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Updated file format to 1,3. Added configuration section.

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This commit is contained in:
Adam Sawicki 2018-08-21 17:56:25 +02:00
parent ac3c67fd5d
commit cb4e8da23b
4 changed files with 549 additions and 14 deletions
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85
docs/Recording file format.md
View File

@ -23,7 +23,49 @@ Formats with only minor version incremented are backward compatible.
VmaReplay application supports all older versions.
Current version is:
1,2
1,3
# Configuration
Header is followed by mandatory configuration section (min format version 1.3). It starts with line:
Config,Begin
And ends with line:
Config,End
Between them there can be zero or more lines with configuration options. They store values of various variables from the current environment from the time of recording, like properties and limits of Vulkan physical device, available memory heaps and types, enabled Vulkan extensions, as well macros that configure VMA internals. Supported configuration options are:
PhysicalDevice,apiVersion,<uint32>
PhysicalDevice,driverVersion,<uint32>
PhysicalDevice,vendorID,<uint32>
PhysicalDevice,deviceID,<uint32>
PhysicalDevice,deviceType,<uint32>
PhysicalDevice,deviceName,<string>
PhysicalDeviceLimits,maxMemoryAllocationCount,<uint32>
PhysicalDeviceLimits,bufferImageGranularity,<uint64>
PhysicalDeviceLimits,nonCoherentAtomSize,<uint64>
PhysicalDeviceMemory,HeapCount,<uint32>
PhysicalDeviceMemory,Heap,<index:uint32>,size,<uint64>
PhysicalDeviceMemory,Heap,<index:uint32>,flags,<uint32>
PhysicalDeviceMemory,TypeCount,<uint32>
PhysicalDeviceMemory,Type,<index:uint32>,heapIndex,<uint32>
PhysicalDeviceMemory,Type,<index:uint32>,propertyFlags,<uint32>
Extension,VK_KHR_dedicated_allocation,<bool>
Macro,VMA_DEBUG_ALWAYS_DEDICATED_MEMORY,<bool>
Macro,VMA_DEBUG_ALIGNMENT,<uint64>
Macro,VMA_DEBUG_MARGIN,<uint64>
Macro,VMA_DEBUG_INITIALIZE_ALLOCATIONS,<bool>
Macro,VMA_DEBUG_DETECT_CORRUPTION,<bool>
Macro,VMA_DEBUG_GLOBAL_MUTEX,<bool>
Macro,VMA_DEBUG_MIN_BUFFER_IMAGE_GRANULARITY,<uint64>
Macro,VMA_SMALL_HEAP_MAX_SIZE,<uint64>
Macro,VMA_DEFAULT_LARGE_HEAP_BLOCK_SIZE,<uint64>
# Function calls
@ -162,7 +204,7 @@ No parameters.
- pool : pointer
## Data types
# Data types
**bool**
@ -186,7 +228,44 @@ It should not contain end-of-line characters - results are then undefined.
# Example file
Vulkan Memory Allocator,Calls recording
1,2
1,3
Config,Begin
PhysicalDevice,apiVersion,4198477
PhysicalDevice,driverVersion,8388653
PhysicalDevice,vendorID,4098
PhysicalDevice,deviceID,26751
PhysicalDevice,deviceType,2
PhysicalDevice,deviceName,Radeon RX Vega
PhysicalDeviceLimits,maxMemoryAllocationCount,4096
PhysicalDeviceLimits,bufferImageGranularity,1
PhysicalDeviceLimits,nonCoherentAtomSize,128
PhysicalDeviceMemory,HeapCount,3
PhysicalDeviceMemory,Heap,0,size,8304721920
PhysicalDeviceMemory,Heap,0,flags,3
PhysicalDeviceMemory,Heap,1,size,8286175232
PhysicalDeviceMemory,Heap,1,flags,0
PhysicalDeviceMemory,Heap,2,size,268435456
PhysicalDeviceMemory,Heap,2,flags,3
PhysicalDeviceMemory,TypeCount,4
PhysicalDeviceMemory,Type,0,heapIndex,0
PhysicalDeviceMemory,Type,0,propertyFlags,1
PhysicalDeviceMemory,Type,1,heapIndex,1
PhysicalDeviceMemory,Type,1,propertyFlags,6
PhysicalDeviceMemory,Type,2,heapIndex,2
PhysicalDeviceMemory,Type,2,propertyFlags,7
PhysicalDeviceMemory,Type,3,heapIndex,1
PhysicalDeviceMemory,Type,3,propertyFlags,14
Extension,VK_KHR_dedicated_allocation,1
Macro,VMA_DEBUG_ALWAYS_DEDICATED_MEMORY,0
Macro,VMA_DEBUG_ALIGNMENT,1
Macro,VMA_DEBUG_MARGIN,0
Macro,VMA_DEBUG_INITIALIZE_ALLOCATIONS,0
Macro,VMA_DEBUG_DETECT_CORRUPTION,0
Macro,VMA_DEBUG_GLOBAL_MUTEX,0
Macro,VMA_DEBUG_MIN_BUFFER_IMAGE_GRANULARITY,1
Macro,VMA_SMALL_HEAP_MAX_SIZE,1073741824
Macro,VMA_DEFAULT_LARGE_HEAP_BLOCK_SIZE,268435456
Config,End
12552,0.000,0,vmaCreateAllocator
12552,0.010,0,vmaCreateImage,0,1,37,128,128,1,1,1,1,1,1,0,8,36,2,0,0,0,0000000000000000,000001D85B8B1A80,
12552,0.010,0,vmaSetAllocationUserData,000001D85B8B1A80,Ala ma kota

2
src/VmaReplay/Common.h
View File

@ -53,7 +53,7 @@ struct StrRange
explicit StrRange(const std::string& s) : beg(s.data()), end(s.data() + s.length()) { }
size_t length() const { return end - beg; }
void to_str(std::string& out) { out.assign(beg, end); }
void to_str(std::string& out) const { out.assign(beg, end); }
};
inline bool StrRangeEq(const StrRange& lhs, const char* rhsSz)

420
src/VmaReplay/VmaReplay.cpp
View File

@ -117,6 +117,10 @@ static std::string g_FilePath;
// Most significant 16 bits are major version, least significant 16 bits are minor version.
static uint32_t g_FileVersion;
inline uint32_t MakeVersion(uint32_t major, uint32_t minor) { return (major << 16) | minor; }
inline uint32_t GetVersionMajor(uint32_t version) { return version >> 16; }
inline uint32_t GetVersionMinor(uint32_t version) { return version & 0xFFFF; }
static size_t g_IterationCount = 1;
static uint32_t g_PhysicalDeviceIndex = 0;
static RangeSequence<size_t> g_LineRanges;
@ -138,9 +142,13 @@ static size_t g_DumpStatsAfterLineNextIndex = 0;
static bool ValidateFileVersion()
{
const uint32_t major = g_FileVersion >> 16;
const uint32_t minor = g_FileVersion & 0xFFFF;
return major == 1 && minor <= 2;
if(GetVersionMajor(g_FileVersion) == 1 &&
GetVersionMinor(g_FileVersion) <= 3)
{
return true;
}
return false;
}
static bool ParseFileVersion(const StrRange& s)
@ -404,6 +412,373 @@ void Statistics::PrintMemStatInfo(const MemStatInfo& info)
info.unusedBytes);
}
////////////////////////////////////////////////////////////////////////////////
// class ConfigurationParser
class ConfigurationParser
{
public:
ConfigurationParser();
bool Parse(LineSplit& lineSplit);
void Compare(
const VkPhysicalDeviceProperties& devProps,
const VkPhysicalDeviceMemoryProperties& memProps,
bool dedicatedAllocationExtensionEnabled);
private:
enum class OPTION
{
PhysicalDevice_apiVersion,
PhysicalDevice_driverVersion,
PhysicalDevice_vendorID,
PhysicalDevice_deviceID,
PhysicalDevice_deviceType,
PhysicalDevice_deviceName,
PhysicalDeviceLimits_maxMemoryAllocationCount,
PhysicalDeviceLimits_bufferImageGranularity,
PhysicalDeviceLimits_nonCoherentAtomSize,
Extension_VK_KHR_dedicated_allocation,
Macro_VMA_DEBUG_ALWAYS_DEDICATED_MEMORY,
Macro_VMA_DEBUG_ALIGNMENT,
Macro_VMA_DEBUG_MARGIN,
Macro_VMA_DEBUG_INITIALIZE_ALLOCATIONS,
Macro_VMA_DEBUG_DETECT_CORRUPTION,
Macro_VMA_DEBUG_GLOBAL_MUTEX,
Macro_VMA_DEBUG_MIN_BUFFER_IMAGE_GRANULARITY,
Macro_VMA_SMALL_HEAP_MAX_SIZE,
Macro_VMA_DEFAULT_LARGE_HEAP_BLOCK_SIZE,
Count
};
std::vector<bool> m_OptionSet;
std::vector<std::string> m_OptionValue;
VkPhysicalDeviceMemoryProperties m_MemProps;
bool m_WarningHeaderPrinted = false;
void SetOption(
size_t lineNumber,
OPTION option,
const StrRange& str);
void EnsureWarningHeader();
void CompareOption(VERBOSITY minVerbosity, const char* name,
OPTION option, uint32_t currValue);
void CompareOption(VERBOSITY minVerbosity, const char* name,
OPTION option, uint64_t currValue);
void CompareOption(VERBOSITY minVerbosity, const char* name,
OPTION option, bool currValue);
void CompareOption(VERBOSITY minVerbosity, const char* name,
OPTION option, const char* currValue);
};
ConfigurationParser::ConfigurationParser() :
m_OptionSet((size_t)OPTION::Count),
m_OptionValue((size_t)OPTION::Count)
{
ZeroMemory(&m_MemProps, sizeof(m_MemProps));
}
bool ConfigurationParser::Parse(LineSplit& lineSplit)
{
for(auto& it : m_OptionSet)
{
it = false;
}
for(auto& it : m_OptionValue)
{
it.clear();
}
StrRange line;
if(!lineSplit.GetNextLine(line) && !StrRangeEq(line, "Config,Begin"))
{
return false;
}
CsvSplit csvSplit;
while(lineSplit.GetNextLine(line))
{
if(StrRangeEq(line, "Config,End"))
{
break;
}
const size_t currLineNumber = lineSplit.GetNextLineIndex();
csvSplit.Set(line);
if(csvSplit.GetCount() == 0)
{
return false;
}
const StrRange optionName = csvSplit.GetRange(0);
if(StrRangeEq(optionName, "PhysicalDevice"))
{
if(csvSplit.GetCount() >= 3)
{
const StrRange subOptionName = csvSplit.GetRange(1);
if(StrRangeEq(subOptionName, "apiVersion"))
SetOption(currLineNumber, OPTION::PhysicalDevice_apiVersion, csvSplit.GetRange(2));
else if(StrRangeEq(subOptionName, "driverVersion"))
SetOption(currLineNumber, OPTION::PhysicalDevice_driverVersion, csvSplit.GetRange(2));
else if(StrRangeEq(subOptionName, "vendorID"))
SetOption(currLineNumber, OPTION::PhysicalDevice_vendorID, csvSplit.GetRange(2));
else if(StrRangeEq(subOptionName, "deviceID"))
SetOption(currLineNumber, OPTION::PhysicalDevice_deviceID, csvSplit.GetRange(2));
else if(StrRangeEq(subOptionName, "deviceType"))
SetOption(currLineNumber, OPTION::PhysicalDevice_deviceType, csvSplit.GetRange(2));
else if(StrRangeEq(subOptionName, "deviceName"))
SetOption(currLineNumber, OPTION::PhysicalDevice_deviceName, StrRange(csvSplit.GetRange(2).beg, line.end));
else
printf("Line %zu: Unrecognized configuration option.\n", currLineNumber);
}
else
printf("Line %zu: Too few columns.\n", currLineNumber);
}
else if(StrRangeEq(optionName, "PhysicalDeviceLimits"))
{
if(csvSplit.GetCount() >= 3)
{
const StrRange subOptionName = csvSplit.GetRange(1);
if(StrRangeEq(subOptionName, "maxMemoryAllocationCount"))
SetOption(currLineNumber, OPTION::PhysicalDeviceLimits_maxMemoryAllocationCount, csvSplit.GetRange(2));
else if(StrRangeEq(subOptionName, "bufferImageGranularity"))
SetOption(currLineNumber, OPTION::PhysicalDeviceLimits_bufferImageGranularity, csvSplit.GetRange(2));
else if(StrRangeEq(subOptionName, "nonCoherentAtomSize"))
SetOption(currLineNumber, OPTION::PhysicalDeviceLimits_nonCoherentAtomSize, csvSplit.GetRange(2));
else
printf("Line %zu: Unrecognized configuration option.\n", currLineNumber);
}
else
printf("Line %zu: Too few columns.\n", currLineNumber);
}
else if(StrRangeEq(optionName, "Extension"))
{
if(csvSplit.GetCount() >= 3)
{
const StrRange subOptionName = csvSplit.GetRange(1);
if(StrRangeEq(subOptionName, "VK_KHR_dedicated_allocation"))
SetOption(currLineNumber, OPTION::Extension_VK_KHR_dedicated_allocation, csvSplit.GetRange(2));
else
printf("Line %zu: Unrecognized configuration option.\n", currLineNumber);
}
else
printf("Line %zu: Too few columns.\n", currLineNumber);
}
else if(StrRangeEq(optionName, "Macro"))
{
if(csvSplit.GetCount() >= 3)
{
const StrRange subOptionName = csvSplit.GetRange(1);
if(StrRangeEq(subOptionName, "VMA_DEBUG_ALWAYS_DEDICATED_MEMORY"))
SetOption(currLineNumber, OPTION::Macro_VMA_DEBUG_ALWAYS_DEDICATED_MEMORY, csvSplit.GetRange(2));
else if(StrRangeEq(subOptionName, "VMA_DEBUG_ALIGNMENT"))
SetOption(currLineNumber, OPTION::Macro_VMA_DEBUG_ALIGNMENT, csvSplit.GetRange(2));
else if(StrRangeEq(subOptionName, "VMA_DEBUG_MARGIN"))
SetOption(currLineNumber, OPTION::Macro_VMA_DEBUG_MARGIN, csvSplit.GetRange(2));
else if(StrRangeEq(subOptionName, "VMA_DEBUG_INITIALIZE_ALLOCATIONS"))
SetOption(currLineNumber, OPTION::Macro_VMA_DEBUG_INITIALIZE_ALLOCATIONS, csvSplit.GetRange(2));
else if(StrRangeEq(subOptionName, "VMA_DEBUG_DETECT_CORRUPTION"))
SetOption(currLineNumber, OPTION::Macro_VMA_DEBUG_DETECT_CORRUPTION, csvSplit.GetRange(2));
else if(StrRangeEq(subOptionName, "VMA_DEBUG_GLOBAL_MUTEX"))
SetOption(currLineNumber, OPTION::Macro_VMA_DEBUG_GLOBAL_MUTEX, csvSplit.GetRange(2));
else if(StrRangeEq(subOptionName, "VMA_DEBUG_MIN_BUFFER_IMAGE_GRANULARITY"))
SetOption(currLineNumber, OPTION::Macro_VMA_DEBUG_MIN_BUFFER_IMAGE_GRANULARITY, csvSplit.GetRange(2));
else if(StrRangeEq(subOptionName, "VMA_SMALL_HEAP_MAX_SIZE"))
SetOption(currLineNumber, OPTION::Macro_VMA_SMALL_HEAP_MAX_SIZE, csvSplit.GetRange(2));
else if(StrRangeEq(subOptionName, "VMA_DEFAULT_LARGE_HEAP_BLOCK_SIZE"))
SetOption(currLineNumber, OPTION::Macro_VMA_DEFAULT_LARGE_HEAP_BLOCK_SIZE, csvSplit.GetRange(2));
else
printf("Line %zu: Unrecognized configuration option.\n", currLineNumber);
}
else
printf("Line %zu: Too few columns.\n", currLineNumber);
}
else if(StrRangeEq(optionName, "PhysicalDeviceMemory"))
{
uint32_t value = 0;
if(csvSplit.GetCount() == 3 && StrRangeEq(csvSplit.GetRange(1), "HeapCount") &&
StrRangeToUint(csvSplit.GetRange(2), value))
{
m_MemProps.memoryHeapCount = value;
}
else if(csvSplit.GetCount() == 3 && StrRangeEq(csvSplit.GetRange(1), "TypeCount") &&
StrRangeToUint(csvSplit.GetRange(2), value))
{
m_MemProps.memoryTypeCount = value;
}
else if(csvSplit.GetCount() == 5 && StrRangeEq(csvSplit.GetRange(1), "Heap") &&
StrRangeToUint(csvSplit.GetRange(2), value) &&
value < m_MemProps.memoryHeapCount)
{
if(StrRangeEq(csvSplit.GetRange(3), "size") &&
StrRangeToUint(csvSplit.GetRange(4), m_MemProps.memoryHeaps[value].size))
{
// Parsed.
}
else if(StrRangeEq(csvSplit.GetRange(3), "flags") &&
StrRangeToUint(csvSplit.GetRange(4), m_MemProps.memoryHeaps[value].flags))
{
// Parsed.
}
else
printf("Line %zu: Invalid configuration option.\n", currLineNumber);
}
else if(csvSplit.GetCount() == 5 && StrRangeEq(csvSplit.GetRange(1), "Type") &&
StrRangeToUint(csvSplit.GetRange(2), value) &&
value < m_MemProps.memoryTypeCount)
{
if(StrRangeEq(csvSplit.GetRange(3), "heapIndex") &&
StrRangeToUint(csvSplit.GetRange(4), m_MemProps.memoryTypes[value].heapIndex))
{
// Parsed.
}
else if(StrRangeEq(csvSplit.GetRange(3), "propertyFlags") &&
StrRangeToUint(csvSplit.GetRange(4), m_MemProps.memoryTypes[value].propertyFlags))
{
// Parsed.
}
else
printf("Line %zu: Invalid configuration option.\n", currLineNumber);
}
else
printf("Line %zu: Invalid configuration option.\n", currLineNumber);
}
else
printf("Line %zu: Unrecognized configuration option.\n", currLineNumber);
}
return true;
}
void ConfigurationParser::Compare(
const VkPhysicalDeviceProperties& devProps,
const VkPhysicalDeviceMemoryProperties& memProps,
bool dedicatedAllocationExtensionEnabled)
{
CompareOption(VERBOSITY::MAXIMUM, "PhysicalDevice apiVersion",
OPTION::PhysicalDevice_apiVersion, devProps.apiVersion);
CompareOption(VERBOSITY::MAXIMUM, "PhysicalDevice driverVersion",
OPTION::PhysicalDevice_driverVersion, devProps.driverVersion);
CompareOption(VERBOSITY::MAXIMUM, "PhysicalDevice vendorID",
OPTION::PhysicalDevice_vendorID, devProps.vendorID);
CompareOption(VERBOSITY::MAXIMUM, "PhysicalDevice deviceID",
OPTION::PhysicalDevice_deviceID, devProps.deviceID);
CompareOption(VERBOSITY::MAXIMUM, "PhysicalDevice deviceType",
OPTION::PhysicalDevice_deviceType, (uint32_t)devProps.deviceType);
CompareOption(VERBOSITY::MAXIMUM, "PhysicalDevice deviceName",
OPTION::PhysicalDevice_deviceName, devProps.deviceName);
CompareOption(VERBOSITY::DEFAULT, "PhysicalDeviceLimits maxMemoryAllocationCount",
OPTION::PhysicalDeviceLimits_maxMemoryAllocationCount, devProps.limits.maxMemoryAllocationCount);
CompareOption(VERBOSITY::DEFAULT, "PhysicalDeviceLimits bufferImageGranularity",
OPTION::PhysicalDeviceLimits_bufferImageGranularity, devProps.limits.bufferImageGranularity);
CompareOption(VERBOSITY::DEFAULT, "PhysicalDeviceLimits nonCoherentAtomSize",
OPTION::PhysicalDeviceLimits_nonCoherentAtomSize, devProps.limits.nonCoherentAtomSize);
CompareOption(VERBOSITY::DEFAULT, "Extension VK_KHR_dedicated_allocation",
OPTION::Extension_VK_KHR_dedicated_allocation, dedicatedAllocationExtensionEnabled);
}
void ConfigurationParser::SetOption(
size_t lineNumber,
OPTION option,
const StrRange& str)
{
if(m_OptionSet[(size_t)option])
{
printf("Line %zu: Option already specified.\n" ,lineNumber);
}
m_OptionSet[(size_t)option] = true;
std::string val;
str.to_str(val);
m_OptionValue[(size_t)option] = std::move(val);
}
void ConfigurationParser::EnsureWarningHeader()
{
if(!m_WarningHeaderPrinted)
{
printf("WARNING: Following configuration parameters don't match:\n");
m_WarningHeaderPrinted = true;
}
}
void ConfigurationParser::CompareOption(VERBOSITY minVerbosity, const char* name,
OPTION option, uint32_t currValue)
{
if(m_OptionSet[(size_t)option] &&
g_Verbosity >= minVerbosity)
{
uint32_t origValue;
if(StrRangeToUint(StrRange(m_OptionValue[(size_t)option]), origValue))
{
if(origValue != currValue)
{
EnsureWarningHeader();
printf(" %s: original %u, current %u\n", name, origValue, currValue);
}
}
}
}
void ConfigurationParser::CompareOption(VERBOSITY minVerbosity, const char* name,
OPTION option, uint64_t currValue)
{
if(m_OptionSet[(size_t)option] &&
g_Verbosity >= minVerbosity)
{
uint64_t origValue;
if(StrRangeToUint(StrRange(m_OptionValue[(size_t)option]), origValue))
{
if(origValue != currValue)
{
EnsureWarningHeader();
printf(" %s: original %llu, current %llu\n", name, origValue, currValue);
}
}
}
}
void ConfigurationParser::CompareOption(VERBOSITY minVerbosity, const char* name,
OPTION option, bool currValue)
{
if(m_OptionSet[(size_t)option] &&
g_Verbosity >= minVerbosity)
{
bool origValue;
if(StrRangeToBool(StrRange(m_OptionValue[(size_t)option]), origValue))
{
if(origValue != currValue)
{
EnsureWarningHeader();
printf(" %s: original %u, current %u\n", name,
origValue ? 1 : 0,
currValue ? 1 : 0);
}
}
}
}
void ConfigurationParser::CompareOption(VERBOSITY minVerbosity, const char* name,
OPTION option, const char* currValue)
{
if(m_OptionSet[(size_t)option] &&
g_Verbosity >= minVerbosity)
{
const std::string& origValue = m_OptionValue[(size_t)option];
if(origValue != currValue)
{
EnsureWarningHeader();
printf(" %s: original \"%s\", current \"%s\"\n", name, origValue.c_str(), currValue);
}
}
}
////////////////////////////////////////////////////////////////////////////////
// class Player
@ -495,6 +870,7 @@ public:
int Init();
~Player();
void ApplyConfig(ConfigurationParser& configParser);
void ExecuteLine(size_t lineNumber, const StrRange& line);
void DumpStats(const char* fileNameFormat, size_t lineNumber, bool detailed);
@ -511,6 +887,8 @@ private:
uint32_t m_GraphicsQueueFamilyIndex = UINT_MAX;
VkDevice m_Device = VK_NULL_HANDLE;
VmaAllocator m_Allocator = VK_NULL_HANDLE;
bool m_DedicatedAllocationEnabled = false;
const VkPhysicalDeviceProperties* m_DevProps = nullptr;
const VkPhysicalDeviceMemoryProperties* m_MemProps = nullptr;
PFN_vkCreateDebugReportCallbackEXT m_pvkCreateDebugReportCallbackEXT;
@ -618,6 +996,11 @@ Player::~Player()
printf("WARNING: %zu more warnings not shown.\n", m_WarningCount - MAX_WARNINGS_TO_SHOW);
}
void Player::ApplyConfig(ConfigurationParser& configParser)
{
configParser.Compare(*m_DevProps, *m_MemProps, m_DedicatedAllocationEnabled);
}
void Player::ExecuteLine(size_t lineNumber, const StrRange& line)
{
CsvSplit csvSplit;
@ -1046,16 +1429,15 @@ int Player::InitVulkan()
const bool dedicatedAllocationAvailable =
VK_KHR_get_memory_requirements2_available && VK_KHR_dedicated_allocation_available;
bool dedicatedAllocationEnabled = false;
switch(g_VK_KHR_dedicated_allocation_request)
{
case VULKAN_EXTENSION_REQUEST::DISABLED:
break;
case VULKAN_EXTENSION_REQUEST::DEFAULT:
dedicatedAllocationEnabled = dedicatedAllocationAvailable;
m_DedicatedAllocationEnabled = dedicatedAllocationAvailable;
break;
case VULKAN_EXTENSION_REQUEST::ENABLED:
dedicatedAllocationEnabled = dedicatedAllocationAvailable;
m_DedicatedAllocationEnabled = dedicatedAllocationAvailable;
if(!dedicatedAllocationAvailable)
{
printf("WARNING: VK_KHR_dedicated_allocation extension cannot be enabled.\n");
@ -1064,7 +1446,7 @@ int Player::InitVulkan()
default: assert(0);
}
if(dedicatedAllocationEnabled)
if(m_DedicatedAllocationEnabled)
{
enabledDeviceExtensions.push_back(VK_KHR_GET_MEMORY_REQUIREMENTS_2_EXTENSION_NAME);
enabledDeviceExtensions.push_back(VK_KHR_DEDICATED_ALLOCATION_EXTENSION_NAME);
@ -1090,7 +1472,7 @@ int Player::InitVulkan()
allocatorInfo.physicalDevice = m_PhysicalDevice;
allocatorInfo.device = m_Device;
if(dedicatedAllocationEnabled)
if(m_DedicatedAllocationEnabled)
{
allocatorInfo.flags |= VMA_ALLOCATOR_CREATE_KHR_DEDICATED_ALLOCATION_BIT;
}
@ -1102,6 +1484,7 @@ int Player::InitVulkan()
return RESULT_ERROR_VULKAN;
}
vmaGetPhysicalDeviceProperties(m_Allocator, &m_DevProps);
vmaGetMemoryProperties(m_Allocator, &m_MemProps);
return 0;
@ -2225,11 +2608,30 @@ static int ProcessFile(size_t iterationIndex, const char* data, size_t numBytes,
if(g_Verbosity == VERBOSITY::MAXIMUM)
{
printf("Format version: %u,%u\n", g_FileVersion >> 16, g_FileVersion & 0xFFFF);
printf("Format version: %u,%u\n",
GetVersionMajor(g_FileVersion),
GetVersionMinor(g_FileVersion));
}
// Parse configuration
const bool configEnabled = g_FileVersion >= MakeVersion(1, 3);
ConfigurationParser configParser;
if(configEnabled)
{
if(!configParser.Parse(lineSplit))
{
return RESULT_ERROR_FORMAT;
}
}
Player player;
int result = player.Init();
if(configEnabled)
{
player.ApplyConfig(configParser);
}
size_t executedLineCount = 0;
if(result == 0)
{

56
src/vk_mem_alloc.h
View File

@ -4799,6 +4799,10 @@ class VmaRecorder
public:
VmaRecorder();
VkResult Init(const VmaRecordSettings& settings, bool useMutex);
void WriteConfiguration(
const VkPhysicalDeviceProperties& devProps,
const VkPhysicalDeviceMemoryProperties& memProps,
bool dedicatedAllocationExtensionEnabled);
~VmaRecorder();
void RecordCreateAllocator(uint32_t frameIndex);
@ -8163,7 +8167,7 @@ VkResult VmaRecorder::Init(const VmaRecordSettings& settings, bool useMutex)
// Write header.
fprintf(m_File, "%s\n", "Vulkan Memory Allocator,Calls recording");
fprintf(m_File, "%s\n", "1,2");
fprintf(m_File, "%s\n", "1,3");
return VK_SUCCESS;
}
@ -8541,6 +8545,52 @@ VmaRecorder::UserDataString::UserDataString(VmaAllocationCreateFlags allocFlags,
}
}
void VmaRecorder::WriteConfiguration(
const VkPhysicalDeviceProperties& devProps,
const VkPhysicalDeviceMemoryProperties& memProps,
bool dedicatedAllocationExtensionEnabled)
{
fprintf(m_File, "Config,Begin\n");
fprintf(m_File, "PhysicalDevice,apiVersion,%u\n", devProps.apiVersion);
fprintf(m_File, "PhysicalDevice,driverVersion,%u\n", devProps.driverVersion);
fprintf(m_File, "PhysicalDevice,vendorID,%u\n", devProps.vendorID);
fprintf(m_File, "PhysicalDevice,deviceID,%u\n", devProps.deviceID);
fprintf(m_File, "PhysicalDevice,deviceType,%u\n", devProps.deviceType);
fprintf(m_File, "PhysicalDevice,deviceName,%s\n", devProps.deviceName);
fprintf(m_File, "PhysicalDeviceLimits,maxMemoryAllocationCount,%u\n", devProps.limits.maxMemoryAllocationCount);
fprintf(m_File, "PhysicalDeviceLimits,bufferImageGranularity,%llu\n", devProps.limits.bufferImageGranularity);
fprintf(m_File, "PhysicalDeviceLimits,nonCoherentAtomSize,%llu\n", devProps.limits.nonCoherentAtomSize);
fprintf(m_File, "PhysicalDeviceMemory,HeapCount,%u\n", memProps.memoryHeapCount);
for(uint32_t i = 0; i < memProps.memoryHeapCount; ++i)
{
fprintf(m_File, "PhysicalDeviceMemory,Heap,%u,size,%llu\n", i, memProps.memoryHeaps[i].size);
fprintf(m_File, "PhysicalDeviceMemory,Heap,%u,flags,%u\n", i, memProps.memoryHeaps[i].flags);
}
fprintf(m_File, "PhysicalDeviceMemory,TypeCount,%u\n", memProps.memoryTypeCount);
for(uint32_t i = 0; i < memProps.memoryTypeCount; ++i)
{
fprintf(m_File, "PhysicalDeviceMemory,Type,%u,heapIndex,%u\n", i, memProps.memoryTypes[i].heapIndex);
fprintf(m_File, "PhysicalDeviceMemory,Type,%u,propertyFlags,%u\n", i, memProps.memoryTypes[i].propertyFlags);
}
fprintf(m_File, "Extension,VK_KHR_dedicated_allocation,%u\n", dedicatedAllocationExtensionEnabled ? 1 : 0);
fprintf(m_File, "Macro,VMA_DEBUG_ALWAYS_DEDICATED_MEMORY,%u\n", VMA_DEBUG_ALWAYS_DEDICATED_MEMORY ? 1 : 0);
fprintf(m_File, "Macro,VMA_DEBUG_ALIGNMENT,%llu\n", (VkDeviceSize)VMA_DEBUG_ALIGNMENT);
fprintf(m_File, "Macro,VMA_DEBUG_MARGIN,%llu\n", (VkDeviceSize)VMA_DEBUG_MARGIN);
fprintf(m_File, "Macro,VMA_DEBUG_INITIALIZE_ALLOCATIONS,%u\n", VMA_DEBUG_INITIALIZE_ALLOCATIONS ? 1 : 0);
fprintf(m_File, "Macro,VMA_DEBUG_DETECT_CORRUPTION,%u\n", VMA_DEBUG_DETECT_CORRUPTION ? 1 : 0);
fprintf(m_File, "Macro,VMA_DEBUG_GLOBAL_MUTEX,%u\n", VMA_DEBUG_GLOBAL_MUTEX ? 1 : 0);
fprintf(m_File, "Macro,VMA_DEBUG_MIN_BUFFER_IMAGE_GRANULARITY,%llu\n", (VkDeviceSize)VMA_DEBUG_MIN_BUFFER_IMAGE_GRANULARITY);
fprintf(m_File, "Macro,VMA_SMALL_HEAP_MAX_SIZE,%llu\n", (VkDeviceSize)VMA_SMALL_HEAP_MAX_SIZE);
fprintf(m_File, "Macro,VMA_DEFAULT_LARGE_HEAP_BLOCK_SIZE,%llu\n", (VkDeviceSize)VMA_DEFAULT_LARGE_HEAP_BLOCK_SIZE);
fprintf(m_File, "Config,End\n");
}
void VmaRecorder::GetBasicParams(CallParams& outParams)
{
outParams.threadId = GetCurrentThreadId();
@ -8670,6 +8720,10 @@ VkResult VmaAllocator_T::Init(const VmaAllocatorCreateInfo* pCreateInfo)
{
return res;
}
m_pRecorder->WriteConfiguration(
m_PhysicalDeviceProperties,
m_MemProps,
m_UseKhrDedicatedAllocation);
m_pRecorder->RecordCreateAllocator(GetCurrentFrameIndex());
#else
VMA_ASSERT(0 && "VmaAllocatorCreateInfo::pRecordSettings used, but not supported due to VMA_RECORDING_ENABLED not defined to 1.");