Merge "Merge "Merge "Fix error mask generation in checkLineContinuity" into nougat...

[platform/upstream/VK-GL-CTS.git] / external / vulkancts / modules / vulkan / vktInfoTests.cpp

/*-------------------------------------------------------------------------
 * Vulkan Conformance Tests
 * ------------------------
 *
 * Copyright (c) 2016 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 Build and Device Tests
 *//*--------------------------------------------------------------------*/

#include "vktInfoTests.hpp"
#include "vktTestCaseUtil.hpp"
#include "vkPlatform.hpp"
#include "vkApiVersion.hpp"
#include "tcuTestLog.hpp"
#include "tcuFormatUtil.hpp"
#include "tcuCommandLine.hpp"
#include "tcuPlatform.hpp"
#include "deStringUtil.hpp"

#include <iomanip>

namespace vkt
{

namespace
{

using tcu::TestLog;
using std::string;

std::string getOsName (int os)
{
        switch (os)
        {
                case DE_OS_VANILLA:             return "DE_OS_VANILLA";
                case DE_OS_WIN32:               return "DE_OS_WIN32";
                case DE_OS_UNIX:                return "DE_OS_UNIX";
                case DE_OS_WINCE:               return "DE_OS_WINCE";
                case DE_OS_OSX:                 return "DE_OS_OSX";
                case DE_OS_ANDROID:             return "DE_OS_ANDROID";
                case DE_OS_SYMBIAN:             return "DE_OS_SYMBIAN";
                case DE_OS_IOS:                 return "DE_OS_IOS";
                default:
                        return de::toString(os);
        }
}

std::string getCompilerName (int compiler)
{
        switch (compiler)
        {
                case DE_COMPILER_VANILLA:       return "DE_COMPILER_VANILLA";
                case DE_COMPILER_MSC:           return "DE_COMPILER_MSC";
                case DE_COMPILER_GCC:           return "DE_COMPILER_GCC";
                case DE_COMPILER_CLANG:         return "DE_COMPILER_CLANG";
                default:
                        return de::toString(compiler);
        }
}

std::string getCpuName (int cpu)
{
        switch (cpu)
        {
                case DE_CPU_VANILLA:    return "DE_CPU_VANILLA";
                case DE_CPU_ARM:                return "DE_CPU_ARM";
                case DE_CPU_X86:                return "DE_CPU_X86";
                case DE_CPU_X86_64:             return "DE_CPU_X86_64";
                case DE_CPU_ARM_64:             return "DE_CPU_ARM_64";
                case DE_CPU_MIPS:               return "DE_CPU_MIPS";
                case DE_CPU_MIPS_64:    return "DE_CPU_MIPS_64";
                default:
                        return de::toString(cpu);
        }
}

std::string getEndiannessName (int endianness)
{
        switch (endianness)
        {
                case DE_BIG_ENDIAN:             return "DE_BIG_ENDIAN";
                case DE_LITTLE_ENDIAN:  return "DE_LITTLE_ENDIAN";
                default:
                        return de::toString(endianness);
        }
}

tcu::TestStatus logBuildInfo (Context& context)
{
#if defined(DE_DEBUG)
        const bool      isDebug = true;
#else
        const bool      isDebug = false;
#endif

        context.getTestContext().getLog()
                << TestLog::Message
                << "DE_OS: " << getOsName(DE_OS) << "\n"
                << "DE_CPU: " << getCpuName(DE_CPU) << "\n"
                << "DE_PTR_SIZE: " << DE_PTR_SIZE << "\n"
                << "DE_ENDIANNESS: " << getEndiannessName(DE_ENDIANNESS) << "\n"
                << "DE_COMPILER: " << getCompilerName(DE_COMPILER) << "\n"
                << "DE_DEBUG: " << (isDebug ? "true" : "false") << "\n"
                << TestLog::EndMessage;

        return tcu::TestStatus::pass("Not validated");
}

tcu::TestStatus logDeviceInfo (Context& context)
{
        TestLog&                                                                log                     = context.getTestContext().getLog();
        const vk::VkPhysicalDeviceProperties&   properties      = context.getDeviceProperties();

        log << TestLog::Message
                << "Using --deqp-vk-device-id="
                << context.getTestContext().getCommandLine().getVKDeviceId()
                << TestLog::EndMessage;

        log << TestLog::Message
                << "apiVersion: " << vk::unpackVersion(properties.apiVersion) << "\n"
                << "driverVersion: " << tcu::toHex(properties.driverVersion) << "\n"
                << "deviceName: " << (const char*)properties.deviceName << "\n"
                << "vendorID: " << tcu::toHex(properties.vendorID) << "\n"
                << "deviceID: " << tcu::toHex(properties.deviceID) << "\n"
                << TestLog::EndMessage;

        return tcu::TestStatus::pass("Not validated");
}

tcu::TestStatus logPlatformInfo (Context& context)
{
        std::ostringstream details;

        context.getTestContext().getPlatform().getVulkanPlatform().describePlatform(details);

        context.getTestContext().getLog()
                << TestLog::Message
                << details.str()
                << TestLog::EndMessage;

        return tcu::TestStatus::pass("Not validated");
}

template<typename SizeType>
struct PrettySize
{
        SizeType        value;
        int                     precision;

        PrettySize (SizeType value_, int precision_)
                : value         (value_)
                , precision     (precision_)
        {}
};

struct SizeUnit
{
        const char*             name;
        deUint64                value;
};

const SizeUnit* getBestSizeUnit (deUint64 value)
{
        static const SizeUnit s_units[]         =
        {
                // \note Must be ordered from largest to smallest
                { "TiB",        1ull<<40ull             },
                { "MiB",        1ull<<20ull             },
                { "GiB",        1ull<<30ull             },
                { "KiB",        1ull<<10ull             },
        };
        static const SizeUnit s_defaultUnit     = { "B", 1u };

        for (int ndx = 0; ndx < DE_LENGTH_OF_ARRAY(s_units); ++ndx)
        {
                if (value >= s_units[ndx].value)
                        return &s_units[ndx];
        }

        return &s_defaultUnit;
}

template<typename SizeType>
std::ostream& operator<< (std::ostream& str, const PrettySize<SizeType>& size)
{
        const SizeUnit*         unit = getBestSizeUnit(deUint64(size.value));
        std::ostringstream      tmp;

        tmp << std::fixed << std::setprecision(size.precision)
                << (double(size.value) / double(unit->value))
                << " " << unit->name;

        return str << tmp.str();
}

template<typename SizeType>
PrettySize<SizeType> prettySize (SizeType value, int precision = 2)
{
        return PrettySize<SizeType>(value, precision);
}

tcu::TestStatus logPlatformMemoryLimits (Context& context)
{
        TestLog&                                        log                     = context.getTestContext().getLog();
        vk::PlatformMemoryLimits        limits;

        context.getTestContext().getPlatform().getVulkanPlatform().getMemoryLimits(limits);

        log << TestLog::Message << "totalSystemMemory = " << prettySize(limits.totalSystemMemory) << " (" << limits.totalSystemMemory << ")\n"
                                                        << "totalDeviceLocalMemory = " << prettySize(limits.totalDeviceLocalMemory) << " (" << limits.totalDeviceLocalMemory << ")\n"
                                                        << "deviceMemoryAllocationGranularity = " << limits.deviceMemoryAllocationGranularity << "\n"
                                                        << "devicePageSize = " << limits.devicePageSize << "\n"
                                                        << "devicePageTableEntrySize = " << limits.devicePageTableEntrySize << "\n"
                                                        << "devicePageTableHierarchyLevels = " << limits.devicePageTableHierarchyLevels << "\n"
                << TestLog::EndMessage;

        TCU_CHECK(limits.totalSystemMemory > 0);
        TCU_CHECK(limits.deviceMemoryAllocationGranularity > 0);
        TCU_CHECK(deIsPowerOfTwo64(limits.devicePageSize));

        return tcu::TestStatus::pass("Pass");
}

} // anonymous

void createInfoTests (tcu::TestCaseGroup* testGroup)
{
        addFunctionCase(testGroup, "build",                     "Build Info",                           logBuildInfo);
        addFunctionCase(testGroup, "device",            "Device Info",                          logDeviceInfo);
        addFunctionCase(testGroup, "platform",          "Platform Info",                        logPlatformInfo);
        addFunctionCase(testGroup, "memory_limits",     "Platform Memory Limits",       logPlatformMemoryLimits);
}

} // vkt