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mirror of https://github.com/yse/easy_profiler.git synced 2024-12-27 08:41:02 +08:00
Victor Zarubkin 0ae430410d #106 [Core][UI] Added possibility to add user bookmarks with double-clicking on a timeline in the Diagram window.
#112 [UI] Fixed losing focus (and getting under MainWindow) for Blocks widget.
#0 [UI] UI styling, added custom window header and dialogs (could be turned off/on and adjusted position at [Settings -> Appearance] menu).
2018-06-09 02:18:39 +03:00

565 lines
23 KiB
C++

/************************************************************************
* file name : writer.cpp
* ----------------- :
* creation time : 2018/05/08
* authors : Sergey Yagovtsev, Victor Zarubkin
* emails : yse.sey@gmail.com, v.s.zarubkin@gmail.com
* ----------------- :
* description : The file contains implementation of fillTreesFromFile function
* : which reads profiler file and fill profiler blocks tree.
* ----------------- :
* license : Lightweight profiler library for c++
* : Copyright(C) 2016-2018 Sergey Yagovtsev, Victor Zarubkin
* :
* : Licensed under either of
* : * MIT license (LICENSE.MIT or http://opensource.org/licenses/MIT)
* : * Apache License, Version 2.0, (LICENSE.APACHE or http://www.apache.org/licenses/LICENSE-2.0)
* : at your option.
* :
* : The MIT License
* :
* : Permission is hereby granted, free of charge, to any person obtaining a copy
* : of this software and associated documentation files (the "Software"), to deal
* : in the Software without restriction, including without limitation the rights
* : to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies
* : of the Software, and to permit persons to whom the Software is furnished
* : to do so, subject to the following conditions:
* :
* : The above copyright notice and this permission notice shall be included in all
* : copies or substantial portions of the Software.
* :
* : THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
* : INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR
* : PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE
* : LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
* : TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE
* : USE OR OTHER DEALINGS IN THE SOFTWARE.
* :
* : The Apache License, Version 2.0 (the "License")
* :
* : You may not use this file except in compliance with the License.
* : You may obtain a copy of the License at
* :
* : http://www.apache.org/licenses/LICENSE-2.0
* :
* : Unless required by applicable law or agreed to in writing, software
* : distributed under the License is distributed on an "AS IS" BASIS,
* : WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* : See the License for the specific language governing permissions and
* : limitations under the License.
************************************************************************/
#include <fstream>
#include <iterator>
#include <algorithm>
#include <easy/writer.h>
#include <easy/profiler.h>
#include "alignment_helpers.h"
//////////////////////////////////////////////////////////////////////////
extern const uint32_t EASY_PROFILER_SIGNATURE;
extern const uint32_t EASY_PROFILER_VERSION;
EASY_CONSTEXPR auto BaseCSwitchSize = sizeof(profiler::SerializedCSwitch) + 1;
//////////////////////////////////////////////////////////////////////////
struct BlocksRange
{
profiler::block_index_t begin;
profiler::block_index_t end;
BlocksRange(profiler::block_index_t size = 0)
: begin(0), end(size)
{
}
BlocksRange(profiler::block_index_t beginIndex, profiler::block_index_t endIndex)
: begin(beginIndex), end(endIndex)
{
}
};
struct BlocksMemoryAndCount
{
uint64_t usedMemorySize = 0; // memory size used by profiler blocks
profiler::block_index_t blocksCount = 0;
BlocksMemoryAndCount() = default;
BlocksMemoryAndCount& operator += (const BlocksMemoryAndCount& another)
{
usedMemorySize += another.usedMemorySize;
blocksCount += another.blocksCount;
return *this;
}
};
struct BlocksAndCSwitchesRange
{
BlocksMemoryAndCount blocksMemoryAndCount;
BlocksMemoryAndCount cswitchesMemoryAndCount;
BlocksRange blocks;
BlocksRange cswitches;
};
//////////////////////////////////////////////////////////////////////////
template <typename T>
static void write(std::ostream& _stream, const char* _data, T _size)
{
_stream.write(_data, _size);
}
template <class T>
static void write(std::ostream& _stream, const T& _data)
{
_stream.write((const char*)&_data, sizeof(T));
}
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;
}
//////////////////////////////////////////////////////////////////////////
static BlocksRange findRange(const profiler::BlocksTree::children_t& children, profiler::timestamp_t beginTime,
profiler::timestamp_t endTime, const profiler::block_getter_fn& getter)
{
const auto size = static_cast<profiler::block_index_t>(children.size());
BlocksRange range(size);
if (size == 0)
return range;
if (beginTime <= getter(children.front()).node->begin() && getter(children.back()).node->end() <= endTime)
return range; // All blocks inside range
auto first_it = std::lower_bound(children.begin(), children.end(), beginTime,
[&](profiler::block_index_t element, profiler::timestamp_t value)
{
return getter(element).node->end() < value;
});
for (; first_it != children.end(); ++first_it)
{
const auto& child = getter(*first_it);
if (child.node->begin() >= beginTime || child.node->end() > beginTime)
break;
}
if (first_it != children.end() && getter(*first_it).node->begin() <= endTime)
{
auto last_it = std::lower_bound(children.begin(), children.end(), endTime,
[&](profiler::block_index_t element, profiler::timestamp_t value)
{
return getter(element).node->begin() <= value;
});
if (last_it != children.end() && getter(*last_it).node->end() >= beginTime)
{
const auto begin = static_cast<profiler::block_index_t>(std::distance(children.begin(), first_it));
const auto end = static_cast<profiler::block_index_t>(std::distance(children.begin(), last_it));
if (begin <= end)
{
range.begin = begin;
range.end = end;
}
}
}
return range;
}
static BlocksRange findRange(const profiler::bookmarks_t& bookmarks, profiler::timestamp_t beginTime, profiler::timestamp_t endTime)
{
const auto size = static_cast<profiler::block_index_t>(bookmarks.size());
BlocksRange range(size);
if (size == 0)
return range;
if (beginTime <= bookmarks.front().pos && bookmarks.back().pos <= endTime)
return range; // All blocks inside range
auto first_it = std::lower_bound(bookmarks.begin(), bookmarks.end(), beginTime,
[](const profiler::Bookmark& element, profiler::timestamp_t value)
{
return element.pos < value;
});
for (; first_it != bookmarks.end(); ++first_it)
{
const auto& bookmark = *first_it;
if (bookmark.pos >= beginTime)
break;
}
if (first_it != bookmarks.end() && first_it->pos <= endTime)
{
auto last_it = std::lower_bound(bookmarks.begin(), bookmarks.end(), endTime,
[](const profiler::Bookmark& element, profiler::timestamp_t value)
{
return element.pos <= value;
});
if (last_it != bookmarks.end() && last_it->pos >= beginTime)
{
const auto begin = static_cast<profiler::block_index_t>(std::distance(bookmarks.begin(), first_it));
const auto end = static_cast<profiler::block_index_t>(std::distance(bookmarks.begin(), last_it));
if (begin <= end)
{
range.begin = begin;
range.end = end;
}
}
}
return range;
}
static BlocksMemoryAndCount calculateUsedMemoryAndBlocksCount(const profiler::BlocksTree::children_t& children,
const BlocksRange& range,
const profiler::block_getter_fn& getter,
const profiler::descriptors_list_t& descriptors,
bool contextSwitches)
{
BlocksMemoryAndCount memoryAndCount;
if (!contextSwitches)
{
for (auto i = range.begin; i < range.end; ++i)
{
const auto& child = getter(children[i]);
// Calculate self memory consumption
const auto& desc = *descriptors[child.node->id()];
uint64_t usedMemorySize = 0;
if (desc.type() == profiler::BlockType::Value)
usedMemorySize = sizeof(profiler::ArbitraryValue) + child.value->data_size();
else
usedMemorySize = sizeof(profiler::SerializedBlock) + strlen(child.node->name()) + 1;
// Calculate children memory consumption
const BlocksRange childRange(0, static_cast<profiler::block_index_t>(child.children.size()));
const auto childrenMemoryAndCount = calculateUsedMemoryAndBlocksCount(child.children, childRange,
getter, descriptors,
false);
// Accumulate memory and count
memoryAndCount += childrenMemoryAndCount;
memoryAndCount.usedMemorySize += usedMemorySize;
++memoryAndCount.blocksCount;
}
}
else
{
for (auto i = range.begin; i < range.end; ++i)
{
const auto& child = getter(children[i]);
const uint64_t usedMemorySize = BaseCSwitchSize + strlen(child.cs->name());
memoryAndCount.usedMemorySize += usedMemorySize;
++memoryAndCount.blocksCount;
}
}
return memoryAndCount;
}
//////////////////////////////////////////////////////////////////////////
static void serializeBlocks(std::ostream& output, std::vector<char>& buffer,
const profiler::BlocksTree::children_t& children, const BlocksRange& range,
const profiler::block_getter_fn& getter, const profiler::descriptors_list_t& descriptors)
{
for (auto i = range.begin; i < range.end; ++i)
{
const auto& child = getter(children[i]);
// Serialize children
const BlocksRange childRange(0, static_cast<profiler::block_index_t>(child.children.size()));
serializeBlocks(output, buffer, child.children, childRange, getter, descriptors);
// Serialize self
const auto& desc = *descriptors[child.node->id()];
uint16_t usedMemorySize = 0;
if (desc.type() == profiler::BlockType::Value)
{
usedMemorySize = static_cast<uint16_t>(sizeof(profiler::ArbitraryValue)) + child.value->data_size();
buffer.resize(usedMemorySize + sizeof(uint16_t));
unaligned_store16(buffer.data(), usedMemorySize);
memcpy(buffer.data() + sizeof(uint16_t), child.value, static_cast<size_t>(usedMemorySize));
}
else
{
usedMemorySize = static_cast<uint16_t>(sizeof(profiler::SerializedBlock)
+ strlen(child.node->name()) + 1);
buffer.resize(usedMemorySize + sizeof(uint16_t));
unaligned_store16(buffer.data(), usedMemorySize);
memcpy(buffer.data() + sizeof(uint16_t), child.node, static_cast<size_t>(usedMemorySize));
if (child.node->id() != desc.id())
{
// This block id is dynamic. Restore it's value like it was before in the input .prof file
auto block = reinterpret_cast<profiler::SerializedBlock*>(buffer.data() + sizeof(uint16_t));
block->setId(desc.id());
}
}
write(output, buffer.data(), buffer.size());
}
}
static void serializeContextSwitches(std::ostream& output, std::vector<char>& buffer,
const profiler::BlocksTree::children_t& children, const BlocksRange& range,
const profiler::block_getter_fn& getter)
{
for (auto i = range.begin; i < range.end; ++i)
{
const auto& child = getter(children[i]);
const auto usedMemorySize = static_cast<uint16_t>(BaseCSwitchSize + strlen(child.cs->name()));
buffer.resize(usedMemorySize + sizeof(uint16_t));
unaligned_store16(buffer.data(), usedMemorySize);
memcpy(buffer.data() + sizeof(uint16_t), child.cs, static_cast<size_t>(usedMemorySize));
write(output, buffer.data(), buffer.size());
}
}
static void serializeDescriptors(std::ostream& output, std::vector<char>& buffer,
const profiler::descriptors_list_t& descriptors,
profiler::block_id_t descriptors_count)
{
const size_t size = std::min(descriptors.size(), static_cast<size_t>(descriptors_count));
for (size_t i = 0; i < size; ++i)
{
const auto& desc = *descriptors[i];
if (desc.id() != i)
break;
const auto usedMemorySize = static_cast<uint16_t>(sizeof(profiler::SerializedBlockDescriptor)
+ strlen(desc.name()) + strlen(desc.file()) + 2);
buffer.resize(usedMemorySize + sizeof(uint16_t));
unaligned_store16(buffer.data(), usedMemorySize);
memcpy(buffer.data() + sizeof(uint16_t), &desc, static_cast<size_t>(usedMemorySize));
write(output, buffer.data(), buffer.size());
}
}
static void serializeBookmarks(std::ostream& output, const profiler::bookmarks_t& bookmarks, const BlocksRange& range)
{
for (auto i = range.begin; i < range.end; ++i)
{
const auto& bookmark = bookmarks[i];
const auto usedMemorySize = static_cast<uint16_t>(profiler::Bookmark::BaseSize + bookmark.text.size());
write(output, usedMemorySize);
write(output, bookmark.pos);
write(output, bookmark.color);
write(output, bookmark.text.c_str(), bookmark.text.size() + 1);
}
}
//////////////////////////////////////////////////////////////////////////
extern "C" PROFILER_API profiler::block_index_t writeTreesToFile(std::atomic<int>& progress, const char* filename,
const profiler::SerializedData& serialized_descriptors,
const profiler::descriptors_list_t& descriptors,
profiler::block_id_t descriptors_count,
const profiler::thread_blocks_tree_t& trees,
const profiler::bookmarks_t& bookmarks,
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, descriptors_count, trees,
bookmarks, std::move(block_getter), begin_time, end_time, pid, log);
return result;
}
//////////////////////////////////////////////////////////////////////////
extern "C" PROFILER_API profiler::block_index_t writeTreesToStream(std::atomic<int>& progress, std::ostream& str,
const profiler::SerializedData& serialized_descriptors,
const profiler::descriptors_list_t& descriptors,
profiler::block_id_t descriptors_count,
const profiler::thread_blocks_tree_t& trees,
const profiler::bookmarks_t& bookmarks,
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;
}
BlocksMemoryAndCount total;
using ranges_t = std::unordered_map<profiler::thread_id_t, BlocksAndCSwitchesRange, estd::hash<profiler::thread_id_t> >;
ranges_t block_ranges;
// Calculate block ranges and used memory (for serialization)
profiler::timestamp_t beginTime = begin_time, endTime = end_time;
size_t i = 0;
for (const auto& kv : trees)
{
const auto id = kv.first;
const auto& tree = kv.second;
BlocksAndCSwitchesRange range;
range.blocks = findRange(tree.children, begin_time, end_time, block_getter);
range.cswitches = findRange(tree.sync, begin_time, end_time, block_getter);
range.blocksMemoryAndCount = calculateUsedMemoryAndBlocksCount(tree.children, range.blocks, block_getter,
descriptors, false);
total += range.blocksMemoryAndCount;
if (range.blocksMemoryAndCount.blocksCount != 0)
{
beginTime = std::min(beginTime, block_getter(tree.children[range.blocks.begin]).node->begin());
endTime = std::max(endTime, block_getter(tree.children[range.blocks.end - 1]).node->end());
}
range.cswitchesMemoryAndCount = calculateUsedMemoryAndBlocksCount(tree.sync, range.cswitches, block_getter,
descriptors, true);
total += range.cswitchesMemoryAndCount;
if (range.cswitchesMemoryAndCount.blocksCount != 0)
{
beginTime = std::min(beginTime, block_getter(tree.children[range.cswitches.begin]).cs->begin());
endTime = std::max(endTime, block_getter(tree.children[range.cswitches.end - 1]).cs->end());
}
block_ranges[id] = range;
if (!update_progress_write(progress, 15 / static_cast<int>(trees.size() - i), log))
return 0;
++i;
}
BlocksRange bookmarksRange;
uint16_t bookmarksCount = 0;
if (!bookmarks.empty())
{
bookmarksRange = findRange(bookmarks, begin_time, end_time);
bookmarksCount = static_cast<uint16_t>(bookmarksRange.end - bookmarksRange.begin);
if (bookmarksCount != 0)
{
beginTime = std::min(beginTime, bookmarks[bookmarksRange.begin].pos);
endTime = std::max(endTime, bookmarks[bookmarksRange.end - 1].pos);
}
}
if (total.blocksCount == 0)
{
log << "Nothing to save";
return 0;
}
const uint64_t usedMemorySizeDescriptors = serialized_descriptors.size() + descriptors_count * sizeof(uint16_t);
// Write data to stream
write(str, EASY_PROFILER_SIGNATURE);
write(str, EASY_PROFILER_VERSION);
write(str, pid);
// write 0 because we do not need to convert time from ticks to nanoseconds (it's already converted)
write<int64_t>(str, 0LL); // CPU frequency
write(str, beginTime);
write(str, endTime);
write(str, total.usedMemorySize);
write(str, usedMemorySizeDescriptors);
write(str, total.blocksCount);
write(str, descriptors_count);
write(str, static_cast<uint32_t>(trees.size()));
write(str, bookmarksCount);
write(str, static_cast<uint16_t>(0)); // padding
std::vector<char> buffer;
// Serialize all descriptors
serializeDescriptors(str, buffer, descriptors, descriptors_count);
// Serialize all blocks
i = 0;
for (const auto& kv : trees)
{
const auto id = kv.first;
const auto& tree = kv.second;
const auto& range = block_ranges.at(id);
const auto nameSize = static_cast<uint16_t>(tree.thread_name.size() + 1);
write(str, id);
write(str, nameSize);
write(str, tree.name(), nameSize);
// Serialize context switches
write(str, range.cswitchesMemoryAndCount.blocksCount);
if (range.cswitchesMemoryAndCount.blocksCount != 0)
serializeContextSwitches(str, buffer, tree.sync, range.cswitches, block_getter);
// Serialize blocks
write(str, range.blocksMemoryAndCount.blocksCount);
if (range.blocksMemoryAndCount.blocksCount != 0)
serializeBlocks(str, buffer, tree.children, range.blocks, block_getter, descriptors);
if (!update_progress_write(progress, 40 + 57 / static_cast<int>(trees.size() - i), log))
return 0;
}
write(str, EASY_PROFILER_SIGNATURE);
// Serialize bookmarks
if (bookmarksCount != 0)
{
serializeBookmarks(str, bookmarks, bookmarksRange);
write(str, EASY_PROFILER_SIGNATURE);
}
return total.blocksCount;
}
//////////////////////////////////////////////////////////////////////////