91b20f6448
This avoids problems with watermarking cross-talking betwene view. Change-Id: Ifecf098423451bf7de3827dfdf9fdc078a06c5c9 Signed-off-by: Michael Meeks <michael.meeks@collabora.com>
384 lines
14 KiB
C++
384 lines
14 KiB
C++
/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */
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/*
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* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/.
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*/
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#pragma once
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#include <cassert>
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#include <memory>
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#include <queue>
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#include <thread>
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#include <unordered_map>
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#include <vector>
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#include <common/SpookyV2.h>
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#include "Png.hpp"
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#include "Delta.hpp"
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#include "Rectangle.hpp"
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#include "TileDesc.hpp"
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class ThreadPool {
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std::mutex _mutex;
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std::condition_variable _cond;
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std::condition_variable _complete;
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typedef std::function<void()> ThreadFn;
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std::queue<ThreadFn> _work;
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std::vector<std::thread> _threads;
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size_t _working;
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bool _shutdown;
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public:
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ThreadPool()
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: _working(0),
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_shutdown(false)
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{
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int maxConcurrency = 2;
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#if MOBILEAPP && !defined(GTKAPP)
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maxConcurrency = std::max<int>(std::thread::hardware_concurrency(), 2);
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#else
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const char *max = getenv("MAX_CONCURRENCY");
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if (max)
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maxConcurrency = atoi(max);
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#endif
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LOG_TRC("PNG compression thread pool size " << maxConcurrency);
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for (int i = 1; i < maxConcurrency; ++i)
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_threads.push_back(std::thread(&ThreadPool::work, this));
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}
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~ThreadPool()
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{
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{
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std::unique_lock< std::mutex > lock(_mutex);
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assert(_working == 0);
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_shutdown = true;
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}
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_cond.notify_all();
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for (auto &it : _threads)
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it.join();
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}
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size_t count() const
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{
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return _work.size();
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}
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void pushWork(const ThreadFn &fn)
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{
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std::unique_lock< std::mutex > lock(_mutex);
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assert(_working == 0);
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_work.push(fn);
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}
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void runOne(std::unique_lock< std::mutex >& lock)
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{
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assert(!_work.empty());
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ThreadFn fn = _work.front();
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_work.pop();
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_working++;
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lock.unlock();
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try {
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fn();
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} catch(...) {
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LOG_ERR("Exception in thread pool execution.");
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}
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lock.lock();
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_working--;
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if (_work.empty() && _working == 0)
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_complete.notify_all();
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}
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void run()
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{
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std::unique_lock< std::mutex > lock(_mutex);
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assert(_working == 0);
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// Avoid notifying threads if we don't need to.
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bool useThreads = _threads.size() > 1 && _work.size() > 1;
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if (useThreads)
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_cond.notify_all();
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while(!_work.empty())
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runOne(lock);
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if (useThreads && (_working > 0 || !_work.empty()))
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_complete.wait(lock, [this]() { return _working == 0 && _work.empty(); } );
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assert(_working==0);
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assert(_work.empty());
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}
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void work()
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{
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std::unique_lock< std::mutex > lock(_mutex);
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while (!_shutdown)
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{
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_cond.wait(lock);
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if (!_shutdown && !_work.empty())
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runOne(lock);
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}
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}
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void dumpState(std::ostream& oss)
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{
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oss << "\tthreadPool:"
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<< "\n\t\tshutdown: " << _shutdown
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<< "\n\t\tworking: " << _working
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<< "\n\t\twork count: " << count()
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<< "\n\t\tthread count " << _threads.size()
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<< "\n";
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}
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};
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namespace RenderTiles
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{
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struct Buffer {
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unsigned char *_data;
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Buffer()
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{
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_data = nullptr;
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}
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Buffer(size_t x, size_t y) :
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Buffer()
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{
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allocate(x, y);
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}
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void allocate(size_t x, size_t y)
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{
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assert(!_data);
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_data = static_cast<unsigned char *>(calloc(x * y, 4));
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}
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~Buffer()
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{
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if (_data)
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free (_data);
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}
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unsigned char *data() { return _data; }
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};
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static void pushRendered(std::vector<TileDesc> &renderedTiles,
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const TileDesc &desc, TileWireId wireId, size_t imgSize)
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{
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renderedTiles.push_back(desc);
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renderedTiles.back().setWireId(wireId);
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renderedTiles.back().setImgSize(imgSize);
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}
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bool doRender(std::shared_ptr<lok::Document> document,
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DeltaGenerator &deltaGen,
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TileCombined &tileCombined,
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ThreadPool &pngPool,
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bool combined,
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const std::function<void (unsigned char *data,
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int offsetX, int offsetY,
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size_t pixmapWidth, size_t pixmapHeight,
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int pixelWidth, int pixelHeight,
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LibreOfficeKitTileMode mode)>& blendWatermark,
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const std::function<void (const char *buffer, size_t length)>& outputMessage,
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unsigned mobileAppDocId,
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int canonicalViewId)
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{
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const auto& tiles = tileCombined.getTiles();
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// Otherwise our delta-building & threading goes badly wrong
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// external sources of tilecombine are checked at the perimeter
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assert(!tileCombined.hasDuplicates());
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// Calculate the area we cover
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Util::Rectangle renderArea;
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std::vector<Util::Rectangle> tileRecs;
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tileRecs.reserve(tiles.size());
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for (const auto& tile : tiles)
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{
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Util::Rectangle rectangle(tile.getTilePosX(), tile.getTilePosY(),
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tileCombined.getTileWidth(), tileCombined.getTileHeight());
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if (tileRecs.empty())
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{
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renderArea = rectangle;
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}
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else
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{
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renderArea.extend(rectangle);
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}
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tileRecs.push_back(rectangle);
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}
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assert(tiles.size() == tileRecs.size());
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const size_t tilesByX = renderArea.getWidth() / tileCombined.getTileWidth();
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const size_t tilesByY = renderArea.getHeight() / tileCombined.getTileHeight();
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const int pixelWidth = tileCombined.getWidth();
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const int pixelHeight = tileCombined.getHeight();
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assert (pixelWidth > 0 && pixelHeight > 0);
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const size_t pixmapWidth = tilesByX * pixelWidth;
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const size_t pixmapHeight = tilesByY * pixelHeight;
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if (pixmapWidth > 4096 || pixmapHeight > 4096)
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LOG_WRN("Unusual extremely large tile combine of size " << pixmapWidth << 'x' << pixmapHeight);
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RenderTiles::Buffer pixmap(pixmapWidth, pixmapHeight);
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// Render the whole area
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const double area = pixmapWidth * pixmapHeight;
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const auto start = std::chrono::steady_clock::now();
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LOG_TRC("Calling paintPartTile(" << (void*)pixmap.data() << ')');
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document->paintPartTile(pixmap.data(),
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tileCombined.getPart(),
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pixmapWidth, pixmapHeight,
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renderArea.getLeft(), renderArea.getTop(),
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renderArea.getWidth(), renderArea.getHeight());
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auto duration = std::chrono::steady_clock::now() - start;
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const auto elapsedMs = std::chrono::duration_cast<std::chrono::milliseconds>(duration);
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const double elapsedMics = elapsedMs.count() * 1000.; // Need MPixels/sec, use Pixels/mics.
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LOG_DBG("paintPartTile at ("
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<< renderArea.getLeft() << ", " << renderArea.getTop() << "), ("
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<< renderArea.getWidth() << ", " << renderArea.getHeight() << ") "
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<< " rendered in " << elapsedMs << " (" << area / elapsedMics << " MP/s).");
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(void) mobileAppDocId;
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const auto mode = static_cast<LibreOfficeKitTileMode>(document->getTileMode());
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const size_t pixmapSize = 4 * pixmapWidth * pixmapHeight;
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std::vector<char> output;
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output.reserve(pixmapSize);
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// Compress the area as tiles
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std::vector<TileDesc> renderedTiles;
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std::vector<TileWireId> renderingIds;
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size_t tileIndex = 0;
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std::mutex pngMutex;
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for (const Util::Rectangle& tileRect : tileRecs)
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{
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const size_t positionX = (tileRect.getLeft() - renderArea.getLeft()) / tileCombined.getTileWidth();
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const size_t positionY = (tileRect.getTop() - renderArea.getTop()) / tileCombined.getTileHeight();
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const int offsetX = positionX * pixelWidth;
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const int offsetY = positionY * pixelHeight;
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// FIXME: should this be in the delta / compression thread ?
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blendWatermark(pixmap.data(), offsetX, offsetY,
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pixmapWidth, pixmapHeight,
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pixelWidth, pixelHeight,
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mode);
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// FIXME: prettify this.
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bool forceKeyframe = tiles[tileIndex].getOldWireId() == 0;
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// FIXME: we should perhaps increment only on a plausible edit
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static TileWireId nextId = 0;
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TileWireId wireId = ++nextId;
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bool skipCompress = false;
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if (!skipCompress)
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{
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renderingIds.push_back(wireId);
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LOG_TRC("Queued encoding of tile #" << tileIndex << " at (" << positionX << ',' << positionY << ") with " <<
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(forceKeyframe?"force keyframe" : "allow delta") << ", wireId: " << wireId);
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// Queue to be executed later in parallel inside 'run'
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pngPool.pushWork([=,&output,&pixmap,&tiles,&renderedTiles,
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&pngMutex,&deltaGen]()
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{
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auto data = std::shared_ptr<std::vector< char >>(new std::vector< char >());
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data->reserve(pixmapWidth * pixmapHeight * 1);
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// FIXME: don't try to store & create deltas for read-only documents.
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if (tiles[tileIndex].getId() < 0) // not a preview
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{
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// Can we create a delta ?
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LOG_TRC("Compress new tile #" << tileIndex);
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deltaGen.compressOrDelta(pixmap.data(), offsetX, offsetY,
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pixelWidth, pixelHeight,
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pixmapWidth, pixmapHeight,
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TileLocation(
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tileRect.getLeft(),
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tileRect.getTop(),
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tileRect.getWidth(),
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tileCombined.getPart(),
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canonicalViewId
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),
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*data, wireId, forceKeyframe);
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}
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else
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{
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// FIXME: write our own trivial PNG encoding code using deflate.
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LOG_TRC("Encode a new png for tile #" << tileIndex);
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if (!Png::encodeSubBufferToPNG(pixmap.data(), offsetX, offsetY, pixelWidth, pixelHeight,
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pixmapWidth, pixmapHeight, *data, mode))
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{
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// FIXME: Return error.
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// sendTextFrameAndLogError("error: cmd=tile kind=failure");
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LOG_ERR("Failed to encode tile into PNG.");
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return;
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}
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}
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LOG_TRC("Tile " << tileIndex << " is " << data->size() << " bytes.");
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std::unique_lock<std::mutex> pngLock(pngMutex);
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output.insert(output.end(), data->begin(), data->end());
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pushRendered(renderedTiles, tiles[tileIndex], wireId, data->size());
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});
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}
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tileIndex++;
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}
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pngPool.run();
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duration = std::chrono::steady_clock::now() - start;
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const auto elapsed = std::chrono::duration_cast<std::chrono::milliseconds>(duration);
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LOG_DBG("rendering tiles at (" << renderArea.getLeft() << ", " << renderArea.getTop()
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<< "), (" << renderArea.getWidth() << ", "
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<< renderArea.getHeight() << ") "
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<< " took " << elapsed << " (including the paintPartTile).");
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if (tileIndex == 0)
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return false;
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std::string tileMsg;
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if (combined)
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{
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tileMsg = tileCombined.serialize("tilecombine:", "\n", renderedTiles);
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LOG_TRC("Sending back painted tiles for " << tileMsg << " of size " << output.size() << " bytes) for: " << tileMsg);
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std::unique_ptr<char[]> response;
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const size_t responseSize = tileMsg.size() + output.size();
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response.reset(new char[responseSize]);
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std::copy(tileMsg.begin(), tileMsg.end(), response.get());
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std::copy(output.begin(), output.end(), response.get() + tileMsg.size());
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outputMessage(response.get(), responseSize);
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}
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else
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{
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size_t outputOffset = 0;
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for (auto &i : renderedTiles)
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{
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tileMsg = i.serialize("tile:", "\n");
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const size_t responseSize = tileMsg.size() + i.getImgSize();
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std::unique_ptr<char[]> response;
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response.reset(new char[responseSize]);
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std::copy(tileMsg.begin(), tileMsg.end(), response.get());
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std::copy(output.begin() + outputOffset, output.begin() + outputOffset + i.getImgSize(), response.get() + tileMsg.size());
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outputMessage(response.get(), responseSize);
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outputOffset += i.getImgSize();
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}
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}
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// Should we do this more frequently? and/orshould we defer it?
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deltaGen.rebalanceDeltas();
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return true;
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}
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}
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/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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