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mirror of https://github.com/yse/easy_profiler.git synced 2024-12-26 08:01:51 +08:00

#91 [UI] Added snapshot tool stub; Working on saving blocks to file from UI

This commit is contained in:
Victor Zarubkin 2018-04-22 03:34:26 +03:00
parent 7b7dfc9827
commit ef7b41fd0d
11 changed files with 738 additions and 413 deletions

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@ -45,32 +45,36 @@ The Apache License, Version 2.0 (the "License");
/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
#include <atomic>
#include <functional>
#include <iostream>
#include <unordered_map>
#include <string>
#include <vector>
#include <easy/serialized_block.h>
#include <easy/details/arbitrary_value_public_types.h>
#include <easy/utility.h>
#include <unordered_map>
#include <vector>
#include <string>
#include <atomic>
/////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////
namespace profiler {
using processid_t = uint64_t;
using calls_number_t = uint32_t;
using block_index_t = uint32_t;
#pragma pack(push, 1)
struct BlockStatistics EASY_FINAL
{
::profiler::timestamp_t total_duration; ///< Total duration of all block calls
::profiler::timestamp_t total_children_duration; ///< Total duration of all children of all block calls
::profiler::block_index_t min_duration_block; ///< Will be used in GUI to jump to the block with min duration
::profiler::block_index_t max_duration_block; ///< Will be used in GUI to jump to the block with max duration
::profiler::block_index_t parent_block; ///< Index of block which is "parent" for "per_parent_stats" or "frame" for "per_frame_stats" or thread-id for "per_thread_stats"
::profiler::calls_number_t calls_number; ///< Block calls number
profiler::timestamp_t total_duration; ///< Total duration of all block calls
profiler::timestamp_t total_children_duration; ///< Total duration of all children of all block calls
profiler::block_index_t min_duration_block; ///< Will be used in GUI to jump to the block with min duration
profiler::block_index_t max_duration_block; ///< Will be used in GUI to jump to the block with max duration
profiler::block_index_t parent_block; ///< Index of block which is "parent" for "per_parent_stats" or "frame" for "per_frame_stats" or thread-id for "per_thread_stats"
profiler::calls_number_t calls_number; ///< Block calls number
explicit BlockStatistics(::profiler::timestamp_t _duration, ::profiler::block_index_t _block_index, ::profiler::block_index_t _parent_index)
explicit BlockStatistics(profiler::timestamp_t _duration, profiler::block_index_t _block_index, profiler::block_index_t _parent_index)
: total_duration(_duration)
, total_children_duration(0)
, min_duration_block(_block_index)
@ -82,7 +86,7 @@ namespace profiler {
//BlockStatistics() = default;
inline ::profiler::timestamp_t average_duration() const
inline profiler::timestamp_t average_duration() const
{
return total_duration / calls_number;
}
@ -100,20 +104,20 @@ namespace profiler {
public:
using blocks_t = ::std::vector<This>;
using children_t = ::std::vector<::profiler::block_index_t>;
using blocks_t = std::vector<This>;
using children_t = std::vector<profiler::block_index_t>;
children_t children; ///< List of children blocks. May be empty.
union {
::profiler::SerializedBlock* node; ///< Pointer to serialized data for regular block (id, name, begin, end etc.)
::profiler::SerializedCSwitch* cs; ///< Pointer to serialized data for context switch (thread_id, name, begin, end etc.)
::profiler::ArbitraryValue* value; ///< Pointer to serialized data for arbitrary value
profiler::SerializedBlock* node; ///< Pointer to serialized data for regular block (id, name, begin, end etc.)
profiler::SerializedCSwitch* cs; ///< Pointer to serialized data for context switch (thread_id, name, begin, end etc.)
profiler::ArbitraryValue* value; ///< Pointer to serialized data for arbitrary value
};
::profiler::BlockStatistics* per_parent_stats; ///< Pointer to statistics for this block within the parent (may be nullptr for top-level blocks)
::profiler::BlockStatistics* per_frame_stats; ///< Pointer to statistics for this block within the frame (may be nullptr for top-level blocks)
::profiler::BlockStatistics* per_thread_stats; ///< Pointer to statistics for this block within the bounds of all frames per current thread
profiler::BlockStatistics* per_parent_stats; ///< Pointer to statistics for this block within the parent (may be nullptr for top-level blocks)
profiler::BlockStatistics* per_frame_stats; ///< Pointer to statistics for this block within the frame (may be nullptr for top-level blocks)
profiler::BlockStatistics* per_thread_stats; ///< Pointer to statistics for this block within the bounds of all frames per current thread
uint8_t depth; ///< Maximum number of sublevels (maximum children depth)
BlocksTree(const This&) = delete;
@ -132,12 +136,12 @@ namespace profiler {
BlocksTree(This&& that) EASY_NOEXCEPT
: BlocksTree()
{
make_move(::std::forward<This&&>(that));
make_move(std::forward<This&&>(that));
}
This& operator = (This&& that) EASY_NOEXCEPT
{
make_move(::std::forward<This&&>(that));
make_move(std::forward<This&&>(that));
return *this;
}
@ -166,7 +170,7 @@ namespace profiler {
// shrink version 2:
//children_t new_children;
//new_children.reserve(children.size());
//::std::move(children.begin(), children.end(), ::std::back_inserter(new_children));
//std::move(children.begin(), children.end(), std::back_inserter(new_children));
//new_children.swap(children);
}
@ -183,7 +187,7 @@ namespace profiler {
if (per_frame_stats != that.per_frame_stats)
release_stats(per_frame_stats);
children = ::std::move(that.children);
children = std::move(that.children);
node = that.node;
per_parent_stats = that.per_parent_stats;
per_frame_stats = that.per_frame_stats;
@ -210,11 +214,11 @@ namespace profiler {
BlocksTree::children_t sync; ///< List of context-switch events
BlocksTree::children_t events; ///< List of events indexes
std::string thread_name; ///< Name of this thread
::profiler::timestamp_t profiled_time; ///< Profiled time of this thread (sum of all children duration)
::profiler::timestamp_t wait_time; ///< Wait time of this thread (sum of all context switches)
::profiler::thread_id_t thread_id; ///< System Id of this thread
::profiler::block_index_t frames_number; ///< Total frames number (top-level blocks)
::profiler::block_index_t blocks_number; ///< Total blocks number including their children
profiler::timestamp_t profiled_time; ///< Profiled time of this thread (sum of all children duration)
profiler::timestamp_t wait_time; ///< Wait time of this thread (sum of all context switches)
profiler::thread_id_t thread_id; ///< System Id of this thread
profiler::block_index_t frames_number; ///< Total frames number (top-level blocks)
profiler::block_index_t blocks_number; ///< Total blocks number including their children
uint8_t depth; ///< Maximum stack depth (number of levels)
BlocksTreeRoot(const This&) = delete;
@ -226,10 +230,10 @@ namespace profiler {
}
BlocksTreeRoot(This&& that) EASY_NOEXCEPT
: children(::std::move(that.children))
, sync(::std::move(that.sync))
, events(::std::move(that.events))
, thread_name(::std::move(that.thread_name))
: children(std::move(that.children))
, sync(std::move(that.sync))
, events(std::move(that.events))
, thread_name(std::move(that.thread_name))
, profiled_time(that.profiled_time)
, wait_time(that.wait_time)
, thread_id(that.thread_id)
@ -241,10 +245,10 @@ namespace profiler {
This& operator = (This&& that) EASY_NOEXCEPT
{
children = ::std::move(that.children);
sync = ::std::move(that.sync);
events = ::std::move(that.events);
thread_name = ::std::move(that.thread_name);
children = std::move(that.children);
sync = std::move(that.sync);
events = std::move(that.events);
thread_name = std::move(that.thread_name);
profiled_time = that.profiled_time;
wait_time = that.wait_time;
thread_id = that.thread_id;
@ -271,8 +275,9 @@ namespace profiler {
}; // END of class BlocksTreeRoot.
using blocks_t = ::profiler::BlocksTree::blocks_t;
using thread_blocks_tree_t = ::std::unordered_map<::profiler::thread_id_t, ::profiler::BlocksTreeRoot, ::estd::hash<::profiler::thread_id_t> >;
using blocks_t = profiler::BlocksTree::blocks_t;
using thread_blocks_tree_t = std::unordered_map<profiler::thread_id_t, profiler::BlocksTreeRoot, ::estd::hash<profiler::thread_id_t> >;
using block_getter_fn = std::function<const profiler::BlocksTree&(profiler::block_index_t)>;
//////////////////////////////////////////////////////////////////////////
@ -367,59 +372,113 @@ namespace profiler {
//////////////////////////////////////////////////////////////////////////
using descriptors_list_t = ::std::vector<SerializedBlockDescriptor*>;
using descriptors_list_t = std::vector<SerializedBlockDescriptor*>;
} // END of namespace profiler.
extern "C" {
PROFILER_API ::profiler::block_index_t fillTreesFromFile(::std::atomic<int>& progress, const char* filename,
::profiler::SerializedData& serialized_blocks,
::profiler::SerializedData& serialized_descriptors,
::profiler::descriptors_list_t& descriptors,
::profiler::blocks_t& _blocks,
::profiler::thread_blocks_tree_t& threaded_trees,
PROFILER_API profiler::block_index_t fillTreesFromFile(std::atomic<int>& progress, const char* filename,
profiler::SerializedData& serialized_blocks,
profiler::SerializedData& serialized_descriptors,
profiler::descriptors_list_t& descriptors,
profiler::blocks_t& _blocks,
profiler::thread_blocks_tree_t& threaded_trees,
uint32_t& total_descriptors_number,
uint32_t& version,
profiler::processid_t& pid,
bool gather_statistics,
std::ostream& _log);
PROFILER_API profiler::block_index_t fillTreesFromStream(std::atomic<int>& progress, std::istream& str,
profiler::SerializedData& serialized_blocks,
profiler::SerializedData& serialized_descriptors,
profiler::descriptors_list_t& descriptors,
profiler::blocks_t& _blocks,
profiler::thread_blocks_tree_t& threaded_trees,
uint32_t& total_descriptors_number,
uint32_t& version,
profiler::processid_t& pid,
bool gather_statistics,
::std::stringstream& _log);
std::ostream& _log);
PROFILER_API ::profiler::block_index_t fillTreesFromStream(::std::atomic<int>& progress, ::std::stringstream& str,
::profiler::SerializedData& serialized_blocks,
::profiler::SerializedData& serialized_descriptors,
::profiler::descriptors_list_t& descriptors,
::profiler::blocks_t& _blocks,
::profiler::thread_blocks_tree_t& threaded_trees,
uint32_t& total_descriptors_number,
uint32_t& version,
bool gather_statistics,
::std::stringstream& _log);
PROFILER_API bool readDescriptionsFromStream(std::atomic<int>& progress, std::istream& str,
profiler::SerializedData& serialized_descriptors,
profiler::descriptors_list_t& descriptors,
std::ostream& _log);
PROFILER_API bool readDescriptionsFromStream(::std::atomic<int>& progress, ::std::stringstream& str,
::profiler::SerializedData& serialized_descriptors,
::profiler::descriptors_list_t& descriptors,
::std::stringstream& _log);
PROFILER_API profiler::block_index_t writeTreesToFile(std::atomic<int>& progress, const char* filename,
const profiler::SerializedData& serialized_descriptors,
profiler::block_id_t descriptors_count,
const profiler::thread_blocks_tree_t& trees,
profiler::block_getter_fn block_getter,
profiler::timestamp_t begin_time,
profiler::timestamp_t end_time,
profiler::processid_t pid,
std::ostream& log);
PROFILER_API profiler::block_index_t writeTreesToStream(std::atomic<int>& progress, std::ostream& str,
const profiler::SerializedData& serialized_descriptors,
profiler::block_id_t descriptors_count,
const profiler::thread_blocks_tree_t& trees,
profiler::block_getter_fn block_getter,
profiler::timestamp_t begin_time,
profiler::timestamp_t end_time,
profiler::processid_t pid,
std::ostream& log);
}
inline ::profiler::block_index_t fillTreesFromFile(const char* filename, ::profiler::SerializedData& serialized_blocks,
::profiler::SerializedData& serialized_descriptors,
::profiler::descriptors_list_t& descriptors, ::profiler::blocks_t& _blocks,
::profiler::thread_blocks_tree_t& threaded_trees,
uint32_t& total_descriptors_number,
uint32_t& version,
bool gather_statistics,
::std::stringstream& _log)
inline profiler::block_index_t fillTreesFromFile(const char* filename, profiler::SerializedData& serialized_blocks,
profiler::SerializedData& serialized_descriptors,
profiler::descriptors_list_t& descriptors, profiler::blocks_t& _blocks,
profiler::thread_blocks_tree_t& threaded_trees,
uint32_t& total_descriptors_number,
uint32_t& version,
profiler::processid_t& pid,
bool gather_statistics,
std::ostream& _log)
{
::std::atomic<int> progress = ATOMIC_VAR_INIT(0);
return fillTreesFromFile(progress, filename, serialized_blocks, serialized_descriptors, descriptors, _blocks, threaded_trees, total_descriptors_number, version, gather_statistics, _log);
std::atomic<int> progress = ATOMIC_VAR_INIT(0);
return fillTreesFromFile(progress, filename, serialized_blocks, serialized_descriptors, descriptors, _blocks,
threaded_trees, total_descriptors_number, version, pid, gather_statistics, _log);
}
inline bool readDescriptionsFromStream(::std::stringstream& str,
::profiler::SerializedData& serialized_descriptors,
::profiler::descriptors_list_t& descriptors,
::std::stringstream& _log)
inline profiler::block_index_t writeTreesToFile(const char* filename,
const profiler::SerializedData& serialized_descriptors,
profiler::block_id_t descriptors_count,
const profiler::thread_blocks_tree_t& trees,
profiler::block_getter_fn block_getter,
profiler::timestamp_t begin_time,
profiler::timestamp_t end_time,
profiler::processid_t pid,
std::ostream& log)
{
::std::atomic<int> progress = ATOMIC_VAR_INIT(0);
std::atomic<int> progress = ATOMIC_VAR_INIT(0);
return writeTreesToFile(progress, filename, serialized_descriptors, descriptors_count, trees, std::move(block_getter),
begin_time, end_time, pid, log);
}
inline profiler::block_index_t writeTreesToStream(std::ostream& str,
const profiler::SerializedData& serialized_descriptors,
profiler::block_id_t descriptors_count,
const profiler::thread_blocks_tree_t& trees,
profiler::block_getter_fn block_getter,
profiler::timestamp_t begin_time,
profiler::timestamp_t end_time,
profiler::processid_t pid,
std::ostream& log)
{
std::atomic<int> progress = ATOMIC_VAR_INIT(0);
return writeTreesToStream(progress, str, serialized_descriptors, descriptors_count, trees, std::move(block_getter),
begin_time, end_time, pid, log);
}
inline bool readDescriptionsFromStream(std::istream& str,
profiler::SerializedData& serialized_descriptors,
profiler::descriptors_list_t& descriptors,
std::ostream& _log)
{
std::atomic<int> progress = ATOMIC_VAR_INIT(0);
return readDescriptionsFromStream(progress, str, serialized_descriptors, descriptors, _log);
}

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@ -65,7 +65,7 @@ The Apache License, Version 2.0 (the "License");
//////////////////////////////////////////////////////////////////////////
typedef uint64_t processid_t;
using processid_t = uint64_t;
class BlockDescriptor;
@ -79,14 +79,15 @@ class ProfileManager
ProfileManager();
typedef profiler::guard_lock<profiler::spin_lock> guard_lock_t;
typedef std::map<profiler::thread_id_t, ThreadStorage> map_of_threads_stacks;
typedef std::vector<BlockDescriptor*> block_descriptors_t;
using atomic_timestamp_t = std::atomic<profiler::timestamp_t>;
using guard_lock_t = profiler::guard_lock<profiler::spin_lock>;
using map_of_threads_stacks = std::map<profiler::thread_id_t, ThreadStorage>;
using block_descriptors_t = std::vector<BlockDescriptor*>;
#ifdef EASY_PROFILER_HASHED_CSTR_DEFINED
typedef std::unordered_map<profiler::hashed_cstr, profiler::block_id_t> descriptors_map_t;
using descriptors_map_t = std::unordered_map<profiler::hashed_cstr, profiler::block_id_t>;
#else
typedef std::unordered_map<profiler::hashed_stdstring, profiler::block_id_t> descriptors_map_t;
using descriptors_map_t = std::unordered_map<profiler::hashed_stdstring, profiler::block_id_t>;
#endif
const processid_t m_processId;
@ -97,9 +98,9 @@ class ProfileManager
uint64_t m_descriptorsMemorySize;
profiler::timestamp_t m_beginTime;
profiler::timestamp_t m_endTime;
std::atomic<profiler::timestamp_t> m_frameMax;
std::atomic<profiler::timestamp_t> m_frameAvg;
std::atomic<profiler::timestamp_t> m_frameCur;
atomic_timestamp_t m_frameMax;
atomic_timestamp_t m_frameAvg;
atomic_timestamp_t m_frameCur;
profiler::spin_lock m_spin;
profiler::spin_lock m_storedSpin;
profiler::spin_lock m_dumpSpin;

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@ -71,9 +71,7 @@
#include "hashed_cstr.h"
#include <iostream>
#include <fstream>
#include <sstream>
#include <iterator>
#include <algorithm>
#include <unordered_map>
@ -81,8 +79,6 @@
//////////////////////////////////////////////////////////////////////////
typedef uint64_t processid_t;
extern const uint32_t PROFILER_SIGNATURE;
extern const uint32_t EASY_CURRENT_VERSION;
@ -123,20 +119,35 @@ const uint64_t TIME_FACTOR = 1000000000ULL;
//////////////////////////////////////////////////////////////////////////
struct BlocksRange
{
profiler::block_index_t begin;
profiler::block_index_t end;
};
struct BlocksAndCSwitchesRange
{
BlocksRange blocks;
BlocksRange cswitches;
};
//////////////////////////////////////////////////////////////////////////
inline bool isCompatibleVersion(uint32_t _version)
{
return _version >= MIN_COMPATIBLE_VERSION;
}
inline void write(::std::stringstream& _stream, const char* _value, size_t _size)
template <typename T>
inline void write(std::ostream& _stream, const char* _data, T _size)
{
_stream.write(_value, _size);
_stream.write(_data, _size);
}
template <class T>
inline void write(::std::stringstream& _stream, const T& _value)
inline void write(std::ostream& _stream, const T& _data)
{
_stream.write((const char*)&_value, sizeof(T));
_stream.write((const char*)&_data, sizeof(T));
}
//////////////////////////////////////////////////////////////////////////
@ -189,20 +200,20 @@ namespace profiler {
#ifdef EASY_PROFILER_HASHED_CSTR_DEFINED
using StatsMap = ::std::unordered_map<::profiler::block_id_t, ::profiler::BlockStatistics*, ::estd::hash<::profiler::block_id_t> >;
using StatsMap = std::unordered_map<profiler::block_id_t, profiler::BlockStatistics*, estd::hash<profiler::block_id_t> >;
/** \note It is absolutely safe to use hashed_cstr (which simply stores pointer) because std::unordered_map,
which uses it as a key, exists only inside fillTreesFromFile function. */
using IdMap = ::std::unordered_map<::profiler::hashed_cstr, ::profiler::block_id_t>;
using IdMap = std::unordered_map<profiler::hashed_cstr, profiler::block_id_t>;
using CsStatsMap = ::std::unordered_map<::profiler::hashed_cstr, ::profiler::BlockStatistics*>;
using CsStatsMap = std::unordered_map<profiler::hashed_cstr, profiler::BlockStatistics*>;
#else
// TODO: Create optimized version of profiler::hashed_cstr for Linux too.
using StatsMap = ::std::unordered_map<::profiler::block_id_t, ::profiler::BlockStatistics*, ::estd::hash<::profiler::block_id_t> >;
using IdMap = ::std::unordered_map<::profiler::hashed_stdstring, ::profiler::block_id_t>;
using CsStatsMap = ::std::unordered_map<::profiler::hashed_stdstring, ::profiler::BlockStatistics*>;
using StatsMap = std::unordered_map<profiler::block_id_t, profiler::BlockStatistics*, estd::hash<profiler::block_id_t> >;
using IdMap = std::unordered_map<profiler::hashed_stdstring, profiler::block_id_t>;
using CsStatsMap = std::unordered_map<profiler::hashed_stdstring, profiler::BlockStatistics*>;
#endif
@ -220,7 +231,7 @@ using CsStatsMap = ::std::unordered_map<::profiler::hashed_stdstring, ::profiler
automatically receive statistics update.
*/
static ::profiler::BlockStatistics* update_statistics(StatsMap& _stats_map, const ::profiler::BlocksTree& _current, ::profiler::block_index_t _current_index, ::profiler::block_index_t _parent_index, const ::profiler::blocks_t& _blocks, bool _calculate_children = true)
static profiler::BlockStatistics* update_statistics(StatsMap& _stats_map, const profiler::BlocksTree& _current, profiler::block_index_t _current_index, profiler::block_index_t _parent_index, const profiler::blocks_t& _blocks, bool _calculate_children = true)
{
auto duration = _current.node->duration();
//StatsMap::key_type key(_current.node->name());
@ -262,7 +273,7 @@ static ::profiler::BlockStatistics* update_statistics(StatsMap& _stats_map, cons
// This is first time the block appear in the file.
// Create new statistics.
auto stats = new ::profiler::BlockStatistics(duration, _current_index, _parent_index);
auto stats = new profiler::BlockStatistics(duration, _current_index, _parent_index);
//_stats_map.emplace(key, stats);
_stats_map.emplace(_current.node->id(), stats);
@ -275,7 +286,7 @@ static ::profiler::BlockStatistics* update_statistics(StatsMap& _stats_map, cons
return stats;
}
static ::profiler::BlockStatistics* update_statistics(CsStatsMap& _stats_map, const ::profiler::BlocksTree& _current, ::profiler::block_index_t _current_index, ::profiler::block_index_t _parent_index, const ::profiler::blocks_t& _blocks, bool _calculate_children = true)
static profiler::BlockStatistics* update_statistics(CsStatsMap& _stats_map, const profiler::BlocksTree& _current, profiler::block_index_t _current_index, profiler::block_index_t _parent_index, const profiler::blocks_t& _blocks, bool _calculate_children = true)
{
auto duration = _current.node->duration();
CsStatsMap::key_type key(_current.node->name());
@ -316,7 +327,7 @@ static ::profiler::BlockStatistics* update_statistics(CsStatsMap& _stats_map, co
// This is first time the block appear in the file.
// Create new statistics.
auto stats = new ::profiler::BlockStatistics(duration, _current_index, _parent_index);
auto stats = new profiler::BlockStatistics(duration, _current_index, _parent_index);
_stats_map.emplace(key, stats);
if (_calculate_children)
@ -330,7 +341,7 @@ static ::profiler::BlockStatistics* update_statistics(CsStatsMap& _stats_map, co
//////////////////////////////////////////////////////////////////////////
static void update_statistics_recursive(StatsMap& _stats_map, ::profiler::BlocksTree& _current, ::profiler::block_index_t _current_index, ::profiler::block_index_t _parent_index, ::profiler::blocks_t& _blocks)
static void update_statistics_recursive(StatsMap& _stats_map, profiler::BlocksTree& _current, profiler::block_index_t _current_index, profiler::block_index_t _parent_index, profiler::blocks_t& _blocks)
{
_current.per_frame_stats = update_statistics(_stats_map, _current, _current_index, _parent_index, _blocks, false);
for (auto i : _current.children)
@ -342,44 +353,9 @@ static void update_statistics_recursive(StatsMap& _stats_map, ::profiler::Blocks
//////////////////////////////////////////////////////////////////////////
/*void validate_pointers(::std::atomic<int>& _progress, const char* _oldbase, ::profiler::SerializedData& _serialized_blocks, ::profiler::blocks_t& _blocks, size_t _size)
static bool update_progress(std::atomic<int>& progress, int new_value, std::ostream& _log)
{
if (_oldbase == nullptr)
{
_progress.store(25, ::std::memory_order_release);
return;
}
for (size_t i = 0; i < _size; ++i)
{
auto& tree = _blocks[i];
auto dist = ::std::distance(_oldbase, reinterpret_cast<const char*>(tree.node));
tree.node = reinterpret_cast<::profiler::SerializedBlock*>(_serialized_blocks.data() + dist);
_progress.store(20 + static_cast<int>(5 * i / _size), ::std::memory_order_release);
}
}
void validate_pointers(::std::atomic<int>& _progress, const char* _oldbase, ::profiler::SerializedData& _serialized_descriptors, ::profiler::descriptors_list_t& _descriptors, size_t _size)
{
if (_oldbase == nullptr)
{
_progress.store(5, ::std::memory_order_release);
return;
}
for (size_t i = 0; i < _size; ++i)
{
auto dist = ::std::distance(_oldbase, reinterpret_cast<const char*>(_descriptors[i]));
_descriptors[i] = reinterpret_cast<::profiler::SerializedBlockDescriptor*>(_serialized_descriptors.data() + dist);
_progress.store(static_cast<int>(5 * i / _size));
}
}*/
//////////////////////////////////////////////////////////////////////////
static bool update_progress(::std::atomic<int>& progress, int new_value, ::std::stringstream& _log)
{
auto oldprogress = progress.exchange(new_value, ::std::memory_order_release);
auto oldprogress = progress.exchange(new_value, std::memory_order_release);
if (oldprogress < 0)
{
_log << "Reading was interrupted";
@ -389,13 +365,25 @@ static bool update_progress(::std::atomic<int>& progress, int new_value, ::std::
return true;
}
static bool update_progress_write(std::atomic<int>& progress, int new_value, std::ostream& _log)
{
auto oldprogress = progress.exchange(new_value, std::memory_order_release);
if (oldprogress < 0)
{
_log << "Writing was interrupted";
return false;
}
return true;
}
//////////////////////////////////////////////////////////////////////////
struct EasyFileHeader
{
uint32_t signature = 0;
uint32_t version = 0;
processid_t pid = 0;
profiler::processid_t pid = 0;
int64_t cpu_frequency = 0;
profiler::timestamp_t begin_time = 0;
profiler::timestamp_t end_time = 0;
@ -405,7 +393,7 @@ struct EasyFileHeader
uint32_t total_descriptors_number = 0;
};
bool readHeader_v1(EasyFileHeader& _header, ::std::stringstream& inFile, std::stringstream& _log)
bool readHeader_v1(EasyFileHeader& _header, std::istream& inFile, std::ostream& _log)
{
// File header before v2.0.0
@ -419,13 +407,13 @@ bool readHeader_v1(EasyFileHeader& _header, ::std::stringstream& inFile, std::st
}
else
{
inFile.read((char*)&_header.pid, sizeof(processid_t));
inFile.read((char*)&_header.pid, sizeof(decltype(_header.pid)));
}
}
inFile.read((char*)&_header.cpu_frequency, sizeof(int64_t));
inFile.read((char*)&_header.begin_time, sizeof(::profiler::timestamp_t));
inFile.read((char*)&_header.end_time, sizeof(::profiler::timestamp_t));
inFile.read((char*)&_header.begin_time, sizeof(profiler::timestamp_t));
inFile.read((char*)&_header.end_time, sizeof(profiler::timestamp_t));
inFile.read((char*)&_header.total_blocks_number, sizeof(uint32_t));
if (_header.total_blocks_number == 0)
@ -458,14 +446,14 @@ bool readHeader_v1(EasyFileHeader& _header, ::std::stringstream& inFile, std::st
return true;
}
bool readHeader_v2(EasyFileHeader& _header, ::std::stringstream& inFile, std::stringstream& _log)
bool readHeader_v2(EasyFileHeader& _header, std::istream& inFile, std::ostream& _log)
{
// File header after v2.0.0
inFile.read((char*)&_header.pid, sizeof(processid_t));
inFile.read((char*)&_header.pid, sizeof(decltype(_header.pid)));
inFile.read((char*)&_header.cpu_frequency, sizeof(int64_t));
inFile.read((char*)&_header.begin_time, sizeof(::profiler::timestamp_t));
inFile.read((char*)&_header.end_time, sizeof(::profiler::timestamp_t));
inFile.read((char*)&_header.begin_time, sizeof(profiler::timestamp_t));
inFile.read((char*)&_header.end_time, sizeof(profiler::timestamp_t));
inFile.read((char*)&_header.memory_size, sizeof(decltype(_header.memory_size)));
if (_header.memory_size == 0)
@ -502,60 +490,52 @@ bool readHeader_v2(EasyFileHeader& _header, ::std::stringstream& inFile, std::st
extern "C" {
PROFILER_API ::profiler::block_index_t fillTreesFromFile(::std::atomic<int>& progress, const char* filename,
::profiler::SerializedData& serialized_blocks,
::profiler::SerializedData& serialized_descriptors,
::profiler::descriptors_list_t& descriptors,
::profiler::blocks_t& blocks,
::profiler::thread_blocks_tree_t& threaded_trees,
uint32_t& total_descriptors_number,
uint32_t& version,
bool gather_statistics,
::std::stringstream& _log)
PROFILER_API profiler::block_index_t fillTreesFromFile(std::atomic<int>& progress, const char* filename,
profiler::SerializedData& serialized_blocks,
profiler::SerializedData& serialized_descriptors,
profiler::descriptors_list_t& descriptors,
profiler::blocks_t& blocks,
profiler::thread_blocks_tree_t& threaded_trees,
uint32_t& total_descriptors_number,
uint32_t& version,
profiler::processid_t& pid,
bool gather_statistics,
std::ostream& _log)
{
if (!update_progress(progress, 0, _log))
{
return 0;
}
::std::ifstream inFile(filename, ::std::fstream::binary);
std::ifstream inFile(filename, std::fstream::binary);
if (!inFile.is_open())
{
_log << "Can not open file " << filename;
return 0;
}
::std::stringstream str;
// Replace str buffer to inFile buffer to avoid redundant copying
typedef ::std::basic_iostream<::std::stringstream::char_type, ::std::stringstream::traits_type> stringstream_parent;
stringstream_parent& s = str;
auto oldbuf = s.rdbuf(inFile.rdbuf());
// Read data from file
auto result = fillTreesFromStream(progress, str, serialized_blocks, serialized_descriptors, descriptors, blocks,
threaded_trees, total_descriptors_number, version, gather_statistics, _log);
// Restore old str buffer to avoid possible second memory free on stringstream destructor
s.rdbuf(oldbuf);
auto result = fillTreesFromStream(progress, inFile, serialized_blocks, serialized_descriptors, descriptors, blocks,
threaded_trees, total_descriptors_number, version, pid, gather_statistics, _log);
return result;
}
//////////////////////////////////////////////////////////////////////////
PROFILER_API ::profiler::block_index_t fillTreesFromStream(::std::atomic<int>& progress, ::std::stringstream& inFile,
::profiler::SerializedData& serialized_blocks,
::profiler::SerializedData& serialized_descriptors,
::profiler::descriptors_list_t& descriptors,
::profiler::blocks_t& blocks,
::profiler::thread_blocks_tree_t& threaded_trees,
uint32_t& total_descriptors_number,
uint32_t& version,
bool gather_statistics,
::std::stringstream& _log)
PROFILER_API profiler::block_index_t fillTreesFromStream(std::atomic<int>& progress, std::istream& inFile,
profiler::SerializedData& serialized_blocks,
profiler::SerializedData& serialized_descriptors,
profiler::descriptors_list_t& descriptors,
profiler::blocks_t& blocks,
profiler::thread_blocks_tree_t& threaded_trees,
uint32_t& total_descriptors_number,
uint32_t& version,
profiler::processid_t& pid,
bool gather_statistics,
std::ostream& _log)
{
EASY_FUNCTION(::profiler::colors::Cyan);
EASY_FUNCTION(profiler::colors::Cyan);
if (!update_progress(progress, 0, _log))
{
@ -593,6 +573,8 @@ extern "C" {
return 0;
}
pid = header.pid;
const uint64_t cpu_frequency = header.cpu_frequency;
const double conversion_factor = (cpu_frequency != 0 ? static_cast<double>(TIME_FACTOR) / static_cast<double>(cpu_frequency) : 1.);
@ -633,7 +615,7 @@ extern "C" {
char* data = serialized_descriptors[i];
inFile.read(data, sz);
auto descriptor = reinterpret_cast<::profiler::SerializedBlockDescriptor*>(data);
auto descriptor = reinterpret_cast<profiler::SerializedBlockDescriptor*>(data);
descriptors.push_back(descriptor);
i += sz;
@ -643,7 +625,7 @@ extern "C" {
}
}
using PerThreadStats = ::std::unordered_map<::profiler::thread_id_t, StatsMap, ::estd::hash<::profiler::thread_id_t> >;
using PerThreadStats = std::unordered_map<profiler::thread_id_t, StatsMap, estd::hash<profiler::thread_id_t> >;
PerThreadStats parent_statistics, frame_statistics;
IdMap identification_table;
@ -654,16 +636,16 @@ extern "C" {
i = 0;
uint32_t read_number = 0;
::profiler::block_index_t blocks_counter = 0;
::std::vector<char> name;
profiler::block_index_t blocks_counter = 0;
std::vector<char> name;
const size_t thread_id_t_size = version < EASY_V_130 ? sizeof(uint32_t) : sizeof(::profiler::thread_id_t);
const size_t thread_id_t_size = version < EASY_V_130 ? sizeof(uint32_t) : sizeof(profiler::thread_id_t);
while (!inFile.eof())
{
EASY_BLOCK("Read thread data", ::profiler::colors::DarkGreen);
EASY_BLOCK("Read thread data", profiler::colors::DarkGreen);
::profiler::thread_id_t thread_id = 0;
profiler::thread_id_t thread_id = 0;
inFile.read((char*)&thread_id, thread_id_t_size);
if (inFile.eof())
break;
@ -686,7 +668,7 @@ extern "C" {
auto threshold = read_number + blocks_number_in_thread;
while (!inFile.eof() && read_number < threshold)
{
EASY_BLOCK("Read context switch", ::profiler::colors::Green);
EASY_BLOCK("Read context switch", profiler::colors::Green);
++read_number;
@ -701,8 +683,8 @@ extern "C" {
char* data = serialized_blocks[i];
inFile.read(data, sz);
i += sz;
auto baseData = reinterpret_cast<::profiler::SerializedCSwitch*>(data);
auto t_begin = reinterpret_cast<::profiler::timestamp_t*>(data);
auto baseData = reinterpret_cast<profiler::SerializedCSwitch*>(data);
auto t_begin = reinterpret_cast<profiler::timestamp_t*>(data);
auto t_end = t_begin + 1;
if (cpu_frequency != 0)
@ -717,7 +699,7 @@ extern "C" {
*t_begin = begin_time;
blocks.emplace_back();
::profiler::BlocksTree& tree = blocks.back();
profiler::BlocksTree& tree = blocks.back();
tree.cs = baseData;
const auto block_index = blocks_counter++;
@ -726,7 +708,7 @@ extern "C" {
if (gather_statistics)
{
EASY_BLOCK("Gather per thread statistics", ::profiler::colors::Coral);
EASY_BLOCK("Gather per thread statistics", profiler::colors::Coral);
tree.per_thread_stats = update_statistics(per_thread_statistics_cs, tree, block_index, ~0U, blocks);//, thread_id, blocks);
}
}
@ -747,7 +729,7 @@ extern "C" {
threshold = read_number + blocks_number_in_thread;
while (!inFile.eof() && read_number < threshold)
{
EASY_BLOCK("Read block", ::profiler::colors::Green);
EASY_BLOCK("Read block", profiler::colors::Green);
++read_number;
@ -762,7 +744,7 @@ extern "C" {
char* data = serialized_blocks[i];
inFile.read(data, sz);
i += sz;
auto baseData = reinterpret_cast<::profiler::SerializedBlock*>(data);
auto baseData = reinterpret_cast<profiler::SerializedBlock*>(data);
if (baseData->id() >= total_descriptors_number)
{
_log << "Bad block id == " << baseData->id();
@ -776,7 +758,7 @@ extern "C" {
return 0;
}
auto t_begin = reinterpret_cast<::profiler::timestamp_t*>(data);
auto t_begin = reinterpret_cast<profiler::timestamp_t*>(data);
auto t_end = t_begin + 1;
if (cpu_frequency != 0)
@ -791,7 +773,7 @@ extern "C" {
*t_begin = begin_time;
blocks.emplace_back();
::profiler::BlocksTree& tree = blocks.back();
profiler::BlocksTree& tree = blocks.back();
tree.node = baseData;
const auto block_index = blocks_counter++;
@ -810,7 +792,7 @@ extern "C" {
else
{
// There were no blocks with such name, generate new id and save it in the table for further usage.
auto id = static_cast<::profiler::block_id_t>(descriptors.size());
auto id = static_cast<profiler::block_id_t>(descriptors.size());
identification_table.emplace(key, id);
if (descriptors.capacity() == descriptors.size())
descriptors.reserve((descriptors.size() * 3) >> 1);
@ -826,20 +808,20 @@ extern "C" {
auto mt0 = tree.node->begin();
if (mt0 < t1)//parent - starts earlier than last ends
{
//auto lower = ::std::lower_bound(root.children.begin(), root.children.end(), tree);
//auto lower = std::lower_bound(root.children.begin(), root.children.end(), tree);
/**/
EASY_BLOCK("Find children", ::profiler::colors::Blue);
EASY_BLOCK("Find children", profiler::colors::Blue);
auto rlower1 = ++root.children.rbegin();
for (; rlower1 != root.children.rend() && mt0 <= blocks[*rlower1].node->begin(); ++rlower1);
auto lower = rlower1.base();
::std::move(lower, root.children.end(), ::std::back_inserter(tree.children));
std::move(lower, root.children.end(), std::back_inserter(tree.children));
root.children.erase(lower, root.children.end());
EASY_END_BLOCK;
if (gather_statistics)
{
EASY_BLOCK("Gather statistic within parent", ::profiler::colors::Magenta);
EASY_BLOCK("Gather statistic within parent", profiler::colors::Magenta);
auto& per_parent_statistics = parent_statistics[thread_id];
per_parent_statistics.clear();
@ -883,14 +865,14 @@ extern "C" {
}
++root.blocks_number;
root.children.emplace_back(block_index);// ::std::move(tree));
if (desc->type() != ::profiler::BlockType::Block)
root.children.emplace_back(block_index);// std::move(tree));
if (desc->type() != profiler::BlockType::Block)
root.events.emplace_back(block_index);
if (gather_statistics)
{
EASY_BLOCK("Gather per thread statistics", ::profiler::colors::Coral);
EASY_BLOCK("Gather per thread statistics", profiler::colors::Coral);
tree.per_thread_stats = update_statistics(per_thread_statistics, tree, block_index, ~0U, blocks);//, thread_id, blocks);
}
}
@ -907,10 +889,10 @@ extern "C" {
return 0; // Loading interrupted
}
EASY_BLOCK("Gather statistics for roots", ::profiler::colors::Purple);
EASY_BLOCK("Gather statistics for roots", profiler::colors::Purple);
if (gather_statistics)
{
::std::vector<::std::thread> statistics_threads;
std::vector<std::thread> statistics_threads;
statistics_threads.reserve(threaded_trees.size());
for (auto& it : threaded_trees)
@ -923,19 +905,19 @@ extern "C" {
auto& per_parent_statistics = parent_statistics[it.first];
per_parent_statistics.clear();
statistics_threads.emplace_back(::std::thread([&] (::profiler::BlocksTreeRoot& _root)
statistics_threads.emplace_back(std::thread([&] (profiler::BlocksTreeRoot& _root)
{
//::std::sort(root.sync.begin(), root.sync.end(), [&blocks](::profiler::block_index_t left, ::profiler::block_index_t right)
//std::sort(root.sync.begin(), root.sync.end(), [&blocks](profiler::block_index_t left, profiler::block_index_t right)
//{
// return blocks[left].node->begin() < blocks[right].node->begin();
//});
::profiler::block_index_t cs_index = 0;
profiler::block_index_t cs_index = 0;
for (auto child_index : _root.children)
{
auto& frame = blocks[child_index];
if (descriptors[frame.node->id()]->type() == ::profiler::BlockType::Block)
if (descriptors[frame.node->id()]->type() == profiler::BlockType::Block)
++_root.frames_number;
frame.per_parent_stats = update_statistics(per_parent_statistics, frame, child_index, ~0U, blocks);//, root.thread_id, blocks);
@ -966,14 +948,14 @@ extern "C" {
}
++_root.depth;
}, ::std::ref(root)));
}, std::ref(root)));
}
int j = 0, n = static_cast<int>(statistics_threads.size());
for (auto& thread : statistics_threads)
{
thread.join();
progress.store(90 + (10 * ++j) / n, ::std::memory_order_release);
progress.store(90 + (10 * ++j) / n, std::memory_order_release);
}
}
else
@ -984,7 +966,7 @@ extern "C" {
auto& root = it.second;
root.thread_id = it.first;
//::std::sort(root.sync.begin(), root.sync.end(), [&blocks](::profiler::block_index_t left, ::profiler::block_index_t right)
//std::sort(root.sync.begin(), root.sync.end(), [&blocks](profiler::block_index_t left, profiler::block_index_t right)
//{
// return blocks[left].node->begin() < blocks[right].node->begin();
//});
@ -994,7 +976,7 @@ extern "C" {
{
auto& frame = blocks[child_block_index];
if (descriptors[frame.node->id()]->type() == ::profiler::BlockType::Block)
if (descriptors[frame.node->id()]->type() == profiler::BlockType::Block)
++root.frames_number;
if (root.depth < frame.depth)
@ -1005,23 +987,23 @@ extern "C" {
++root.depth;
progress.store(90 + (10 * ++j) / n, ::std::memory_order_release);
progress.store(90 + (10 * ++j) / n, std::memory_order_release);
}
}
// No need to delete BlockStatistics instances - they will be deleted inside BlocksTree destructors
progress.store(100, ::std::memory_order_release);
progress.store(100, std::memory_order_release);
return blocks_counter;
}
//////////////////////////////////////////////////////////////////////////
PROFILER_API bool readDescriptionsFromStream(::std::atomic<int>& progress, ::std::stringstream& inFile,
::profiler::SerializedData& serialized_descriptors,
::profiler::descriptors_list_t& descriptors,
::std::stringstream& _log)
PROFILER_API bool readDescriptionsFromStream(std::atomic<int>& progress, std::istream& inFile,
profiler::SerializedData& serialized_descriptors,
profiler::descriptors_list_t& descriptors,
std::ostream& _log)
{
EASY_FUNCTION(::profiler::colors::Cyan);
EASY_FUNCTION(profiler::colors::Cyan);
progress.store(0);
@ -1080,7 +1062,7 @@ extern "C" {
char* data = serialized_descriptors[i];
inFile.read(data, sz);
auto descriptor = reinterpret_cast<::profiler::SerializedBlockDescriptor*>(data);
auto descriptor = reinterpret_cast<profiler::SerializedBlockDescriptor*>(data);
descriptors.push_back(descriptor);
i += sz;
@ -1094,6 +1076,114 @@ extern "C" {
}
//////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////
PROFILER_API profiler::block_index_t writeTreesToFile(std::atomic<int>& progress, const char* filename,
const profiler::SerializedData& serialized_descriptors,
profiler::block_id_t descriptors_count,
const profiler::thread_blocks_tree_t& trees,
profiler::block_getter_fn block_getter,
profiler::timestamp_t begin_time,
profiler::timestamp_t end_time,
profiler::processid_t pid,
std::ostream& log)
{
if (!update_progress_write(progress, 0, log))
{
return 0;
}
std::ofstream outFile(filename, std::fstream::binary);
if (!outFile.is_open())
{
log << "Can not open file " << filename;
return 0;
}
// Write data to file
auto result = writeTreesToStream(progress, outFile, serialized_descriptors, descriptors_count, trees, std::move(block_getter),
begin_time, end_time, pid, log);
return result;
}
//////////////////////////////////////////////////////////////////////////
PROFILER_API profiler::block_index_t writeTreesToStream(std::atomic<int>& progress, std::ostream& str,
const profiler::SerializedData& serialized_descriptors,
profiler::block_id_t descriptors_count,
const profiler::thread_blocks_tree_t& trees,
profiler::block_getter_fn block_getter,
profiler::timestamp_t begin_time,
profiler::timestamp_t end_time,
profiler::processid_t pid,
std::ostream& log)
{
if (trees.empty() || serialized_descriptors.empty() || descriptors_count == 0)
{
log << "Nothing to save";
return 0;
}
using ranges_t = std::unordered_map<profiler::thread_id_t, BlocksAndCSwitchesRange, estd::hash<profiler::thread_id_t> >;
ranges_t block_ranges;
for (const auto& kv : trees)
{
const auto id = kv.first;
const auto& tree = kv.second;
const auto children_size = tree.children.size();
const auto csitches_size = tree.sync.size();
BlocksAndCSwitchesRange ranges {{children_size, children_size}, {csitches_size, csitches_size}};
auto first_it = std::lower_bound(tree.children.begin(), tree.children.end(), begin_time, [&](profiler::block_index_t element, profiler::timestamp_t value)
{
block_getter(element).node->begin() < value;
});
if (first_it != tree.children.end())
{
auto last_it = std::lower_bound(tree.children.begin(), tree.children.end(), end_time, [&](profiler::block_index_t element, profiler::timestamp_t value)
{
block_getter(element).node->end() < value;
});
if (last_it != tree.children.end())
{
}
}
block_ranges[id] = ranges;
}
write(str, PROFILER_SIGNATURE);
write(str, EASY_CURRENT_VERSION);
write(str, pid);
// write 0 because we do not need to oncvert time from ticks to nanoseconds (it's already converted here)
write<int64_t>(str, 0LL); // CPU frequency
write(str, begin_time);
write(str, end_time);
uint64_t usedMemorySize = 0; // memory size used by profiler blocks
profiler::block_index_t blocksCount = 0;
write(str, usedMemorySize);
write(str, serialized_descriptors.size());
write(str, blocksCount);
write(str, descriptors_count);
log << "Not implemented";
progress.store(100, std::memory_order_release);
return blocksCount;
}
//////////////////////////////////////////////////////////////////////////
}

View File

@ -614,6 +614,31 @@ const BlocksGraphicsView::Items &BlocksGraphicsView::getItems() const
return m_items;
}
bool BlocksGraphicsView::getSelectionRegionForSaving(profiler::timestamp_t& _beginTime, profiler::timestamp_t& _endTime) const
{
if (m_selectedBlocks.empty())
return false;
_beginTime = ~0ULL;
_endTime = 0;
for (const auto& selection : m_selectedBlocks)
{
const auto& tree = easyBlocksTree(selection.tree);
_beginTime = std::min(_beginTime, tree.node->begin());
_endTime = std::max(_endTime, tree.node->end());
}
if (_beginTime > 10)
_beginTime -= 10;
else
_beginTime = 0;
_endTime += 10;
return true;
}
qreal BlocksGraphicsView::setTree(BlocksGraphicsItem* _item, const ::profiler::BlocksTree::children_t& _children, qreal& _height, uint32_t& _maxDepthChild, qreal _y, short _level)
{
if (_children.empty())

View File

@ -190,6 +190,8 @@ public:
const Items& getItems() const;
bool getSelectionRegionForSaving(profiler::timestamp_t& _beginTime, profiler::timestamp_t& _endTime) const;
void inspectCurrentView(bool _strict) {
onInspectCurrentView(_strict);
}

View File

@ -122,8 +122,6 @@ struct EasyBlock Q_DECL_FINAL
{
}
private:
EasyBlock(const EasyBlock&) = delete;
};
#pragma pack(pop)

View File

@ -79,6 +79,7 @@ namespace profiler_gui {
Globals::Globals()
: theme("default")
, pid(0)
, begin_time(0)
, selected_thread(0U)
, selected_block(::profiler_gui::numeric_max<decltype(selected_block)>())

View File

@ -204,6 +204,7 @@ namespace profiler_gui {
SceneData scene; ///< Diagram scene sizes and visible area position
SizeGuide size; ///< Various widgets and font sizes adapted to current device pixel ratio
::profiler::processid_t pid; ///< Profiled process ID
::profiler::timestamp_t begin_time; ///< Timestamp of the most left diagram scene point (x=0)
::profiler::thread_id_t selected_thread; ///< Current selected thread id
::profiler::block_index_t selected_block; ///< Current selected profiler block index
@ -263,6 +264,10 @@ inline profiler::SerializedBlockDescriptor& easyDescriptor(profiler::block_id_t
return *EASY_GLOBALS.descriptors[i];
}
inline profiler::SerializedBlockDescriptor& easyDescriptor(const profiler::BlocksTree& _block) {
return easyDescriptor(_block.node->id());
}
EASY_FORCE_INLINE const profiler::BlocksTree& easyBlocksTree(profiler::block_index_t i) {
return easyBlock(i).tree;
}

View File

@ -250,7 +250,7 @@ void MainWindow::configureSizes()
w.hide();
}
MainWindow::MainWindow() : Parent(), m_theme("default"), m_lastAddress("localhost"), m_lastPort(::profiler::DEFAULT_PORT)
MainWindow::MainWindow() : Parent(), m_theme("default"), m_lastAddress("localhost"), m_lastPort(profiler::DEFAULT_PORT)
{
{ QIcon icon(":/images/logo"); if (!icon.isNull()) QApplication::setWindowIcon(icon); }
@ -378,6 +378,10 @@ MainWindow::MainWindow() : Parent(), m_theme("default"), m_lastAddress("localhos
static_cast<DiagramWidget*>(m_graphicsView->widget())->view()->inspectCurrentView(true);
});
action = toolbar->addAction(QIcon(imagePath("crop")), "Crop and save");
action->setToolTip("Crop and save selected area\nas separate .prof file.");
connect(action, &QAction::triggered, this, &This::onCropAndSaveClicked);
toolbar->addSeparator();
auto menu = new QMenu("Settings", this);
menu->setToolTipsVisible(true);
@ -547,8 +551,8 @@ MainWindow::MainWindow() : Parent(), m_theme("default"), m_lastAddress("localhos
action = new QAction("Chrono text at top", actionGroup);
action->setToolTip("Draw duration of selected interval\nat the top of the screen.");
action->setCheckable(true);
action->setData(static_cast<int>(::profiler_gui::ChronoTextPosition_Top));
if (EASY_GLOBALS.chrono_text_position == ::profiler_gui::ChronoTextPosition_Top)
action->setData(static_cast<int>(profiler_gui::ChronoTextPosition_Top));
if (EASY_GLOBALS.chrono_text_position == profiler_gui::ChronoTextPosition_Top)
action->setChecked(true);
submenu->addAction(action);
connect(action, &QAction::triggered, this, &This::onChronoTextPosChanged);
@ -556,8 +560,8 @@ MainWindow::MainWindow() : Parent(), m_theme("default"), m_lastAddress("localhos
action = new QAction("Chrono text at center", actionGroup);
action->setToolTip("Draw duration of selected interval\nat the center of the screen.");
action->setCheckable(true);
action->setData(static_cast<int>(::profiler_gui::ChronoTextPosition_Center));
if (EASY_GLOBALS.chrono_text_position == ::profiler_gui::ChronoTextPosition_Center)
action->setData(static_cast<int>(profiler_gui::ChronoTextPosition_Center));
if (EASY_GLOBALS.chrono_text_position == profiler_gui::ChronoTextPosition_Center)
action->setChecked(true);
submenu->addAction(action);
connect(action, &QAction::triggered, this, &This::onChronoTextPosChanged);
@ -565,8 +569,8 @@ MainWindow::MainWindow() : Parent(), m_theme("default"), m_lastAddress("localhos
action = new QAction("Chrono text at bottom", actionGroup);
action->setToolTip("Draw duration of selected interval\nat the bottom of the screen.");
action->setCheckable(true);
action->setData(static_cast<int>(::profiler_gui::ChronoTextPosition_Bottom));
if (EASY_GLOBALS.chrono_text_position == ::profiler_gui::ChronoTextPosition_Bottom)
action->setData(static_cast<int>(profiler_gui::ChronoTextPosition_Bottom));
if (EASY_GLOBALS.chrono_text_position == profiler_gui::ChronoTextPosition_Bottom)
action->setChecked(true);
submenu->addAction(action);
connect(action, &QAction::triggered, this, &This::onChronoTextPosChanged);
@ -674,32 +678,32 @@ MainWindow::MainWindow() : Parent(), m_theme("default"), m_lastAddress("localhos
actionGroup->setExclusive(true);
action = new QAction("Auto", actionGroup);
action->setCheckable(true);
action->setData(static_cast<int>(::profiler_gui::TimeUnits_auto));
if (EASY_GLOBALS.time_units == ::profiler_gui::TimeUnits_auto)
action->setData(static_cast<int>(profiler_gui::TimeUnits_auto));
if (EASY_GLOBALS.time_units == profiler_gui::TimeUnits_auto)
action->setChecked(true);
submenu->addAction(action);
connect(action, &QAction::triggered, this, &This::onUnitsChanged);
action = new QAction("Milliseconds", actionGroup);
action->setCheckable(true);
action->setData(static_cast<int>(::profiler_gui::TimeUnits_ms));
if (EASY_GLOBALS.time_units == ::profiler_gui::TimeUnits_ms)
action->setData(static_cast<int>(profiler_gui::TimeUnits_ms));
if (EASY_GLOBALS.time_units == profiler_gui::TimeUnits_ms)
action->setChecked(true);
submenu->addAction(action);
connect(action, &QAction::triggered, this, &This::onUnitsChanged);
action = new QAction("Microseconds", actionGroup);
action->setCheckable(true);
action->setData(static_cast<int>(::profiler_gui::TimeUnits_us));
if (EASY_GLOBALS.time_units == ::profiler_gui::TimeUnits_us)
action->setData(static_cast<int>(profiler_gui::TimeUnits_us));
if (EASY_GLOBALS.time_units == profiler_gui::TimeUnits_us)
action->setChecked(true);
submenu->addAction(action);
connect(action, &QAction::triggered, this, &This::onUnitsChanged);
action = new QAction("Nanoseconds", actionGroup);
action->setCheckable(true);
action->setData(static_cast<int>(::profiler_gui::TimeUnits_ns));
if (EASY_GLOBALS.time_units == ::profiler_gui::TimeUnits_ns)
action->setData(static_cast<int>(profiler_gui::TimeUnits_ns));
if (EASY_GLOBALS.time_units == profiler_gui::TimeUnits_ns)
action->setChecked(true);
submenu->addAction(action);
connect(action, &QAction::triggered, this, &This::onUnitsChanged);
@ -789,13 +793,14 @@ MainWindow::MainWindow() : Parent(), m_theme("default"), m_lastAddress("localhos
m_frameTimeEdit->setValidator(val);
m_frameTimeEdit->setText(QString::number(EASY_GLOBALS.frame_time * 1e-3));
connect(m_frameTimeEdit, &QLineEdit::editingFinished, this, &This::onFrameTimeEditFinish);
connect(&EASY_GLOBALS.events, &::profiler_gui::GlobalSignals::expectedFrameTimeChanged, this, &This::onFrameTimeChanged);
connect(&EASY_GLOBALS.events, &profiler_gui::GlobalSignals::expectedFrameTimeChanged, this, &This::onFrameTimeChanged);
toolbar->addWidget(m_frameTimeEdit);
lbl = new QLabel("ms", toolbar);
lbl->setContentsMargins(5, 2, 1, 1);
toolbar->addWidget(lbl);
m_readerTimer.setInterval(LOADER_TIMER_INTERVAL);
connect(graphicsView->view(), &BlocksGraphicsView::intervalChanged, treeWidget->tree(), &BlocksTreeWidget::setTreeBlocks);
connect(&m_readerTimer, &QTimer::timeout, this, &This::onFileReaderTimeout);
@ -962,14 +967,14 @@ void MainWindow::loadFile(const QString& filename)
createProgressDialog(QString("Loading %1...").arg(filename.mid(std::max(i, j) + 1)));
m_readerTimer.start(LOADER_TIMER_INTERVAL);
m_readerTimer.start();
m_reader.load(filename);
}
void MainWindow::readStream(std::stringstream& _data)
{
createProgressDialog(tr("Reading from stream..."));
m_readerTimer.start(LOADER_TIMER_INTERVAL);
m_readerTimer.start();
m_reader.load(_data);
}
@ -1117,8 +1122,8 @@ void MainWindow::clear()
emit EASY_GLOBALS.events.allDataGoingToBeDeleted();
EASY_GLOBALS.selected_thread = 0;
::profiler_gui::set_max(EASY_GLOBALS.selected_block);
::profiler_gui::set_max(EASY_GLOBALS.selected_block_id);
profiler_gui::set_max(EASY_GLOBALS.selected_block);
profiler_gui::set_max(EASY_GLOBALS.selected_block_id);
EASY_GLOBALS.profiler_blocks.clear();
EASY_GLOBALS.descriptors.clear();
EASY_GLOBALS.gui_blocks.clear();
@ -1181,14 +1186,14 @@ void MainWindow::onEncodingChanged(bool)
void MainWindow::onChronoTextPosChanged(bool)
{
auto _sender = qobject_cast<QAction*>(sender());
EASY_GLOBALS.chrono_text_position = static_cast<::profiler_gui::ChronometerTextPosition>(_sender->data().toInt());
EASY_GLOBALS.chrono_text_position = static_cast<profiler_gui::ChronometerTextPosition>(_sender->data().toInt());
refreshDiagram();
}
void MainWindow::onUnitsChanged(bool)
{
auto _sender = qobject_cast<QAction*>(sender());
EASY_GLOBALS.time_units = static_cast<::profiler_gui::TimeUnits>(_sender->data().toInt());
EASY_GLOBALS.time_units = static_cast<profiler_gui::TimeUnits>(_sender->data().toInt());
}
void MainWindow::onEnableDisableStatistics(bool _checked)
@ -1379,7 +1384,7 @@ void MainWindow::closeEvent(QCloseEvent* close_event)
void MainWindow::loadSettings()
{
QSettings settings(::profiler_gui::ORGANAZATION_NAME, ::profiler_gui::APPLICATION_NAME);
QSettings settings(profiler_gui::ORGANAZATION_NAME, profiler_gui::APPLICATION_NAME);
settings.beginGroup("main");
auto last_files = settings.value("last_files");
@ -1400,11 +1405,11 @@ void MainWindow::loadSettings()
auto val = settings.value("chrono_text_position");
if (!val.isNull())
EASY_GLOBALS.chrono_text_position = static_cast<::profiler_gui::ChronometerTextPosition>(val.toInt());
EASY_GLOBALS.chrono_text_position = static_cast<profiler_gui::ChronometerTextPosition>(val.toInt());
val = settings.value("time_units");
if (!val.isNull())
EASY_GLOBALS.time_units = static_cast<::profiler_gui::TimeUnits>(val.toInt());
EASY_GLOBALS.time_units = static_cast<profiler_gui::TimeUnits>(val.toInt());
val = settings.value("frame_time");
@ -1529,7 +1534,7 @@ void MainWindow::loadSettings()
void MainWindow::loadGeometry()
{
QSettings settings(::profiler_gui::ORGANAZATION_NAME, ::profiler_gui::APPLICATION_NAME);
QSettings settings(profiler_gui::ORGANAZATION_NAME, profiler_gui::APPLICATION_NAME);
settings.beginGroup("main");
auto geometry = settings.value("geometry").toByteArray();
@ -1559,7 +1564,7 @@ void MainWindow::loadGeometry()
void MainWindow::saveSettingsAndGeometry()
{
QSettings settings(::profiler_gui::ORGANAZATION_NAME, ::profiler_gui::APPLICATION_NAME);
QSettings settings(profiler_gui::ORGANAZATION_NAME, profiler_gui::APPLICATION_NAME);
settings.beginGroup("main");
settings.setValue("geometry", this->saveGeometry());
@ -1838,123 +1843,156 @@ void MainWindow::onListenerDialogClose(int _result)
//////////////////////////////////////////////////////////////////////////
void MainWindow::closeProgressDialogAndClearReader()
{
m_reader.interrupt();
m_readerTimer.stop();
destroyProgressDialog();
}
void MainWindow::onLoadingFinish(profiler::block_index_t& _nblocks)
{
_nblocks = m_reader.size();
if (_nblocks != 0)
{
emit EASY_GLOBALS.events.allDataGoingToBeDeleted();
profiler::SerializedData serialized_blocks;
profiler::SerializedData serialized_descriptors;
profiler::descriptors_list_t descriptors;
profiler::blocks_t blocks;
profiler::thread_blocks_tree_t threads_map;
QString filename;
uint32_t descriptorsNumberInFile = 0;
uint32_t version = 0;
profiler::processid_t pid = 0;
m_reader.get(serialized_blocks, serialized_descriptors, descriptors, blocks, threads_map,
descriptorsNumberInFile, version, pid, filename);
if (threads_map.size() > 0xff)
{
if (m_reader.isFile())
qWarning() << "Warning: file " << filename << " contains " << threads_map.size() << " threads!";
else
qWarning() << "Warning: input stream contains " << threads_map.size() << " threads!";
qWarning() << "Warning: Currently, maximum number of displayed threads is 255! Some threads will not be displayed.";
}
m_bNetworkFileRegime = !m_reader.isFile();
if (!m_bNetworkFileRegime)
{
auto index = m_lastFiles.indexOf(filename, 0);
if (index == -1)
{
// This file is totally new. Add it to the list.
addFileToList(filename);
}
else
{
if (index != 0)
{
// This file has been already loaded. Move it to the front.
m_lastFiles.move(index, 0);
auto fileActions = m_loadActionMenu->actions();
auto action = fileActions.at(index);
m_loadActionMenu->removeAction(action);
m_loadActionMenu->insertAction(fileActions.front(), action);
validateLastDir();
}
m_bOpenedCacheFile = filename.contains(NETWORK_CACHE_FILE);
if (m_bOpenedCacheFile)
setWindowTitle(QString(EASY_DEFAULT_WINDOW_TITLE " - [%1] - UNSAVED network cache file").arg(filename));
else
setWindowTitle(QString(EASY_DEFAULT_WINDOW_TITLE " - [%1]").arg(filename));
}
}
else
{
m_bOpenedCacheFile = false;
setWindowTitle(EASY_DEFAULT_WINDOW_TITLE " - UNSAVED network cache");
}
m_serializedBlocks = std::move(serialized_blocks);
m_serializedDescriptors = std::move(serialized_descriptors);
m_descriptorsNumberInFile = descriptorsNumberInFile;
EASY_GLOBALS.selected_thread = 0;
EASY_GLOBALS.version = version;
EASY_GLOBALS.pid = pid;
profiler_gui::set_max(EASY_GLOBALS.selected_block);
profiler_gui::set_max(EASY_GLOBALS.selected_block_id);
EASY_GLOBALS.profiler_blocks.swap(threads_map);
EASY_GLOBALS.descriptors.swap(descriptors);
EASY_GLOBALS.gui_blocks.clear();
EASY_GLOBALS.gui_blocks.resize(_nblocks);
memset(EASY_GLOBALS.gui_blocks.data(), 0, sizeof(profiler_gui::EasyBlock) * _nblocks);
for (std::remove_reference<decltype(_nblocks)>::type i = 0; i < _nblocks; ++i)
{
auto& guiblock = EASY_GLOBALS.gui_blocks[i];
guiblock.tree = std::move(blocks[i]);
#ifdef EASY_TREE_WIDGET__USE_VECTOR
profiler_gui::set_max(guiblock.tree_item);
#endif
}
m_saveAction->setEnabled(true);
m_deleteAction->setEnabled(true);
}
else
{
QMessageBox::warning(this, "Warning", QString("Cannot read profiled blocks.\n\nReason:\n%1").arg(m_reader.getError()), QMessageBox::Close);
if (m_reader.isFile())
{
auto index = m_lastFiles.indexOf(m_reader.filename(), 0);
if (index >= 0)
{
// Remove unexisting file from list
m_lastFiles.removeAt(index);
auto action = m_loadActionMenu->actions().at(index);
m_loadActionMenu->removeAction(action);
delete action;
validateLastDir();
}
}
}
}
void MainWindow::onSavingFinish()
{
}
void MainWindow::onFileReaderTimeout()
{
if (m_reader.done())
{
const auto nblocks = m_reader.size();
if (nblocks != 0)
if (m_reader.isLoading())
{
emit EASY_GLOBALS.events.allDataGoingToBeDeleted();
profiler::block_index_t nblocks = 0;
::profiler::SerializedData serialized_blocks;
::profiler::SerializedData serialized_descriptors;
::profiler::descriptors_list_t descriptors;
::profiler::blocks_t blocks;
::profiler::thread_blocks_tree_t threads_map;
QString filename;
uint32_t descriptorsNumberInFile = 0;
uint32_t version = 0;
m_reader.get(serialized_blocks, serialized_descriptors, descriptors, blocks, threads_map, descriptorsNumberInFile, version, filename);
onLoadingFinish(nblocks);
closeProgressDialogAndClearReader();
if (threads_map.size() > 0xff)
if (nblocks != 0)
{
if (m_reader.isFile())
qWarning() << "Warning: file " << filename << " contains " << threads_map.size() << " threads!";
else
qWarning() << "Warning: input stream contains " << threads_map.size() << " threads!";
qWarning() << "Warning: Currently, maximum number of displayed threads is 255! Some threads will not be displayed.";
emit EASY_GLOBALS.events.fileOpened();
if (EASY_GLOBALS.all_items_expanded_by_default)
onExpandAllClicked(true);
}
m_bNetworkFileRegime = !m_reader.isFile();
if (!m_bNetworkFileRegime)
{
auto index = m_lastFiles.indexOf(filename, 0);
if (index == -1)
{
// This file is totally new. Add it to the list.
addFileToList(filename);
}
else
{
if (index != 0)
{
// This file has been already loaded. Move it to the front.
m_lastFiles.move(index, 0);
auto fileActions = m_loadActionMenu->actions();
auto action = fileActions.at(index);
m_loadActionMenu->removeAction(action);
m_loadActionMenu->insertAction(fileActions.front(), action);
validateLastDir();
}
m_bOpenedCacheFile = filename.contains(NETWORK_CACHE_FILE);
if (m_bOpenedCacheFile)
setWindowTitle(QString(EASY_DEFAULT_WINDOW_TITLE " - [%1] - UNSAVED network cache file").arg(filename));
else
setWindowTitle(QString(EASY_DEFAULT_WINDOW_TITLE " - [%1]").arg(filename));
}
}
else
{
m_bOpenedCacheFile = false;
setWindowTitle(EASY_DEFAULT_WINDOW_TITLE " - UNSAVED network cache");
}
m_serializedBlocks = std::move(serialized_blocks);
m_serializedDescriptors = std::move(serialized_descriptors);
m_descriptorsNumberInFile = descriptorsNumberInFile;
EASY_GLOBALS.selected_thread = 0;
EASY_GLOBALS.version = version;
::profiler_gui::set_max(EASY_GLOBALS.selected_block);
::profiler_gui::set_max(EASY_GLOBALS.selected_block_id);
EASY_GLOBALS.profiler_blocks.swap(threads_map);
EASY_GLOBALS.descriptors.swap(descriptors);
EASY_GLOBALS.gui_blocks.clear();
EASY_GLOBALS.gui_blocks.resize(nblocks);
memset(EASY_GLOBALS.gui_blocks.data(), 0, sizeof(::profiler_gui::EasyBlock) * nblocks);
for (std::remove_const<decltype(nblocks)>::type i = 0; i < nblocks; ++i) {
auto& guiblock = EASY_GLOBALS.gui_blocks[i];
guiblock.tree = std::move(blocks[i]);
#ifdef EASY_TREE_WIDGET__USE_VECTOR
::profiler_gui::set_max(guiblock.tree_item);
#endif
}
m_saveAction->setEnabled(true);
m_deleteAction->setEnabled(true);
}
else if (m_reader.isSaving())
{
onSavingFinish();
closeProgressDialogAndClearReader();
}
else
{
QMessageBox::warning(this, "Warning", QString("Cannot read profiled blocks.\n\nReason:\n%1").arg(m_reader.getError()), QMessageBox::Close);
if (m_reader.isFile())
{
auto index = m_lastFiles.indexOf(m_reader.filename(), 0);
if (index >= 0)
{
// Remove unexisting file from list
m_lastFiles.removeAt(index);
auto action = m_loadActionMenu->actions().at(index);
m_loadActionMenu->removeAction(action);
delete action;
validateLastDir();
}
}
}
m_reader.interrupt();
m_readerTimer.stop();
destroyProgressDialog();
if (nblocks != 0)
{
emit EASY_GLOBALS.events.fileOpened();
if (EASY_GLOBALS.all_items_expanded_by_default)
onExpandAllClicked(true);
closeProgressDialogAndClearReader();
}
}
else if (m_progress != nullptr)
@ -1987,6 +2025,16 @@ const bool FileReader::isFile() const
return m_isFile;
}
const bool FileReader::isSaving() const
{
return m_jobType == JobType::Saving;
}
const bool FileReader::isLoading() const
{
return m_jobType == JobType::Loading;
}
bool FileReader::done() const
{
return m_bDone.load(std::memory_order_acquire);
@ -2011,13 +2059,20 @@ void FileReader::load(const QString& _filename)
{
interrupt();
m_jobType = JobType::Loading;
m_isFile = true;
m_filename = _filename;
m_thread = std::thread([this](bool _enableStatistics) {
m_size.store(fillTreesFromFile(m_progress, m_filename.toStdString().c_str(), m_serializedBlocks, m_serializedDescriptors,
m_descriptors, m_blocks, m_blocksTree, m_descriptorsNumberInFile, m_version, _enableStatistics, m_errorMessage), std::memory_order_release);
m_thread = std::thread([this](bool _enableStatistics)
{
m_size.store(fillTreesFromFile(m_progress, m_filename.toStdString().c_str(), m_serializedBlocks,
m_serializedDescriptors, m_descriptors, m_blocks, m_blocksTree,
m_descriptorsNumberInFile, m_version, m_pid, _enableStatistics,
m_errorMessage), std::memory_order_release);
m_progress.store(100, std::memory_order_release);
m_bDone.store(true, std::memory_order_release);
}, EASY_GLOBALS.enable_statistics);
}
@ -2025,6 +2080,7 @@ void FileReader::load(std::stringstream& _stream)
{
interrupt();
m_jobType = JobType::Loading;
m_isFile = false;
m_filename.clear();
@ -2038,19 +2094,47 @@ void FileReader::load(std::stringstream& _stream)
m_stream.swap(_stream);
#endif
m_thread = std::thread([this](bool _enableStatistics) {
m_thread = std::thread([this](bool _enableStatistics)
{
std::ofstream cache_file(NETWORK_CACHE_FILE, std::fstream::binary);
if (cache_file.is_open()) {
if (cache_file.is_open())
{
cache_file << m_stream.str();
cache_file.close();
}
m_size.store(fillTreesFromStream(m_progress, m_stream, m_serializedBlocks, m_serializedDescriptors, m_descriptors,
m_blocks, m_blocksTree, m_descriptorsNumberInFile, m_version, _enableStatistics, m_errorMessage), std::memory_order_release);
m_size.store(fillTreesFromStream(m_progress, m_stream, m_serializedBlocks, m_serializedDescriptors,
m_descriptors, m_blocks, m_blocksTree, m_descriptorsNumberInFile,
m_version, m_pid, _enableStatistics, m_errorMessage), std::memory_order_release);
m_progress.store(100, std::memory_order_release);
m_bDone.store(true, std::memory_order_release);
}, EASY_GLOBALS.enable_statistics);
}
void FileReader::save(const QString& _filename, profiler::timestamp_t _beginTime, profiler::timestamp_t _endTime,
const profiler::SerializedData& _serializedDescriptors, profiler::block_id_t descriptors_count,
const profiler::thread_blocks_tree_t& _trees, profiler::block_getter_fn block_getter,
profiler::processid_t _pid)
{
interrupt();
m_jobType = JobType::Saving;
m_isFile = true;
m_filename = _filename;
auto serializedDescriptors = std::ref(_serializedDescriptors);
auto trees = std::ref(_trees);
m_thread = std::thread([=] (profiler::block_getter_fn getter) {
writeTreesToFile(m_progress, m_filename.toStdString().c_str(), serializedDescriptors, descriptors_count, trees,
getter, _beginTime, _endTime, _pid, m_errorMessage);
m_progress.store(100, std::memory_order_release);
m_bDone.store(true, std::memory_order_release);
}, std::move(block_getter));
}
void FileReader::interrupt()
{
join();
@ -2064,25 +2148,29 @@ void FileReader::interrupt()
m_blocksTree.clear();
m_descriptorsNumberInFile = 0;
m_version = 0;
m_pid = 0;
m_jobType = JobType::Idle;
clear_stream(m_stream);
clear_stream(m_errorMessage);
}
void FileReader::get(::profiler::SerializedData& _serializedBlocks, ::profiler::SerializedData& _serializedDescriptors,
::profiler::descriptors_list_t& _descriptors, ::profiler::blocks_t& _blocks,
::profiler::thread_blocks_tree_t& _tree, uint32_t& _descriptorsNumberInFile, uint32_t& _version, QString& _filename)
void FileReader::get(profiler::SerializedData& _serializedBlocks, profiler::SerializedData& _serializedDescriptors,
profiler::descriptors_list_t& _descriptors, profiler::blocks_t& _blocks,
profiler::thread_blocks_tree_t& _trees, uint32_t& _descriptorsNumberInFile, uint32_t& _version,
profiler::processid_t& _pid, QString& _filename)
{
if (done())
{
m_serializedBlocks.swap(_serializedBlocks);
m_serializedDescriptors.swap(_serializedDescriptors);
::profiler::descriptors_list_t(std::move(m_descriptors)).swap(_descriptors);
profiler::descriptors_list_t(std::move(m_descriptors)).swap(_descriptors);
m_blocks.swap(_blocks);
m_blocksTree.swap(_tree);
m_blocksTree.swap(_trees);
m_filename.swap(_filename);
_descriptorsNumberInFile = m_descriptorsNumberInFile;
_version = m_version;
_pid = m_pid;
}
}
@ -2126,12 +2214,12 @@ void MainWindow::onFrameTimeEditFinish()
EASY_GLOBALS.frame_time = text.toFloat() * 1e3f;
disconnect(&EASY_GLOBALS.events, &::profiler_gui::GlobalSignals::expectedFrameTimeChanged,
disconnect(&EASY_GLOBALS.events, &profiler_gui::GlobalSignals::expectedFrameTimeChanged,
this, &This::onFrameTimeChanged);
emit EASY_GLOBALS.events.expectedFrameTimeChanged();
connect(&EASY_GLOBALS.events, &::profiler_gui::GlobalSignals::expectedFrameTimeChanged,
connect(&EASY_GLOBALS.events, &profiler_gui::GlobalSignals::expectedFrameTimeChanged,
this, &This::onFrameTimeChanged);
}
@ -2142,6 +2230,36 @@ void MainWindow::onFrameTimeChanged()
//////////////////////////////////////////////////////////////////////////
void MainWindow::onCropAndSaveClicked(bool)
{
profiler::timestamp_t beginTime = 0, endTime = 0;
const bool hasSelection = static_cast<DiagramWidget*>(m_graphicsView->widget())->view()->getSelectionRegionForSaving(beginTime, endTime);
if (!hasSelection)
return;
QString lastFile = m_lastFiles.empty() ? QString() : m_lastFiles.front();
const auto i = lastFile.lastIndexOf(QChar('/'));
const auto j = lastFile.lastIndexOf(QChar('\\'));
auto k = std::max(i, j);
QString dir;
if (k > 0)
dir = lastFile.mid(0, ++k);
auto filename = QFileDialog::getSaveFileName(this, "Save cropped area to EasyProfiler File", dir,
"EasyProfiler File (*.prof);;All Files (*.*)");
if (filename.isEmpty())
return;
createProgressDialog(tr("Saving selected region..."));
m_readerTimer.start();
m_reader.save(filename, beginTime, endTime, m_serializedDescriptors, m_descriptorsNumberInFile,
EASY_GLOBALS.profiler_blocks, easyBlocksTree, EASY_GLOBALS.pid);
}
//////////////////////////////////////////////////////////////////////////
void MainWindow::onConnectClicked(bool)
{
if (EASY_GLOBALS.connected)
@ -2428,7 +2546,7 @@ void MainWindow::onGetBlockDescriptionsClicked(bool)
//////////////////////////////////////////////////////////////////////////
void MainWindow::onBlockStatusChange(::profiler::block_id_t _id, ::profiler::EasyBlockStatus _status)
void MainWindow::onBlockStatusChange(profiler::block_id_t _id, profiler::EasyBlockStatus _status)
{
if (EASY_GLOBALS.connected)
m_listener.send(profiler::net::BlockStatusMessage(_id, static_cast<uint8_t>(_status)));
@ -2613,7 +2731,7 @@ bool SocketListener::connect(const char* _ipaddress, uint16_t _port, profiler::n
seek += bytes;
}
auto message = reinterpret_cast<const ::profiler::net::EasyProfilerStatus*>(buffer);
auto message = reinterpret_cast<const profiler::net::EasyProfilerStatus*>(buffer);
if (message->isEasyNetMessage() && message->type == profiler::net::MessageType::Connection_Accepted)
_reply = *message;
@ -2625,7 +2743,7 @@ bool SocketListener::connect(const char* _ipaddress, uint16_t _port, profiler::n
return isConnected;
}
bool SocketListener::reconnect(const char* _ipaddress, uint16_t _port, ::profiler::net::EasyProfilerStatus& _reply)
bool SocketListener::reconnect(const char* _ipaddress, uint16_t _port, profiler::net::EasyProfilerStatus& _reply)
{
return connect(_ipaddress, _port, _reply, true);
}
@ -2820,7 +2938,7 @@ void SocketListener::listenCapture()
if (bytes > 0)
{
auto message = reinterpret_cast<const ::profiler::net::Message*>(buf);
auto message = reinterpret_cast<const profiler::net::Message*>(buf);
if (!message->isEasyNetMessage())
continue;
@ -2978,7 +3096,7 @@ void SocketListener::listenDescription()
if (bytes > 0)
{
auto message = reinterpret_cast<const ::profiler::net::Message*>(buf);
auto message = reinterpret_cast<const profiler::net::Message*>(buf);
if (!message->isEasyNetMessage())
continue;
@ -3069,7 +3187,7 @@ void SocketListener::listenDescription()
void SocketListener::listenFrameTime()
{
EASY_STATIC_CONSTEXPR size_t buffer_size = sizeof(::profiler::net::TimestampMessage) << 2;
EASY_STATIC_CONSTEXPR size_t buffer_size = sizeof(profiler::net::TimestampMessage) << 2;
char buffer[buffer_size] = {};
int seek = 0, bytes = 0;
@ -3108,7 +3226,7 @@ void SocketListener::listenFrameTime()
if (bytes > 0)
{
auto message = reinterpret_cast<const ::profiler::net::Message*>(buf);
auto message = reinterpret_cast<const profiler::net::Message*>(buf);
if (!message->isEasyNetMessage())
continue;

View File

@ -54,10 +54,10 @@
#ifndef EASY_PROFILER_GUI__MAIN_WINDOW__H
#define EASY_PROFILER_GUI__MAIN_WINDOW__H
#include <string>
#include <thread>
#include <atomic>
#include <sstream>
#include <string>
#include <thread>
#include <QMainWindow>
#include <QDockWidget>
@ -85,6 +85,13 @@ namespace profiler { namespace net { struct EasyProfilerStatus; } }
class FileReader Q_DECL_FINAL
{
enum class JobType : int8_t
{
Idle=0,
Loading,
Saving,
};
profiler::SerializedData m_serializedBlocks; ///<
profiler::SerializedData m_serializedDescriptors; ///<
profiler::descriptors_list_t m_descriptors; ///<
@ -93,12 +100,14 @@ class FileReader Q_DECL_FINAL
std::stringstream m_stream; ///<
std::stringstream m_errorMessage; ///<
QString m_filename; ///<
profiler::processid_t m_pid = 0; ///<
uint32_t m_descriptorsNumberInFile = 0; ///<
uint32_t m_version = 0; ///<
std::thread m_thread; ///<
std::atomic_bool m_bDone; ///<
std::atomic<int> m_progress; ///<
std::atomic<unsigned int> m_size; ///<
std::atomic<unsigned int> m_size; ///<
JobType m_jobType = JobType::Idle; ///<
bool m_isFile = false; ///<
public:
@ -107,6 +116,9 @@ public:
~FileReader();
const bool isFile() const;
const bool isSaving() const;
const bool isLoading() const;
bool done() const;
int progress() const;
unsigned int size() const;
@ -114,10 +126,17 @@ public:
void load(const QString& _filename);
void load(std::stringstream& _stream);
/** \brief Save data to file.
*/
void save(const QString& _filename, profiler::timestamp_t _beginTime, profiler::timestamp_t _endTime,
const profiler::SerializedData& _serializedDescriptors, profiler::block_id_t descriptors_count,
const profiler::thread_blocks_tree_t& _trees, profiler::block_getter_fn block_getter, profiler::processid_t _pid);
void interrupt();
void get(profiler::SerializedData& _serializedBlocks, profiler::SerializedData& _serializedDescriptors,
profiler::descriptors_list_t& _descriptors, profiler::blocks_t& _blocks, profiler::thread_blocks_tree_t& _tree,
uint32_t& _descriptorsNumberInFile, uint32_t& _version, QString& _filename);
profiler::descriptors_list_t& _descriptors, profiler::blocks_t& _blocks, profiler::thread_blocks_tree_t& _trees,
uint32_t& _descriptorsNumberInFile, uint32_t& _version, profiler::processid_t& _pid, QString& _filename);
void join();
@ -238,42 +257,43 @@ protected:
QStringList m_lastFiles;
QString m_theme;
QString m_lastAddress;
QDockWidget* m_treeWidget = nullptr;
QDockWidget* m_graphicsView = nullptr;
QDockWidget* m_fpsViewer = nullptr;
QDockWidget* m_treeWidget = nullptr;
QDockWidget* m_graphicsView = nullptr;
QDockWidget* m_fpsViewer = nullptr;
#if EASY_GUI_USE_DESCRIPTORS_DOCK_WINDOW != 0
QDockWidget* m_descTreeWidget = nullptr;
#endif
class QProgressDialog* m_progress = nullptr;
class BlockDescriptorsWidget* m_dialogDescTree = nullptr;
class QMessageBox* m_listenerDialog = nullptr;
class QProgressDialog* m_progress = nullptr;
class BlockDescriptorsWidget* m_dialogDescTree = nullptr;
class QMessageBox* m_listenerDialog = nullptr;
QTimer m_readerTimer;
QTimer m_listenerTimer;
QTimer m_fpsRequestTimer;
profiler::SerializedData m_serializedBlocks;
profiler::SerializedData m_serializedDescriptors;
FileReader m_reader;
SocketListener m_listener;
profiler::SerializedData m_serializedBlocks;
profiler::SerializedData m_serializedDescriptors;
FileReader m_reader;
SocketListener m_listener;
class QLineEdit* m_addressEdit = nullptr;
class QLineEdit* m_portEdit = nullptr;
class QLineEdit* m_addressEdit = nullptr;
class QLineEdit* m_portEdit = nullptr;
class QLineEdit* m_frameTimeEdit = nullptr;
class QMenu* m_loadActionMenu = nullptr;
class QAction* m_saveAction = nullptr;
class QAction* m_deleteAction = nullptr;
class QAction* m_saveAction = nullptr;
class QAction* m_deleteAction = nullptr;
class QAction* m_captureAction = nullptr;
class QAction* m_connectAction = nullptr;
class QAction* m_eventTracingEnableAction = nullptr;
class QAction* m_captureAction = nullptr;
class QAction* m_connectAction = nullptr;
class QAction* m_eventTracingEnableAction = nullptr;
class QAction* m_eventTracingPriorityAction = nullptr;
uint32_t m_descriptorsNumberInFile = 0;
uint16_t m_lastPort = 0;
bool m_bNetworkFileRegime = false;
bool m_bOpenedCacheFile = false;
uint16_t m_lastPort = 0;
bool m_bNetworkFileRegime = false;
bool m_bOpenedCacheFile = false;
public:
@ -326,6 +346,7 @@ protected slots:
void onEventTracingEnableChange(bool _checked);
void onFrameTimeEditFinish();
void onFrameTimeChanged();
void onCropAndSaveClicked(bool);
void onBlockStatusChange(profiler::block_id_t _id, profiler::EasyBlockStatus _status);
@ -339,6 +360,10 @@ private:
// Private non-virtual methods
void closeProgressDialogAndClearReader();
void onLoadingFinish(profiler::block_index_t& _nblocks);
void onSavingFinish();
void configureSizes();
void clear();

View File

@ -40,7 +40,7 @@ public:
};
void printTree(TreePrinter& printer, const ::profiler::BlocksTree& tree, int level = 0, profiler::timestamp_t parent_dur = 0, profiler::timestamp_t root_dur = 0)
void printTree(TreePrinter& printer, const profiler::BlocksTree& tree, int level = 0, profiler::timestamp_t parent_dur = 0, profiler::timestamp_t root_dur = 0)
{
//
//if (tree.node){
@ -72,7 +72,7 @@ void printTree(TreePrinter& printer, const ::profiler::BlocksTree& tree, int lev
int main(int argc, char* argv[])
{
::profiler::thread_blocks_tree_t threaded_trees;
profiler::thread_blocks_tree_t threaded_trees;
::std::string filename;// = "test.prof";
if (argc > 1 && argv[1])
@ -110,14 +110,15 @@ int main(int argc, char* argv[])
auto start = std::chrono::system_clock::now();
::profiler::SerializedData serialized_blocks, serialized_descriptors;
::profiler::descriptors_list_t descriptors;
::profiler::blocks_t blocks;
::std::stringstream errorMessage;
profiler::SerializedData serialized_blocks, serialized_descriptors;
profiler::descriptors_list_t descriptors;
profiler::blocks_t blocks;
std::stringstream errorMessage;
uint32_t descriptorsNumberInFile = 0;
uint32_t version = 0;
profiler::processid_t pid = 0;
auto blocks_counter = fillTreesFromFile(filename.c_str(), serialized_blocks, serialized_descriptors, descriptors, blocks,
threaded_trees, descriptorsNumberInFile, version, true, errorMessage);
threaded_trees, descriptorsNumberInFile, version, pid, true, errorMessage);
if (blocks_counter == 0)
std::cout << "Can not read blocks from file " << filename.c_str() << "\nReason: " << errorMessage.str();