResources resources;
+ vector<string> extensions;
+ const deUint16 signBitMask = 0x8000;
+ const deUint32 signExtendMask = 0xffff0000;
+ ExtensionFeatures extensionFeatures;
+
+ sOutputs.reserve(inputs.size());
+ uOutputs.reserve(inputs.size());
+
+ for (deUint32 numNdx = 0; numNdx < inputs.size(); ++numNdx)
+ {
+ uOutputs.push_back(static_cast<deUint16>(inputs[numNdx]));
+ if (inputs[numNdx] & signBitMask)
+ sOutputs.push_back(static_cast<deInt32>(inputs[numNdx] | signExtendMask));
+ else
+ sOutputs.push_back(static_cast<deInt32>(inputs[numNdx]));
+ }
+
+ extensions.push_back("VK_KHR_16bit_storage");
+ extensionFeatures.ext16BitStorage = EXT16BITSTORAGEFEATURES_PUSH_CONSTANT;
+
+ fragments["capability"] = "OpCapability StoragePushConstant16\n";
+ fragments["extension"] = "OpExtension \"SPV_KHR_16bit_storage\"";
+
+ pcs.setPushConstant(BufferSp(new Int16Buffer(inputs)));
+
+ getDefaultColors(defaultColors);
+
+ const StringTemplate testFun (
+ "%test_code = OpFunction %v4f32 None %v4f32_function\n"
+ " %param = OpFunctionParameter %v4f32\n"
+
+ "%entry = OpLabel\n"
+ " %i = OpVariable %fp_i32 Function\n"
+ " OpStore %i %c_i32_0\n"
+ " OpBranch %loop\n"
+
+ " %loop = OpLabel\n"
+ " %15 = OpLoad %i32 %i\n"
+ " %lt = OpSLessThan %bool %15 %c_i32_${count}\n"
+ " OpLoopMerge %merge %inc None\n"
+ " OpBranchConditional %lt %write %merge\n"
+
+ "%write = OpLabel\n"
+ " %30 = OpLoad %i32 %i\n"
+ " %src = OpAccessChain %pp_${type16} %pc16 %c_i32_0 %30\n"
+ "%val16 = OpLoad %${type16} %src\n"
+ "%val32 = ${convert} %${type32} %val16\n"
+ " %dst = OpAccessChain %up_${type32} %ssbo32 %c_i32_0 %30\n"
+ " OpStore %dst %val32\n"
+ " OpBranch %inc\n"
+
+ " %inc = OpLabel\n"
+ " %37 = OpLoad %i32 %i\n"
+ " %39 = OpIAdd %i32 %37 %c_i32_1\n"
+ " OpStore %i %39\n"
+ " OpBranch %loop\n"
+
+ "%merge = OpLabel\n"
+ " OpReturnValue %param\n"
+
+ "OpFunctionEnd\n");
+
+ { // Scalar cases
+ const StringTemplate preMain (
+ " %${type16} = OpTypeInt 16 ${signed}\n"
+ " %c_i32_${count} = OpConstant %i32 ${count}\n" // Should be the same as numDataPoints
+ "%a${count}${type16} = OpTypeArray %${type16} %c_i32_${count}\n"
+ "%a${count}${type32} = OpTypeArray %${type32} %c_i32_${count}\n"
+ " %pp_${type16} = OpTypePointer PushConstant %${type16}\n"
+ " %up_${type32} = OpTypePointer Uniform %${type32}\n"
+ " %SSBO32 = OpTypeStruct %a${count}${type32}\n"
+ " %up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ " %ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ " %PC16 = OpTypeStruct %a${count}${type16}\n"
+ " %pp_PC16 = OpTypePointer PushConstant %PC16\n"
+ " %pc16 = OpVariable %pp_PC16 PushConstant\n");
+
+ const StringTemplate decoration (
+ "OpDecorate %a${count}${type16} ArrayStride 2\n"
+ "OpDecorate %a${count}${type32} ArrayStride 4\n"
+ "OpDecorate %SSBO32 BufferBlock\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpDecorate %PC16 Block\n"
+ "OpMemberDecorate %PC16 0 Offset 0\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 0\n");
+
+ { // signed int
+ map<string, string> specs;
+
+ specs["type16"] = "i16";
+ specs["type32"] = "i32";
+ specs["signed"] = "1";
+ specs["count"] = "64";
+ specs["convert"] = "OpSConvert";
+
+ fragments["testfun"] = testFun.specialize(specs);
+ fragments["pre_main"] = preMain.specialize(specs);
+ fragments["decoration"] = decoration.specialize(specs);
+
+ resources.outputs.clear();
+ resources.outputs.push_back(std::make_pair(VK_DESCRIPTOR_TYPE_STORAGE_BUFFER, BufferSp(new Int32Buffer(sOutputs))));
+ createTestsForAllStages("sint_scalar", defaultColors, defaultColors, fragments, pcs, resources, extensions, testGroup, extensionFeatures);
+ }
+ { // signed int
+ map<string, string> specs;
+
+ specs["type16"] = "u16";
+ specs["type32"] = "u32";
+ specs["signed"] = "0";
+ specs["count"] = "64";
+ specs["convert"] = "OpUConvert";
+
+ fragments["testfun"] = testFun.specialize(specs);
+ fragments["pre_main"] = preMain.specialize(specs);
+ fragments["decoration"] = decoration.specialize(specs);
+
+ resources.outputs.clear();
+ resources.outputs.push_back(std::make_pair(VK_DESCRIPTOR_TYPE_STORAGE_BUFFER, BufferSp(new Int32Buffer(uOutputs))));
+ createTestsForAllStages("uint_scalar", defaultColors, defaultColors, fragments, pcs, resources, extensions, testGroup, extensionFeatures);
+ }
+ }
+
+ { // Vector cases
+ const StringTemplate preMain (
+ " %${base_type16} = OpTypeInt 16 ${signed}\n"
+ " %${type16} = OpTypeVector %${base_type16} 2\n"
+ " %c_i32_${count} = OpConstant %i32 ${count}\n"
+ "%a${count}${type16} = OpTypeArray %${type16} %c_i32_${count}\n"
+ "%a${count}${type32} = OpTypeArray %${type32} %c_i32_${count}\n"
+ " %pp_${type16} = OpTypePointer PushConstant %${type16}\n"
+ " %up_${type32} = OpTypePointer Uniform %${type32}\n"
+ " %SSBO32 = OpTypeStruct %a${count}${type32}\n"
+ " %up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ " %ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ " %PC16 = OpTypeStruct %a${count}${type16}\n"
+ " %pp_PC16 = OpTypePointer PushConstant %PC16\n"
+ " %pc16 = OpVariable %pp_PC16 PushConstant\n");
+
+ const StringTemplate decoration (
+ "OpDecorate %a${count}${type16} ArrayStride 4\n"
+ "OpDecorate %a${count}${type32} ArrayStride 8\n"
+ "OpDecorate %SSBO32 BufferBlock\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpDecorate %PC16 Block\n"
+ "OpMemberDecorate %PC16 0 Offset 0\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 0\n");
+
+ { // signed int
+ map<string, string> specs;
+
+ specs["base_type16"] = "i16";
+ specs["type16"] = "v2i16";
+ specs["type32"] = "v2i32";
+ specs["signed"] = "1";
+ specs["count"] = "32"; // 64 / 2
+ specs["convert"] = "OpSConvert";
+
+ fragments["testfun"] = testFun.specialize(specs);
+ fragments["pre_main"] = preMain.specialize(specs);
+ fragments["decoration"] = decoration.specialize(specs);
+
+ resources.outputs.clear();
+ resources.outputs.push_back(std::make_pair(VK_DESCRIPTOR_TYPE_STORAGE_BUFFER, BufferSp(new Int32Buffer(sOutputs))));
+ createTestsForAllStages("sint_vector", defaultColors, defaultColors, fragments, pcs, resources, extensions, testGroup, extensionFeatures);
+ }
+ { // signed int
+ map<string, string> specs;
+
+ specs["base_type16"] = "u16";
+ specs["type16"] = "v2u16";
+ specs["type32"] = "v2u32";
+ specs["signed"] = "0";
+ specs["count"] = "32";
+ specs["convert"] = "OpUConvert";
+
+ fragments["testfun"] = testFun.specialize(specs);
+ fragments["pre_main"] = preMain.specialize(specs);
+ fragments["decoration"] = decoration.specialize(specs);
+
+ resources.outputs.clear();
+ resources.outputs.push_back(std::make_pair(VK_DESCRIPTOR_TYPE_STORAGE_BUFFER, BufferSp(new Int32Buffer(uOutputs))));
+ createTestsForAllStages("uint_vector", defaultColors, defaultColors, fragments, pcs, resources, extensions, testGroup, extensionFeatures);
+ }
+ }
+}
+
+void addGraphics16BitStorageUniformInt16To32Group (tcu::TestCaseGroup* testGroup)
+{
+ de::Random rnd (deStringHash(testGroup->getName()));
+ map<string, string> fragments;
+ const deUint32 numDataPoints = 256;
+ RGBA defaultColors[4];
+ vector<deInt16> inputs = getInt16s(rnd, numDataPoints);
+ vector<deInt32> sOutputs;
+ vector<deInt32> uOutputs;
+ GraphicsResources resources;
+ vector<string> extensions;
+ const deUint16 signBitMask = 0x8000;
+ const deUint32 signExtendMask = 0xffff0000;
+ const StringTemplate capabilities ("OpCapability ${cap}\n");
+
+ sOutputs.reserve(inputs.size());
+ uOutputs.reserve(inputs.size());
+
+ for (deUint32 numNdx = 0; numNdx < inputs.size(); ++numNdx)
+ {
+ uOutputs.push_back(static_cast<deUint16>(inputs[numNdx]));
+ if (inputs[numNdx] & signBitMask)
+ sOutputs.push_back(static_cast<deInt32>(inputs[numNdx] | signExtendMask));
+ else
+ sOutputs.push_back(static_cast<deInt32>(inputs[numNdx]));
+ }
+
+ resources.inputs.push_back(std::make_pair(VK_DESCRIPTOR_TYPE_STORAGE_BUFFER, BufferSp(new Int16Buffer(inputs))));
+
+ extensions.push_back("VK_KHR_16bit_storage");
+ fragments["extension"] = "OpExtension \"SPV_KHR_16bit_storage\"";
+
+ getDefaultColors(defaultColors);
+
+ struct IntegerFacts
+ {
+ const char* name;
+ const char* type32;
+ const char* type16;
+ const char* opcode;
+ bool isSigned;
+ };
+
+ const IntegerFacts intFacts[] =
+ {
+ {"sint", "%i32", "%i16", "OpSConvert", true},
+ {"uint", "%u32", "%u16", "OpUConvert", false},
+ };
+
+ const StringTemplate scalarPreMain (
+ "${itype16} = OpTypeInt 16 ${signed}\n"
+ " %c_i32_256 = OpConstant %i32 256\n"
+ " %up_i32 = OpTypePointer Uniform ${itype32}\n"
+ " %up_i16 = OpTypePointer Uniform ${itype16}\n"
+ " %ra_i32 = OpTypeArray ${itype32} %c_i32_256\n"
+ " %ra_i16 = OpTypeArray ${itype16} %c_i32_256\n"
+ " %SSBO32 = OpTypeStruct %ra_i32\n"
+ " %SSBO16 = OpTypeStruct %ra_i16\n"
+ "%up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ "%up_SSBO16 = OpTypePointer Uniform %SSBO16\n"
+ " %ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ " %ssbo16 = OpVariable %up_SSBO16 Uniform\n");
+
+ const StringTemplate scalarDecoration (
+ "OpDecorate %ra_i32 ArrayStride 4\n"
+ "OpDecorate %ra_i16 ArrayStride 2\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpMemberDecorate %SSBO16 0 Offset 0\n"
+ "OpDecorate %SSBO32 BufferBlock\n"
+ "OpDecorate %SSBO16 ${indecor}\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo16 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 1\n"
+ "OpDecorate %ssbo16 Binding 0\n");
+
+ const StringTemplate scalarTestFunc (
+ "%test_code = OpFunction %v4f32 None %v4f32_function\n"
+ " %param = OpFunctionParameter %v4f32\n"
+
+ "%entry = OpLabel\n"
+ " %i = OpVariable %fp_i32 Function\n"
+ " OpStore %i %c_i32_0\n"
+ " OpBranch %loop\n"
+
+ " %loop = OpLabel\n"
+ " %15 = OpLoad %i32 %i\n"
+ " %lt = OpSLessThan %bool %15 %c_i32_256\n"
+ " OpLoopMerge %merge %inc None\n"
+ " OpBranchConditional %lt %write %merge\n"
+
+ "%write = OpLabel\n"
+ " %30 = OpLoad %i32 %i\n"
+ " %src = OpAccessChain %up_i16 %ssbo16 %c_i32_0 %30\n"
+ "%val16 = OpLoad ${itype16} %src\n"
+ "%val32 = ${convert} ${itype32} %val16\n"
+ " %dst = OpAccessChain %up_i32 %ssbo32 %c_i32_0 %30\n"
+ " OpStore %dst %val32\n"
+ " OpBranch %inc\n"
+
+ " %inc = OpLabel\n"
+ " %37 = OpLoad %i32 %i\n"
+ " %39 = OpIAdd %i32 %37 %c_i32_1\n"
+ " OpStore %i %39\n"
+ " OpBranch %loop\n"
+ "%merge = OpLabel\n"
+ " OpReturnValue %param\n"
+
+ "OpFunctionEnd\n");
+
+ const StringTemplate vecPreMain (
+ "${itype16} = OpTypeInt 16 ${signed}\n"
+ "%c_i32_128 = OpConstant %i32 128\n"
+ "%v2itype16 = OpTypeVector ${itype16} 2\n"
+ "%v2itype32 = OpTypeVector ${itype32} 2\n"
+ " %up_v2i32 = OpTypePointer Uniform %v2itype32\n"
+ " %up_v2i16 = OpTypePointer Uniform %v2itype16\n"
+ " %ra_v2i32 = OpTypeArray %v2itype32 %c_i32_128\n"
+ " %ra_v2i16 = OpTypeArray %v2itype16 %c_i32_128\n"
+ " %SSBO32 = OpTypeStruct %ra_v2i32\n"
+ " %SSBO16 = OpTypeStruct %ra_v2i16\n"
+ "%up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ "%up_SSBO16 = OpTypePointer Uniform %SSBO16\n"
+ " %ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ " %ssbo16 = OpVariable %up_SSBO16 Uniform\n");
+
+ const StringTemplate vecDecoration (
+ "OpDecorate %ra_v2i32 ArrayStride 8\n"
+ "OpDecorate %ra_v2i16 ArrayStride 4\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpMemberDecorate %SSBO16 0 Offset 0\n"
+ "OpDecorate %SSBO32 BufferBlock\n"
+ "OpDecorate %SSBO16 ${indecor}\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo16 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 1\n"
+ "OpDecorate %ssbo16 Binding 0\n");
+
+ const StringTemplate vecTestFunc (
+ "%test_code = OpFunction %v4f32 None %v4f32_function\n"
+ " %param = OpFunctionParameter %v4f32\n"
+
+ "%entry = OpLabel\n"
+ " %i = OpVariable %fp_i32 Function\n"
+ " OpStore %i %c_i32_0\n"
+ " OpBranch %loop\n"
+
+ " %loop = OpLabel\n"
+ " %15 = OpLoad %i32 %i\n"
+ " %lt = OpSLessThan %bool %15 %c_i32_128\n"
+ " OpLoopMerge %merge %inc None\n"
+ " OpBranchConditional %lt %write %merge\n"
+
+ "%write = OpLabel\n"
+ " %30 = OpLoad %i32 %i\n"
+ " %src = OpAccessChain %up_v2i16 %ssbo16 %c_i32_0 %30\n"
+ "%val16 = OpLoad %v2itype16 %src\n"
+ "%val32 = ${convert} %v2itype32 %val16\n"
+ " %dst = OpAccessChain %up_v2i32 %ssbo32 %c_i32_0 %30\n"
+ " OpStore %dst %val32\n"
+ " OpBranch %inc\n"
+
+ " %inc = OpLabel\n"
+ " %37 = OpLoad %i32 %i\n"
+ " %39 = OpIAdd %i32 %37 %c_i32_1\n"
+ " OpStore %i %39\n"
+ " OpBranch %loop\n"
+ "%merge = OpLabel\n"
+ " OpReturnValue %param\n"
+
+ "OpFunctionEnd\n");
+
+ struct Category
+ {
+ const char* name;
+ const StringTemplate& preMain;
+ const StringTemplate& decoration;
+ const StringTemplate& testFunction;
+ };
+
+ const Category categories[] =
+ {
+ {"scalar", scalarPreMain, scalarDecoration, scalarTestFunc},
+ {"vector", vecPreMain, vecDecoration, vecTestFunc},
+ };
+
+ for (deUint32 catIdx = 0; catIdx < DE_LENGTH_OF_ARRAY(categories); ++catIdx)
+ for (deUint32 capIdx = 0; capIdx < DE_LENGTH_OF_ARRAY(CAPABILITIES); ++capIdx)
+ for (deUint32 factIdx = 0; factIdx < DE_LENGTH_OF_ARRAY(intFacts); ++factIdx)
+ {
+ map<string, string> specs;
+ string name = string(CAPABILITIES[capIdx].name) + "_" + categories[catIdx].name + "_" + intFacts[factIdx].name;
+
+ specs["cap"] = CAPABILITIES[capIdx].cap;
+ specs["indecor"] = CAPABILITIES[capIdx].decor;
+ specs["itype32"] = intFacts[factIdx].type32;
+ specs["itype16"] = intFacts[factIdx].type16;
+ if (intFacts[factIdx].isSigned)
+ specs["signed"] = "1";
+ else
+ specs["signed"] = "0";
+ specs["convert"] = intFacts[factIdx].opcode;
+
+ fragments["pre_main"] = categories[catIdx].preMain.specialize(specs);
+ fragments["testfun"] = categories[catIdx].testFunction.specialize(specs);
+ fragments["capability"] = capabilities.specialize(specs);
+ fragments["decoration"] = categories[catIdx].decoration.specialize(specs);
+
+ resources.inputs.back().first = CAPABILITIES[capIdx].dtype;
+ resources.outputs.clear();
+ if (intFacts[factIdx].isSigned)
+ resources.outputs.push_back(std::make_pair(VK_DESCRIPTOR_TYPE_STORAGE_BUFFER, BufferSp(new Int32Buffer(sOutputs))));
+ else
+ resources.outputs.push_back(std::make_pair(VK_DESCRIPTOR_TYPE_STORAGE_BUFFER, BufferSp(new Int32Buffer(uOutputs))));
+
+ createTestsForAllStages(name, defaultColors, defaultColors, fragments, resources, extensions, testGroup, get16BitStorageFeatures(CAPABILITIES[capIdx].name));
+ }
+}
+
+void addGraphics16BitStorageUniformFloat16To32Group (tcu::TestCaseGroup* testGroup)
+{
+ de::Random rnd (deStringHash(testGroup->getName()));
+ map<string, string> fragments;
+ GraphicsResources resources;
+ vector<string> extensions;
+ const deUint32 numDataPoints = 256;
+ RGBA defaultColors[4];
+ const StringTemplate capabilities ("OpCapability ${cap}\n");
+ vector<deFloat16> float16Data = getFloat16s(rnd, numDataPoints);
+ vector<float> float32Data;
+
+ float32Data.reserve(numDataPoints);
+ for (deUint32 numIdx = 0; numIdx < numDataPoints; ++numIdx)
+ float32Data.push_back(deFloat16To32(float16Data[numIdx]));
+
+ resources.inputs.push_back(std::make_pair(VK_DESCRIPTOR_TYPE_STORAGE_BUFFER, BufferSp(new Float16Buffer(float16Data))));
+ resources.outputs.push_back(std::make_pair(VK_DESCRIPTOR_TYPE_STORAGE_BUFFER, BufferSp(new Float32Buffer(float32Data))));
+ resources.verifyIO = check32BitFloats;
+
+ extensions.push_back("VK_KHR_16bit_storage");
+ fragments["extension"] = "OpExtension \"SPV_KHR_16bit_storage\"";
+
+ getDefaultColors(defaultColors);
+
+ { // scalar cases
+ fragments["pre_main"] =
+ " %f16 = OpTypeFloat 16\n"
+ "%c_i32_256 = OpConstant %i32 256\n"
+ " %up_f32 = OpTypePointer Uniform %f32\n"
+ " %up_f16 = OpTypePointer Uniform %f16\n"
+ " %ra_f32 = OpTypeArray %f32 %c_i32_256\n"
+ " %ra_f16 = OpTypeArray %f16 %c_i32_256\n"
+ " %SSBO32 = OpTypeStruct %ra_f32\n"
+ " %SSBO16 = OpTypeStruct %ra_f16\n"
+ "%up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ "%up_SSBO16 = OpTypePointer Uniform %SSBO16\n"
+ " %ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ " %ssbo16 = OpVariable %up_SSBO16 Uniform\n";
+
+ const StringTemplate decoration (
+ "OpDecorate %ra_f32 ArrayStride 4\n"
+ "OpDecorate %ra_f16 ArrayStride 2\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpMemberDecorate %SSBO16 0 Offset 0\n"
+ "OpDecorate %SSBO32 BufferBlock\n"
+ "OpDecorate %SSBO16 ${indecor}\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo16 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 1\n"
+ "OpDecorate %ssbo16 Binding 0\n");
+
+ // ssbo32[] <- convert ssbo16[] to 32bit float
+ fragments["testfun"] =
+ "%test_code = OpFunction %v4f32 None %v4f32_function\n"
+ " %param = OpFunctionParameter %v4f32\n"
+
+ "%entry = OpLabel\n"
+ " %i = OpVariable %fp_i32 Function\n"
+ " OpStore %i %c_i32_0\n"
+ " OpBranch %loop\n"
+
+ " %loop = OpLabel\n"
+ " %15 = OpLoad %i32 %i\n"
+ " %lt = OpSLessThan %bool %15 %c_i32_256\n"
+ " OpLoopMerge %merge %inc None\n"
+ " OpBranchConditional %lt %write %merge\n"
+
+ "%write = OpLabel\n"
+ " %30 = OpLoad %i32 %i\n"
+ " %src = OpAccessChain %up_f16 %ssbo16 %c_i32_0 %30\n"
+ "%val16 = OpLoad %f16 %src\n"
+ "%val32 = OpFConvert %f32 %val16\n"
+ " %dst = OpAccessChain %up_f32 %ssbo32 %c_i32_0 %30\n"
+ " OpStore %dst %val32\n"
+ " OpBranch %inc\n"
+
+ " %inc = OpLabel\n"
+ " %37 = OpLoad %i32 %i\n"
+ " %39 = OpIAdd %i32 %37 %c_i32_1\n"
+ " OpStore %i %39\n"
+ " OpBranch %loop\n"
+
+ "%merge = OpLabel\n"
+ " OpReturnValue %param\n"
+
+ "OpFunctionEnd\n";
+
+ for (deUint32 capIdx = 0; capIdx < DE_LENGTH_OF_ARRAY(CAPABILITIES); ++capIdx)
+ {
+ map<string, string> specs;
+ string testName = string(CAPABILITIES[capIdx].name) + "_scalar_float";
+
+ specs["cap"] = CAPABILITIES[capIdx].cap;
+ specs["indecor"] = CAPABILITIES[capIdx].decor;
+
+ fragments["capability"] = capabilities.specialize(specs);
+ fragments["decoration"] = decoration.specialize(specs);
+
+ resources.inputs.back().first = CAPABILITIES[capIdx].dtype;
+
+ createTestsForAllStages(testName, defaultColors, defaultColors, fragments, resources, extensions, testGroup, get16BitStorageFeatures(CAPABILITIES[capIdx].name));
+ }
+ }
+
+ { // vector cases
+ fragments["pre_main"] =
+ " %f16 = OpTypeFloat 16\n"
+ "%c_i32_128 = OpConstant %i32 128\n"
+ " %v2f16 = OpTypeVector %f16 2\n"
+ " %up_v2f32 = OpTypePointer Uniform %v2f32\n"
+ " %up_v2f16 = OpTypePointer Uniform %v2f16\n"
+ " %ra_v2f32 = OpTypeArray %v2f32 %c_i32_128\n"
+ " %ra_v2f16 = OpTypeArray %v2f16 %c_i32_128\n"
+ " %SSBO32 = OpTypeStruct %ra_v2f32\n"
+ " %SSBO16 = OpTypeStruct %ra_v2f16\n"
+ "%up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ "%up_SSBO16 = OpTypePointer Uniform %SSBO16\n"
+ " %ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ " %ssbo16 = OpVariable %up_SSBO16 Uniform\n";
+
+ const StringTemplate decoration (
+ "OpDecorate %ra_v2f32 ArrayStride 8\n"
+ "OpDecorate %ra_v2f16 ArrayStride 4\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpMemberDecorate %SSBO16 0 Offset 0\n"
+ "OpDecorate %SSBO32 BufferBlock\n"
+ "OpDecorate %SSBO16 ${indecor}\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo16 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 1\n"
+ "OpDecorate %ssbo16 Binding 0\n");
+
+ // ssbo32[] <- convert ssbo16[] to 32bit float
+ fragments["testfun"] =
+ "%test_code = OpFunction %v4f32 None %v4f32_function\n"
+ " %param = OpFunctionParameter %v4f32\n"
+
+ "%entry = OpLabel\n"
+ " %i = OpVariable %fp_i32 Function\n"
+ " OpStore %i %c_i32_0\n"
+ " OpBranch %loop\n"
+
+ " %loop = OpLabel\n"
+ " %15 = OpLoad %i32 %i\n"
+ " %lt = OpSLessThan %bool %15 %c_i32_128\n"
+ " OpLoopMerge %merge %inc None\n"
+ " OpBranchConditional %lt %write %merge\n"
+
+ "%write = OpLabel\n"
+ " %30 = OpLoad %i32 %i\n"
+ " %src = OpAccessChain %up_v2f16 %ssbo16 %c_i32_0 %30\n"
+ "%val16 = OpLoad %v2f16 %src\n"
+ "%val32 = OpFConvert %v2f32 %val16\n"
+ " %dst = OpAccessChain %up_v2f32 %ssbo32 %c_i32_0 %30\n"
+ " OpStore %dst %val32\n"
+ " OpBranch %inc\n"
+
+ " %inc = OpLabel\n"
+ " %37 = OpLoad %i32 %i\n"
+ " %39 = OpIAdd %i32 %37 %c_i32_1\n"
+ " OpStore %i %39\n"
+ " OpBranch %loop\n"
+
+ "%merge = OpLabel\n"
+ " OpReturnValue %param\n"
+
+ "OpFunctionEnd\n";
+
+ for (deUint32 capIdx = 0; capIdx < DE_LENGTH_OF_ARRAY(CAPABILITIES); ++capIdx)
+ {
+ map<string, string> specs;
+ string testName = string(CAPABILITIES[capIdx].name) + "_vector_float";
+
+ specs["cap"] = CAPABILITIES[capIdx].cap;
+ specs["indecor"] = CAPABILITIES[capIdx].decor;
+
+ fragments["capability"] = capabilities.specialize(specs);
+ fragments["decoration"] = decoration.specialize(specs);
+
+ resources.inputs.back().first = CAPABILITIES[capIdx].dtype;
+
+ createTestsForAllStages(testName, defaultColors, defaultColors, fragments, resources, extensions, testGroup, get16BitStorageFeatures(CAPABILITIES[capIdx].name));
+ }
+ }
+
+ { // matrix cases
+ fragments["pre_main"] =
+ " %c_i32_32 = OpConstant %i32 32\n"
+ " %f16 = OpTypeFloat 16\n"
+ " %v2f16 = OpTypeVector %f16 2\n"
+ " %m4x2f32 = OpTypeMatrix %v2f32 4\n"
+ " %m4x2f16 = OpTypeMatrix %v2f16 4\n"
+ " %up_v2f32 = OpTypePointer Uniform %v2f32\n"
+ " %up_v2f16 = OpTypePointer Uniform %v2f16\n"
+ "%a8m4x2f32 = OpTypeArray %m4x2f32 %c_i32_32\n"
+ "%a8m4x2f16 = OpTypeArray %m4x2f16 %c_i32_32\n"
+ " %SSBO32 = OpTypeStruct %a8m4x2f32\n"
+ " %SSBO16 = OpTypeStruct %a8m4x2f16\n"
+ "%up_SSBO32 = OpTypePointer Uniform %SSBO32\n"
+ "%up_SSBO16 = OpTypePointer Uniform %SSBO16\n"
+ " %ssbo32 = OpVariable %up_SSBO32 Uniform\n"
+ " %ssbo16 = OpVariable %up_SSBO16 Uniform\n";
+
+ const StringTemplate decoration (
+ "OpDecorate %a8m4x2f32 ArrayStride 32\n"
+ "OpDecorate %a8m4x2f16 ArrayStride 16\n"
+ "OpMemberDecorate %SSBO32 0 Offset 0\n"
+ "OpMemberDecorate %SSBO32 0 ColMajor\n"
+ "OpMemberDecorate %SSBO32 0 MatrixStride 8\n"
+ "OpMemberDecorate %SSBO16 0 Offset 0\n"
+ "OpMemberDecorate %SSBO16 0 ColMajor\n"
+ "OpMemberDecorate %SSBO16 0 MatrixStride 4\n"
+ "OpDecorate %SSBO32 BufferBlock\n"
+ "OpDecorate %SSBO16 ${indecor}\n"
+ "OpDecorate %ssbo32 DescriptorSet 0\n"
+ "OpDecorate %ssbo16 DescriptorSet 0\n"
+ "OpDecorate %ssbo32 Binding 1\n"
+ "OpDecorate %ssbo16 Binding 0\n");
+
+ fragments["testfun"] =
+ "%test_code = OpFunction %v4f32 None %v4f32_function\n"
+ " %param = OpFunctionParameter %v4f32\n"
+
+ "%entry = OpLabel\n"
+ " %i = OpVariable %fp_i32 Function\n"
+ " OpStore %i %c_i32_0\n"
+ " OpBranch %loop\n"
+
+ " %loop = OpLabel\n"
+ " %15 = OpLoad %i32 %i\n"
+ " %lt = OpSLessThan %bool %15 %c_i32_32\n"
+ " OpLoopMerge %merge %inc None\n"
+ " OpBranchConditional %lt %write %merge\n"
+
+ " %write = OpLabel\n"
+ " %30 = OpLoad %i32 %i\n"
+ " %src_0 = OpAccessChain %up_v2f16 %ssbo16 %c_i32_0 %30 %c_i32_0\n"
+ " %src_1 = OpAccessChain %up_v2f16 %ssbo16 %c_i32_0 %30 %c_i32_1\n"
+ " %src_2 = OpAccessChain %up_v2f16 %ssbo16 %c_i32_0 %30 %c_i32_2\n"
+ " %src_3 = OpAccessChain %up_v2f16 %ssbo16 %c_i32_0 %30 %c_i32_3\n"
+ "%val16_0 = OpLoad %v2f16 %src_0\n"
+ "%val16_1 = OpLoad %v2f16 %src_1\n"
+ "%val16_2 = OpLoad %v2f16 %src_2\n"
+ "%val16_3 = OpLoad %v2f16 %src_3\n"
+ "%val32_0 = OpFConvert %v2f32 %val16_0\n"
+ "%val32_1 = OpFConvert %v2f32 %val16_1\n"
+ "%val32_2 = OpFConvert %v2f32 %val16_2\n"
+ "%val32_3 = OpFConvert %v2f32 %val16_3\n"
+ " %dst_0 = OpAccessChain %up_v2f32 %ssbo32 %c_i32_0 %30 %c_i32_0\n"
+ " %dst_1 = OpAccessChain %up_v2f32 %ssbo32 %c_i32_0 %30 %c_i32_1\n"
+ " %dst_2 = OpAccessChain %up_v2f32 %ssbo32 %c_i32_0 %30 %c_i32_2\n"
+ " %dst_3 = OpAccessChain %up_v2f32 %ssbo32 %c_i32_0 %30 %c_i32_3\n"
+ " OpStore %dst_0 %val32_0\n"
+ " OpStore %dst_1 %val32_1\n"
+ " OpStore %dst_2 %val32_2\n"
+ " OpStore %dst_3 %val32_3\n"
+ " OpBranch %inc\n"
+
+ " %inc = OpLabel\n"
+ " %37 = OpLoad %i32 %i\n"
+ " %39 = OpIAdd %i32 %37 %c_i32_1\n"
+ " OpStore %i %39\n"
+ " OpBranch %loop\n"
+
+ "%merge = OpLabel\n"
+ " OpReturnValue %param\n"
+
+ "OpFunctionEnd\n";
+
+ for (deUint32 capIdx = 0; capIdx < DE_LENGTH_OF_ARRAY(CAPABILITIES); ++capIdx)
+ {
+ map<string, string> specs;
+ string testName = string(CAPABILITIES[capIdx].name) + "_matrix_float";
+
+ specs["cap"] = CAPABILITIES[capIdx].cap;
+ specs["indecor"] = CAPABILITIES[capIdx].decor;
+
+ fragments["capability"] = capabilities.specialize(specs);
+ fragments["decoration"] = decoration.specialize(specs);
+
+ resources.inputs.back().first = CAPABILITIES[capIdx].dtype;
+
+ createTestsForAllStages(testName, defaultColors, defaultColors, fragments, resources, extensions, testGroup, get16BitStorageFeatures(CAPABILITIES[capIdx].name));
+ }
+ }
+}
+
+} // anonymous
+
+tcu::TestCaseGroup* create16BitStorageComputeGroup (tcu::TestContext& testCtx)
+{
+ de::MovePtr<tcu::TestCaseGroup> group (new tcu::TestCaseGroup(testCtx, "16bit_storage", "Compute tests for VK_KHR_16bit_storage extension"));
+ addTestGroup(group.get(), "uniform_32_to_16", "32bit floats/ints to 16bit tests under capability StorageUniform{|BufferBlock}", addCompute16bitStorageUniform32To16Group);
+ addTestGroup(group.get(), "uniform_16_to_32", "16bit floats/ints to 32bit tests under capability StorageUniform{|BufferBlock}", addCompute16bitStorageUniform16To32Group);
+ addTestGroup(group.get(), "push_constant_16_to_32", "16bit floats/ints to 32bit tests under capability StoragePushConstant16", addCompute16bitStoragePushConstant16To32Group);
+
+ return group.release();
+}
+
+tcu::TestCaseGroup* create16BitStorageGraphicsGroup (tcu::TestContext& testCtx)
+{
+ de::MovePtr<tcu::TestCaseGroup> group (new tcu::TestCaseGroup(testCtx, "16bit_storage", "Graphics tests for VK_KHR_16bit_storage extension"));
+
+ addTestGroup(group.get(), "uniform_float_32_to_16", "32-bit floats into 16-bit tests under capability StorageUniform{|BufferBlock}16", addGraphics16BitStorageUniformFloat32To16Group);
+ addTestGroup(group.get(), "uniform_float_16_to_32", "16-bit floats into 32-bit testsunder capability StorageUniform{|BufferBlock}16", addGraphics16BitStorageUniformFloat16To32Group);
+ addTestGroup(group.get(), "uniform_int_32_to_16", "32-bit int into 16-bit tests under capability StorageUniform{|BufferBlock}16", addGraphics16BitStorageUniformInt32To16Group);
+ addTestGroup(group.get(), "uniform_int_16_to_32", "16-bit int into 32-bit tests under capability StorageUniform{|BufferBlock}16", addGraphics16BitStorageUniformInt16To32Group);
+ addTestGroup(group.get(), "input_output_float_32_to_16", "32-bit floats into 16-bit tests under capability StorageInputOutput16", addGraphics16BitStorageInputOutputFloat32To16Group);
+ addTestGroup(group.get(), "input_output_float_16_to_32", "16-bit floats into 32-bit tests under capability StorageInputOutput16", addGraphics16BitStorageInputOutputFloat16To32Group);
+ addTestGroup(group.get(), "input_output_int_32_to_16", "32-bit int into 16-bit tests under capability StorageInputOutput16", addGraphics16BitStorageInputOutputInt32To16Group);
+ addTestGroup(group.get(), "input_output_int_16_to_32", "16-bit int into 32-bit tests under capability StorageInputOutput16", addGraphics16BitStorageInputOutputInt16To32Group);
+ addTestGroup(group.get(), "push_constant_float_16_to_32", "16-bit floats into 32-bit tests under capability StoragePushConstant16", addGraphics16BitStoragePushConstantFloat16To32Group);
+ addTestGroup(group.get(), "push_constant_int_16_to_32", "16-bit int into 32-bit tests under capability StoragePushConstant16", addGraphics16BitStoragePushConstantInt16To32Group);
+
+ return group.release();
+}
+
+} // SpirVAssembly
+} // vkt
--- /dev/null
+#ifndef _VKTSPVASM16BITSTORAGETESTS_HPP
+#define _VKTSPVASM16BITSTORAGETESTS_HPP
+/*-------------------------------------------------------------------------
+ * Vulkan Conformance Tests
+ * ------------------------
+ *
+ * Copyright (c) 2017 Google Inc.
+ *
+ * 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.
+ *
+ *//*!
+ * \file
+ * \brief SPIR-V Assembly Tests for VK_KHX_16bit_storage
+ *//*--------------------------------------------------------------------*/
+
+#include "tcuDefs.hpp"
+#include "tcuTestCase.hpp"
+
+namespace vkt
+{
+namespace SpirVAssembly
+{
+
+tcu::TestCaseGroup* create16BitStorageComputeGroup (tcu::TestContext& testCtx);
+tcu::TestCaseGroup* create16BitStorageGraphicsGroup (tcu::TestContext& testCtx);
+
+} // SpirVAssembly
+} // vkt
+
+#endif // _VKTSPVASM16BITSTORAGETESTS_HPP
SpvAsmComputeShaderInstance::SpvAsmComputeShaderInstance (Context& ctx, const ComputeShaderSpec& spec, const ComputeTestFeatures features)
: TestInstance (ctx)
- , m_device (createDeviceWithExtensions(ctx.getInstanceInterface(), ctx.getPhysicalDevice(), ctx.getUniversalQueueFamilyIndex(), ctx.getDeviceExtensions(), spec.extensions))
+ , m_device (createDeviceWithExtensions(ctx, ctx.getUniversalQueueFamilyIndex(), ctx.getDeviceExtensions(), spec.extensions))
, m_deviceInterface (ctx.getInstanceInterface(), *m_device)
, m_queue (getDeviceQueue(m_deviceInterface, *m_device, ctx.getUniversalQueueFamilyIndex(), 0))
, m_allocator (createAllocator(ctx.getInstanceInterface(), ctx.getPhysicalDevice(), m_deviceInterface, *m_device))
DE_STATIC_ASSERT(sizeof(tcu::Vec4) == 4 * sizeof(float));
typedef Buffer<float> Float32Buffer;
+typedef Buffer<deFloat16> Float16Buffer;
typedef Buffer<deInt32> Int32Buffer;
+typedef Buffer<deInt16> Int16Buffer;
typedef Buffer<tcu::Vec4> Vec4Buffer;
typedef bool (*ComputeVerifyIOFunc) (const std::vector<BufferSp>& inputs,
return (VkBufferUsageFlagBits)0;
}
+static void requireFormatUsageSupport(const InstanceInterface& vki, VkPhysicalDevice physicalDevice, VkFormat format, VkImageTiling imageTiling, VkImageUsageFlags requiredUsageFlags)
+{
+ VkFormatProperties properties;
+ VkFormatFeatureFlags tilingFeatures = 0;
+
+ vki.getPhysicalDeviceFormatProperties(physicalDevice, format, &properties);
+
+ switch (imageTiling)
+ {
+ case VK_IMAGE_TILING_LINEAR:
+ tilingFeatures = properties.linearTilingFeatures;
+ break;
+
+ case VK_IMAGE_TILING_OPTIMAL:
+ tilingFeatures = properties.optimalTilingFeatures;
+ break;
+
+ default:
+ DE_ASSERT(false);
+ break;
+ }
+
+ if ((requiredUsageFlags & VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT) != 0)
+ {
+ if ((tilingFeatures & VK_FORMAT_FEATURE_COLOR_ATTACHMENT_BIT) == 0)
+ TCU_THROW(NotSupportedError, "Image format cannot be used as color attachment");
+ requiredUsageFlags ^= VK_IMAGE_USAGE_COLOR_ATTACHMENT_BIT;
+ }
+
+
+ if ((requiredUsageFlags & VK_IMAGE_USAGE_TRANSFER_SRC_BIT) != 0)
+ {
+ if ((tilingFeatures & VK_FORMAT_FEATURE_TRANSFER_SRC_BIT_KHR) == 0)
+ TCU_THROW(NotSupportedError, "Image format cannot be used as transfer source");
+ requiredUsageFlags ^= VK_IMAGE_USAGE_TRANSFER_SRC_BIT;
+ }
+
+
+ DE_ASSERT(!requiredUsageFlags && "checking other image usage bits not supported yet");
+}
+
InstanceContext::InstanceContext (const RGBA (&inputs)[4],
const RGBA (&outputs)[4],
const map<string, string>& testCodeFragments_,
}
fragments["capability"] = "OpCapability StorageInputOutput16\n";
+ fragments["extension"] = "OpExtension \"SPV_KHR_16bit_storage\"\n";
if (data_type.isVector())
{
" %IF_input = OpVariable %ip_${input_type} Input\n"
"%IF_output = OpVariable %op_${output_type} Output\n";
fragments["IF_decoration"] =
- "OpDecorate %IF_input Location 2\n"
+ "OpDecorate %IF_input Flat\n"
+ "OpDecorate %IF_input Location 2\n"
"OpDecorate %IF_output Location 1\n"; // Fragment shader should write to location #1.
fragments["IF_carryforward"] =
"%IF_input_val = OpLoad %${input_type} %IF_input\n"
return false;
}
+ // Any denormalized value input into a shader may be flushed to 0.
+ if (originalFloat.isDenorm() && returnedFloat.isZero())
+ return true;
+
// Inf are always turned into Inf with the same sign, too.
if (originalFloat.isInf())
{
const Float16 expectedFloat (deFloat32To16Round(original, deRoundingMode(bitNdx)));
- // Denormalized numbers can be flushed to zero.
+ // Any denormalized value potentially generated by any instruction in a shader may be flushed to 0.
if (expectedFloat.isDenorm() && returnedFloat.isZero())
return true;
const Float32 expectedFloat (expected);
const Float32 returnedFloat (returned);
- // Denormalized numbers can be flushed to zero
+ // Any denormalized value potentially generated by any instruction in a shader may be flushed to 0.
if (expectedFloat.isDenorm() && returnedFloat.isZero())
return true;
+ {
+ const Float16 originalFloat (deFloat32To16(expected));
+
+ // Any denormalized value input into a shader may be flushed to 0.
+ if (originalFloat.isDenorm() && returnedFloat.isZero())
+ return true;
+ }
+
if (expectedFloat.isNaN())
{
if (returnedFloat.isNaN())
const VkPhysicalDevice vkPhysicalDevice = context.getPhysicalDevice();
const deUint32 queueFamilyIndex = context.getUniversalQueueFamilyIndex();
// Create a dedicated logic device with required extensions enabled for this test case.
- const Unique<VkDevice> vkDevice (createDeviceWithExtensions(vkInstance, vkPhysicalDevice, queueFamilyIndex, context.getDeviceExtensions(), instance.requiredDeviceExtensions));
+ const Unique<VkDevice> vkDevice (createDeviceWithExtensions(context, queueFamilyIndex, context.getDeviceExtensions(), instance.requiredDeviceExtensions));
const DeviceDriver vk (vkInstance, *vkDevice);
const VkQueue queue = getDeviceQueue(vk, *vkDevice, queueFamilyIndex, 0);
const tcu::UVec2 renderSize (256, 256);
// Create an additional image and backing memory for attachment.
// Reuse the previous imageParams since we only need to change the image format.
imageParams.format = instance.interfaces.getOutputType().getVkFormat();
+
+ // Check the usage bits on the given image format are supported.
+ requireFormatUsageSupport(vkInstance, vkPhysicalDevice, imageParams.format, imageParams.tiling, imageParams.usage);
+
fragOutputImage = createImage(vk, *vkDevice, &imageParams);
fragOutputImageMemory = allocator.allocate(getImageMemoryRequirements(vk, *vkDevice, *fragOutputImage), MemoryRequirement::Any);
context.getTestContext().getLog() << TestLog::Image("Result", "Result", pixelBuffer);
}
+ if (needInterface)
+ {
+ const VkDeviceSize fragOutputImgSize = (VkDeviceSize)(instance.interfaces.getOutputType().getNumBytes() * renderSize.x() * renderSize.y());
+ const VkMappedMemoryRange range =
+ {
+ VK_STRUCTURE_TYPE_MAPPED_MEMORY_RANGE, // VkStructureType sType;
+ DE_NULL, // const void* pNext;
+ fragOutputMemory->getMemory(), // VkDeviceMemory mem;
+ 0, // VkDeviceSize offset;
+ fragOutputImgSize, // VkDeviceSize size;
+ };
+
+ VK_CHECK(vk.invalidateMappedMemoryRanges(*vkDevice, 1u, &range));
+ }
+
{ // Make sure all output resources are ready.
for (deUint32 outputNdx = 0; outputNdx < numOutResources; ++outputNdx)
{
//
// The following equivalence criteria are respected:
// * Positive and negative zeros are considered equivalent.
-// * Denormalized floats are allowed to be flushed to zeros.
+// * Denormalized floats are allowed to be flushed to zeros, including
+// * Inputted 32bit denormalized float
+// * Generated 16bit denormalized float
// * Different bit patterns of NaNs are allowed.
// * For the rest, require exactly the same bit pattern.
bool compare16BitFloat (float original, deUint16 returned, RoundingModeFlags flags, tcu::TestLog& log);
// Compare the returned 32-bit float against its expected value.
//
// The following equivalence criteria are respected:
-// * Denormalized floats are allowed to be flushed to zeros.
+// * Denormalized floats are allowed to be flushed to zeros, including
+// * The expected value itself is a denormalized float
+// * The expected value is a denormalized float if converted to 16bit
// * Different bit patterns of NaNs/Infs are allowed.
// * For the rest, use C++ float equivalence check.
bool compare32BitFloat (float expected, float returned, tcu::TestLog& log);
#include "deUniquePtr.hpp"
#include "tcuStringTemplate.hpp"
+#include "vktSpvAsm16bitStorageTests.hpp"
#include "vktSpvAsmComputeShaderCase.hpp"
#include "vktSpvAsmComputeShaderTestUtil.hpp"
#include "vktSpvAsmGraphicsShaderTestUtil.hpp"
return group.release();
}
-
} // anonymous
tcu::TestCaseGroup* createOpSourceTests (tcu::TestContext& testCtx)
computeTests->addChild(createOpCompositeInsertGroup(testCtx));
computeTests->addChild(createOpInBoundsAccessChainGroup(testCtx));
computeTests->addChild(createShaderDefaultOutputGroup(testCtx));
+ computeTests->addChild(create16BitStorageComputeGroup(testCtx));
graphicsTests->addChild(createOpNopTests(testCtx));
graphicsTests->addChild(createOpSourceTests(testCtx));
graphicsTests->addChild(createDecorationGroupTests(testCtx));
graphicsTests->addChild(createFRemTests(testCtx));
+ graphicsTests->addChild(create16BitStorageGraphicsGroup(testCtx));
+
instructionTests->addChild(computeTests.release());
instructionTests->addChild(graphicsTests.release());
return enabledDeviceFeatures;
}
-} // anonymous
-
-bool is16BitStorageFeaturesSupported (const InstanceInterface& vki, VkPhysicalDevice device, const std::vector<std::string>& instanceExtensions, Extension16BitStorageFeatures toCheck)
+VkPhysicalDevice16BitStorageFeaturesKHR querySupported16BitStorageFeatures (const InstanceInterface& vki, VkPhysicalDevice device, const std::vector<std::string>& instanceExtensions)
{
VkPhysicalDevice16BitStorageFeaturesKHR extensionFeatures =
{
vki.getPhysicalDeviceFeatures2KHR(device, &features);
}
+ return extensionFeatures;
+}
+
+} // anonymous
+
+bool is16BitStorageFeaturesSupported (const InstanceInterface& vki, VkPhysicalDevice device, const std::vector<std::string>& instanceExtensions, Extension16BitStorageFeatures toCheck)
+{
+ VkPhysicalDevice16BitStorageFeaturesKHR extensionFeatures = querySupported16BitStorageFeatures(vki, device, instanceExtensions);
+
if ((toCheck & EXT16BITSTORAGEFEATURES_UNIFORM_BUFFER_BLOCK) != 0 && extensionFeatures.storageUniformBufferBlock16 == VK_FALSE)
return false;
return true;
}
-Move<VkDevice> createDeviceWithExtensions (const InstanceInterface& vki,
- VkPhysicalDevice physicalDevice,
+Move<VkDevice> createDeviceWithExtensions (Context& context,
const deUint32 queueFamilyIndex,
const std::vector<std::string>& supportedExtensions,
const std::vector<std::string>& requiredExtensions)
{
- std::vector<const char*> extensions (requiredExtensions.size());
+ const InstanceInterface& vki = context.getInstanceInterface();
+ const VkPhysicalDevice physicalDevice = context.getPhysicalDevice();
+ std::vector<const char*> extensions (requiredExtensions.size());
+ bool requires16BitStorageExtension = false;
for (deUint32 extNdx = 0; extNdx < requiredExtensions.size(); ++extNdx)
{
TCU_THROW(NotSupportedError, (std::string("Device extension not supported: ") + ext).c_str());
}
+ if (ext == "VK_KHR_16bit_storage")
+ {
+ requires16BitStorageExtension = true;
+ }
+
extensions[extNdx] = ext.c_str();
}
+ // For the 16bit storage extension, we have four features to test. Requesting all features supported.
+ // Note that we don't throw NotImplemented errors here if a specific feature is not supported;
+ // that should be done when actually trying to use that specific feature.
+ VkPhysicalDevice16BitStorageFeaturesKHR ext16BitStorageFeatures = querySupported16BitStorageFeatures(vki, physicalDevice, context.getInstanceExtensions());
+
const float queuePriorities[] = { 1.0f };
const VkDeviceQueueCreateInfo queueInfos[] =
{
const VkDeviceCreateInfo deviceParams =
{
VK_STRUCTURE_TYPE_DEVICE_CREATE_INFO,
- DE_NULL,
+ (requires16BitStorageExtension ? &ext16BitStorageFeatures : DE_NULL),
(VkDeviceCreateFlags)0,
DE_LENGTH_OF_ARRAY(queueInfos),
&queueInfos[0],
#include "vkMemUtil.hpp"
#include "vkRef.hpp"
#include "vkTypeUtil.hpp"
+#include "vktTestCase.hpp"
#include <string>
#include <vector>
Extension16BitStorageFeatures toCheck);
// Creates a Vulkan logical device with the requiredExtensions enabled and all other extensions disabled.
-// The logical device will be created from the given instance and physical device. A single queue will
-// be created from the given queue family.
-vk::Move<vk::VkDevice> createDeviceWithExtensions (const vk::InstanceInterface& vki,
- vk::VkPhysicalDevice physicalDevice,
+// The logical device will be created from the instance and physical device in the given context.
+// A single queue will be created from the given queue family.
+vk::Move<vk::VkDevice> createDeviceWithExtensions (Context& context,
deUint32 queueFamilyIndex,
const std::vector<std::string>& supportedExtensions,
const std::vector<std::string>& requiredExtensions);
dEQP-VK.spirv_assembly.instruction.compute.shader_default_output.uint.uninitialized
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