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// *****************************************************************************
// * This file is part of the FreeFileSync project. It is distributed under *
// * GNU General Public License: https://www.gnu.org/licenses/gpl-3.0 *
// * Copyright (C) Zenju (zenju AT freefilesync DOT org) - All Rights Reserved *
// *****************************************************************************
#include "image_resources.h"
#include <memory>
#include <map>
#include <zen/utf.h>
#include <zen/globals.h>
#include <zen/perf.h>
#include <zen/thread.h>
#include <wx/wfstream.h>
#include <wx/zipstrm.h>
#include <wx/image.h>
#include <wx/mstream.h>
#include <xBRZ/src/xbrz.h>
#include <xBRZ/src/xbrz_tools.h>
#include "image_tools.h"
#include "image_holder.h"
#include "dc.h"
using namespace zen;
namespace
{
ImageHolder dpiScale(int width, int height, int dpiWidth, int dpiHeight, const unsigned char* imageRgb, const unsigned char* imageAlpha, int hqScale)
{
assert(imageRgb && imageAlpha); //see convertToVanillaImage()
if (width <= 0 || height <= 0 || dpiWidth <= 0 || dpiHeight <= 0)
return ImageHolder(0, 0, true /*withAlpha*/);
const int hqWidth = width * hqScale;
const int hqHeight = height * hqScale;
//get rid of allocation and buffer std::vector<> at thread-level? => no discernable perf improvement
std::vector<uint32_t> buf(hqWidth * hqHeight + std::max(width * height, dpiWidth * dpiHeight));
uint32_t* const argbSrc = &buf[0] + hqWidth * hqHeight;
uint32_t* const xbrTrg = &buf[0];
uint32_t* const dpiTrg = argbSrc;
//convert RGB (RGB byte order) to ARGB (BGRA byte order)
{
const unsigned char* rgb = imageRgb;
const unsigned char* rgbEnd = rgb + 3 * width * height;
const unsigned char* alpha = imageAlpha;
uint32_t* out = argbSrc;
for (; rgb < rgbEnd; rgb += 3)
*out++ = xbrz::makePixel(*alpha++, rgb[0], rgb[1], rgb[2]);
}
//-----------------------------------------------------
xbrz::scale(hqScale, //size_t factor, //valid range: 2 - SCALE_FACTOR_MAX
argbSrc, //const uint32_t* src,
xbrTrg, //uint32_t* trg,
width, height, //int srcWidth, int srcHeight,
xbrz::ColorFormat::ARGB_UNBUFFERED); //ColorFormat colFmt,
//test: total xBRZ scaling time with ARGB: 300ms, ARGB_UNBUFFERED: 50ms
//-----------------------------------------------------
xbrz::bilinearScale(xbrTrg, //const uint32_t* src,
hqWidth, hqHeight, //int srcWidth, int srcHeight,
dpiTrg, //uint32_t* trg,
dpiWidth, dpiHeight); //int trgWidth, int trgHeight
//-----------------------------------------------------
//convert BGRA to RGB + alpha
ImageHolder trgImg(dpiWidth, dpiHeight, true /*withAlpha*/);
{
unsigned char* rgb = trgImg.getRgb();
unsigned char* alpha = trgImg.getAlpha();
std::for_each(dpiTrg, dpiTrg + dpiWidth * dpiHeight, [&](uint32_t col)
{
*alpha++ = xbrz::getAlpha(col);
*rgb++ = xbrz::getRed (col);
*rgb++ = xbrz::getGreen(col);
*rgb++ = xbrz::getBlue (col);
});
}
return trgImg;
}
struct WorkItem
{
std::wstring name; //don't trust wxString to be thread-safe like an int
int width = 0;
int height = 0;
int dpiWidth = 0;
int dpiHeight = 0;
const unsigned char* rgb = nullptr;
const unsigned char* alpha = nullptr;
};
class WorkLoad
{
public:
void add(const WorkItem& wi) //context of main thread
{
assert(std::this_thread::get_id() == mainThreadId);
{
std::lock_guard<std::mutex> dummy(lockWork_);
workLoad_.push_back(wi);
}
conditionNewWork_.notify_all();
}
void noMoreWork()
{
assert(std::this_thread::get_id() == mainThreadId);
{
std::lock_guard<std::mutex> dummy(lockWork_);
expectMoreWork_ = false;
}
conditionNewWork_.notify_all();
}
//context of worker thread, blocking:
Opt<WorkItem> extractNext() //throw ThreadInterruption
{
assert(std::this_thread::get_id() != mainThreadId);
std::unique_lock<std::mutex> dummy(lockWork_);
interruptibleWait(conditionNewWork_, dummy, [this] { return !workLoad_.empty() || !expectMoreWork_; }); //throw ThreadInterruption
if (!workLoad_.empty())
{
WorkItem wi = std::move(workLoad_. back()); //
/**/ workLoad_.pop_back(); //yes, no strong exception guarantee (std::bad_alloc)
return std::move(wi); //
}
return NoValue();
}
private:
std::mutex lockWork_;
std::vector<WorkItem> workLoad_;
std::condition_variable conditionNewWork_; //signal event: data for processing available
bool expectMoreWork_ = true;
};
class DpiParallelScaler
{
public:
DpiParallelScaler(int hqScale)
{
assert(hqScale > 1);
const int threadCount = std::max<int>(std::thread::hardware_concurrency(), 1); //hardware_concurrency() == 0 if "not computable or well defined"
for (int i = 0; i < threadCount; ++i)
worker_.push_back([hqScale, &workload = workload_, &result = result_]
{
setCurrentThreadName("xBRZ Scaler");
while (Opt<WorkItem> wi = workload.extractNext()) //throw ThreadInterruption
{
ImageHolder ih = dpiScale(wi->width, wi->height,
wi->dpiWidth, wi->dpiHeight,
wi->rgb, wi->alpha, hqScale);
result.access([&](std::vector<std::pair<std::wstring, ImageHolder>>& r) { r.emplace_back(wi->name, std::move(ih)); });
}
});
}
~DpiParallelScaler()
{
for (InterruptibleThread& w : worker_)
w.interrupt();
for (InterruptibleThread& w : worker_)
if (w.joinable())
w.join();
}
void add(const wxString& name, const wxImage& img)
{
imgKeeper_.push_back(img); //retain (ref-counted) wxImage so that the rgb/alpha pointers remain valid after passed to threads
workload_.add({ copyStringTo<std::wstring>(name),
img.GetWidth(), img.GetHeight(),
fastFromDIP(img.GetWidth()), fastFromDIP(img.GetHeight()), //don't call fastFromDIP() from worker thread (wxWidgets function!)
img.GetData(), img.GetAlpha() });
}
std::map<wxString, wxBitmap> waitAndGetResult()
{
workload_.noMoreWork();
for (InterruptibleThread& w : worker_)
w.join();
std::map<wxString, wxBitmap> output;
result_.access([&](std::vector<std::pair<std::wstring, ImageHolder>>& r)
{
for (auto& item : r)
{
ImageHolder& ih = item.second;
wxImage img(ih.getWidth(), ih.getHeight(), ih.releaseRgb(), false /*static_data*/); //pass ownership
img.SetAlpha(ih.releaseAlpha(), false /*static_data*/);
output[item.first] = wxBitmap(img);
}
});
return output;
}
private:
std::vector<InterruptibleThread> worker_;
WorkLoad workload_;
Protected<std::vector<std::pair<std::wstring, ImageHolder>>> result_;
std::vector<wxImage> imgKeeper_;
};
void loadAnimFromZip(wxZipInputStream& zipInput, wxAnimation& anim)
{
//work around wxWidgets bug:
//construct seekable input stream (zip-input stream is not seekable) for wxAnimation::Load()
//luckily this method call is very fast: below measurement precision!
std::vector<char> data;
data.reserve(10000);
int newValue = 0;
while ((newValue = zipInput.GetC()) != wxEOF)
data.push_back(newValue);
wxMemoryInputStream seekAbleStream(&data.front(), data.size()); //stream does not take ownership of data
anim.Load(seekAbleStream, wxANIMATION_TYPE_GIF);
}
//================================================================================================
//================================================================================================
class GlobalBitmaps
{
public:
static std::shared_ptr<GlobalBitmaps> instance()
{
static Global<GlobalBitmaps> inst(std::make_unique<GlobalBitmaps>());
assert(std::this_thread::get_id() == mainThreadId); //wxWidgets is not thread-safe!
return inst.get();
}
GlobalBitmaps() {}
~GlobalBitmaps() { assert(bitmaps_.empty() && anims_.empty()); } //don't leave wxWidgets objects for static destruction!
void init(const Zstring& filepath);
void cleanup()
{
bitmaps_.clear();
anims_ .clear();
dpiScaler_.reset();
}
const wxBitmap& getImage (const wxString& name);
const wxAnimation& getAnimation(const wxString& name) const;
private:
GlobalBitmaps (const GlobalBitmaps&) = delete;
GlobalBitmaps& operator=(const GlobalBitmaps&) = delete;
std::map<wxString, wxBitmap> bitmaps_;
std::map<wxString, wxAnimation> anims_;
std::unique_ptr<DpiParallelScaler> dpiScaler_;
};
void GlobalBitmaps::init(const Zstring& filePath)
{
assert(bitmaps_.empty() && anims_.empty());
wxFFileInputStream input(utfTo<wxString>(filePath));
if (input.IsOk()) //if not... we don't want to react too harsh here
{
//activate support for .png files
wxImage::AddHandler(new wxPNGHandler); //ownership passed
wxZipInputStream streamIn(input, wxConvUTF8);
//do NOT rely on wxConvLocal! On failure shows unhelpful popup "Cannot convert from the charset 'Unknown encoding (-1)'!"
//do we need xBRZ scaling for high quality DPI images?
const int hqScale = numeric::clampCpy<int>(std::ceil(fastFromDIP(1000) / 1000.0), 1, xbrz::SCALE_FACTOR_MAX);
//even for 125% DPI scaling, "2xBRZ + bilinear downscale" gives a better result than mere "125% bilinear upscale"!
if (hqScale > 1)
dpiScaler_ = std::make_unique<DpiParallelScaler>(hqScale);
while (const auto& entry = std::unique_ptr<wxZipEntry>(streamIn.GetNextEntry())) //take ownership!)
{
const wxString name = entry->GetName();
if (endsWith(name, L".png"))
{
wxImage img(streamIn, wxBITMAP_TYPE_PNG);
//end this alpha/no-alpha/mask/wxDC::DrawBitmap/RTL/high-contrast-scheme interoperability nightmare here and now!!!!
//=> there's only one type of wxImage: with alpha channel, no mask!!!
convertToVanillaImage(img);
if (dpiScaler_)
dpiScaler_->add(name, img); //scale in parallel!
else
bitmaps_.emplace(name, img);
}
else if (endsWith(name, L".gif"))
loadAnimFromZip(streamIn, anims_[name]);
}
}
}
const wxBitmap& GlobalBitmaps::getImage(const wxString& name)
{
//test: this function is first called about 220ms after GlobalBitmaps::init() has ended
// => should be enough time to finish xBRZ scaling in parallel (which takes 50ms)
//debug perf: extra 800-1000ms during startup
if (dpiScaler_)
{
bitmaps_ = dpiScaler_->waitAndGetResult();
dpiScaler_.reset();
}
auto it = bitmaps_.find(contains(name, L'.') ? name : name + L".png"); //assume .png ending if nothing else specified
if (it != bitmaps_.end())
return it->second;
assert(false);
return wxNullBitmap;
}
const wxAnimation& GlobalBitmaps::getAnimation(const wxString& name) const
{
auto it = anims_.find(contains(name, L'.') ? name : name + L".gif");
if (it != anims_.end())
return it->second;
assert(false);
return wxNullAnimation;
}
}
void zen::initResourceImages(const Zstring& filepath)
{
if (std::shared_ptr<GlobalBitmaps> inst = GlobalBitmaps::instance())
inst->init(filepath);
else
assert(false);
}
void zen::cleanupResourceImages()
{
if (std::shared_ptr<GlobalBitmaps> inst = GlobalBitmaps::instance())
inst->cleanup();
else
assert(false);
}
const wxBitmap& zen::getResourceImage(const wxString& name)
{
if (std::shared_ptr<GlobalBitmaps> inst = GlobalBitmaps::instance())
return inst->getImage(name);
assert(false);
return wxNullBitmap;
}
const wxAnimation& zen::getResourceAnimation(const wxString& name)
{
if (std::shared_ptr<GlobalBitmaps> inst = GlobalBitmaps::instance())
return inst->getAnimation(name);
assert(false);
return wxNullAnimation;
}
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